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WO2021182003A1 - Hose connector - Google Patents

Hose connector Download PDF

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Publication number
WO2021182003A1
WO2021182003A1 PCT/JP2021/005112 JP2021005112W WO2021182003A1 WO 2021182003 A1 WO2021182003 A1 WO 2021182003A1 JP 2021005112 W JP2021005112 W JP 2021005112W WO 2021182003 A1 WO2021182003 A1 WO 2021182003A1
Authority
WO
WIPO (PCT)
Prior art keywords
engaging portion
pressing
water discharge
discharge pipe
main body
Prior art date
Application number
PCT/JP2021/005112
Other languages
French (fr)
Japanese (ja)
Inventor
孝行 砂場
典臣 竹山
Original Assignee
株式会社タカギ
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 株式会社タカギ filed Critical 株式会社タカギ
Publication of WO2021182003A1 publication Critical patent/WO2021182003A1/en

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Classifications

    • EFIXED CONSTRUCTIONS
    • E03WATER SUPPLY; SEWERAGE
    • E03CDOMESTIC PLUMBING INSTALLATIONS FOR FRESH WATER OR WASTE WATER; SINKS
    • E03C1/00Domestic plumbing installations for fresh water or waste water; Sinks
    • E03C1/02Plumbing installations for fresh water
    • E03C1/08Jet regulators or jet guides, e.g. anti-splash devices
    • E03C1/086Jet regulators or jet guides, easily mountable on the outlet of taps
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16LPIPES; JOINTS OR FITTINGS FOR PIPES; SUPPORTS FOR PIPES, CABLES OR PROTECTIVE TUBING; MEANS FOR THERMAL INSULATION IN GENERAL
    • F16L19/00Joints in which sealing surfaces are pressed together by means of a member, e.g. a swivel nut, screwed on or into one of the joint parts
    • F16L19/02Pipe ends provided with collars or flanges, integral with the pipe or not, pressed together by a screwed member
    • F16L19/025Pipe ends provided with collars or flanges, integral with the pipe or not, pressed together by a screwed member the pipe ends having integral collars or flanges
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16LPIPES; JOINTS OR FITTINGS FOR PIPES; SUPPORTS FOR PIPES, CABLES OR PROTECTIVE TUBING; MEANS FOR THERMAL INSULATION IN GENERAL
    • F16L37/00Couplings of the quick-acting type
    • F16L37/02Couplings of the quick-acting type in which the connection is maintained only by friction of the parts being joined
    • F16L37/04Couplings of the quick-acting type in which the connection is maintained only by friction of the parts being joined with an elastic outer part pressing against an inner part by reason of its elasticity

Definitions

  • This disclosure relates to hose connectors.
  • a hose connector for connecting a hose to a faucet As a hose connector for connecting a hose to a faucet, a type is known in which a plurality of screws distributed in the circumferential direction are tightened and fixed to the faucet. In this type, it takes time and effort to tighten a plurality of screws evenly.
  • Utility Model Application Publication No. 49-7477 discloses a hose joint that can be attached to a faucet for a washbasin by tightening a bolt.
  • Japanese Unexamined Patent Publication No. 2017-219194 discloses a hose connector that includes an upper member and a lower member, and can sandwich a bent discharge pipe by these members.
  • the present inventor has found room for further improvement in the resistance to disengagement due to water pressure and operability.
  • the present disclosure provides a hose connector having excellent water pressure resistance and operability.
  • the hose connector is integrated as a whole, with a main body member into which the water spout pipe of the faucet is inserted, a hose connection portion to which the hose is connected, and the water spout pipe inserted into the main body member.
  • a rotation operating portion that can be rotated in a direction, a first engaging portion that is fixed or engaged with the main body member, and the rotating operating portion and the pressing member that engage with the first engaging portion.
  • the second engaging portion is located between the first engaging portion and the pressing member.
  • the pressing member has a pressing contact surface that abuts on the water discharge pipe. The pressing contact surface is formed so that the distance from the water discharge pipe fluctuates due to the rotation of the pressing member. The reaction force of the pressing force is transmitted to the second engaging portion to press the second engaging portion against the first engaging portion.
  • a hose connector with excellent water pressure resistance and operability can be provided.
  • FIG. 1 is a perspective view showing a fixed state in which the hose connector according to the first embodiment is attached to the faucet.
  • FIG. 2 is a cross-sectional view of FIG. 1 and is a cross-sectional view in a fixed state.
  • FIG. 3 is a cross-sectional view corresponding to FIG. 2, which is a cross-sectional view in a released state.
  • FIG. 4 is an exploded perspective view of the hose connector of the first embodiment.
  • 5 (a) is a perspective view of the main body member viewed from above
  • FIG. 5 (b) is a front view of the main body member
  • FIG. 5 (c) is a perspective view of the main body member viewed from below.
  • FIG. 5D is a bottom view of the main body member.
  • FIG. 6A is a perspective view of the pressing member viewed from above
  • FIG. 6B is a plan view of the pressing member
  • FIG. 6C is a front view of the pressing member viewed from the chipped portion side.
  • FIG. 6 (d) is a perspective view of the pressing member as viewed from below
  • FIG. 6 (e) is a bottom view of the pressing member.
  • 7 (a) is a perspective view of the rotation operation unit as viewed from above
  • FIG. 7 (b) is a plan view of the rotation operation unit
  • FIG. 7 (c) is a side view of the rotation operation unit.
  • 7 (d) is a perspective view of the rotation operation unit as viewed from below
  • FIG. 7 (e) is a bottom view of the rotation operation unit.
  • FIG. 8 (a) is a perspective view of the locking member as viewed from above
  • FIG. 8 (b) is a plan view of the locking member
  • FIG. 8 (c) is a side view of the locking member
  • 8 (d) is a perspective view of the locking member as viewed from below.
  • FIG. 9 is a perspective view showing a hose connector in a fixed state and a released state.
  • FIG. 10 is a side view showing the hose connector in the fixed state and the released state.
  • FIG. 11 is a cross-sectional view showing a hose connector in a fixed state and a released state.
  • 12A and 12B are perspective views of the pressing member of the modified example viewed from above
  • FIG. 12B is a plan view of the pressing member
  • FIG. 12C is a side view of the pressing member.
  • 12 (d) is a perspective view of the pressing member as viewed from below
  • FIG. 12 (e) is a bottom view of the pressing member.
  • the "radial direction” means the direction perpendicular to the rotation axis of the pressing member
  • the “circumferential direction” means the circumferential direction of the cylinder centered on the rotation axis of the pressing member.
  • the "phase” means the phase in the circumferential direction
  • the "axial direction” means the direction of the rotation axis of the pressing member.
  • the rotation axis of the pressing member coincides with the rotation axis of the rotation operation unit, and also coincides with the rotation axis of the locking member.
  • FIG. 1 is a perspective view of the faucet f1 to which the hose connector 10 according to the first embodiment is attached.
  • FIG. 2 is a cross-sectional view of FIG. 1 and 2 show a fixed state in which the hose connector 10 is fixed to the faucet f1.
  • FIG. 3 is a cross-sectional view showing a released state in which the fixing to the faucet f1 is released. In the cross-sectional views of FIGS. 2 and 3, only the outline of the faucet f1 is shown.
  • the faucet f1 has a faucet main body f2, a water discharge pipe f3, and a handle f4.
  • the water discharge pipe f3 is connected to the faucet main body f2.
  • the water that has passed through the faucet body f2 is discharged through the water discharge pipe f3.
  • the faucet f1 has a built-in valve (not shown). By operating (rotating) the handle f4, this valve is opened and closed. By operating the handle f4, the water discharge stop water is switched and the water discharge amount is adjusted.
  • the water discharge pipe f3 is fixed to the faucet main body f2.
  • this faucet f1 is referred to as a horizontal faucet. This title is defined in JIS B 2061.
  • the boundary between the faucet main body f2 and the water discharge pipe f3 is not always clear, but the portion downstream of the valve may be regarded as the water discharge pipe f3. Further, a portion having a constant thickness (outer diameter) leading to the water discharge port f6 may be regarded as the water discharge pipe f3.
  • Examples of the faucet f1 to which the hose connector 10 can be used include a horizontal faucet, a horizontal faucet (rotating spout type), and a horizontal faucet (universal type). These titles are also defined in JIS B 2061.
  • the horizontal faucet (rotating spout) is also called a universal home faucet.
  • the horizontal faucet (universal type) is also called a universal faucet.
  • At least a part of the water discharge pipe f3 is bent and extended. That is, the water discharge pipe f3 has a bent portion f5. Further, the water discharge pipe f3 has a water discharge port f6. Water is discharged from the spout f6.
  • the water discharge pipe f3 extends from the faucet main body f2 and ends at the water discharge port f6.
  • the bent portion f5 is bent so that the spout f6 faces downward.
  • the water discharge direction is the direction in which water is discharged.
  • the water discharge direction is defined as follows. As shown in FIG. 2, when the water discharge pipe f3 has a straight portion extending straight to reach the spout port f6, the direction of the center line of the straight portion is defined as the water discharge direction Dx. When the water discharge pipe f3 is bent to the water discharge port f6, the direction of a straight line perpendicular to the plane including the end face of the water discharge port f6 is defined as the water discharge direction Dx.
  • the outer surface of the bent portion f5 has a convex curved surface f51 and a concave curved surface f52 (see FIG. 2).
  • the convex curved surface f51 is formed on the outside (outer peripheral side) of the bend.
  • the concave curved surface f52 is formed on the inside (inner peripheral side) of the bend.
  • FIG. 4 is an exploded perspective view of the hose connector 10.
  • the hose connector 10 has a main body member 100 and a pressing member 200.
  • the pressing member 200 is rotatably attached to the main body member 100.
  • the hose connector 10 is fixed to the faucet f1 by pressing the pressing member 200 against the water discharge pipe f3 (bent portion f5). In the fixed state, the pressing member 200 applies a pressing force to the bent portion f5 of the water discharge pipe f3.
  • the hose connector 10 has a rotation operation unit 300, a locking member 400, and an urging member 500.
  • the rotation operation unit 300 constitutes an operation lever.
  • the pressing member 200 rotates together with the rotation operation unit 300.
  • the locking member 400 rotates together with the rotation operation unit 300.
  • the locking member 400 rotates together with the pressing member 200.
  • the locking member 400 suppresses the pressing member 200 in the fixed state from loosening.
  • the urging member 500 is located between the pressing member 200 and the locking member 400. The urging member 500 constantly urges the locking member 400 upward.
  • the rotation operation unit 300 is arranged on the outside (upper side) of the main body member 100.
  • the pressing member 200 is arranged inside the main body member 100.
  • the locking member 400 is arranged inside the main body member 100.
  • the urging member 500 is arranged inside the main body member 100.
  • the pressing member 200 is arranged below the locking member 400.
  • the locking member 400 is arranged below the rotation operation unit 300.
  • An upper wall portion of the main body member 100 is interposed between the rotation operation portion 300 and the locking member 400.
  • the hose connector 10 has a packing 510 and a lower member 520.
  • the packing 510 is annular.
  • the packing 510 has an annular base portion 512 and a tubular portion 514 extending from the base portion 512 in the radial direction of the base portion 512.
  • the water discharge pipe f3 is inserted inside the tubular portion 514.
  • the tubular portion 514 is in close contact with the outer surface of the water discharge pipe f3.
  • the packing 510 is fixed to the main body member 100 by sandwiching the base portion 512 between the main body member 100 and the lower member 520.
  • the packing 510 enables a watertight connection of the hose connector 10.
  • the lower member 520 constitutes a flow path penetrating the inside thereof.
  • the lower member 520 has a hose connection portion 522 and a screw portion 524.
  • the threaded portion 524 is a male thread.
  • the screw portion 524 is screw-coupled to the female screw portion formed in the lower portion of the main body member 100.
  • the hose connection portion 522 constitutes the lower end portion of the hose connection tool 10.
  • a hose (not shown) is connected to the hose connection portion 522.
  • An annular seal member 526 (O-ring) is attached to the hose connection portion 522.
  • An annular seal member 528 (O-ring) is also mounted on the upper side of the screw portion 524.
  • the hose connector 10 has a water discharge pipe insertion portion 530.
  • the water discharge pipe insertion portion 530 constitutes a cavity into which the water discharge pipe f3 is inserted while forming an internal flow path of the hose connector 10.
  • the main body member 100 and the lower member 520 are screwed together while sandwiching the packing 510 (base 512).
  • the combined main body member 100 and lower member 520 constitute a water pipe insertion portion 530 having a cavity inside.
  • the water discharge pipe insertion portion 530 has an upper opening, and the water discharge pipe f3 is inserted into the water discharge pipe insertion portion 530 from the upper opening. By this insertion, the packing 510 is brought into close contact with the outer surface of the water discharge pipe f3.
  • FIG. 5 (a) is a perspective view of the main body member 100 as viewed from above
  • FIG. 5 (b) is a front view of the main body member 100 as viewed from the side where the faucet f1 is inserted.
  • FIG. 5D is a bottom view of the main body member 100.
  • a partially enlarged view is added to FIG. 5 (c).
  • the main body member 100 has an upper portion 102 and a lower portion 104.
  • the upper portion 102 is located above the lower portion 104.
  • the upper portion 102 has an upper wall 106 and a receiving opening 108. Further, the upper portion 102 has a back opening 110 and a side wall 112.
  • the upper wall 106 has an upper surface 120 and a lower surface 122.
  • the upper surface 120 is the outer surface of the upper wall 106.
  • the lower surface 122 is the inner surface of the upper wall 106.
  • the upper wall 106 has a through hole 124.
  • the through hole 124 extends from the upper surface 120 to the lower surface 122.
  • the through hole 124 communicates the internal space of the upper portion 102 with the outside of the main body member 100.
  • the receiving opening 108 receives the water discharge pipe f3. In the fixed state, the water discharge pipe f3 passes through the receiving opening 108, enters the main body member 100, and reaches the water discharge pipe insertion portion 530.
  • the receiving opening 108 is provided on the lower side of the upper wall 106.
  • the upper edge of the receiving opening 108 is composed of an upper wall 106.
  • the receiving opening 108 is formed between the upper wall 106 and the lower wall 104.
  • the back opening 110 is located on the opposite side of the receiving opening 108. In the fixed state, the water discharge pipe f3 inside the main body member 100 is visually recognized through the back opening 110.
  • the side wall 112 is formed between the upper surface 120 and the lower surface 104.
  • the side wall 112 is divided by a receiving opening 108. Further, the side wall 112 is divided by the back opening 110.
  • the side wall 112 constitutes a pair of left and right wall portions.
  • the lower portion 104 has a tubular wall portion 130, a lower contact portion 132, and an upper opening 134.
  • the tubular wall portion 130 has an internal thread portion 136 on its inner surface.
  • the female threaded portion 136 is screw-coupled to the threaded portion 524 of the lower member 520 (see FIGS. 2 and 3).
  • the lower contact portion 132 projects radially outward of the tubular wall portion 130 from the outer surface of the tubular wall portion 130. In the fixed state, the lower contact portion 132 can come into contact with the faucet f1 (faucet body f2) from the lower side (see FIGS. 2 and 3).
  • the upper opening 134 constitutes the inlet of the water discharge pipe insertion portion 530.
  • the main body member 100 has a first engaging portion E1.
  • the first engaging portion E1 is provided on the lower surface 122 of the upper wall 106.
  • the first engaging portion E1 is a convex portion 140.
  • a plurality of (three) convex portions 140 are provided as the first engaging portion E1.
  • the convex portion 140 projects downward.
  • the convex portion 140 projects toward the pressing member 200 side.
  • the main body member 100 has a rotation restricting portion 142.
  • the rotation regulation unit 142 regulates the rotation range of the rotation operation unit 300.
  • the rotation restricting unit 142 defines the rotatable angle of the rotation operating unit 300.
  • the rotation restricting portion 142 is provided on the upper surface 120.
  • the rotation restricting portion 142 has a first portion 144 and a second portion 146.
  • the first portion 144 is a protrusion.
  • the second part 146 is a protrusion.
  • the main body member 100 is integrated as a whole.
  • the main body member 100 is an integral member.
  • the main body member 100 is integrally molded as a whole.
  • the main body member 100 may be composed of a plurality of integrated members.
  • FIG. 6 (a) is a perspective view of the pressing member 200 as viewed from above
  • FIG. 6 (b) is a plan view of the pressing member 200
  • FIG. 6 (c) is a side view of the pressing member 200
  • 6 (d) is a perspective view of the pressing member 200 as viewed from below
  • FIG. 6 (e) is a bottom view of the pressing member 200.
  • the pressing member 200 has a rotary connecting portion 202 and a side wall portion 204.
  • the side wall portion 204 is formed around the rotary connecting portion 202.
  • the side wall portion 204 has a circumferential outer surface 208 and a circumferential inner surface 210.
  • the pressing member 200 has a chipped portion 212 in which a part in the circumferential direction is missing.
  • the chipped portion 212 is oriented toward the receiving opening 108 to facilitate the insertion of the water discharge pipe f3 into the hose connector 10.
  • the side wall portion 204 has a radial distance changing portion 214 in which the distance from the rotation axis Z2 gradually changes depending on the circumferential position.
  • the radial distance changing portion 214 is formed in the lower portion of the side wall portion 204.
  • the pressing member 200 has a pressing contact surface M1.
  • the pressing contact surface M1 is the lower end surface 216 of the pressing member 200.
  • the pressing contact surface M1 is a lower end surface 216 of the radial distance changing portion 214.
  • the pressing contact surface M1 is inclined with respect to the rotation axis Z2. As is well shown in FIG. 6 (c), the pressing contact surface M1 extends along a spiral. This spiral is formed around the rotation axis Z2 of the pressing member 200.
  • the axial position of the pressing contact surface M1 (lower end surface 216) changes depending on the circumferential position thereof. In other words, the axial position of the pressing contact surface M1 changes depending on its phase.
  • the pressing contact surface M1 (lower end surface 216) is changed so that the radial position becomes smaller as the axial position moves upward.
  • the rotary connecting portion 202 has a connecting hole 220, a concave portion 222, and a convex portion 224.
  • the connecting hole 220 is a connecting hole having a non-circular cross-sectional shape.
  • the cross-sectional shape of the recess 222 is non-circular.
  • the concave portion 222 has an outer surface of a hole forming wall portion 226 forming a connecting hole 220 inside thereof as a first side surface and a circumferential inner surface 210 as a second side surface.
  • the outer surface of the hole-forming wall portion 226 has the shape of the outer surface of a prism.
  • the convex portions 224 are provided at two locations in the circumferential direction. The convex portion 224 extends between the hole forming wall portion 226 and the circumferential inner surface 210.
  • the pressing member 200 has a holding locking portion 230.
  • the holding locking portion 230 is formed at the lower end of the connecting hole 220.
  • the pressing contact surface M1 contacts the water discharge pipe f3.
  • the pressing contact surface M1 applies a pressing force including a water discharge direction component to the water discharge pipe f3.
  • the pressing contact surface M1 comes into contact with the bent portion f5.
  • the pressing contact surface M1 applies a pressing force including a water discharge direction component to the bent portion f5.
  • the pressing contact surface M1 contacts the convex curved surface f51 of the bent portion f5.
  • the pressing contact surface M1 applies a pressing force including a water discharge direction component to the convex curved surface f51.
  • the angle formed by the straight line along the water discharge direction Dx and the straight line along the rotation axis Z2 is usually 30 ° or less.
  • the angle formed by these two straight lines is the angle formed by the direction vector of the two straight lines.
  • FIG. 7A is a perspective view of the rotation operation unit 300 as viewed from above
  • FIG. 7B is a plan view of the rotation operation unit 300
  • FIG. 7C is a rotation operation unit 300 of the rotation operation unit 300.
  • 7 (d) is a side view
  • FIG. 7 (d) is a perspective view of the rotation operation unit 300 as viewed from below
  • FIG. 7 (e) is a bottom view of the rotation operation unit 300.
  • the rotation operation unit 300 has a base portion 302, a lever portion 304, and a rotation connection portion 306.
  • the base 302 has a disk shape.
  • the lever portion 304 extends radially outward from the base portion 302.
  • the rotation operation unit 300 is rotated by operating the lever unit 304 with a finger.
  • the rotary connecting portion 306 is connected to the pressing member 200 and the locking member 400 so as not to rotate relative to each other.
  • the rotary connecting portion 306 has a convex portion 308 and a connecting shaft 310.
  • the convex portion 308 is formed on the lower surface 312 of the base portion 302. As is well shown in FIG. 7 (e), the convex portions are formed at four points in the circumferential direction.
  • the convex portion 308 is coupled to the locking member 400.
  • the connecting shaft 310 extends downward from the lower surface 312 of the base 302.
  • the connecting shaft 310 has a non-circular cross-sectional shape.
  • the cross-sectional shape of the connecting shaft 310 does not have rotational symmetry.
  • the phase relationship between the rotation operation unit 300 and the pressing member 200 is specified by forming the cross-sectional shape without rotational symmetry.
  • the connecting shaft 310 is fitted in the connecting hole 206 of the pressing member 200.
  • the rotation operation unit 300 (base 302) is arranged outside the main body member 100.
  • the rotation operation unit 300 (base 302) is arranged on the upper wall 106 of the main body member 100.
  • the rotary connecting portion 306 is configured to pass through the through hole 124 of the upper wall 106, and is coupled to the pressing member 200 and the locking member 400 located inside the main body member 100 (lower side of the upper wall 106). There is.
  • the rotation operation unit 300 has a holding unit 314.
  • the holding portion 314 is formed at the tip end portion of the connecting shaft 310.
  • the holding portion 314 constitutes a constricted portion.
  • the rotation operation unit 300 has a rotation axis Z3.
  • the rotation axis Z3 coincides with the rotation axis Z2 of the pressing member 200.
  • the pressing member 200 rotates together with the rotation operation unit 300.
  • the pressing member 200 rotates integrally with the rotation operation unit 300.
  • FIG. 8 (a) is a perspective view of the locking member 400 as viewed from above
  • FIG. 8 (b) is a plan view of the locking member 400
  • FIG. 8 (c) is a side view of the locking member 400
  • FIG. 8D is a perspective view of the locking member 400 as viewed from below.
  • the locking member 400 has an annular portion 402 and a rotary connecting portion 404.
  • the annular portion 402 has an annular shape.
  • the locking member 400 has a second engaging portion E2.
  • the second engaging portion E2 is formed on the upper surface of the annular portion 402.
  • the second engaging portion E2 is composed of a plurality of convex portions (teeth) protruding upward.
  • the second engaging portion E2 is a plurality of convex portions arranged in an annular shape. Each of the protrusions extends in the radial direction. These plurality of convex portions are lined up in the circumferential direction without any gap.
  • the rotary connecting portion 404 has a through hole 408, a recess 410, a downward extending portion 412, and a recess 414.
  • the through hole 408 is provided inside the annular portion 402 in the radial direction.
  • the recess 410 is formed on the upper surface of the locking member 400.
  • An annular protrusion 416 is formed between the annular portion 402 and the through hole 408, and a recess 410 is formed in the annular protrusion 416.
  • the recesses 410 are provided at a plurality of locations (4 locations) in the circumferential direction.
  • the downward extending portion 412 extends downward from the annular portion 402.
  • the outer surface of the downward extending portion 412 is a circumferential surface.
  • the inner surface of the downward extending portion 412 has the shape of the surface of a prism.
  • the recess 414 is a recess.
  • the recess 414 is formed on the lower surface of the annular portion 402.
  • the recesses 414 are formed at a plurality of locations (two locations).
  • the annular protrusion 416 is inserted into the through hole 124 of the main body member 100.
  • the urging member 500 is arranged between the locking member 400 and the pressing member 200.
  • the connecting shaft 310 of the rotation operation unit 300 is inserted with the urging member 500.
  • the urging member 500 always urges the locking member 400 upward.
  • the urging member 500 urges the locking member 400 toward the first engaging portion E1 side.
  • the locking member 400 has a first position where the second engaging portion E2 and the first engaging portion E1 are engaged, and the engagement between the second engaging portion E2 and the first engaging portion. Is configured to be able to move to the second position where is released.
  • the urging member 500 urges the locking member 400 toward the first position.
  • the direction in which the locking member 400 is pressed against the first engaging portion E1 by the urging member 500 is the same as the rotation axis Z2.
  • the relationship between the main body member 100, the pressing member 200, the rotation operation unit 300, and the locking member 400 is as follows.
  • the base 302 of the rotation operation unit 300 is placed on the upper wall 106 of the main body member 100. In the main body member 100, the base portion 302 and the lever portion 304 are exposed to the outside.
  • the connecting shaft 310 and the convex portion 308 are inserted through the through hole 124, and the rotation operating portion 300 rotates about the connecting shaft 310.
  • the connecting shaft 310 passes through the through hole 408 of the locking member 400, further passes through the urging member 500, and is fitted into the connecting hole 220 of the pressing member 200.
  • the connecting shaft 310 as the rotating connecting portion 306, transmits the rotation of the rotating operating portion 300 to the locking member 400 and the pressing member 200.
  • the rotation operation unit 300 rotates together with the locking member 400 and the pressing member 200.
  • the holding locking portion 230 of the pressing member 200 is engaged with the holding portion 314 of the rotation operating portion 300 (see FIG. 3).
  • the holding locking portion 230 is composed of claws provided at a plurality of locations (three locations) in the circumferential direction (see FIG. 6D), and these claws enter the holding portion 314 (constricted portion).
  • the convex portion 308 (see FIG. 7 (b)) of the rotation operation portion 300 is engaged with the concave portion 410 (FIG. 8 (a)) of the locking member 400.
  • the annular protrusion 416 of the locking member 400 is inserted into the through hole 124 of the main body member 100. Inside the through hole 124, the convex portion 308 and the concave portion 410 are engaged with each other. This engagement contributes to the integral rotation of the locking member 400 and the rotation operation unit 300.
  • the outer peripheral surface of the annular protrusion 416 is in contact with the inner peripheral surface of the through hole 124, and the rotation center lines of the pressing member 200, the rotation operating portion 300, and the locking member 400 are defined.
  • the concave portion 414 of the locking member 400 (see FIG. 8A) is engaged with the convex portion 224 (FIG. 6A) of the pressing member 200. This engagement contributes to the integral rotation of the locking member 400 and the pressing member 200.
  • the downward extending portion 412 of the locking member 400 (see FIG. 8D) is engaged with the recess 222 of the pressing member 200. This engagement contributes to the integral rotation of the locking member 400 and the pressing member 200.
  • FIG. 2 shows a gap S1 between the bottom surface of the recess 222 and the lower end surface of the downward extending portion 412. This gap S1 secures this play.
  • This play can be set by adjusting the axial distance between the pressing member 200 held by the rotation operation unit 300 and the upper wall 106. Due to this play, the locking member 400 can move (slightly) axially with respect to the pressing member 200. The locking member 400 can move (slightly) axially with respect to the upper wall 106 (lower surface 122).
  • the first position where the second engaging portion E2 engages with the first engaging portion E1 and the engagement between the second engaging portion E2 and the first engaging portion E1 are released. It can be moved to two positions. This position change does not impair the integral rotation of the pressing member 200, the rotating operation unit 300, and the locking member 400.
  • the pressing member 200, the rotation operation unit 300, and the locking member 400 rotate integrally regardless of the axial position of the locking member 400.
  • the main body member 100 is provided with the first engaging portion E1 (see FIG. 5C).
  • the locking member 400 is provided with a second engaging portion E2 (FIG. 8A).
  • the first engaging portion E1 projects toward the second engaging portion E2 side (lower side).
  • the first engaging portion E1 and the second engaging portion E2 can be engaged with each other.
  • the locking member 400 cannot rotate with respect to the main body member 100.
  • the engagement between the first engaging portion E1 and the second engaging portion E2 hinders the rotation of the locking member 400. That is, this engagement hinders the rotation of the pressing member 200, the rotation operating portion 300, and the locking member 400.
  • the second engaging portion E2 is constantly pressed against the first engaging portion E1 by the urging member 500.
  • the second engaging portion E2 is always engaged with the first engaging portion E1 by the urging member 500.
  • FIG. 9 is a perspective view of the hose connector 10 in the fixed state and the released state.
  • FIG. 10 is a front view of the hose connector 10 in the fixed state and the released state as viewed from the faucet side.
  • FIG. 11 is a cross-sectional view of the hose connector 10 in the fixed state and the released state.
  • the fixed state of FIG. 11 is a cross-sectional view taken along the line AA of FIG. 10
  • the released state of FIG. 11 is a cross-sectional view taken along the line BB of FIG.
  • the rotation operation unit 300 is rotated in the direction R1.
  • This direction R1 is called the loosening direction.
  • the rotation operation unit 300 is rotated in the direction R2.
  • This direction R2 is called the tightening direction.
  • the hose connector 10 is fixed to the faucet f1 by pressing the water discharge pipe f3 with the pressing member 200 in a state where the water discharge pipe f3 is inserted into the water discharge pipe insertion portion 530 (see FIG. 2).
  • the axial position of the pressing contact surface M1 of the pressing member 200 changes depending on the circumferential position of the pressing contact surface M1. Therefore, the distance between the water discharge pipe f3 and the pressing contact surface M1 fluctuates due to the rotation of the pressing member 200.
  • the water discharge pipe f3 extends downward from the faucet main body f2 side toward the water discharge port f6.
  • the water discharge pipe f3 is located relatively on the upper side.
  • the axial position of the pressing contact surface M1 is lowered at the circumferential position on the receiving opening 108 side (see FIGS. 9 to 11).
  • the pressing contact surface M1 comes into contact with the water discharge pipe f3.
  • the rotation operation unit 300 In the rotation of the tightening direction R2, the rotation operation unit 300 is rotated until the pressing contact surface M1 abuts on the water discharge pipe f3. Further, the rotation operation unit 300 is rotated in the tightening direction R2 until the hose connector 10 is fixed. As described above, the second engaging portion E2 is always engaged with the first engaging portion E1 by the urging member 500. By operating the rotation operation unit 300 with a force that overcomes this engaging force, the rotation operation unit 300 can be rotated. Due to the play described above, the locking member 400 can move to a position (second position) where the engagement between the second engaging portion E2 and the first engaging portion E1 is released.
  • the locking member 400 is lowered against the urging force of the urging member 500, and the rotation operating portion 300 rotates.
  • the urging force (spring constant) of the urging member 500 is set so that this operating force does not become excessive.
  • the length of the lever portion 304 is set so that this operating force is not excessive.
  • the faucet f10 When water is discharged from the faucet f1, the faucet f10 receives a force in the water discharge direction due to the water pressure. Due to this force, the pressing force of the pressing contact surface M1 increases. This pressing force contains an axially downward component. When the pressing force is increased, the second engaging portion E2 is strongly pressed against the first engaging portion E1. The reaction force of this pressing force includes an axially upward component. The water pressure pushes the locking member 400 upward, and the contact pressure between the first engaging portion E1 and the second engaging portion E2 increases. As a result, the engaging force between the engaging portions E1 and E2 increases, and the rotation operating portion 300 becomes difficult to rotate in the loosening direction R1.
  • the hose connector 10 is hard to come off due to water pressure.
  • the hose connector 10 is excellent in water pressure resistance.
  • the urging member 500 may be omitted.
  • the contact pressure between the first engaging portion E1 and the second engaging portion E2 becomes high even if the urging member 500 is not present. Therefore, the water pressure resistance performance is achieved even without the urging member 500.
  • the urging member 500 is provided.
  • the locking member 400 has play in the axial direction. Due to this play, in the locking member 400, the engagement between the second engaging portion E2 and the first engaging portion E1 is released from the first position where the second engaging portion E2 engages with the first engaging portion E1. It can move (descend) to the second position where it is to be. Therefore, the rotation operation unit 300 can be rotated against the engagement between the first engagement portion E1 and the second engagement portion E2. On the other hand, this play can cause loosening. In particular, in a situation where water pressure is not acting, the contact pressure between the engaging portions E1 and E2 becomes weak, and the rotation operating portion 300 tends to rotate in the loosening direction R1.
  • the contact pressure between the engaging portions E1 and E2 increases, but if the posture or position of the hose connector 10 fluctuates even slightly, the pressing contact surface M1 and the water discharge pipe f3 come into contact with each other. The positional relationship may change and the contact pressure may decrease.
  • the urging member 500 maintains the engaging force between the engaging portions E1 and E2 even when there is no water pressure, and loosening occurs. It is suppressed.
  • the pressing contact surface M1 presses the water discharge pipe f3.
  • the engaging force between the engaging portions E1 and E2 is high. That is, this engaging force is sufficiently high so that the engaging force is not released by an involuntary force or various vibrations regardless of the presence or absence of water pressure (hydrostatic pressure and hydrodynamic pressure).
  • the rotation operation unit 300 can be rotated in the loosening direction R1 against this engaging force. By applying an operating force equal to or higher than a predetermined value, the rotating operating portion 300 is rotated in the loosening direction R1 while disengaging the engaging portions E1 and E2 against the urging force of the urging member 500. be able to.
  • the contact pressure between the engaging portions E1 and E2 is smaller in the state where the water pressure is not acting than in the state where the water pressure is acting.
  • the operating force required for rotation in the loosening direction R1 is smaller in the state where the water pressure is not acting than in the state where the water pressure is acting. It is difficult to disengage the engaging portions E1 and E2 from each other in a situation where water pressure is applied. Therefore, it is possible to prevent the disengagement due to an operation error in the water flow state in which the water pressure is applied.
  • the hose connector 10 With the water discharge pipe f3 inserted, the hose connector 10 can hardly rotate with respect to the water discharge pipe f3. However, since there is a slight gap between the receiving opening 108 and the water discharge pipe f3, the hose connector 10 can rotate slightly with respect to the faucet f1.
  • the rotation operation unit 300 When the rotation operation unit 300 is rotated in the loosening direction R1 from the fixed state, not the rotation operation unit 300 but the entire hose connector 10 can rotate slightly with respect to the faucet f1. Due to the movement of the entire hose connector 10, the positional relationship between the water discharge pipe f3 and the pressing contact surface M1 may change slightly, and the pressing force applied to the water discharge pipe f3 by the pressing contact surface M1 may decrease. ..
  • the play in the locking member 400 contributes to the reduction of the operating force required for rotation in the loosening direction R1.
  • this play may not be necessary.
  • the convex portions of the first engaging portion E1 and / or the second engaging portion E2 a material that can be easily elastically deformed
  • the engaging portions E1 and E2 do not displace the locking member 400. It is possible to rotate in the loosening direction R1 against the engaging force of. Further, as described later, even when the engagement between the engaging portions E1 and E2 is a frictional engagement, the engaging force between the engaging portions E1 and E2 is resisted without the displacement of the locking member 400. It is possible to rotate in the loosening direction R1. Without this play, the urging member 500 may be unnecessary.
  • FIG. 12 (a) is a perspective view of the pressing member 250 as viewed from above
  • FIG. 12 (b) is a plan view of the pressing member 250
  • FIG. 12 (c) is a side view of the pressing member 250
  • 12 (d) is a perspective view of the pressing member 250 as viewed from below
  • FIG. 12 (e) is a bottom view of the pressing member 250.
  • the pressing member 250 has a rotary connecting portion 252 and a side wall portion 254.
  • the side wall portion 254 is formed around the rotary connecting portion 252.
  • the side wall portion 254 has a circumferential outer surface 258 and a circumferential inner surface 260.
  • the pressing member 250 has a chipped portion 262 in which a part in the circumferential direction is missing.
  • the side wall portion 254 has a radial distance changing portion 264 in which the distance of the pressing member 250 from the rotation axis Z2 gradually changes depending on the circumferential position.
  • the radial distance changing portion 264 is formed in the lower portion of the side wall portion 254.
  • the pressing member 250 has a pressing contact surface M2.
  • the pressing contact surface M2 is the lower end surface 266 of the pressing member 250.
  • the pressing contact surface M2 is a lower end surface 266 of the radial distance changing portion 264.
  • the pressing contact surface M2 extends around the rotation axis Z2.
  • the pressing contact surface M2 has a portion inclined with respect to the rotation axis Z2. Further, the pressing contact surface M2 has a portion perpendicular to the rotation axis Z2.
  • the pressing contact surface M2 is formed in a stepped shape.
  • the pressing contact surface M2 has a portion whose axial position changes as it moves in the circumferential direction.
  • the axial position of the pressing contact surface M2 (lower end surface 266) changes gradually or stepwise depending on its circumferential position.
  • the axial position of the pressing contact surface M2 changes depending on its phase.
  • the rotary connecting portion 252 has a connecting hole 270, a concave portion 272, and a convex portion 274.
  • the connecting hole 270 is a connecting hole having a non-circular cross-sectional shape.
  • the cross-sectional shape of the recess 272 is non-circular.
  • the outer surface of the hole-forming wall portion 276 that forms the connecting hole 270 inside the recess 272 is the first side surface, and the circumferential inner surface 260 is the second side surface.
  • the outer surface of the hole-forming wall portion 227 has the shape of the outer surface of a prism.
  • the convex portions 274 are provided at two locations in the circumferential direction. The convex portion 274 extends between the hole forming wall portion 276 and the circumferential inner surface 260.
  • the difference between the pressing member 250 (FIGS. 12 (a) to (e)) and the above-mentioned pressing member 200 (FIGS. 6 (a) to 6 (e)) is the shape of the pressing contact surface.
  • the axial position of the pressing contact surface M1 of the first embodiment and the pressing contact surface M2 of the second embodiment changes depending on the circumferential position.
  • the distance from the water discharge pipe f3 (bent portion f5) fluctuates due to the rotation of the pressing member about the rotation axis Z2.
  • the pressing contact surface M1 has a first end t1 and a second end t2. From the first end t1 to the second end t2, the axial position of the second end t2 is lower than the axial position of the first end t1. The axial position of the pressing contact surface M1 gradually decreases as it approaches the second end t2. The pressing contact surface M1 is inclined with respect to the axial direction at all circumferential positions. As shown in FIG. 12D, the pressing contact surface M2 has a first end t1 and a second end t2. From the first end t1 to the second end t2, the axial position of the pressing contact surface M2 gradually or gradually decreases as it approaches the second end t2.
  • the pressing contact surface M2 has a portion perpendicular to the axial direction and a portion inclined with respect to the axial direction. On the pressing contact surface M1, the axial position is lowered as the circumferential position approaches the second end t2. The pressing contact surface M2 has a portion where the axial position is lowered as the circumferential position approaches the second end t2 and a portion where the axial position is constant. The pressing contact surface M1 and the pressing contact surface M2 do not have a portion where the axial position rises as the circumferential position approaches the second end t2.
  • the pressing contact surface M1 and the pressing contact surface M2 are slopes and / or staircase surfaces formed along a spiral.
  • the slope is a surface that is inclined with respect to the rotation axis Z2.
  • the angle of the slope with respect to the rotation axis Z2 may be constant or may change. This slope may be a flat surface or a curved surface.
  • the staircase surface is a surface in which surfaces perpendicular to the rotation axis Z2 and surfaces not perpendicular to the rotation axis Z2 are alternately arranged.
  • a plane that is not perpendicular to the rotation axis Z2 includes a plane that includes the rotation axis Z2, a plane that is parallel to the rotation axis Z2, and a plane that is inclined with respect to the rotation axis Z2.
  • Such a pressing contact surface M1 and a pressing contact surface M2 can hold down the water discharge pipe f3 in the fixed state, and do not hinder the insertion of the water discharge pipe f3 into the hose connector 10 in the released state
  • the locking member 400 does not rotate with respect to the main body member 100. That is, the pressing member 200 does not rotate with respect to the main body member 100.
  • the fixed state is maintained by engaging the engaging portions E1 and E2 with each other.
  • the engagement between the first engaging portion E1 and the second engaging portion E2 is a shape engagement by engaging the shapes with each other.
  • shape engagement is as defined herein. Typical examples of shape engagement are engagement between convex portions and engagement between convex portions and concave portions.
  • This shape engagement includes meshing engagement in which one or more protrusions as the first engaging portion E1 and a plurality of protrusions as the second engaging portion E2 are meshed with each other.
  • the engagement between the first engaging portion E1 and the second engaging portion E2 is not limited to the shape engagement.
  • the engagement between the first engaging portion E1 and the second engaging portion E2 may be a frictional engagement due to a frictional force.
  • the first engaging portion E1 and the second engaging portion E2 may be, for example, a flat surface.
  • the first engaging portion E1 is provided on the main body member 100.
  • the first engaging portion E1 may be provided on a member different from the main body member 100.
  • the first engaging portion E1 is fixed to or engaged with the main body member 100.
  • the first engaging portion E1 is provided on the main body member 100 itself.
  • the member having the first engaging portion E1 is a member different from the main body member 100, and this separate member may be fixed to the main body member 100.
  • the member having the first engaging portion E1 is a member different from the main body member 100, and this separate member may be engaged with the main body member 100. In this case, this engagement may be a shape engagement or a frictional engagement.
  • this separate member may be a rubber member arranged on the upper surface and the lower surface in a state where the upper surface and the lower surface do not have irregularities and can rotate freely independently.
  • the upper surface (flat surface) of the rubber member may be frictionally engaged with the main body member 100.
  • the lower surface (flat surface) of the rubber member may be frictionally engaged with the flat second engaging portion E2 as the first engaging portion E1.
  • the rotation operation unit 300 has a lever unit 304.
  • the lever portion 304 may be omitted.
  • the rotation operation unit 300 may be a dial.
  • the lever portion 304 increases the distance from the rotation axis Z3 and increases the moment of the operating force. Further, the lever portion 304 protruding outward in the radial direction makes it easier to apply a force to the rotation operation portion 300. As a result, the operating force can be reduced.
  • the lever portion 304 can suppress the operating force when releasing the fixed state.
  • the double-headed arrow D3 indicates the distance from the rotation axis Z3 to the tip of the lever portion 304. This distance is measured along the direction perpendicular to the axis of rotation Z3. From the viewpoint of suppressing the operating force and improving the operability, the distance D3 is preferably 18 mm or more, more preferably 19 mm or more, and more preferably 20 mm or more. From the viewpoint of miniaturization of the hose connector 10, the distance D3 is preferably 23 mm or less, more preferably 22 mm or less, and more preferably 21 mm or less.
  • the hose joint is attached to the faucet by tightening the fixing screw (bolt). If the lead angle of the fixing screw is large, loosening is likely to occur due to water pressure or vibration when the hose is pulled. Therefore, in the publication of Utility Model Application Publication No. 49-7477, the lead angle of the fixing screw is small. If the lead angle is small, the number of screwdrivers required to tighten the fixing screw increases, resulting in poor operability. In the present embodiment, loosening is unlikely to occur due to the rotation stopper by the engaging portions E1 and E2. Therefore, the lead angle of the pressing contact surface can be increased.
  • the lead angle ⁇ (see FIG. 6C) of the pressing contact surface is preferably 10 ° or more, more preferably 11 ° or more, and 12 More than ° is more preferable. From the viewpoint of resistance to loosening, the lead angle ⁇ is preferably 45 ° or less, more preferably 40 ° or less, and even more preferably 35 ° or less. In the pressing contact surface M1 of the first embodiment, the lead angle ⁇ is 13 °.
  • the lead angle ⁇ is an angle formed by a plane perpendicular to the rotation axis Z2 and a pressing contact surface. The lead angle ⁇ may be constant or may change.
  • the lead angle ⁇ in the present application may be an average lead angle. Based on this concept of the average lead angle, the lead angle ⁇ can also be determined, for example, by the pressing contact surface M2 shown in FIGS. 12 (a) to 12 (e).
  • the length L1 is the length (distance length) when the center line formed by the set of the center points in the width direction of the pressing contact surface is viewed in a plan view. This plan view means the bottom view of FIG. 6 (e).
  • the rotation angle of the rotation operation unit 300 can be reduced. Further, by making the rotation angle of the rotation operation unit 300 smaller than 360 °, it is possible to avoid a situation in which the rotation operation unit 300 (lever unit 304) hits the faucet f1 (handle f4) and the operation is hindered. (See FIG. 1). Further, by making the rotation angle of the rotation operation unit 300 smaller than 360 °, the pressing member 200 can be provided with the chipped portion 212 (see FIGS. 6A to 6E), and the hose connector 10 The water discharge pipe f3 can be easily inserted into the water discharge pipe f3.
  • the rotatable angle of the rotation operation unit 300 is preferably 300 ° or less, more preferably 280 ° or less, and more preferably 260 ° or less. From the viewpoint of avoiding an excessive lead angle ⁇ , the rotatable angle of the rotation operating unit 300 is preferably 180 ° or more, more preferably 200 ° or more, and more preferably 220 ° or more. In the hose connector 10, the rotatable angle of the rotating operation unit 300 was set to 240 °.
  • the double-headed arrow ⁇ 1 indicates the circumferential angle at which the pressing contact surface exists.
  • This angle ⁇ 1 is a circumferential angle from the first end t1 to the second end t2. Considering the function of the pressing contact surface, it is not necessary to make this angle ⁇ 1 larger than the rotatable angle of the rotating operation unit 300.
  • This angle ⁇ 1 is preferably equal to or less than the rotatable angle of the rotation operation unit 300.
  • the angle ⁇ 1 is preferably 255 ° or less, more preferably 235 ° or less, and more preferably 215 ° or less. From the viewpoint of avoiding an excessive lead angle ⁇ , the angle ⁇ 1 is preferably 135 ° or more, more preferably 155 ° or more, and more preferably 175 ° or more. In the hose connector 10, the angle ⁇ 1 was set to 195 °.
  • Japanese Patent Application Laid-Open No. 2017-219194 discloses an embodiment having an adjusting unit and a reverse rotation preventing member.
  • the reverse rotation of the adjusting portion is prevented and it becomes difficult to loosen, but since the reverse rotation is prevented, it may be necessary to remove the upper member from the lower member in order to release the fixing.
  • it is essential to divide the main body into an upper member and a lower member.
  • movement between the members may occur due to the engaging portion. Due to the movement between the members, the contact portion in contact with the faucet can move in the direction away from the faucet. This movement reduces the fixation of the hose fitting.
  • the rotation operation unit 300 can be rotated in the loosening direction R1 from the fixed state. Therefore, the main body member can be integrated as a whole. As a result, the pressing contact surface M1 is difficult to move in the fixed state, and loosening is unlikely to occur.
  • the number of convex portions 140 constituting the first engaging portion E1 is not limited.
  • the number of convex portions 140 may be one or a plurality.
  • the number of convex portions 140 is preferably 2 or more, and more preferably 3 or more, from the viewpoint of preventing the pressing member 200 from rotating, and further, from the viewpoint of reserve when a part of the convex portions 140 is damaged or worn.
  • the number of convex portions 140 is preferably 10 or less, more preferably 8 or less, and more preferably 6 or less.
  • the hose connector 10 is compatible with horizontal faucets, horizontal faucets (universal type) and horizontal faucets (rotating spout). As described above, these three types of faucets are specified in JIS B 2061. Further, other faucets (chemical faucets, etc.) having a spout pipe f3 and a bent portion f5 similar to these faucets can also be used. In addition, by adjusting the dimensions, it is possible to handle standing faucets and the like.
  • the water discharge pipe insertion portion 530 (inner surface) forms a space in which the upper forming portion 532 adjacent to the upper side of the packing 510 and the deformed portion are accommodated when the packing 510 is deformed by the water discharge pipe f3. It has a space forming portion 534, a lower forming portion 536 adjacent to the lower side of the space forming portion 534, and an inner surface recess 538 adjacent to the lower side of the lower forming portion 536.
  • the lower forming portion 536 is a protrusion. Since the space forming portion 534 and the inner surface concave portion 538 form a concave portion, the lower forming portion 536 between them constitutes a protrusion.
  • a downward surface 540 is formed at the boundary between the lower forming portion 536 and the inner surface recess 538.
  • the downward surface 540 is the lower surface of the lower forming portion 536.
  • a rib 542 protruding inward of the water discharge pipe insertion portion 530 is formed on the lower side of the inner surface recess 538. The rib 542 extends axially.
  • the tip end portion of the water discharge pipe f3 abuts on the lower forming portion 536 in the fixed state. Further, depending on the posture of the hose connector 10, the water discharge pipe f3 of the horizontal faucet may also come into contact with the upper forming portion 532.
  • the tip end portion of the water discharge pipe f3 is arranged in the inner surface recess 538 in the fixed state.
  • An annular protruding edge (flange portion) is formed along the edge of the spout port f6 at the tip of the spout pipe f3 of the horizontal faucet (universal type).
  • This annular protruding edge engages the inner surface recess 538 (downward surface 540).
  • the tip of the spout pipe f3 abuts on the lower rib 542 of the inner surface recess 538 in the fixed state.
  • the axial distance D1 (FIG. 6 (c)) is preferably 5 mm or more, more preferably 6 mm or more, and more preferably 7 mm or more.
  • the axial distance D1 is preferably 10 mm or less, more preferably 9 mm or less, and more preferably 8 mm or less.
  • the hose connector 10 When the hose connector 10 tries to come out of the faucet f1 by water pressure, the hose connector 10 tries to rotate along the bend of the bent portion f5.
  • the reaction force of the contact force of the lower contact portion 132 gives the hose connector 10 a rotational moment in the direction opposite to the rotation.
  • the lower contact portion 132 suppresses the rotation of the hose connector 10 that occurs when the hose connector 10 comes out of the faucet f1.
  • the lower contact portion 132 can effectively suppress the hose connector 10 from coming off due to water pressure. It is preferable that the lower contact portion 132 abuts on the faucet f1 (faucet main body f2) from the lower side in a fixed state attached to the horizontal faucet. It is preferable that the lower contact portion 132 abuts on the faucet f1 (faucet body f2) from the lower side in a fixed state attached to the horizontal faucet (rotating spout).
  • the integrated main body member 100 covers the water discharge pipe f3 (bent portion f5) of the faucet f1 as a whole, the rigidity of the main body member 100 is high, and the engaging portion E1 , E2 are easy to maintain engagement with each other. Therefore, loosening from the fixed state is unlikely to occur. Since the second engaging portion E2 that engages with the first engaging portion E1 is provided between the first engaging portion E1 and the pressing member 200, the pressing force applied by the pressing member 200 to the water discharge pipe f3 The reaction force is transmitted between the first engaging portion E1 and the second engaging portion E2, and the contact pressure between the first engaging portion E1 and the second engaging portion E2 increases.
  • the reaction force of the pressing force applied by the pressing member 200 to the water discharge pipe f3 is transmitted to the second engaging portion E2 to press the second engaging portion E2 against the first engaging portion E1.
  • the transmission from the pressing member 200 to the second engaging portion E2 may be a direct transmission or an indirect transmission via another member.
  • the main body member 100 tries to move in the water discharge direction Dx due to water pressure, the engaging force between the engaging portions E1 and E2 increases. Therefore, the water pressure resistance in the connection to the faucet f1 is improved.
  • the locking member 400 having the second engaging portion E2 is a member different from the pressing member 200, but these may be integrated members.
  • the pressing member 200 may have the second engaging portion E2.
  • the pressing member 200, the rotation operation unit 300, and the locking member 400 rotate integrally, and these may be integrated members.
  • the pressing contact surfaces M1 and M2 are formed so that the distance from the water discharge pipe f3 fluctuates due to the rotation of the pressing member.
  • the pressing contact surfaces M1 and M2 are provided around the rotation axis Z2 of the pressing member.
  • the pressing contact surfaces M1 and M2 may have a portion inclined with respect to the rotation axis Z2.
  • the pressing contact surface does not have a portion inclined with respect to the rotation axis Z2, for example, by making the pressing contact surface stepped, the pressing member rotates to discharge the pressing contact surface.
  • the distance to the water pipe f3 can fluctuate. Due to this change in distance, the hose connector 10 can be tightened to the water discharge pipe f3, and the water discharge pipe f3 can be received.
  • the axial position of the pressing contact surface changes due to the rotation of the pressing member.
  • the change width of the axial position of the pressing contact surface at the circumferential center position CP is preferably 5 mm or more, more preferably 6 mm or more, and more preferably 7 mm or more.
  • the change width of the axial position of the pressing contact surface at the circumferential center position CP is preferably 10 mm or less, more preferably 9 mm or less, and more preferably 8 mm or less.
  • the change width is substantially equal to the axial distance D1.
  • the rotation restricting portion 142 is fixed to the main body member 100.
  • the rotation restricting portion 142 is integrally molded as a part of the main body member 100.
  • the rotation restricting portion 142 restricts the lever portion 304 from rotating toward the faucet f1 side, and prevents the lever portion 304 from hitting the faucet f1 (handle f4).
  • the first portion 144 prevents the fixed state from being released due to excessive rotation of the rotation operation unit 300.
  • the second portion 146 orients the chipped portion 212 of the pressing member 200 toward the receiving opening 108 so that the water discharge pipe f3 can be received.
  • the locking member 400 having the second engaging portion E2 moves to the first position where the second engaging portion E2 and the first engaging portion engage and the second position where the engagement is released. Since it is configured so that it can be used, it is prevented that the operating force of the rotation operation against the engagement between the engaging portions E1 and E2 becomes excessive.
  • the urging member 500 that urges the second engaging portion E2 to the first position maintains the engagement between the engaging portions E1 and E2, and loosening is unlikely to occur even when water pressure is not applied.
  • By making the locking member 400 a separate member from the pressing member 200 it is possible to configure the locking member 400 to move with respect to the pressing member 200. By increasing the lead angle of the pressing contact surface to 10 ° or more, the tightening operation becomes easy.
  • the rotatable angle of the rotating operation unit 300 is set to 300 ° or less, it is possible to handle a plurality of faucets. Further, by setting the rotatable angle of the rotation operation unit 300 to 300 ° or less, it is possible to prevent the lever unit 304 from hitting the handle f4 of the faucet f1.
  • the rotatable range of the rotation operation unit 300 is limited so that the circumferential position of the lever portion 304 cannot reach the circumferential center position CP (see FIGS. 5 (b) and 5 (d)).
  • the material of the pressing member examples are resin and metal. Resin is preferable from the viewpoint of suppressing damage to the faucet. As the resin, a resin having excellent strength and productivity is preferable. From the viewpoint of moldability, the resin is preferably a thermoplastic resin. From the viewpoint of moldability, polypropylene (PP), acrylonitrile-butadiene-styrene copolymer (ABS), and polyacetal (POM) are exemplified as more preferable resins. From the viewpoint of strength, polyacetal (POM) is more preferable. In each of the above-described embodiments, the material of the pressing member is polyacetal (POM).
  • PP polypropylene
  • ABS acrylonitrile-butadiene-styrene copolymer
  • POM polyacetal
  • the material of the pressing member is polyacetal (POM).
  • the material of the main body member examples are resin and metal. Resins are preferable from the viewpoint of moldability and productivity. From the viewpoint of moldability, the resin is preferably a thermoplastic resin. From the viewpoint of moldability, polypropylene (PP), acrylonitrile-butadiene-styrene copolymer (ABS), and polyacetal (POM) are exemplified as more preferable resins. Polyacetal (POM) is more preferable from the viewpoint of being inexpensive and having excellent strength. In the above embodiment, the material of the main body member is polyacetal (POM).
  • PP polypropylene
  • ABS acrylonitrile-butadiene-styrene copolymer
  • POM polyacetal
  • the material of the main body member is polyacetal (POM).
  • the material of the rotation operation unit examples are resin and metal. Resins are preferable from the viewpoint of moldability and productivity. From the viewpoint of moldability, the resin is preferably a thermoplastic resin. From the viewpoint of moldability, polypropylene (PP), acrylonitrile-butadiene-styrene copolymer (ABS), and polyacetal (POM) are exemplified as more preferable resins. From the viewpoint of strength, polyacetal (POM) is more preferable. In the above embodiment, the material of the rotation operation unit is polyacetal (POM).
  • PP polypropylene
  • ABS acrylonitrile-butadiene-styrene copolymer
  • POM polyacetal
  • the material of the rotation operation unit is polyacetal (POM).
  • the material of the locking member examples are resin and metal. Resins are preferable from the viewpoint of moldability and productivity. From the viewpoint of moldability, the resin is preferably a thermoplastic resin. From the viewpoint of moldability, polypropylene (PP), acrylonitrile-butadiene-styrene copolymer (ABS), and polyacetal (POM) are exemplified as more preferable resins. Polyacetal (POM) is more preferable from the viewpoint of being inexpensive and having excellent strength. In the above embodiment, the material of the locking member is polyacetal (POM).
  • PP polypropylene
  • ABS acrylonitrile-butadiene-styrene copolymer
  • POM polyacetal
  • the material of the locking member is polyacetal (POM).
  • the material of the lower member examples are resin and metal. Resins are preferable from the viewpoint of moldability and productivity. From the viewpoint of moldability, the resin is preferably a thermoplastic resin. From the viewpoint of moldability, polypropylene (PP), acrylonitrile-butadiene-styrene copolymer (ABS), and polyacetal (POM) are exemplified as more preferable resins. ABS is more preferable from the viewpoint of being inexpensive and having excellent strength. In the above embodiment, the material of the lower member is ABS.
  • Appendix 1 The main body member, which is integrated as a whole and into which the water discharge pipe of the faucet is inserted, The hose connection where the hose is connected and A packing that watertightly connects the water discharge pipe inserted into the main body member and the hose connection portion, and A pressing member that is rotatably attached to the main body member and applies a pressing force containing a water discharge direction component to the water discharge pipe.
  • a rotation operation unit capable of rotating the pressing member in the loosening direction and the tightening direction, and With the first engaging portion fixed or engaged with the main body member, A second engaging portion that engages with the first engaging portion and rotates together with the rotating operating portion and the pressing member.
  • the second engaging portion is located between the first engaging portion and the pressing member.
  • the pressing member has a pressing contact surface that abuts on the water discharge pipe, and the pressing contact surface is formed so that the distance from the water discharge pipe fluctuates due to the rotation of the pressing member.
  • a hose connector in which the reaction force of the pressing force is transmitted to the second engaging portion to press the second engaging portion against the first engaging portion.
  • the hose connector according to Appendix 1 further provided with an urging member that increases the contact pressure between the first engaging portion and the second engaging portion.
  • the second engaging portion is configured to be movable between a first position where it engages with the first engaging portion and a second position where the engagement with the first engaging portion is released.
  • the hose connector according to Appendix 2 wherein the urging member urges the second engaging portion toward the first position side.
  • a locking member is arranged between the first engaging portion and the pressing member.
  • the first engaging portion is one or more convex portions formed on the main body member.

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  • General Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
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  • Life Sciences & Earth Sciences (AREA)
  • Hydrology & Water Resources (AREA)
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  • Water Supply & Treatment (AREA)
  • Domestic Plumbing Installations (AREA)
  • Quick-Acting Or Multi-Walled Pipe Joints (AREA)
  • Joints With Pressure Members (AREA)

Abstract

The present invention provides a hose connector having excellent water pressure resistance and operability. A hose connector 10 has a main body member 100, the entirety of which is an integral body, and into which a discharge pipe f3 of a faucet is to be inserted; a pressing member 200 which is rotatably attached to the main body member 100 and which applies to the discharge pipe f3 a pressing force that includes a discharge direction component; a rotation operation part 300 which can rotate the pressing member 200 in the loosening direction and the tightening direction; a first engagement part E1 which is fixed to or engaged with the main body member 100; and a second engagement part which engages with the first engagement part E1 and which rotates with the rotation operation part 300 and the pressing member 200. The pressing member 200 has a pressing contact surface M1 which comes into contact with the discharge pipe f3. The pressing contact surface M1 is formed such that the distance to the discharge pipe f3 changes with rotation of the pressing member 200. The reaction force to the pressing force is transmitted to the second engagement part and pushes the second engagement part against the first engagement part.

Description

ホース接続具Hose connector
 本開示は、ホース接続具に関する。 This disclosure relates to hose connectors.
 水栓にホースを接続するためのホース接続具として、周方向に分散して配置された複数のネジを締め付けて水栓に固定されるタイプが知られている。このタイプでは、複数のネジを均等に締め付けるのに手間と時間とを要する。これに対して、実用新案出願公告昭49-7477号公報は、ボルトを締めることで洗面器用の水栓に取り付けられるホース継手を開示する。特開2017-219194号公報は、上側部材と下側部材とを備え、これらによって曲がって延びる排出管を挟み込むことができるホース接続具を開示する。 As a hose connector for connecting a hose to a faucet, a type is known in which a plurality of screws distributed in the circumferential direction are tightened and fixed to the faucet. In this type, it takes time and effort to tighten a plurality of screws evenly. On the other hand, Utility Model Application Publication No. 49-7477 discloses a hose joint that can be attached to a faucet for a washbasin by tightening a bolt. Japanese Unexamined Patent Publication No. 2017-219194 discloses a hose connector that includes an upper member and a lower member, and can sandwich a bent discharge pipe by these members.
実用新案出願公告昭49-7477号公報Utility Model Application Publication No. 49-7477 特開2017-219194号公報JP-A-2017-219194
 本発明者は、水圧による外れにくさ及び操作性において、更なる改善の余地を見いだした。本開示は、耐水圧性能及び操作性に優れたホース接続具を提供する。 The present inventor has found room for further improvement in the resistance to disengagement due to water pressure and operability. The present disclosure provides a hose connector having excellent water pressure resistance and operability.
 一つの態様では、ホース接続具は、全体として一体であり、水栓の吐水管が挿入される本体部材と、ホースが接続されるホース接続部と、前記本体部材に挿入された前記吐水管と前記ホース接続部とを水密に接続するパッキンと、前記本体部材に回動可能に取り付けられ、前記吐水管に吐水方向成分を含む押圧力を付与する押圧部材と、前記押圧部材を緩み方向及び締め付け方向に回動させうる回動操作部と、前記本体部材に固定又は係合されている第1係合部と、前記第1係合部に係合し、前記回動操作部及び前記押圧部材と共に回動する第2係合部と、を備えている。前記第2係合部が、前記第1係合部と前記押圧部材との間に位置している。前記押圧部材が、前記吐水管に当接する押圧当接面を有している。前記押圧当接面が、前記押圧部材の回動により前記吐水管との距離が変動するように形成されている。前記押圧力の反力が前記第2係合部に伝達されて前記第2係合部を前記第1係合部に押し付ける。 In one embodiment, the hose connector is integrated as a whole, with a main body member into which the water spout pipe of the faucet is inserted, a hose connection portion to which the hose is connected, and the water spout pipe inserted into the main body member. A packing for watertightly connecting the hose connection portion, a pressing member rotatably attached to the main body member to apply a pressing force containing a water discharge direction component to the water discharge pipe, and a loosening direction and tightening of the pressing member. A rotation operating portion that can be rotated in a direction, a first engaging portion that is fixed or engaged with the main body member, and the rotating operating portion and the pressing member that engage with the first engaging portion. It is provided with a second engaging portion that rotates together with the hose. The second engaging portion is located between the first engaging portion and the pressing member. The pressing member has a pressing contact surface that abuts on the water discharge pipe. The pressing contact surface is formed so that the distance from the water discharge pipe fluctuates due to the rotation of the pressing member. The reaction force of the pressing force is transmitted to the second engaging portion to press the second engaging portion against the first engaging portion.
 一つの側面では、耐水圧性能及び操作性に優れたホース接続具が提供されうる。 On one side, a hose connector with excellent water pressure resistance and operability can be provided.
図1は、第1実施形態に係るホース接続具が水栓に取り付けられた固定状態を示す斜視図である。FIG. 1 is a perspective view showing a fixed state in which the hose connector according to the first embodiment is attached to the faucet. 図2は、図1の断面図であって、固定状態の断面図である。FIG. 2 is a cross-sectional view of FIG. 1 and is a cross-sectional view in a fixed state. 図3は、図2に対応する断面図であって、解除状態の断面図である。FIG. 3 is a cross-sectional view corresponding to FIG. 2, which is a cross-sectional view in a released state. 図4は、第1実施形態のホース接続具の分解斜視図である。FIG. 4 is an exploded perspective view of the hose connector of the first embodiment. 図5(a)は本体部材を上側から見た斜視図であり、図5(b)は本体部材の正面図であり、図5(c)は本体部材を下側から見た斜視図であり、図5(d)は本体部材の底面図である。5 (a) is a perspective view of the main body member viewed from above, FIG. 5 (b) is a front view of the main body member, and FIG. 5 (c) is a perspective view of the main body member viewed from below. , FIG. 5D is a bottom view of the main body member. 図6(a)は押圧部材を上側から見た斜視図であり、図6(b)は押圧部材の平面図であり、図6(c)は欠け部側から押圧部材を見た正面図であり、図6(d)は押圧部材を下側から見た斜視図であり、図6(e)は押圧部材の底面図である。FIG. 6A is a perspective view of the pressing member viewed from above, FIG. 6B is a plan view of the pressing member, and FIG. 6C is a front view of the pressing member viewed from the chipped portion side. FIG. 6 (d) is a perspective view of the pressing member as viewed from below, and FIG. 6 (e) is a bottom view of the pressing member. 図7(a)は回動操作部を上側から見た斜視図であり、図7(b)は回動操作部の平面図であり、図7(c)は回動操作部の側面図であり、図7(d)は回動操作部を下側から見た斜視図であり、図7(e)は回動操作部の底面図である。7 (a) is a perspective view of the rotation operation unit as viewed from above, FIG. 7 (b) is a plan view of the rotation operation unit, and FIG. 7 (c) is a side view of the rotation operation unit. 7 (d) is a perspective view of the rotation operation unit as viewed from below, and FIG. 7 (e) is a bottom view of the rotation operation unit. 図8(a)は係止部材を上側から見た斜視図であり、図8(b)は係止部材の平面図であり、図8(c)は係止部材の側面図であり、図8(d)は係止部材を下側から見た斜視図である。8 (a) is a perspective view of the locking member as viewed from above, FIG. 8 (b) is a plan view of the locking member, and FIG. 8 (c) is a side view of the locking member. 8 (d) is a perspective view of the locking member as viewed from below. 図9は、固定状態及び解除状態のホース接続具を示す斜視図である。FIG. 9 is a perspective view showing a hose connector in a fixed state and a released state. 図10は、固定状態及び解除状態のホース接続具を示す側面図である。FIG. 10 is a side view showing the hose connector in the fixed state and the released state. 図11は、固定状態及び解除状態のホース接続具を示す断面図である。FIG. 11 is a cross-sectional view showing a hose connector in a fixed state and a released state. 図12は、変形例の押圧部材を上側から見た斜視図であり、図12(b)はこの押圧部材の平面図であり、図12(c)はこの押圧部材の側面図であり、図12(d)はこの押圧部材を下側から見た斜視図であり、図12(e)はこの押圧部材の底面図である。12A and 12B are perspective views of the pressing member of the modified example viewed from above, FIG. 12B is a plan view of the pressing member, and FIG. 12C is a side view of the pressing member. 12 (d) is a perspective view of the pressing member as viewed from below, and FIG. 12 (e) is a bottom view of the pressing member.
 以下、適宜図面が参照されつつ、好ましい実施形態に基づいて本発明が詳細に説明される。 Hereinafter, the present invention will be described in detail based on a preferred embodiment with reference to the drawings as appropriate.
 本願では、典型的な水栓の姿勢に基づいて、「上」、「上側」、「下」、「下側」等の文言が用いられる。水栓の姿勢が典型的ではない場合、これらの文言は、当該姿勢に沿って解釈される。 In the present application, words such as "upper", "upper", "lower", and "lower" are used based on the typical posture of the faucet. If the faucet posture is atypical, these terms will be interpreted in line with that posture.
 特に説明をした場合を除き、本願では、「半径方向」は押圧部材の回転軸線に垂直な方向を意味し、「周方向」は押圧部材の回転軸線を中心線とする円筒の周方向を意味し、「位相」とは、この周方向における位相を意味し、「軸方向」は、押圧部材の回転軸線の方向を意味する。なお、本願の実施形態では、押圧部材の回転軸線は、回動操作部の回転軸線に一致しており、係止部材の回転軸線にも一致している。 Unless otherwise specified, in the present application, the "radial direction" means the direction perpendicular to the rotation axis of the pressing member, and the "circumferential direction" means the circumferential direction of the cylinder centered on the rotation axis of the pressing member. However, the "phase" means the phase in the circumferential direction, and the "axial direction" means the direction of the rotation axis of the pressing member. In the embodiment of the present application, the rotation axis of the pressing member coincides with the rotation axis of the rotation operation unit, and also coincides with the rotation axis of the locking member.
[第1実施形態]
 図1は、第1実施形態に係るホース接続具10が取り付けられた水栓f1の斜視図である。図2は、図1の断面図である。図1及び図2は、ホース接続具10が水栓f1に固定された固定状態を示す。図3は、水栓f1への固定が解除された解除状態を示す断面図である。図2及び図3の断面図において、水栓f1は、輪郭線のみが示されている。
[First Embodiment]
FIG. 1 is a perspective view of the faucet f1 to which the hose connector 10 according to the first embodiment is attached. FIG. 2 is a cross-sectional view of FIG. 1 and 2 show a fixed state in which the hose connector 10 is fixed to the faucet f1. FIG. 3 is a cross-sectional view showing a released state in which the fixing to the faucet f1 is released. In the cross-sectional views of FIGS. 2 and 3, only the outline of the faucet f1 is shown.
 水栓f1は、水栓本体f2と、吐水管f3と、ハンドルf4とを有する。吐水管f3は、水栓本体f2に接続されている。水栓本体f2を通過した水は、吐水管f3を経て排出される。水栓f1には、バルブ(図示されず)が内蔵されている。ハンドルf4を操作(回転)させることで、このバルブが開閉される。ハンドルf4の操作により、吐止水の切替及び吐水量の調整がなされる。 The faucet f1 has a faucet main body f2, a water discharge pipe f3, and a handle f4. The water discharge pipe f3 is connected to the faucet main body f2. The water that has passed through the faucet body f2 is discharged through the water discharge pipe f3. The faucet f1 has a built-in valve (not shown). By operating (rotating) the handle f4, this valve is opened and closed. By operating the handle f4, the water discharge stop water is switched and the water discharge amount is adjusted.
 本実施形態において、水栓f1は、水栓本体f2に対して吐水管f3が固定されている。当業者において、この水栓f1は、横水栓と称されている。この称呼は、JIS B 2061で定められている。なお、この水栓f1では水栓本体f2と吐水管f3との境界が必ずしも明確ではないが、バルブよりも下流側の部分が吐水管f3とみなされてもよい。また、吐水口f6に至る太さ(外径)が一定の部分が吐水管f3と見なされてもよい。 In the present embodiment, in the faucet f1, the water discharge pipe f3 is fixed to the faucet main body f2. In those skilled in the art, this faucet f1 is referred to as a horizontal faucet. This title is defined in JIS B 2061. In this faucet f1, the boundary between the faucet main body f2 and the water discharge pipe f3 is not always clear, but the portion downstream of the valve may be regarded as the water discharge pipe f3. Further, a portion having a constant thickness (outer diameter) leading to the water discharge port f6 may be regarded as the water discharge pipe f3.
 ホース接続具10が使用可能な水栓f1として、横水栓の他、横水栓(吐水口回転形)及び横水栓(自在形)が例示される。これらの称呼も、JIS B 2061で定められている。横水栓(吐水口回転形)は、万能ホーム水栓とも称される。横水栓(自在形)は、自在水栓とも称される。 Examples of the faucet f1 to which the hose connector 10 can be used include a horizontal faucet, a horizontal faucet (rotating spout type), and a horizontal faucet (universal type). These titles are also defined in JIS B 2061. The horizontal faucet (rotating spout) is also called a universal home faucet. The horizontal faucet (universal type) is also called a universal faucet.
 吐水管f3は、その少なくとも一部が曲がって延びている。すなわち、吐水管f3は、曲がり部f5を有する。更に吐水管f3は吐水口f6を有する。吐水口f6から水が吐出される。吐水管f3は、水栓本体f2から延び、吐水口f6で終端している。曲がり部f5は、吐水口f6が下向きになるように曲がっている。 At least a part of the water discharge pipe f3 is bent and extended. That is, the water discharge pipe f3 has a bent portion f5. Further, the water discharge pipe f3 has a water discharge port f6. Water is discharged from the spout f6. The water discharge pipe f3 extends from the faucet main body f2 and ends at the water discharge port f6. The bent portion f5 is bent so that the spout f6 faces downward.
 水栓f1では、吐水方向が定義される。吐水方向は、水が吐出される方向である。正確には、吐水方向は、以下のように定義される。図2が示すように、吐水管f3が、真っ直ぐに延びて吐水口f6に至るストレート部を有する場合、このストレート部の中心線の方向が、吐水方向Dxと定義される。吐水管f3が吐水口f6まで曲がっている場合、吐水口f6の端面を含む平面に垂直な直線の方向が、吐水方向Dxと定義される。 In the faucet f1, the water discharge direction is defined. The water discharge direction is the direction in which water is discharged. To be precise, the water discharge direction is defined as follows. As shown in FIG. 2, when the water discharge pipe f3 has a straight portion extending straight to reach the spout port f6, the direction of the center line of the straight portion is defined as the water discharge direction Dx. When the water discharge pipe f3 is bent to the water discharge port f6, the direction of a straight line perpendicular to the plane including the end face of the water discharge port f6 is defined as the water discharge direction Dx.
 曲がり部f5の外面は、凸曲面f51と凹曲面f52とを有する(図2参照)。凸曲面f51は、曲がりの外側(外周側)に形成されている。凹曲面f52は、曲がりの内側(内周側)に形成されている。 The outer surface of the bent portion f5 has a convex curved surface f51 and a concave curved surface f52 (see FIG. 2). The convex curved surface f51 is formed on the outside (outer peripheral side) of the bend. The concave curved surface f52 is formed on the inside (inner peripheral side) of the bend.
 図4は、ホース接続具10の分解斜視図である。ホース接続具10は、本体部材100と、押圧部材200とを有する。押圧部材200は、本体部材100に、回動可能に取り付けられている。押圧部材200が吐水管f3(曲がり部f5)に押し付けられることで、ホース接続具10は水栓f1に固定されている。固定状態において、押圧部材200は、吐水管f3の曲がり部f5に、押圧力を付与している。 FIG. 4 is an exploded perspective view of the hose connector 10. The hose connector 10 has a main body member 100 and a pressing member 200. The pressing member 200 is rotatably attached to the main body member 100. The hose connector 10 is fixed to the faucet f1 by pressing the pressing member 200 against the water discharge pipe f3 (bent portion f5). In the fixed state, the pressing member 200 applies a pressing force to the bent portion f5 of the water discharge pipe f3.
 更に、ホース接続具10は、回動操作部300と、係止部材400と、付勢部材500とを有する。回動操作部300は、操作レバーを構成している。押圧部材200は回動操作部300と共に回動する。回動操作部300を回動操作することで、押圧部材200が回動する。係止部材400は、回動操作部300と共に回動する。係止部材400は、押圧部材200と共に回動する。係止部材400は、固定状態における押圧部材200が緩むのを抑制する。付勢部材500は、押圧部材200と係止部材400との間に位置する。付勢部材500は、係止部材400を上側に常時付勢している。 Further, the hose connector 10 has a rotation operation unit 300, a locking member 400, and an urging member 500. The rotation operation unit 300 constitutes an operation lever. The pressing member 200 rotates together with the rotation operation unit 300. By rotating the rotation operation unit 300, the pressing member 200 rotates. The locking member 400 rotates together with the rotation operation unit 300. The locking member 400 rotates together with the pressing member 200. The locking member 400 suppresses the pressing member 200 in the fixed state from loosening. The urging member 500 is located between the pressing member 200 and the locking member 400. The urging member 500 constantly urges the locking member 400 upward.
 回動操作部300は、本体部材100の外側(上側)に配置されている。押圧部材200は、本体部材100の内側に配置されている。係止部材400は、本体部材100の内側に配置されている。付勢部材500は、本体部材100の内側に配置されている。押圧部材200は、係止部材400の下側に配置されている。係止部材400は、回動操作部300の下側に配置されている。回動操作部300と係止部材400との間に、本体部材100の上壁部が介在している。 The rotation operation unit 300 is arranged on the outside (upper side) of the main body member 100. The pressing member 200 is arranged inside the main body member 100. The locking member 400 is arranged inside the main body member 100. The urging member 500 is arranged inside the main body member 100. The pressing member 200 is arranged below the locking member 400. The locking member 400 is arranged below the rotation operation unit 300. An upper wall portion of the main body member 100 is interposed between the rotation operation portion 300 and the locking member 400.
 更に、ホース接続具10は、パッキン510と、下側部材520とを有する。パッキン510は環状である。パッキン510は、環状の基部512と、この基部512から当該基部512の半径方向内側に延びる筒部514とを有する。固定状態において、パッキン510は、吐水管f3の外面に密着する。吐水管f3は筒部514の内側に挿入される。筒部514が吐水管f3の外面に密着する。基部512が本体部材100と下側部材520とに挟まれることで、パッキン510は本体部材100に固定されている。パッキン510は、ホース接続具10の水密な接続を可能とする。 Further, the hose connector 10 has a packing 510 and a lower member 520. The packing 510 is annular. The packing 510 has an annular base portion 512 and a tubular portion 514 extending from the base portion 512 in the radial direction of the base portion 512. In the fixed state, the packing 510 is in close contact with the outer surface of the water discharge pipe f3. The water discharge pipe f3 is inserted inside the tubular portion 514. The tubular portion 514 is in close contact with the outer surface of the water discharge pipe f3. The packing 510 is fixed to the main body member 100 by sandwiching the base portion 512 between the main body member 100 and the lower member 520. The packing 510 enables a watertight connection of the hose connector 10.
 下側部材520は、その内部を貫通する流路を構成している。下側部材520は、ホース接続部522と、ネジ部524とを有する。ネジ部524は雄ねじである。ネジ部524は、本体部材100の下部に形成された雌ねじ部とネジ結合している。ホース接続部522は、ホース接続具10の下端部を構成している。ホース接続部522に、ホース(図示されない)が接続される。ホース接続部522に環状シール部材526(Oリング)が装着されている。ネジ部524の上側にも、環状シール部材528(Oリング)が装着されている。 The lower member 520 constitutes a flow path penetrating the inside thereof. The lower member 520 has a hose connection portion 522 and a screw portion 524. The threaded portion 524 is a male thread. The screw portion 524 is screw-coupled to the female screw portion formed in the lower portion of the main body member 100. The hose connection portion 522 constitutes the lower end portion of the hose connection tool 10. A hose (not shown) is connected to the hose connection portion 522. An annular seal member 526 (O-ring) is attached to the hose connection portion 522. An annular seal member 528 (O-ring) is also mounted on the upper side of the screw portion 524.
 ホース接続具10は、吐水管挿入部530を有する。吐水管挿入部530は、ホース接続具10の内部流路を構成しつつ、吐水管f3が挿入される空洞を構成する。本体部材100と下側部材520とは、パッキン510(基部512)を挟み込みつつ、ネジ結合している。結合した本体部材100及び下側部材520が、内側に空洞を有する吐水管挿入部530を構成している。吐水管挿入部530は上側開口を有しており、吐水管f3が当該上側開口から吐水管挿入部530に挿入される。この挿入により、パッキン510は吐水管f3の外面に密着する。 The hose connector 10 has a water discharge pipe insertion portion 530. The water discharge pipe insertion portion 530 constitutes a cavity into which the water discharge pipe f3 is inserted while forming an internal flow path of the hose connector 10. The main body member 100 and the lower member 520 are screwed together while sandwiching the packing 510 (base 512). The combined main body member 100 and lower member 520 constitute a water pipe insertion portion 530 having a cavity inside. The water discharge pipe insertion portion 530 has an upper opening, and the water discharge pipe f3 is inserted into the water discharge pipe insertion portion 530 from the upper opening. By this insertion, the packing 510 is brought into close contact with the outer surface of the water discharge pipe f3.
 図5(a)は本体部材100を上側から見た斜視図であり、図5(b)は本体部材100を水栓f1が挿入される側から見た正面図であり、図5(c)は本体部材100を下側から見た斜視図であり、図5(d)は本体部材100の底面図である。図5(c)には、部分拡大図が付加されている。 5 (a) is a perspective view of the main body member 100 as viewed from above, and FIG. 5 (b) is a front view of the main body member 100 as viewed from the side where the faucet f1 is inserted. Is a perspective view of the main body member 100 as viewed from below, and FIG. 5D is a bottom view of the main body member 100. A partially enlarged view is added to FIG. 5 (c).
 本体部材100は、上部102と下部104とを有する。上部102は、下部104の上側に位置する。上部102は、上壁106と、受入開口108とを有する。更に、上部102は、背面開口110と、側壁112とを有する。 The main body member 100 has an upper portion 102 and a lower portion 104. The upper portion 102 is located above the lower portion 104. The upper portion 102 has an upper wall 106 and a receiving opening 108. Further, the upper portion 102 has a back opening 110 and a side wall 112.
 上壁106は、上面120と下面122とを有する。上面120は、上壁106の外面である。下面122は、上壁106の内面である。上壁106は、貫通孔124を有する。貫通孔124は、上面120から下面122まで延びている。貫通孔124は、上部102の内部空間を本体部材100の外側と連通させている。 The upper wall 106 has an upper surface 120 and a lower surface 122. The upper surface 120 is the outer surface of the upper wall 106. The lower surface 122 is the inner surface of the upper wall 106. The upper wall 106 has a through hole 124. The through hole 124 extends from the upper surface 120 to the lower surface 122. The through hole 124 communicates the internal space of the upper portion 102 with the outside of the main body member 100.
 受入開口108は、吐水管f3を受け入れる。固定状態において、吐水管f3は、受入開口108を通過して本体部材100内に入り、吐水管挿入部530に到達している。受入開口108は、上壁106の下側に設けられている。受入開口108の上縁は上壁106によって構成されている。受入開口108は上壁106と下部104との間に形成されている。 The receiving opening 108 receives the water discharge pipe f3. In the fixed state, the water discharge pipe f3 passes through the receiving opening 108, enters the main body member 100, and reaches the water discharge pipe insertion portion 530. The receiving opening 108 is provided on the lower side of the upper wall 106. The upper edge of the receiving opening 108 is composed of an upper wall 106. The receiving opening 108 is formed between the upper wall 106 and the lower wall 104.
 上部102において、背面開口110は、受入開口108の反対側に位置する。固定状態において、本体部材100の内部にある吐水管f3が、背面開口110を通して視認される。 In the upper portion 102, the back opening 110 is located on the opposite side of the receiving opening 108. In the fixed state, the water discharge pipe f3 inside the main body member 100 is visually recognized through the back opening 110.
 側壁112は、上面120と下部104との間に形成されている。側壁112は、受入開口108で分断されている。更に、側壁112は、背面開口110で分断されている。側壁112は、左右一対の壁部を構成している。 The side wall 112 is formed between the upper surface 120 and the lower surface 104. The side wall 112 is divided by a receiving opening 108. Further, the side wall 112 is divided by the back opening 110. The side wall 112 constitutes a pair of left and right wall portions.
 下部104は、管状壁部130と、下側当接部132と、上側開口134とを有する。管状壁部130は、その内面に、雌ねじ部136を有する。雌ねじ部136は、下側部材520のネジ部524とネジ結合している(図2及び図3参照)。下側当接部132は、管状壁部130の外面から、管状壁部130の径方向外側に突出している。固定状態において、下側当接部132は、下側から水栓f1(水栓本体f2)に当接しうる(図2及び図3参照)。上側開口134は、吐水管挿入部530の入口を構成している。 The lower portion 104 has a tubular wall portion 130, a lower contact portion 132, and an upper opening 134. The tubular wall portion 130 has an internal thread portion 136 on its inner surface. The female threaded portion 136 is screw-coupled to the threaded portion 524 of the lower member 520 (see FIGS. 2 and 3). The lower contact portion 132 projects radially outward of the tubular wall portion 130 from the outer surface of the tubular wall portion 130. In the fixed state, the lower contact portion 132 can come into contact with the faucet f1 (faucet body f2) from the lower side (see FIGS. 2 and 3). The upper opening 134 constitutes the inlet of the water discharge pipe insertion portion 530.
 本体部材100は、第1係合部E1を有する。第1係合部E1は、上壁106の下面122に設けられている。本実施形態では、第1係合部E1は、凸部140である。第1係合部E1として、複数(3つ)の凸部140が設けられている。凸部140は、下側に突出している。凸部140は、押圧部材200側に突出している。 The main body member 100 has a first engaging portion E1. The first engaging portion E1 is provided on the lower surface 122 of the upper wall 106. In the present embodiment, the first engaging portion E1 is a convex portion 140. A plurality of (three) convex portions 140 are provided as the first engaging portion E1. The convex portion 140 projects downward. The convex portion 140 projects toward the pressing member 200 side.
 本体部材100は、回動規制部142を有する。回動規制部142は、回動操作部300の回動範囲を規制する。回動規制部142により、回動操作部300の回動可能角度が規定されている。回動規制部142は、上面120に設けられている。回動規制部142は、第1部分144と第2部分146とを有する。第1部分144は突起である。第2部分146は突起である。回動操作部300のレバー部304が回動規制部142に当接することで、回動操作部300の回動が規制される。回動規制部142により、回動操作部300の回動可能角度が画定されている。 The main body member 100 has a rotation restricting portion 142. The rotation regulation unit 142 regulates the rotation range of the rotation operation unit 300. The rotation restricting unit 142 defines the rotatable angle of the rotation operating unit 300. The rotation restricting portion 142 is provided on the upper surface 120. The rotation restricting portion 142 has a first portion 144 and a second portion 146. The first portion 144 is a protrusion. The second part 146 is a protrusion. When the lever portion 304 of the rotation operation unit 300 comes into contact with the rotation regulation unit 142, the rotation of the rotation operation unit 300 is restricted. The rotation restricting unit 142 defines the rotatable angle of the rotation operating unit 300.
 本体部材100は、全体として一体である。本体部材100は、一体部材である。本体部材100は、全体として一体成形されている。本体部材100は、一体化された複数の部材により構成されていてもよい。 The main body member 100 is integrated as a whole. The main body member 100 is an integral member. The main body member 100 is integrally molded as a whole. The main body member 100 may be composed of a plurality of integrated members.
 図6(a)は押圧部材200を上側から見た斜視図であり、図6(b)は押圧部材200の平面図であり、図6(c)は押圧部材200の側面図であり、図6(d)は押圧部材200を下側から見た斜視図であり、図6(e)は押圧部材200の底面図である。 6 (a) is a perspective view of the pressing member 200 as viewed from above, FIG. 6 (b) is a plan view of the pressing member 200, and FIG. 6 (c) is a side view of the pressing member 200. 6 (d) is a perspective view of the pressing member 200 as viewed from below, and FIG. 6 (e) is a bottom view of the pressing member 200.
 押圧部材200は、回動連結部202と、側壁部204とを有する。側壁部204は、回動連結部202の周囲に形成されている。側壁部204は、円周外面208及び円周内面210を有する。押圧部材200は、周方向の一部が欠落した欠け部212を有する。欠け部212は、受入開口108側に配向することで、ホース接続具10内への吐水管f3の挿入を容易とする。 The pressing member 200 has a rotary connecting portion 202 and a side wall portion 204. The side wall portion 204 is formed around the rotary connecting portion 202. The side wall portion 204 has a circumferential outer surface 208 and a circumferential inner surface 210. The pressing member 200 has a chipped portion 212 in which a part in the circumferential direction is missing. The chipped portion 212 is oriented toward the receiving opening 108 to facilitate the insertion of the water discharge pipe f3 into the hose connector 10.
 側壁部204は、回転軸線Z2からの距離が周方向位置によって徐々に変化する半径方向距離変化部214を有する。半径方向距離変化部214は、側壁部204の下部に形成されている。 The side wall portion 204 has a radial distance changing portion 214 in which the distance from the rotation axis Z2 gradually changes depending on the circumferential position. The radial distance changing portion 214 is formed in the lower portion of the side wall portion 204.
 押圧部材200は、押圧当接面M1を有する。本実施形態では、押圧当接面M1は、押圧部材200の下端面216である。押圧当接面M1は、半径方向距離変化部214の下端面216である。押圧当接面M1は、回転軸線Z2に対して傾斜している。図6(c)がよく示すように、押圧当接面M1は、螺旋に沿って延在している。この螺旋は、押圧部材200の回転軸線Z2の周囲に形成されている。このように、押圧当接面M1(下端面216)の軸方向位置は、その周方向位置によって変化している。換言すれば、押圧当接面M1の軸方向位置は、その位相によって変化している。押圧当接面M1(下端面216)は、軸方向位置が上側にいくにつれて半径方向位置が小さくなるように変化している。 The pressing member 200 has a pressing contact surface M1. In the present embodiment, the pressing contact surface M1 is the lower end surface 216 of the pressing member 200. The pressing contact surface M1 is a lower end surface 216 of the radial distance changing portion 214. The pressing contact surface M1 is inclined with respect to the rotation axis Z2. As is well shown in FIG. 6 (c), the pressing contact surface M1 extends along a spiral. This spiral is formed around the rotation axis Z2 of the pressing member 200. As described above, the axial position of the pressing contact surface M1 (lower end surface 216) changes depending on the circumferential position thereof. In other words, the axial position of the pressing contact surface M1 changes depending on its phase. The pressing contact surface M1 (lower end surface 216) is changed so that the radial position becomes smaller as the axial position moves upward.
 回動連結部202は、連結孔220と、凹部222と、凸部224とを有する。連結孔220は、断面形状が非円形の連結孔である。凹部222の断面形状は非円形である。凹部222は、その内側に連結孔220を形成する孔形成壁部226の外面を第1の側面とし、円周内面210を第2の側面としている。孔形成壁部226の外面は角柱の外面の形状を呈している。凸部224は、周方向の2箇所に設けられている。凸部224は、孔形成壁部226と円周内面210との間に延びている。 The rotary connecting portion 202 has a connecting hole 220, a concave portion 222, and a convex portion 224. The connecting hole 220 is a connecting hole having a non-circular cross-sectional shape. The cross-sectional shape of the recess 222 is non-circular. The concave portion 222 has an outer surface of a hole forming wall portion 226 forming a connecting hole 220 inside thereof as a first side surface and a circumferential inner surface 210 as a second side surface. The outer surface of the hole-forming wall portion 226 has the shape of the outer surface of a prism. The convex portions 224 are provided at two locations in the circumferential direction. The convex portion 224 extends between the hole forming wall portion 226 and the circumferential inner surface 210.
 押圧部材200は、保持係止部230を有する。保持係止部230は、連結孔220の下端に形成されている。 The pressing member 200 has a holding locking portion 230. The holding locking portion 230 is formed at the lower end of the connecting hole 220.
 図2が示すように、押圧当接面M1は、吐水管f3に当接する。押圧当接面M1は、吐水管f3に、吐水方向成分を含む押圧力を付与する。押圧当接面M1は、曲がり部f5に当接する。押圧当接面M1は、曲がり部f5に、吐水方向成分を含む押圧力を付与する。押圧当接面M1は、曲がり部f5の凸曲面f51に当接する。押圧当接面M1は、凸曲面f51に、吐水方向成分を含む押圧力を付与する。水圧によりホース接続具10が吐水方向Dxに抜けようとすると、前記押圧力における、吐水方向Dxの成分が増加する。 As shown in FIG. 2, the pressing contact surface M1 contacts the water discharge pipe f3. The pressing contact surface M1 applies a pressing force including a water discharge direction component to the water discharge pipe f3. The pressing contact surface M1 comes into contact with the bent portion f5. The pressing contact surface M1 applies a pressing force including a water discharge direction component to the bent portion f5. The pressing contact surface M1 contacts the convex curved surface f51 of the bent portion f5. The pressing contact surface M1 applies a pressing force including a water discharge direction component to the convex curved surface f51. When the hose connector 10 tries to come out in the water discharge direction Dx due to water pressure, the component of the water discharge direction Dx in the pressing force increases.
 なお、固定状態において、吐水方向Dxに沿った直線と、回転軸線Z2に沿った直線とのなす角は、通常、30°以下である。この2直線の成す角は、2直線の方向ベクトルのなす角である。 In the fixed state, the angle formed by the straight line along the water discharge direction Dx and the straight line along the rotation axis Z2 is usually 30 ° or less. The angle formed by these two straight lines is the angle formed by the direction vector of the two straight lines.
 図7(a)は回動操作部300を上側から見た斜視図であり、図7(b)は回動操作部300の平面図であり、図7(c)は回動操作部300の側面図であり、図7(d)は回動操作部300を下側から見た斜視図であり、図7(e)は回動操作部300の底面図である。 FIG. 7A is a perspective view of the rotation operation unit 300 as viewed from above, FIG. 7B is a plan view of the rotation operation unit 300, and FIG. 7C is a rotation operation unit 300 of the rotation operation unit 300. 7 (d) is a side view, FIG. 7 (d) is a perspective view of the rotation operation unit 300 as viewed from below, and FIG. 7 (e) is a bottom view of the rotation operation unit 300.
 回動操作部300は、基部302と、レバー部304と、回動連結部306とを有する。基部302は円板形状を呈している。レバー部304は基部302から半径方向外側に延びている。典型的には、レバー部304が指で操作されることで、回動操作部300が回動する。回動連結部306は、押圧部材200及び係止部材400に相対回転不能に結合されている。 The rotation operation unit 300 has a base portion 302, a lever portion 304, and a rotation connection portion 306. The base 302 has a disk shape. The lever portion 304 extends radially outward from the base portion 302. Typically, the rotation operation unit 300 is rotated by operating the lever unit 304 with a finger. The rotary connecting portion 306 is connected to the pressing member 200 and the locking member 400 so as not to rotate relative to each other.
 回動連結部306は、凸部308と連結軸310とを有する。凸部308は、基部302の下面312に形成されている。図7(e)がよく示すように、この凸部は周方向の4箇所に形成されている。凸部308は、係止部材400に結合している。連結軸310は、基部302の下面312から下側に延びている。連結軸310は、非円形の断面形状を有している。連結軸310の断面形状は、回転対称性を有さない。回転対称性のない断面形状とすることで、回動操作部300と押圧部材200との位相関係が指定されている。連結軸310は、押圧部材200の連結孔206に嵌め込まれている。 The rotary connecting portion 306 has a convex portion 308 and a connecting shaft 310. The convex portion 308 is formed on the lower surface 312 of the base portion 302. As is well shown in FIG. 7 (e), the convex portions are formed at four points in the circumferential direction. The convex portion 308 is coupled to the locking member 400. The connecting shaft 310 extends downward from the lower surface 312 of the base 302. The connecting shaft 310 has a non-circular cross-sectional shape. The cross-sectional shape of the connecting shaft 310 does not have rotational symmetry. The phase relationship between the rotation operation unit 300 and the pressing member 200 is specified by forming the cross-sectional shape without rotational symmetry. The connecting shaft 310 is fitted in the connecting hole 206 of the pressing member 200.
 前述の通り、回動操作部300(基部302)は、本体部材100の外側に配置される。回動操作部300(基部302)は、本体部材100の上壁106の上に配置される。回動連結部306は上壁106の貫通孔124を通るように構成されており、本体部材100の内側(上壁106の下側)に位置する押圧部材200及び係止部材400と結合している。 As described above, the rotation operation unit 300 (base 302) is arranged outside the main body member 100. The rotation operation unit 300 (base 302) is arranged on the upper wall 106 of the main body member 100. The rotary connecting portion 306 is configured to pass through the through hole 124 of the upper wall 106, and is coupled to the pressing member 200 and the locking member 400 located inside the main body member 100 (lower side of the upper wall 106). There is.
 回動操作部300は、保持部314を有する。保持部314は、連結軸310の先端部に形成されている。保持部314は、くびれ部を構成している。 The rotation operation unit 300 has a holding unit 314. The holding portion 314 is formed at the tip end portion of the connecting shaft 310. The holding portion 314 constitutes a constricted portion.
 回動操作部300は、回転軸線Z3を有する。回転軸線Z3は、押圧部材200の回転軸線Z2と一致している。押圧部材200は、回動操作部300と共に回転する。押圧部材200は、回動操作部300と一体的に回転する。 The rotation operation unit 300 has a rotation axis Z3. The rotation axis Z3 coincides with the rotation axis Z2 of the pressing member 200. The pressing member 200 rotates together with the rotation operation unit 300. The pressing member 200 rotates integrally with the rotation operation unit 300.
 図8(a)は係止部材400を上側から見た斜視図であり、図8(b)は係止部材400の平面図であり、図8(c)は係止部材400の側面図であり、図8(d)は係止部材400を下側から見た斜視図である。 8 (a) is a perspective view of the locking member 400 as viewed from above, FIG. 8 (b) is a plan view of the locking member 400, and FIG. 8 (c) is a side view of the locking member 400. FIG. 8D is a perspective view of the locking member 400 as viewed from below.
 係止部材400は、環状部402と、回動連結部404とを有する。環状部402は、円環形状を呈している。 The locking member 400 has an annular portion 402 and a rotary connecting portion 404. The annular portion 402 has an annular shape.
 係止部材400は、第2係合部E2を有する。第2係合部E2は、環状部402の上面に形成されている。第2係合部E2は、上側に突出している複数の凸部(歯)により構成されている。第2係合部E2は、円環状に配列された複数の凸部である。凸部のそれぞれは半径方向に延びている。これら複数の凸部が隙間無く周方向に並んでいる。 The locking member 400 has a second engaging portion E2. The second engaging portion E2 is formed on the upper surface of the annular portion 402. The second engaging portion E2 is composed of a plurality of convex portions (teeth) protruding upward. The second engaging portion E2 is a plurality of convex portions arranged in an annular shape. Each of the protrusions extends in the radial direction. These plurality of convex portions are lined up in the circumferential direction without any gap.
 回動連結部404は、貫通孔408と凹部410と下方延在部412と凹部414とを有する。貫通孔408は、環状部402の半径方向内側に設けられている。凹部410は、係止部材400の上面に形成されている。環状部402と貫通孔408との間に環状突起416が形成されており、この環状突起416に凹部410が形成されている。凹部410は、周方向における複数箇所(4箇所)に設けられている。下方延在部412は、環状部402から下方に延びている。下方延在部412の外面は円周面である。下方延在部412の内面は、角柱の表面の形状を呈している。凹部414は、凹部である。凹部414は、環状部402の下面に形成されている。凹部414は複数箇所(2箇所)に形成されている。環状突起416は、本体部材100の貫通孔124に挿入されている。 The rotary connecting portion 404 has a through hole 408, a recess 410, a downward extending portion 412, and a recess 414. The through hole 408 is provided inside the annular portion 402 in the radial direction. The recess 410 is formed on the upper surface of the locking member 400. An annular protrusion 416 is formed between the annular portion 402 and the through hole 408, and a recess 410 is formed in the annular protrusion 416. The recesses 410 are provided at a plurality of locations (4 locations) in the circumferential direction. The downward extending portion 412 extends downward from the annular portion 402. The outer surface of the downward extending portion 412 is a circumferential surface. The inner surface of the downward extending portion 412 has the shape of the surface of a prism. The recess 414 is a recess. The recess 414 is formed on the lower surface of the annular portion 402. The recesses 414 are formed at a plurality of locations (two locations). The annular protrusion 416 is inserted into the through hole 124 of the main body member 100.
 図4が示すように、付勢部材500は、係止部材400と押圧部材200との間に配置されている。回動操作部300の連結軸310は付勢部材500を挿通している。付勢部材500は、係止部材400を、常に上側に付勢している。付勢部材500は、係止部材400を、第1係合部E1側に付勢している。後述の通り、係止部材400は、第2係合部E2と第1係合部E1とが係合する第1位置と、第2係合部E2と前記第1係合部との係合が解除される第2位置とに移動できるように構成されている。付勢部材500は、係止部材400を前記第1位置側に付勢している。付勢部材500によって係止部材400が第1係合部E1へ押圧される方向は、回転軸線Z2と同一である。 As shown in FIG. 4, the urging member 500 is arranged between the locking member 400 and the pressing member 200. The connecting shaft 310 of the rotation operation unit 300 is inserted with the urging member 500. The urging member 500 always urges the locking member 400 upward. The urging member 500 urges the locking member 400 toward the first engaging portion E1 side. As will be described later, the locking member 400 has a first position where the second engaging portion E2 and the first engaging portion E1 are engaged, and the engagement between the second engaging portion E2 and the first engaging portion. Is configured to be able to move to the second position where is released. The urging member 500 urges the locking member 400 toward the first position. The direction in which the locking member 400 is pressed against the first engaging portion E1 by the urging member 500 is the same as the rotation axis Z2.
 本体部材100と、押圧部材200と、回動操作部300と、係止部材400との関係は次の通りである。 The relationship between the main body member 100, the pressing member 200, the rotation operation unit 300, and the locking member 400 is as follows.
 回動操作部300の基部302は、本体部材100の上壁106の上に載せられている。本体部材100において、基部302及びレバー部304は外部に露出している。連結軸310及び凸部308は貫通孔124に挿通されており、回動操作部300は連結軸310を中心として回動する。連結軸310は、係止部材400の貫通孔408を通過し、更に付勢部材500を通過して、押圧部材200の連結孔220に嵌め込まれている。連結軸310は、回動連結部306として、係止部材400及び押圧部材200に回動操作部300の回動を伝達する。回動操作部300は、係止部材400及び押圧部材200と共に回動する。 The base 302 of the rotation operation unit 300 is placed on the upper wall 106 of the main body member 100. In the main body member 100, the base portion 302 and the lever portion 304 are exposed to the outside. The connecting shaft 310 and the convex portion 308 are inserted through the through hole 124, and the rotation operating portion 300 rotates about the connecting shaft 310. The connecting shaft 310 passes through the through hole 408 of the locking member 400, further passes through the urging member 500, and is fitted into the connecting hole 220 of the pressing member 200. The connecting shaft 310, as the rotating connecting portion 306, transmits the rotation of the rotating operating portion 300 to the locking member 400 and the pressing member 200. The rotation operation unit 300 rotates together with the locking member 400 and the pressing member 200.
 押圧部材200の保持係止部230は、回動操作部300の保持部314に係合している(図3参照)。保持係止部230は周方向の複数箇所(3箇所)に設けられた爪により構成され(図6(d)参照)、これらの爪が保持部314(くびれ部)に入り込んでいる。この係合により、押圧部材200が回動操作部300に保持され、本体部材100の内部において押圧部材200の軸方向位置が維持されている。 The holding locking portion 230 of the pressing member 200 is engaged with the holding portion 314 of the rotation operating portion 300 (see FIG. 3). The holding locking portion 230 is composed of claws provided at a plurality of locations (three locations) in the circumferential direction (see FIG. 6D), and these claws enter the holding portion 314 (constricted portion). By this engagement, the pressing member 200 is held by the rotation operation unit 300, and the axial position of the pressing member 200 is maintained inside the main body member 100.
 回動操作部300の凸部308(図7(b)参照)は、係止部材400の凹部410(図8(a))に係合している。係止部材400の環状突起416は、本体部材100の貫通孔124に挿入されている。貫通孔124の内側において、凸部308と凹部410とが係合している。この係合は、係止部材400と回動操作部300との一体的な回動に寄与している。環状突起416の外周面は貫通孔124の内周面に当接しており、押圧部材200、回動操作部300及び係止部材400の回転中心線が画定されている。 The convex portion 308 (see FIG. 7 (b)) of the rotation operation portion 300 is engaged with the concave portion 410 (FIG. 8 (a)) of the locking member 400. The annular protrusion 416 of the locking member 400 is inserted into the through hole 124 of the main body member 100. Inside the through hole 124, the convex portion 308 and the concave portion 410 are engaged with each other. This engagement contributes to the integral rotation of the locking member 400 and the rotation operation unit 300. The outer peripheral surface of the annular protrusion 416 is in contact with the inner peripheral surface of the through hole 124, and the rotation center lines of the pressing member 200, the rotation operating portion 300, and the locking member 400 are defined.
 係止部材400の凹部414(図8(a)参照)は、押圧部材200の凸部224(図6(a))に係合している。この係合は、係止部材400と押圧部材200との一体的な回動に寄与している。 The concave portion 414 of the locking member 400 (see FIG. 8A) is engaged with the convex portion 224 (FIG. 6A) of the pressing member 200. This engagement contributes to the integral rotation of the locking member 400 and the pressing member 200.
 係止部材400の下方延在部412(図8(d)参照)は、押圧部材200の凹部222に係合している。この係合は、係止部材400と押圧部材200との一体的な回動に寄与している。 The downward extending portion 412 of the locking member 400 (see FIG. 8D) is engaged with the recess 222 of the pressing member 200. This engagement contributes to the integral rotation of the locking member 400 and the pressing member 200.
 このように、各部材200,300、400に設けられた回動連結部同士の係合により、押圧部材200と回動操作部300と係止部材400とは一体的に回動する。ただし、係止部材400は、軸方向に遊びを有した状態で取り付けられている。図2には、凹部222の底面と下方延在部412の下端面との間の隙間S1が示されている。この隙間S1は、この遊びを確保している。この遊びは、回動操作部300に保持されている押圧部材200と上壁106との軸方向距離を調節することで、設定されうる。この遊びに起因して、係止部材400は、押圧部材200に対して、軸方向に(僅かに)移動しうる。係止部材400は、上壁106(下面122)に対して、軸方向に(僅かに)移動しうる。係止部材400は、第2係合部E2が第1係合部E1と係合する第1位置と、第2係合部E2と第1係合部E1との係合が解除される第2位置とに移動することができる。この位置変化は、押圧部材200、回動操作部300及び係止部材400の一体回転性を損なわない。係止部材400の軸方向位置に関わらず、押圧部材200、回動操作部300及び係止部材400は一体的に回動する。 In this way, the pressing member 200, the rotation operating portion 300, and the locking member 400 rotate integrally due to the engagement between the rotating connecting portions provided on the members 200, 300, and 400. However, the locking member 400 is attached with play in the axial direction. FIG. 2 shows a gap S1 between the bottom surface of the recess 222 and the lower end surface of the downward extending portion 412. This gap S1 secures this play. This play can be set by adjusting the axial distance between the pressing member 200 held by the rotation operation unit 300 and the upper wall 106. Due to this play, the locking member 400 can move (slightly) axially with respect to the pressing member 200. The locking member 400 can move (slightly) axially with respect to the upper wall 106 (lower surface 122). In the locking member 400, the first position where the second engaging portion E2 engages with the first engaging portion E1 and the engagement between the second engaging portion E2 and the first engaging portion E1 are released. It can be moved to two positions. This position change does not impair the integral rotation of the pressing member 200, the rotating operation unit 300, and the locking member 400. The pressing member 200, the rotation operation unit 300, and the locking member 400 rotate integrally regardless of the axial position of the locking member 400.
 前述の通り、本体部材100には、第1係合部E1が設けられている(図5(c)参照)。また、係止部材400には、第2係合部E2が設けられている(図8(a))。第1係合部E1は第2係合部E2側(下側)に突出している。第1係合部E1と第2係合部E2とは係合しうる。第1係合部E1と第2係合部E2とが係合すると、本体部材100に対して係止部材400は回動できない。第1係合部E1と第2係合部E2との係合は、係止部材400の回動を阻害する。すなわち、この係合は、押圧部材200、回動操作部300及び係止部材400の回動を阻害する。付勢部材500により、第2係合部E2は常時第1係合部E1に押し付けられている。付勢部材500により、第2係合部E2は常時第1係合部E1に係合している。 As described above, the main body member 100 is provided with the first engaging portion E1 (see FIG. 5C). Further, the locking member 400 is provided with a second engaging portion E2 (FIG. 8A). The first engaging portion E1 projects toward the second engaging portion E2 side (lower side). The first engaging portion E1 and the second engaging portion E2 can be engaged with each other. When the first engaging portion E1 and the second engaging portion E2 are engaged, the locking member 400 cannot rotate with respect to the main body member 100. The engagement between the first engaging portion E1 and the second engaging portion E2 hinders the rotation of the locking member 400. That is, this engagement hinders the rotation of the pressing member 200, the rotation operating portion 300, and the locking member 400. The second engaging portion E2 is constantly pressed against the first engaging portion E1 by the urging member 500. The second engaging portion E2 is always engaged with the first engaging portion E1 by the urging member 500.
 図9は、固定状態及び解除状態におけるホース接続具10の斜視図である。図10は、固定状態及び解除状態におけるホース接続具10を水栓側から見た正面図である。図11は、固定状態及び解除状態におけるホース接続具10の断面図である。図11の固定状態は図10のA-A線に沿った断面図であり、図11の解除状態は図10のB-B線に沿った断面図である。 FIG. 9 is a perspective view of the hose connector 10 in the fixed state and the released state. FIG. 10 is a front view of the hose connector 10 in the fixed state and the released state as viewed from the faucet side. FIG. 11 is a cross-sectional view of the hose connector 10 in the fixed state and the released state. The fixed state of FIG. 11 is a cross-sectional view taken along the line AA of FIG. 10, and the released state of FIG. 11 is a cross-sectional view taken along the line BB of FIG.
 図9が示すように、固定状態から解除状態への移行では、回動操作部300は、方向R1に回動される。この方向R1が緩み方向と称される。解除状態から固定状態への移行では、回動操作部300は、方向R2に回動される。この方向R2が締め付け方向と称される。 As shown in FIG. 9, in the transition from the fixed state to the released state, the rotation operation unit 300 is rotated in the direction R1. This direction R1 is called the loosening direction. In the transition from the released state to the fixed state, the rotation operation unit 300 is rotated in the direction R2. This direction R2 is called the tightening direction.
[固定状態]
 吐水管f3が吐水管挿入部530に挿入された状態で、押圧部材200で吐水管f3を押圧することで、ホース接続具10が水栓f1に固定される(図2参照)。前述の通り、押圧部材200の押圧当接面M1の軸方向位置は、押圧当接面M1の周方向位置によって変化している。このため、押圧部材200の回動により、吐水管f3と押圧当接面M1との距離が変動する。図2及び図3が示すように、吐水管f3は、水栓本体f2側から吐水口f6に向かって下側に延びている。このため、受入開口108の近傍では、吐水管f3は比較的上側に位置する。押圧部材200を締め付け方向R2に回動することで、受入開口108側の周方向位置において、押圧当接面M1の軸方向位置が下がる(図9から図11参照)。押圧部材200を回動することで、押圧当接面M1が吐水管f3に当接する。
[Fixed state]
The hose connector 10 is fixed to the faucet f1 by pressing the water discharge pipe f3 with the pressing member 200 in a state where the water discharge pipe f3 is inserted into the water discharge pipe insertion portion 530 (see FIG. 2). As described above, the axial position of the pressing contact surface M1 of the pressing member 200 changes depending on the circumferential position of the pressing contact surface M1. Therefore, the distance between the water discharge pipe f3 and the pressing contact surface M1 fluctuates due to the rotation of the pressing member 200. As shown in FIGS. 2 and 3, the water discharge pipe f3 extends downward from the faucet main body f2 side toward the water discharge port f6. Therefore, in the vicinity of the receiving opening 108, the water discharge pipe f3 is located relatively on the upper side. By rotating the pressing member 200 in the tightening direction R2, the axial position of the pressing contact surface M1 is lowered at the circumferential position on the receiving opening 108 side (see FIGS. 9 to 11). By rotating the pressing member 200, the pressing contact surface M1 comes into contact with the water discharge pipe f3.
 締め付け方向R2の回動では、押圧当接面M1が吐水管f3に当接するまで、回動操作部300が回される。更に、ホース接続具10が固定されるまで、回動操作部300が締め付け方向R2に回される。前述の通り、付勢部材500により第2係合部E2は第1係合部E1に常時係合している。この係合力に打ち勝つ力で回動操作部300を操作することで、回動操作部300を回動させることができる。前述した遊びに起因して、係止部材400は、第2係合部E2と第1係合部E1との係合が解除される位置(第2位置)に移動しうる。操作力を高めることで、付勢部材500の付勢力に抗して係止部材400が下がり、回動操作部300が回動する。この操作力が過大とならないように、付勢部材500の付勢力(ばね定数)が設定される。この操作力が過大とならないように、レバー部304の長さが設定される。 In the rotation of the tightening direction R2, the rotation operation unit 300 is rotated until the pressing contact surface M1 abuts on the water discharge pipe f3. Further, the rotation operation unit 300 is rotated in the tightening direction R2 until the hose connector 10 is fixed. As described above, the second engaging portion E2 is always engaged with the first engaging portion E1 by the urging member 500. By operating the rotation operation unit 300 with a force that overcomes this engaging force, the rotation operation unit 300 can be rotated. Due to the play described above, the locking member 400 can move to a position (second position) where the engagement between the second engaging portion E2 and the first engaging portion E1 is released. By increasing the operating force, the locking member 400 is lowered against the urging force of the urging member 500, and the rotation operating portion 300 rotates. The urging force (spring constant) of the urging member 500 is set so that this operating force does not become excessive. The length of the lever portion 304 is set so that this operating force is not excessive.
 水栓f1から水が吐出されると、水圧により水栓f10は吐水方向の力を受ける。この力により、押圧当接面M1の押圧力が高まる。この押圧力は、軸方向下向きの成分を含んでいる。押圧力が高まると、第2係合部E2が第1係合部E1に強く押し付けられる。この押圧力の反力は、軸方向上向きの成分を含む。水圧により、係止部材400が上側に押され、第1係合部E1と第2係合部E2との接触圧が高まる。この結果、係合部E1,E2同士の係合力が高まり、回動操作部300が緩み方向R1に回動しにくくなる。ホース接続具10は、水圧によって外れにくい。ホース接続具10は、耐水圧性能に優れる。 When water is discharged from the faucet f1, the faucet f10 receives a force in the water discharge direction due to the water pressure. Due to this force, the pressing force of the pressing contact surface M1 increases. This pressing force contains an axially downward component. When the pressing force is increased, the second engaging portion E2 is strongly pressed against the first engaging portion E1. The reaction force of this pressing force includes an axially upward component. The water pressure pushes the locking member 400 upward, and the contact pressure between the first engaging portion E1 and the second engaging portion E2 increases. As a result, the engaging force between the engaging portions E1 and E2 increases, and the rotation operating portion 300 becomes difficult to rotate in the loosening direction R1. The hose connector 10 is hard to come off due to water pressure. The hose connector 10 is excellent in water pressure resistance.
 なお、付勢部材500は、無くてもよい。水圧が作用しているときには、付勢部材500が存在しなくても、第1係合部E1と第2係合部E2との接触圧は高くなる。よって、付勢部材500が無くても、耐水圧性能は達成される。 The urging member 500 may be omitted. When the water pressure is acting, the contact pressure between the first engaging portion E1 and the second engaging portion E2 becomes high even if the urging member 500 is not present. Therefore, the water pressure resistance performance is achieved even without the urging member 500.
 本実施形態では、付勢部材500が設けられている。前述の通り、係止部材400は軸方向に遊びを有している。この遊びにより、係止部材400は、第2係合部E2が第1係合部E1に係合する第1位置から第2係合部E2と第1係合部E1との係合が解除される第2位置まで移動(下降)することができる。よって、第1係合部E1と第2係合部E2との係合に抗して、回動操作部300を回動することができる。その一方で、この遊びは、緩みの原因となりうる。特に、水圧が作用していない状況では、係合部E1,E2同士の接触圧は弱くなり、回動操作部300が緩み方向R1に回転しやすい。回動操作部300を強く締め付けることで、係合部E1,E2同士の接触圧は高まるが、ホース接続具10の姿勢や位置が僅かでも変動すると、押圧当接面M1と吐水管f3との位置関係に変化が生じ、前記接触圧が低下しうる。付勢部材500は、第2係合部E2を第1係合部E1側に付勢することで、水圧が無い状態でも係合部E1,E2同士の係合力が維持され、緩みの発生が抑制される。 In this embodiment, the urging member 500 is provided. As described above, the locking member 400 has play in the axial direction. Due to this play, in the locking member 400, the engagement between the second engaging portion E2 and the first engaging portion E1 is released from the first position where the second engaging portion E2 engages with the first engaging portion E1. It can move (descend) to the second position where it is to be. Therefore, the rotation operation unit 300 can be rotated against the engagement between the first engagement portion E1 and the second engagement portion E2. On the other hand, this play can cause loosening. In particular, in a situation where water pressure is not acting, the contact pressure between the engaging portions E1 and E2 becomes weak, and the rotation operating portion 300 tends to rotate in the loosening direction R1. By strongly tightening the rotation operation portion 300, the contact pressure between the engaging portions E1 and E2 increases, but if the posture or position of the hose connector 10 fluctuates even slightly, the pressing contact surface M1 and the water discharge pipe f3 come into contact with each other. The positional relationship may change and the contact pressure may decrease. By urging the second engaging portion E2 toward the first engaging portion E1, the urging member 500 maintains the engaging force between the engaging portions E1 and E2 even when there is no water pressure, and loosening occurs. It is suppressed.
[解除状態]
 固定状態を解除するには、回動操作部300を緩み方向R1に回動させる。この回動により、押圧部材200の位相が変化し、受入開口108側の周方向位置において押圧当接面M1が上がる(図9から図11参照)。この結果、押圧当接面M1が吐水管f3から離れる(図3参照)。
[Release status]
To release the fixed state, the rotation operation unit 300 is rotated in the loosening direction R1. Due to this rotation, the phase of the pressing member 200 changes, and the pressing contact surface M1 rises at the circumferential position on the receiving opening 108 side (see FIGS. 9 to 11). As a result, the pressing contact surface M1 is separated from the water discharge pipe f3 (see FIG. 3).
 固定状態において、押圧当接面M1は吐水管f3を押圧している。係合部E1,E2同士の係合力は高い。すなわち、この係合力は、水圧(静水圧及び動水圧)の有無に関わらず、不随意に加わる力や各種の振動に対して係合が解除されない程度には十分に高い。しかし、特に水圧が作用していない場合には、この係合力に抗して、回動操作部300を緩み方向R1に回動させることができる。所定以上の操作力を付与することで、付勢部材500の付勢力に抗して係合部E1,E2同士の係合を解除させつつ、回動操作部300を緩み方向R1に回動させることができる。水圧が作用している状態に比べて、水圧が作用していない状態のほうが、係合部E1,E2同士の接触圧が小さい。水圧が作用している状態に比べて、水圧が作用していない状態のほうが、緩み方向R1への回動に要する操作力は少なくて済む。水圧が作用している状況では係合部E1,E2同士の係合を解除することが困難である。このため、水圧が作用している通水状態において、操作ミスによる当該係合の解除を防止することが出来る。  In the fixed state, the pressing contact surface M1 presses the water discharge pipe f3. The engaging force between the engaging portions E1 and E2 is high. That is, this engaging force is sufficiently high so that the engaging force is not released by an involuntary force or various vibrations regardless of the presence or absence of water pressure (hydrostatic pressure and hydrodynamic pressure). However, especially when water pressure is not acting, the rotation operation unit 300 can be rotated in the loosening direction R1 against this engaging force. By applying an operating force equal to or higher than a predetermined value, the rotating operating portion 300 is rotated in the loosening direction R1 while disengaging the engaging portions E1 and E2 against the urging force of the urging member 500. be able to. The contact pressure between the engaging portions E1 and E2 is smaller in the state where the water pressure is not acting than in the state where the water pressure is acting. The operating force required for rotation in the loosening direction R1 is smaller in the state where the water pressure is not acting than in the state where the water pressure is acting. It is difficult to disengage the engaging portions E1 and E2 from each other in a situation where water pressure is applied. Therefore, it is possible to prevent the disengagement due to an operation error in the water flow state in which the water pressure is applied.
 吐水管f3が挿入された状態では、ホース接続具10は、吐水管f3に対してほとんど回動できない。ただし、受入開口108と吐水管f3との間には僅かに隙間があるので、ホース接続具10は水栓f1に対して僅かに回動しうる。固定状態から回動操作部300を緩み方向R1に回動させるとき、回動操作部300でなく、ホース接続具10全体が、水栓f1に対して僅かに回動しうる。このホース接続具10全体の動きに起因して、吐水管f3と押圧当接面M1との位置関係が僅かに変化し、押圧当接面M1が吐水管f3に付加する押圧力が低下しうる。このため、固定状態において回動操作部300を強く締め付けていても、回動操作部300を緩み方向R1に回動させようとするときに、係合部E1,E2同士の接触圧が低下しうる。また、回動操作部300が回動しにくい場合でも、回動操作部300に繰り返し操作力を加えると、ホース接続具10の姿勢又は位置が変化し、吐水管f3と押圧当接面M1との位置関係の変化が徐々に進行しうる。更に、ホース接続具10の各部材には撓み(弾性変形)が生ずる。したがって、固定状態において回動操作部300を強く締め付けていても、比較的容易に、回動操作部300を緩み方向R1に回動することができる。 With the water discharge pipe f3 inserted, the hose connector 10 can hardly rotate with respect to the water discharge pipe f3. However, since there is a slight gap between the receiving opening 108 and the water discharge pipe f3, the hose connector 10 can rotate slightly with respect to the faucet f1. When the rotation operation unit 300 is rotated in the loosening direction R1 from the fixed state, not the rotation operation unit 300 but the entire hose connector 10 can rotate slightly with respect to the faucet f1. Due to the movement of the entire hose connector 10, the positional relationship between the water discharge pipe f3 and the pressing contact surface M1 may change slightly, and the pressing force applied to the water discharge pipe f3 by the pressing contact surface M1 may decrease. .. Therefore, even if the rotation operation portion 300 is strongly tightened in the fixed state, the contact pressure between the engagement portions E1 and E2 decreases when the rotation operation portion 300 is to be rotated in the loosening direction R1. sell. Further, even when the rotation operation unit 300 is difficult to rotate, when an operation force is repeatedly applied to the rotation operation unit 300, the posture or position of the hose connector 10 changes, and the water discharge pipe f3 and the pressing contact surface M1 Changes in the positional relationship of the can progress gradually. Further, each member of the hose connector 10 is bent (elastically deformed). Therefore, even if the rotation operation unit 300 is strongly tightened in the fixed state, the rotation operation unit 300 can be rotated in the loosening direction R1 relatively easily.
 上述の通り、係止部材400における前記遊びは、緩み方向R1への回動に要する操作力の低減に寄与する。ただし、この遊びは、無くてもよい。例えば、第1係合部E1及び/又は第2係合部E2の凸部を弾性変形が容易な材質とすることで、係止部材400の変位を伴わずに、係合部E1,E2同士の係合力に抗した緩み方向R1への回動が可能となる。また後述のように、係合部E1,E2同士の係合が摩擦係合とされた場合にも、係止部材400の変位を伴わずに、係合部E1,E2同士の係合力に抗した緩み方向R1への回動が可能となる。この遊びが無い場合、付勢部材500は不要とされうる。 As described above, the play in the locking member 400 contributes to the reduction of the operating force required for rotation in the loosening direction R1. However, this play may not be necessary. For example, by making the convex portions of the first engaging portion E1 and / or the second engaging portion E2 a material that can be easily elastically deformed, the engaging portions E1 and E2 do not displace the locking member 400. It is possible to rotate in the loosening direction R1 against the engaging force of. Further, as described later, even when the engagement between the engaging portions E1 and E2 is a frictional engagement, the engaging force between the engaging portions E1 and E2 is resisted without the displacement of the locking member 400. It is possible to rotate in the loosening direction R1. Without this play, the urging member 500 may be unnecessary.
 図12(a)は押圧部材250を上側から見た斜視図であり、図12(b)は押圧部材250の平面図であり、図12(c)は押圧部材250の側面図であり、図12(d)は押圧部材250を下側から見た斜視図であり、図12(e)は押圧部材250の底面図である。 12 (a) is a perspective view of the pressing member 250 as viewed from above, FIG. 12 (b) is a plan view of the pressing member 250, and FIG. 12 (c) is a side view of the pressing member 250. 12 (d) is a perspective view of the pressing member 250 as viewed from below, and FIG. 12 (e) is a bottom view of the pressing member 250.
 押圧部材250は、回動連結部252と、側壁部254とを有する。側壁部254は、回動連結部252の周囲に形成されている。側壁部254は、円周外面258及び円周内面260を有する。押圧部材250は、周方向の一部が欠落した欠け部262を有する。 The pressing member 250 has a rotary connecting portion 252 and a side wall portion 254. The side wall portion 254 is formed around the rotary connecting portion 252. The side wall portion 254 has a circumferential outer surface 258 and a circumferential inner surface 260. The pressing member 250 has a chipped portion 262 in which a part in the circumferential direction is missing.
 側壁部254は、押圧部材250の回転軸線Z2からの距離が周方向位置によって徐々に変化する半径方向距離変化部264を有する。半径方向距離変化部264は、側壁部254の下部に形成されている。 The side wall portion 254 has a radial distance changing portion 264 in which the distance of the pressing member 250 from the rotation axis Z2 gradually changes depending on the circumferential position. The radial distance changing portion 264 is formed in the lower portion of the side wall portion 254.
 押圧部材250は、押圧当接面M2を有する。本実施形態では、押圧当接面M2は、押圧部材250の下端面266である。押圧当接面M2は、半径方向距離変化部264の下端面266である。押圧当接面M2は、回転軸線Z2の回りに延在している。押圧当接面M2は、回転軸線Z2に対して傾斜した部分を有している。また、押圧当接面M2は、回転軸線Z2に対して垂直な部分を有している。図12(c)がよく示すように、押圧当接面M2は、階段状に形成されている。押圧当接面M2は、周方向に移動するにつれて軸方向位置が変わる部分を有している。押圧当接面M2(下端面266)の軸方向位置は、その周方向位置によって徐々に又は段階的に変化している。押圧当接面M2の軸方向位置は、その位相によって変化している。 The pressing member 250 has a pressing contact surface M2. In the present embodiment, the pressing contact surface M2 is the lower end surface 266 of the pressing member 250. The pressing contact surface M2 is a lower end surface 266 of the radial distance changing portion 264. The pressing contact surface M2 extends around the rotation axis Z2. The pressing contact surface M2 has a portion inclined with respect to the rotation axis Z2. Further, the pressing contact surface M2 has a portion perpendicular to the rotation axis Z2. As is well shown in FIG. 12 (c), the pressing contact surface M2 is formed in a stepped shape. The pressing contact surface M2 has a portion whose axial position changes as it moves in the circumferential direction. The axial position of the pressing contact surface M2 (lower end surface 266) changes gradually or stepwise depending on its circumferential position. The axial position of the pressing contact surface M2 changes depending on its phase.
 回動連結部252は、連結孔270と、凹部272と、凸部274とを有する。連結孔270は、断面形状が非円形の連結孔である。凹部272の断面形状は非円形である。凹部272は、その内側に連結孔270を形成する孔形成壁部276の外面を第1の側面とし、円周内面260を第2の側面としている。孔形成壁部227の外面は角柱の外面の形状を呈している。凸部274は、周方向の2箇所に設けられている。凸部274は、孔形成壁部276と円周内面260との間に延びている。 The rotary connecting portion 252 has a connecting hole 270, a concave portion 272, and a convex portion 274. The connecting hole 270 is a connecting hole having a non-circular cross-sectional shape. The cross-sectional shape of the recess 272 is non-circular. The outer surface of the hole-forming wall portion 276 that forms the connecting hole 270 inside the recess 272 is the first side surface, and the circumferential inner surface 260 is the second side surface. The outer surface of the hole-forming wall portion 227 has the shape of the outer surface of a prism. The convex portions 274 are provided at two locations in the circumferential direction. The convex portion 274 extends between the hole forming wall portion 276 and the circumferential inner surface 260.
 この押圧部材250(図12(a)~(e))と、前述した押圧部材200(図6(a)~(e))との相違は、押圧当接面の形状である。第1実施形態の押圧当接面M1及び第2実施形態の押圧当接面M2では、周方向位置によって軸方向位置が変化している。押圧当接面M1及び押圧当接面M2では、回転軸線Z2を中心とする押圧部材の回動により吐水管f3(曲がり部f5)との距離が変動する。 The difference between the pressing member 250 (FIGS. 12 (a) to (e)) and the above-mentioned pressing member 200 (FIGS. 6 (a) to 6 (e)) is the shape of the pressing contact surface. The axial position of the pressing contact surface M1 of the first embodiment and the pressing contact surface M2 of the second embodiment changes depending on the circumferential position. On the pressing contact surface M1 and the pressing contact surface M2, the distance from the water discharge pipe f3 (bent portion f5) fluctuates due to the rotation of the pressing member about the rotation axis Z2.
 図6(d)が示すように、押圧当接面M1は、第1端t1と第2端t2とを有する。第1端t1から第2端t2までにおいて、第2端t2の軸方向位置は、第1端t1の軸方向位置よりも下側である。押圧当接面M1の軸方向位置は、第2端t2に近づくにつれて徐々に下がっている。押圧当接面M1では、あらゆる周方向位置において、軸方向に対して傾斜している。図12(d)が示すように、押圧当接面M2は、第1端t1と第2端t2とを有する。第1端t1から第2端t2までにおいて、押圧当接面M2の軸方向位置は、第2端t2に近づくにつれて段階的に又は徐々に下がっている。押圧当接面M2は、軸方向に垂直な部分と、軸方向に対して傾斜した部分とを有している。押圧当接面M1では、周方向位置が第2端t2に近づくにつれて軸方向位置が下がっている。押圧当接面M2は、周方向位置が第2端t2に近づくにつれて軸方向位置が下がる部分と軸方向位置が一定である部分とを有している。押圧当接面M1及び押圧当接面M2には、周方向位置が第2端t2に近づくにつれて軸方向位置が上がる部分は存在しない。 As shown in FIG. 6D, the pressing contact surface M1 has a first end t1 and a second end t2. From the first end t1 to the second end t2, the axial position of the second end t2 is lower than the axial position of the first end t1. The axial position of the pressing contact surface M1 gradually decreases as it approaches the second end t2. The pressing contact surface M1 is inclined with respect to the axial direction at all circumferential positions. As shown in FIG. 12D, the pressing contact surface M2 has a first end t1 and a second end t2. From the first end t1 to the second end t2, the axial position of the pressing contact surface M2 gradually or gradually decreases as it approaches the second end t2. The pressing contact surface M2 has a portion perpendicular to the axial direction and a portion inclined with respect to the axial direction. On the pressing contact surface M1, the axial position is lowered as the circumferential position approaches the second end t2. The pressing contact surface M2 has a portion where the axial position is lowered as the circumferential position approaches the second end t2 and a portion where the axial position is constant. The pressing contact surface M1 and the pressing contact surface M2 do not have a portion where the axial position rises as the circumferential position approaches the second end t2.
 押圧当接面M1及び押圧当接面M2は、螺旋に沿って形成された斜面及び/又は階段面である。斜面とは、回転軸線Z2に対して傾斜した面である。この斜面の回転軸線Z2に対する角度は、一定であってもよいし、変化していてもよい。この斜面は、平面であってもよいし、曲面であってもよい。階段面とは、回転軸線Z2に対して垂直な面と回転軸線Z2に対して垂直でない面とが交互に配置された面である。回転軸線Z2に対して垂直でない面は、回転軸線Z2を含む平面、回転軸線Z2に平行な平面および回転軸線Z2に対して傾斜した面を含む。このような押圧当接面M1及び押圧当接面M2は、固定状態において吐水管f3を押さえ込むことができ、且つ、解除状態においてホース接続具10への吐水管f3の挿入を阻害しない。 The pressing contact surface M1 and the pressing contact surface M2 are slopes and / or staircase surfaces formed along a spiral. The slope is a surface that is inclined with respect to the rotation axis Z2. The angle of the slope with respect to the rotation axis Z2 may be constant or may change. This slope may be a flat surface or a curved surface. The staircase surface is a surface in which surfaces perpendicular to the rotation axis Z2 and surfaces not perpendicular to the rotation axis Z2 are alternately arranged. A plane that is not perpendicular to the rotation axis Z2 includes a plane that includes the rotation axis Z2, a plane that is parallel to the rotation axis Z2, and a plane that is inclined with respect to the rotation axis Z2. Such a pressing contact surface M1 and a pressing contact surface M2 can hold down the water discharge pipe f3 in the fixed state, and do not hinder the insertion of the water discharge pipe f3 into the hose connector 10 in the released state.
 第1係合部E1と第2係合部E2とが係合することで、第1係合部E1と第2係合部E2との間の相対移動が阻害される。この結果、本体部材100に対して係止部材400は回動しない。すなわち、本体部材100に対して、押圧部材200は回動しない。係合部E1,E2同士の係合により、固定状態が維持される。 By engaging the first engaging portion E1 and the second engaging portion E2, the relative movement between the first engaging portion E1 and the second engaging portion E2 is hindered. As a result, the locking member 400 does not rotate with respect to the main body member 100. That is, the pressing member 200 does not rotate with respect to the main body member 100. The fixed state is maintained by engaging the engaging portions E1 and E2 with each other.
 上記実施形態では、第1係合部E1と第2係合部E2との係合が、形状同士の係合による形状係合である。「形状係合」との用語は本願で定義されたものである。形状係合の典型例は、凸部同士の係合及び凸部と凹部との係合である。この形状係合は、第1係合部E1としての1以上の突起と、第2係合部E2としての複数の突起とが噛み合った噛み合い係合を含む。 In the above embodiment, the engagement between the first engaging portion E1 and the second engaging portion E2 is a shape engagement by engaging the shapes with each other. The term "shape engagement" is as defined herein. Typical examples of shape engagement are engagement between convex portions and engagement between convex portions and concave portions. This shape engagement includes meshing engagement in which one or more protrusions as the first engaging portion E1 and a plurality of protrusions as the second engaging portion E2 are meshed with each other.
 第1係合部E1と第2係合部E2との係合は、前記形状係合に限定されない。例えば、第1係合部E1と第2係合部E2との係合は、摩擦力による摩擦係合であってもよい。この場合、第1係合部E1及び第2係合部E2は、例えば平面とされうる。水圧により第1係合部E1に対する第2係合部E2の押圧力が高まることで、係合部E1,E2同士の接触面における垂直抗力が増加し、摩擦力(静止摩擦力)が増加する。第1係合部E1と第2係合部E2とが摩擦力(静止摩擦力)により係合することでも、上記実施形態と同じ効果が奏される。 The engagement between the first engaging portion E1 and the second engaging portion E2 is not limited to the shape engagement. For example, the engagement between the first engaging portion E1 and the second engaging portion E2 may be a frictional engagement due to a frictional force. In this case, the first engaging portion E1 and the second engaging portion E2 may be, for example, a flat surface. By increasing the pressing force of the second engaging portion E2 with respect to the first engaging portion E1 due to the water pressure, the normal force on the contact surface between the engaging portions E1 and E2 increases, and the frictional force (static frictional force) increases. .. Even when the first engaging portion E1 and the second engaging portion E2 are engaged by a frictional force (static frictional force), the same effect as that of the above embodiment can be obtained.
 本実施形態では、第1係合部E1が本体部材100に設けられている。第1係合部E1は、本体部材100とは別の部材に設けられていてもよい。第1係合部E1は、本体部材100に固定されているか、又は、係合されている。上記実施形態では、第1係合部E1が本体部材100自体に設けられている。第1係合部E1を有する部材が本体部材100とは別の部材であり、この別部材が本体部材100に固定されていてもよい。第1係合部E1を有する部材が本体部材100とは別の部材であり、この別部材が本体部材100に係合されていてもよい。この場合、この係合は、形状係合であってもよいし、摩擦係合であってもよい。例えば、この別部材は、上面及び下面に凹凸を有さず且つ単独で自由に回動しうる状態で配置されたゴム部材とされうる。このゴム部材の上面(平坦面)が本体部材100に摩擦係合していてもよい。更に、このゴム部材の下面(平坦面)が、第1係合部E1として、平坦な第2係合部E2に摩擦係合していてもよい。 In this embodiment, the first engaging portion E1 is provided on the main body member 100. The first engaging portion E1 may be provided on a member different from the main body member 100. The first engaging portion E1 is fixed to or engaged with the main body member 100. In the above embodiment, the first engaging portion E1 is provided on the main body member 100 itself. The member having the first engaging portion E1 is a member different from the main body member 100, and this separate member may be fixed to the main body member 100. The member having the first engaging portion E1 is a member different from the main body member 100, and this separate member may be engaged with the main body member 100. In this case, this engagement may be a shape engagement or a frictional engagement. For example, this separate member may be a rubber member arranged on the upper surface and the lower surface in a state where the upper surface and the lower surface do not have irregularities and can rotate freely independently. The upper surface (flat surface) of the rubber member may be frictionally engaged with the main body member 100. Further, the lower surface (flat surface) of the rubber member may be frictionally engaged with the flat second engaging portion E2 as the first engaging portion E1.
 上記実施形態では、回動操作部300は、レバー部304を有する。レバー部304は、無くてもよい。例えば回動操作部300は、ダイヤルであってもよい。レバー部304により、回転軸線Z3からの距離が増加し、操作力のモーメントが大きくなる。また半径方向外側に突出したレバー部304により、回動操作部300に力を加えやすくなる。この結果、操作力が低減されうる。上述の通り、固定状態から緩み方向R1に回動操作部300を回動する際には、比較的大きな操作力が必要である。レバー部304により、固定状態を解除する際の操作力を抑制することができる。 In the above embodiment, the rotation operation unit 300 has a lever unit 304. The lever portion 304 may be omitted. For example, the rotation operation unit 300 may be a dial. The lever portion 304 increases the distance from the rotation axis Z3 and increases the moment of the operating force. Further, the lever portion 304 protruding outward in the radial direction makes it easier to apply a force to the rotation operation portion 300. As a result, the operating force can be reduced. As described above, when rotating the rotation operation unit 300 in the loosening direction R1 from the fixed state, a relatively large operating force is required. The lever portion 304 can suppress the operating force when releasing the fixed state.
 図7(e)において両矢印D3で示されるのは、回転軸線Z3からレバー部304の先端までの距離である。この距離は、回転軸線Z3に垂直な方向に沿って測定される。操作力を抑制して操作性を高める観点から、距離D3は、18mm以上が好ましく、19mm以上がより好ましく、20mm以上がより好ましい。ホース接続具10の小型化の観点から、距離D3は、23mm以下が好ましく、22mm以下がより好ましく、21mm以下がより好ましい。 In FIG. 7E, the double-headed arrow D3 indicates the distance from the rotation axis Z3 to the tip of the lever portion 304. This distance is measured along the direction perpendicular to the axis of rotation Z3. From the viewpoint of suppressing the operating force and improving the operability, the distance D3 is preferably 18 mm or more, more preferably 19 mm or more, and more preferably 20 mm or more. From the viewpoint of miniaturization of the hose connector 10, the distance D3 is preferably 23 mm or less, more preferably 22 mm or less, and more preferably 21 mm or less.
 前述した実用新案出願公告昭49-7477号公報では、固定ねじ(ボルト)を締め付けることでホース継手を水栓に取り付けている。固定ねじのリード角が大きいと、水圧やホースが引っ張られた際の振動により緩みが生じ易い。このため、実用新案出願公告昭49-7477号公報では、固定ねじのリード角は小さい。リード角が小さいと、固定ねじを締め付けるために要するねじ回しの回数が多くなり、操作性が悪い。本実施形態では、係合部E1,E2による回り止めにより、緩みが生じにくい。このため、押圧当接面のリード角を大きくすることができる。 In the above-mentioned Utility Model Application Publication No. 49-7477, the hose joint is attached to the faucet by tightening the fixing screw (bolt). If the lead angle of the fixing screw is large, loosening is likely to occur due to water pressure or vibration when the hose is pulled. Therefore, in the publication of Utility Model Application Publication No. 49-7477, the lead angle of the fixing screw is small. If the lead angle is small, the number of screwdrivers required to tighten the fixing screw increases, resulting in poor operability. In the present embodiment, loosening is unlikely to occur due to the rotation stopper by the engaging portions E1 and E2. Therefore, the lead angle of the pressing contact surface can be increased.
 少ない回動角度での固定を可能とし、操作性を高める観点から、押圧当接面のリード角θ(図6(c)参照)は、10°以上が好ましく、11°以上がより好ましく、12°以上がより好ましい。緩みにくさの観点から、リード角θは、45°以下が好ましく、40°以下がより好ましく、35°以下がより好ましい。第1実施形態の押圧当接面M1では、リード角θは13°である。リード角θは、回転軸線Z2に垂直な平面と押圧当接面との成す角度である。リード角θは、一定であってもよいし、変化していてもよい。 From the viewpoint of enabling fixing at a small rotation angle and improving operability, the lead angle θ (see FIG. 6C) of the pressing contact surface is preferably 10 ° or more, more preferably 11 ° or more, and 12 More than ° is more preferable. From the viewpoint of resistance to loosening, the lead angle θ is preferably 45 ° or less, more preferably 40 ° or less, and even more preferably 35 ° or less. In the pressing contact surface M1 of the first embodiment, the lead angle θ is 13 °. The lead angle θ is an angle formed by a plane perpendicular to the rotation axis Z2 and a pressing contact surface. The lead angle θ may be constant or may change.
 なお、本願におけるリード角θは、平均リード角であってもよい。この平均リード角の概念により、例えば、図12(a)~(e)に示される押圧当接面M2でもリード角θを決定することができる。押圧当接面の長手方向長さをL1とし、第1端t1と第2端t2との間の軸方向距離をD1とする(図6(c))とき、平均リード角θaは次の式を解くことで算出されうる。
  tanθa =D1/L1
 なお、長さL1は、押圧当接面の幅方向中心点の集合により構成される中心線を平面視で見たときの長さ(道のり長さ)である。この平面視とは、図6(e)の底面図を意味する。
The lead angle θ in the present application may be an average lead angle. Based on this concept of the average lead angle, the lead angle θ can also be determined, for example, by the pressing contact surface M2 shown in FIGS. 12 (a) to 12 (e). When the length of the pressing contact surface in the longitudinal direction is L1 and the axial distance between the first end t1 and the second end t2 is D1 (FIG. 6 (c)), the average lead angle θa is expressed by the following equation. Can be calculated by solving.
tanθa = D1 / L1
The length L1 is the length (distance length) when the center line formed by the set of the center points in the width direction of the pressing contact surface is viewed in a plan view. This plan view means the bottom view of FIG. 6 (e).
 本実施形態では、リード角θを大きくできるので、回動操作部300の回動角度を小さくすることができる。また、回動操作部300の回動角度を360°よりも小さくすることで、回動操作部300(レバー部304)が水栓f1(ハンドルf4)に当たって操作が妨げられる事態が回避されうる(図1参照)。また、回動操作部300の回動角度を360°よりも小さくすることで、押圧部材200に欠け部212を設けることができ(図6(a)~(e)参照)、ホース接続具10への吐水管f3の挿入が容易となる。これらの観点から、回動操作部300の回動可能角度は、300°以下が好ましく、280°以下がより好ましく、260°以下がより好ましい。過大なリード角θを避ける観点から、回動操作部300の回動可能角度は、180°以上が好ましく、200°以上がより好ましく、220°以上がより好ましい。ホース接続具10では、回動操作部300の回動可能角度は240°とされた。 In the present embodiment, since the lead angle θ can be increased, the rotation angle of the rotation operation unit 300 can be reduced. Further, by making the rotation angle of the rotation operation unit 300 smaller than 360 °, it is possible to avoid a situation in which the rotation operation unit 300 (lever unit 304) hits the faucet f1 (handle f4) and the operation is hindered. (See FIG. 1). Further, by making the rotation angle of the rotation operation unit 300 smaller than 360 °, the pressing member 200 can be provided with the chipped portion 212 (see FIGS. 6A to 6E), and the hose connector 10 The water discharge pipe f3 can be easily inserted into the water discharge pipe f3. From these viewpoints, the rotatable angle of the rotation operation unit 300 is preferably 300 ° or less, more preferably 280 ° or less, and more preferably 260 ° or less. From the viewpoint of avoiding an excessive lead angle θ, the rotatable angle of the rotation operating unit 300 is preferably 180 ° or more, more preferably 200 ° or more, and more preferably 220 ° or more. In the hose connector 10, the rotatable angle of the rotating operation unit 300 was set to 240 °.
 図6(e)において両矢印θ1で示されるのは、押圧当接面が存在する周方向角度である。この角度θ1は、第1端t1から第2端t2までの周方向角度である。押圧当接面の機能に鑑みれば、この角度θ1を回動操作部300の回動可能角度より大きくする必要はない。この角度θ1は、回動操作部300の回動可能角度以下であるのが好ましい。回動操作部300の回動可能角度及びリード角θの好ましい範囲、異なる水栓に対する汎用性、及び、押圧部材200に開口部(欠け部212)を設けて吐水管f3の挿入を容易とする観点から、角度θ1は、255°以下が好ましく、235°以下がより好ましく、215°以下がより好ましい。過大なリード角θを避ける観点から、角度θ1は、135°以上が好ましく、155°以上がより好ましく、175°以上がより好ましい。ホース接続具10では、角度θ1は、195°とされた。 In FIG. 6E, the double-headed arrow θ1 indicates the circumferential angle at which the pressing contact surface exists. This angle θ1 is a circumferential angle from the first end t1 to the second end t2. Considering the function of the pressing contact surface, it is not necessary to make this angle θ1 larger than the rotatable angle of the rotating operation unit 300. This angle θ1 is preferably equal to or less than the rotatable angle of the rotation operation unit 300. A preferable range of the rotatable angle and lead angle θ of the rotation operation unit 300, versatility for different faucets, and an opening (chip 212) in the pressing member 200 to facilitate insertion of the water discharge pipe f3. From the viewpoint, the angle θ1 is preferably 255 ° or less, more preferably 235 ° or less, and more preferably 215 ° or less. From the viewpoint of avoiding an excessive lead angle θ, the angle θ1 is preferably 135 ° or more, more preferably 155 ° or more, and more preferably 175 ° or more. In the hose connector 10, the angle θ1 was set to 195 °.
 前述した特開2017-219194号公報では、調節部と逆回転防止部材とを有する実施形態が開示されている。この実施形態では、調節部の逆回転が防止されて緩みにくくなるが、逆回転が防止されているため、固定を解除するのに、上側部材を下側部材から取り外す必要が生じうる。この場合、本体部を上側部材と下側部材とに分けることが必須となる。本体部が一体である場合に比較して、上側部材と下側部材とを係合させた本体部では、当該係合部分に起因して、部材間の動きが生じうる。この部材間の動きにより、蛇口に当接する当接部が水栓から離れる方向に動きうる。この動きは、ホース接続具の固定性を低下させる。 The above-mentioned Japanese Patent Application Laid-Open No. 2017-219194 discloses an embodiment having an adjusting unit and a reverse rotation preventing member. In this embodiment, the reverse rotation of the adjusting portion is prevented and it becomes difficult to loosen, but since the reverse rotation is prevented, it may be necessary to remove the upper member from the lower member in order to release the fixing. In this case, it is essential to divide the main body into an upper member and a lower member. Compared to the case where the main body portion is integrated, in the main body portion in which the upper member and the lower member are engaged, movement between the members may occur due to the engaging portion. Due to the movement between the members, the contact portion in contact with the faucet can move in the direction away from the faucet. This movement reduces the fixation of the hose fitting.
 上記実施形態では、固定状態から回動操作部300を緩み方向R1に回動させることが可能である。よって、本体部材を全体として一体とすることができる。この結果、固定状態において押圧当接面M1が動きにくく、緩みが生じにくい。 In the above embodiment, the rotation operation unit 300 can be rotated in the loosening direction R1 from the fixed state. Therefore, the main body member can be integrated as a whole. As a result, the pressing contact surface M1 is difficult to move in the fixed state, and loosening is unlikely to occur.
 前述した特開2017-219194号公報では、複数の部材を組み合わせて使用するため、特に使用開始時点において、使用方法が直感的に分かりにくい場合がある。また、複数の部材に分かれているため、部材を紛失するリスクがある。また、リング係合体のような別部材を用いる場合、落下した当該部材を踏むなどして破損してしまうリスクもある。上記実施形態では、使用時に分離している部材がないため、このような問題は生じない。 In the above-mentioned Japanese Patent Application Laid-Open No. 2017-219194, since a plurality of members are used in combination, it may be difficult to intuitively understand the usage method, especially at the start of use. Moreover, since it is divided into a plurality of members, there is a risk of losing the members. Further, when another member such as a ring engaging body is used, there is a risk that the member may be damaged by stepping on the dropped member. In the above embodiment, since there is no member separated at the time of use, such a problem does not occur.
 第1係合部E1を構成する凸部140の数は、限定されない。凸部140の数は、1つでもよいし、複数でもよい。押圧部材200の回り止めの観点、更に、一部の凸部140に破損又は摩耗が生じた際の予備の観点から、凸部140の数は、2以上が好ましく、3以上がより好ましい。凸部140の数を抑制することで、操作に最低限必要な力が小さくなり、操作性が向上する。また、凸部140の数を抑制することで、金型による成形が容易となる。これらの観点から、凸部140の数は、10以下が好ましく、8以下がより好ましく、6以下がより好ましい。 The number of convex portions 140 constituting the first engaging portion E1 is not limited. The number of convex portions 140 may be one or a plurality. The number of convex portions 140 is preferably 2 or more, and more preferably 3 or more, from the viewpoint of preventing the pressing member 200 from rotating, and further, from the viewpoint of reserve when a part of the convex portions 140 is damaged or worn. By suppressing the number of convex portions 140, the minimum force required for operation is reduced, and operability is improved. Further, by suppressing the number of convex portions 140, molding by a mold becomes easy. From these viewpoints, the number of convex portions 140 is preferably 10 or less, more preferably 8 or less, and more preferably 6 or less.
 ホース接続具10は、横水栓、横水栓(自在形)及び横水栓(吐水口回転形)に対応している。上述の通り、これら3種類の水栓は、JIS B 2061で規定されている。また、これらの水栓に類似した吐水管f3及び曲がり部f5を有する他の水栓(化学水栓等)にも対応可能である。また、寸法を調整することで、立水栓等にも対応可能である。 The hose connector 10 is compatible with horizontal faucets, horizontal faucets (universal type) and horizontal faucets (rotating spout). As described above, these three types of faucets are specified in JIS B 2061. Further, other faucets (chemical faucets, etc.) having a spout pipe f3 and a bent portion f5 similar to these faucets can also be used. In addition, by adjusting the dimensions, it is possible to handle standing faucets and the like.
 図11が示すように、吐水管挿入部530(の内面)は、パッキン510の上側に隣接する上側形成部532と、パッキン510が吐水管f3によって変形したときに当該変形部分が収まる空間を形成する空間形成部534と、空間形成部534の下側に隣接する下側形成部536と、下側形成部536の下側に隣接する内面凹部538とを有する。下側形成部536は突起である。空間形成部534と内面凹部538とが凹部を形成しているため、これらの間にある下側形成部536は突起を構成している。下側形成部536と内面凹部538との境界に下向き面540が形成されている。下向き面540は下側形成部536の下面である。内面凹部538の下側には、吐水管挿入部530の内側に向かって突出するリブ542が形成されている。リブ542は、軸方向に延びている。 As shown in FIG. 11, the water discharge pipe insertion portion 530 (inner surface) forms a space in which the upper forming portion 532 adjacent to the upper side of the packing 510 and the deformed portion are accommodated when the packing 510 is deformed by the water discharge pipe f3. It has a space forming portion 534, a lower forming portion 536 adjacent to the lower side of the space forming portion 534, and an inner surface recess 538 adjacent to the lower side of the lower forming portion 536. The lower forming portion 536 is a protrusion. Since the space forming portion 534 and the inner surface concave portion 538 form a concave portion, the lower forming portion 536 between them constitutes a protrusion. A downward surface 540 is formed at the boundary between the lower forming portion 536 and the inner surface recess 538. The downward surface 540 is the lower surface of the lower forming portion 536. A rib 542 protruding inward of the water discharge pipe insertion portion 530 is formed on the lower side of the inner surface recess 538. The rib 542 extends axially.
 図2及び図3に示されるように、横水栓の場合、固定状態において、吐水管f3の先端部は下側形成部536に当接する。また、ホース接続具10の姿勢によっては、横水栓の吐水管f3は上側形成部532にも当接しうる。横水栓(自在形)の場合、固定状態において、吐水管f3の先端部は、内面凹部538に配置される。横水栓(自在形)の吐水管f3の先端部には、吐水口f6のエッジに沿って環状突出縁部(フランジ部)が形成されている。この環状突出縁部が内面凹部538(下向き面540)に係合する。横水栓(吐水口回転形)の場合、固定状態において、吐水管f3の先端部は、内面凹部538の下側のリブ542に当接する。 As shown in FIGS. 2 and 3, in the case of a horizontal faucet, the tip end portion of the water discharge pipe f3 abuts on the lower forming portion 536 in the fixed state. Further, depending on the posture of the hose connector 10, the water discharge pipe f3 of the horizontal faucet may also come into contact with the upper forming portion 532. In the case of a horizontal faucet (universal type), the tip end portion of the water discharge pipe f3 is arranged in the inner surface recess 538 in the fixed state. An annular protruding edge (flange portion) is formed along the edge of the spout port f6 at the tip of the spout pipe f3 of the horizontal faucet (universal type). This annular protruding edge engages the inner surface recess 538 (downward surface 540). In the case of a horizontal faucet (rotating spout), the tip of the spout pipe f3 abuts on the lower rib 542 of the inner surface recess 538 in the fixed state.
 形状の異なる水栓に対する汎用性を高める観点から、前記軸方向距離D1(図6(c))は、5mm以上が好ましく、6mm以上がより好ましく、7mm以上がより好ましい。リード角θ及び回動可能角度の好ましい範囲を考慮すると、軸方向距離D1は、10mm以下が好ましく、9mm以下がより好ましく、8mm以下がより好ましい。 From the viewpoint of increasing versatility for faucets having different shapes, the axial distance D1 (FIG. 6 (c)) is preferably 5 mm or more, more preferably 6 mm or more, and more preferably 7 mm or more. Considering the preferable ranges of the lead angle θ and the rotatable angle, the axial distance D1 is preferably 10 mm or less, more preferably 9 mm or less, and more preferably 8 mm or less.
 水圧でホース接続具10が水栓f1から抜けようとするとき、ホース接続具10は、曲がり部f5の曲がりに沿って回転しようとする。下側当接部132の当接力の反力は、ホース接続具10に、当該回転とは逆方向の回転モーメントを与える。下側当接部132により、ホース接続具10が水栓f1から抜けるときに生ずるホース接続具10の回転が抑制される。下側当接部132は、水圧によるホース接続具10の抜けを効果的に抑制しうる。下側当接部132は、横水栓に取り付けられた固定状態において、下側から水栓f1(水栓本体f2)に当接するのが好ましい。下側当接部132は、横水栓(吐水口回転形)に取り付けられた固定状態において、下側から水栓f1(水栓本体f2)に当接するのが好ましい。 When the hose connector 10 tries to come out of the faucet f1 by water pressure, the hose connector 10 tries to rotate along the bend of the bent portion f5. The reaction force of the contact force of the lower contact portion 132 gives the hose connector 10 a rotational moment in the direction opposite to the rotation. The lower contact portion 132 suppresses the rotation of the hose connector 10 that occurs when the hose connector 10 comes out of the faucet f1. The lower contact portion 132 can effectively suppress the hose connector 10 from coming off due to water pressure. It is preferable that the lower contact portion 132 abuts on the faucet f1 (faucet main body f2) from the lower side in a fixed state attached to the horizontal faucet. It is preferable that the lower contact portion 132 abuts on the faucet f1 (faucet body f2) from the lower side in a fixed state attached to the horizontal faucet (rotating spout).
 以上に説明の通り、ホース接続具10では、全体として一体の本体部材100が水栓f1の吐水管f3(曲がり部f5)を覆っているため、本体部材100の剛性は高く、係合部E1,E2同士の係合が維持されやすい。よって、固定状態からの緩みが生じにくい。第1係合部E1と係合する第2係合部E2が第1係合部E1と押圧部材200との間に設けられているため、押圧部材200が吐水管f3に付与する押圧力の反力が第1係合部E1と第2係合部E2との間に伝達され、第1係合部E1と第2係合部E2との接触圧が高まる。すなわち、押圧部材200が吐水管f3に付与する押圧力の反力が第2係合部E2に伝達されて第2係合部E2を第1係合部E1に押し付ける。押圧部材200から第2係合部E2への伝達は、直接的な伝達であってもよいし、他部材を介した間接的な伝達であってもよい。水圧により本体部材100が吐水方向Dxに動こうとするほど、係合部E1,E2同士の係合力が高まる。よって、水栓f1への接続における耐水圧性が向上する。 As described above, in the hose connector 10, since the integrated main body member 100 covers the water discharge pipe f3 (bent portion f5) of the faucet f1 as a whole, the rigidity of the main body member 100 is high, and the engaging portion E1 , E2 are easy to maintain engagement with each other. Therefore, loosening from the fixed state is unlikely to occur. Since the second engaging portion E2 that engages with the first engaging portion E1 is provided between the first engaging portion E1 and the pressing member 200, the pressing force applied by the pressing member 200 to the water discharge pipe f3 The reaction force is transmitted between the first engaging portion E1 and the second engaging portion E2, and the contact pressure between the first engaging portion E1 and the second engaging portion E2 increases. That is, the reaction force of the pressing force applied by the pressing member 200 to the water discharge pipe f3 is transmitted to the second engaging portion E2 to press the second engaging portion E2 against the first engaging portion E1. The transmission from the pressing member 200 to the second engaging portion E2 may be a direct transmission or an indirect transmission via another member. As the main body member 100 tries to move in the water discharge direction Dx due to water pressure, the engaging force between the engaging portions E1 and E2 increases. Therefore, the water pressure resistance in the connection to the faucet f1 is improved.
 上記実施形態では、第2係合部E2を有する係止部材400が押圧部材200とは別の部材とされているが、これらは一体部材とされてもよい。換言すれば、押圧部材200が第2係合部E2を有していてもよい。押圧部材200と回動操作部300と係止部材400とは一体で回転するものであり、これらは一体部材とされてもよい。 In the above embodiment, the locking member 400 having the second engaging portion E2 is a member different from the pressing member 200, but these may be integrated members. In other words, the pressing member 200 may have the second engaging portion E2. The pressing member 200, the rotation operation unit 300, and the locking member 400 rotate integrally, and these may be integrated members.
 押圧当接面M1、M2は、押圧部材の回動により吐水管f3との距離が変動するように形成されている。押圧当接面M1、M2は、押圧部材の回転軸線Z2の周囲に設けられている。例えば、押圧当接面M1、M2は、回転軸線Z2に対して傾斜した部分を有していればよい。また、押圧当接面が回転軸線Z2に対して傾斜した部分を有していない場合でも、例えば押圧当接面が階段状とされることで、押圧部材の回動により押圧当接面と吐水管f3との距離が変動しうる。この距離の変動により、吐水管f3に対するホース接続具10の締め付けが可能となり、吐水管f3の受入も可能となる。 The pressing contact surfaces M1 and M2 are formed so that the distance from the water discharge pipe f3 fluctuates due to the rotation of the pressing member. The pressing contact surfaces M1 and M2 are provided around the rotation axis Z2 of the pressing member. For example, the pressing contact surfaces M1 and M2 may have a portion inclined with respect to the rotation axis Z2. Further, even when the pressing contact surface does not have a portion inclined with respect to the rotation axis Z2, for example, by making the pressing contact surface stepped, the pressing member rotates to discharge the pressing contact surface. The distance to the water pipe f3 can fluctuate. Due to this change in distance, the hose connector 10 can be tightened to the water discharge pipe f3, and the water discharge pipe f3 can be received.
 周方向における一つの位置で押圧部材の軸方向位置を測定すると、この押圧当接面の軸方向位置は、押圧部材の回動によって変化する。例えば、受入開口108の周方向中心位置CP(図5(b)及び(d)参照)において、押圧当接面の軸方向位置は変化する。形状の異なる水栓に対する汎用性を高める観点から、周方向中心位置CPにおける押圧当接面の軸方向位置の変化幅は、5mm以上が好ましく、6mm以上がより好ましく、7mm以上がより好ましい。リード角及び回動可能角度の好ましい範囲を考慮すると、周方向中心位置CPにおける押圧当接面の軸方向位置の変化幅は、10mm以下が好ましく、9mm以下がより好ましく、8mm以下がより好ましい。上記押圧当接面M1及び押圧当接面M2では、この変化幅は、上記軸方向距離D1に略等しい。 When the axial position of the pressing member is measured at one position in the circumferential direction, the axial position of the pressing contact surface changes due to the rotation of the pressing member. For example, at the circumferential center position CP of the receiving opening 108 (see FIGS. 5B and 5D), the axial position of the pressing contact surface changes. From the viewpoint of increasing versatility for faucets having different shapes, the change width of the axial position of the pressing contact surface at the circumferential center position CP is preferably 5 mm or more, more preferably 6 mm or more, and more preferably 7 mm or more. Considering the preferable ranges of the lead angle and the rotatable angle, the change width of the axial position of the pressing contact surface at the circumferential center position CP is preferably 10 mm or less, more preferably 9 mm or less, and more preferably 8 mm or less. In the pressing contact surface M1 and the pressing contact surface M2, the change width is substantially equal to the axial distance D1.
 図9がよく示すように、回動規制部142は、本体部材100に固定されている。回動規制部142は本体部材100の一部として一体成形されている。回動規制部142はレバー部304が水栓f1側に回動するのを規制し、レバー部304が水栓f1(ハンドルf4)に当たるのを防止している。第1部分144は、回動操作部300の回しすぎにより固定状態が解除されることを防止している。第2部分146は、押圧部材200の欠け部212を受入開口108側に配向させて吐水管f3の受入れを可能とする。 As is well shown in FIG. 9, the rotation restricting portion 142 is fixed to the main body member 100. The rotation restricting portion 142 is integrally molded as a part of the main body member 100. The rotation restricting portion 142 restricts the lever portion 304 from rotating toward the faucet f1 side, and prevents the lever portion 304 from hitting the faucet f1 (handle f4). The first portion 144 prevents the fixed state from being released due to excessive rotation of the rotation operation unit 300. The second portion 146 orients the chipped portion 212 of the pressing member 200 toward the receiving opening 108 so that the water discharge pipe f3 can be received.
 第2係合部E2を有する係止部材400が、第2係合部E2と前記第1係合部とが係合する第1位置と、当該係合が解除される第2位置とに移動できるように構成されているため、係合部E1,E2同士の係合に抗した回動操作の操作力が過大となることが防止されている。第2係合部E2を前記第1位置に付勢する付勢部材500により、係合部E1,E2同士の係合が維持され、水圧が作用していないときでも緩みが生じにくい。係止部材400を押圧部材200とは別部材とすることで、押圧部材200に対して係止部材400が移動できる構成が可能となる。押圧当接面のリード角が10°以上と大きくされることで、締め付け操作が容易となる。またリード角が大きくても、係合部E1,E2による回り止め機構により緩みにくい。大きいリード角により、回動操作部300の回動可能角度を300°以下としても、複数の水栓に対応できる。また、回動操作部300の回動可能角度を300°以下とすることで、レバー部304が水栓f1のハンドルf4に当たることを回避することできる。回動操作部300の回動可能範囲は、レバー部304の周方向位置が前記周方向中心位置CP(図5(b)及び(d)参照)に到達できないように制限されている。 The locking member 400 having the second engaging portion E2 moves to the first position where the second engaging portion E2 and the first engaging portion engage and the second position where the engagement is released. Since it is configured so that it can be used, it is prevented that the operating force of the rotation operation against the engagement between the engaging portions E1 and E2 becomes excessive. The urging member 500 that urges the second engaging portion E2 to the first position maintains the engagement between the engaging portions E1 and E2, and loosening is unlikely to occur even when water pressure is not applied. By making the locking member 400 a separate member from the pressing member 200, it is possible to configure the locking member 400 to move with respect to the pressing member 200. By increasing the lead angle of the pressing contact surface to 10 ° or more, the tightening operation becomes easy. Further, even if the lead angle is large, it is difficult to loosen due to the detent mechanism by the engaging portions E1 and E2. Due to the large lead angle, even if the rotatable angle of the rotating operation unit 300 is set to 300 ° or less, it is possible to handle a plurality of faucets. Further, by setting the rotatable angle of the rotation operation unit 300 to 300 ° or less, it is possible to prevent the lever unit 304 from hitting the handle f4 of the faucet f1. The rotatable range of the rotation operation unit 300 is limited so that the circumferential position of the lever portion 304 cannot reach the circumferential center position CP (see FIGS. 5 (b) and 5 (d)).
 押圧部材の材質として、樹脂及び金属が例示される。水栓の傷つきを抑制する観点から、樹脂が好ましい。樹脂としては、強度及び生産性に優れる樹脂が好ましい。成形容易性の観点から、樹脂としては、熱可塑性樹脂が好ましい。成形容易性の観点から、より好ましい樹脂として、ポリプロピレン(PP)、アクリロニトリルブタジエンスチレン共重合体(ABS)、ポリアセタール(POM)が例示される。強度の観点から、ポリアセタール(POM)がより好ましい。上述した各実施形態において、押圧部材の材質は、ポリアセタール(POM)とされた。 Examples of the material of the pressing member are resin and metal. Resin is preferable from the viewpoint of suppressing damage to the faucet. As the resin, a resin having excellent strength and productivity is preferable. From the viewpoint of moldability, the resin is preferably a thermoplastic resin. From the viewpoint of moldability, polypropylene (PP), acrylonitrile-butadiene-styrene copolymer (ABS), and polyacetal (POM) are exemplified as more preferable resins. From the viewpoint of strength, polyacetal (POM) is more preferable. In each of the above-described embodiments, the material of the pressing member is polyacetal (POM).
 本体部材の材質として、樹脂及び金属が例示される。成形性の及び生産性の観点から樹脂が好ましい。成形容易性の観点から、樹脂としては、熱可塑性樹脂が好ましい。成形容易性の観点から、より好ましい樹脂として、ポリプロピレン(PP)、アクリロニトリルブタジエンスチレン共重合体(ABS)、ポリアセタール(POM)が例示される。安価で且つ強度に優れるとの観点から、ポリアセタール(POM)がより好ましい。上記実施形態において、本体部材の材質は、ポリアセタール(POM)とされた。 Examples of the material of the main body member are resin and metal. Resins are preferable from the viewpoint of moldability and productivity. From the viewpoint of moldability, the resin is preferably a thermoplastic resin. From the viewpoint of moldability, polypropylene (PP), acrylonitrile-butadiene-styrene copolymer (ABS), and polyacetal (POM) are exemplified as more preferable resins. Polyacetal (POM) is more preferable from the viewpoint of being inexpensive and having excellent strength. In the above embodiment, the material of the main body member is polyacetal (POM).
 回動操作部の材質として、樹脂及び金属が例示される。成形性の及び生産性の観点から樹脂が好ましい。成形容易性の観点から、樹脂としては、熱可塑性樹脂が好ましい。成形容易性の観点から、より好ましい樹脂として、ポリプロピレン(PP)、アクリロニトリルブタジエンスチレン共重合体(ABS)、ポリアセタール(POM)が例示される。強度の観点から、ポリアセタール(POM)がより好ましい。上記実施形態において、回動操作部の材質は、ポリアセタール(POM)とされた。 Examples of the material of the rotation operation unit are resin and metal. Resins are preferable from the viewpoint of moldability and productivity. From the viewpoint of moldability, the resin is preferably a thermoplastic resin. From the viewpoint of moldability, polypropylene (PP), acrylonitrile-butadiene-styrene copolymer (ABS), and polyacetal (POM) are exemplified as more preferable resins. From the viewpoint of strength, polyacetal (POM) is more preferable. In the above embodiment, the material of the rotation operation unit is polyacetal (POM).
 係止部材の材質として、樹脂及び金属が例示される。成形性の及び生産性の観点から樹脂が好ましい。成形容易性の観点から、樹脂としては、熱可塑性樹脂が好ましい。成形容易性の観点から、より好ましい樹脂として、ポリプロピレン(PP)、アクリロニトリルブタジエンスチレン共重合体(ABS)、ポリアセタール(POM)が例示される。安価で且つ強度に優れるとの観点から、ポリアセタール(POM)がより好ましい。上記実施形態において、係止部材の材質は、ポリアセタール(POM)とされた。 Examples of the material of the locking member are resin and metal. Resins are preferable from the viewpoint of moldability and productivity. From the viewpoint of moldability, the resin is preferably a thermoplastic resin. From the viewpoint of moldability, polypropylene (PP), acrylonitrile-butadiene-styrene copolymer (ABS), and polyacetal (POM) are exemplified as more preferable resins. Polyacetal (POM) is more preferable from the viewpoint of being inexpensive and having excellent strength. In the above embodiment, the material of the locking member is polyacetal (POM).
 下側部材の材質として、樹脂及び金属が例示される。成形性の及び生産性の観点から樹脂が好ましい。成形容易性の観点から、樹脂としては、熱可塑性樹脂が好ましい。成形容易性の観点から、より好ましい樹脂として、ポリプロピレン(PP)、アクリロニトリルブタジエンスチレン共重合体(ABS)、ポリアセタール(POM)が例示される。安価で且つ強度に優れるとの観点から、ABSがより好ましい。上記実施形態において、下側部材の材質は、ABSとされた。 Examples of the material of the lower member are resin and metal. Resins are preferable from the viewpoint of moldability and productivity. From the viewpoint of moldability, the resin is preferably a thermoplastic resin. From the viewpoint of moldability, polypropylene (PP), acrylonitrile-butadiene-styrene copolymer (ABS), and polyacetal (POM) are exemplified as more preferable resins. ABS is more preferable from the viewpoint of being inexpensive and having excellent strength. In the above embodiment, the material of the lower member is ABS.
 上述した実施形態に関して、以下の付記を開示する。
[付記1]
 全体として一体であり、水栓の吐水管が挿入される本体部材と、
 ホースが接続されるホース接続部と、
 前記本体部材に挿入された前記吐水管と前記ホース接続部とを水密に接続するパッキンと、
 前記本体部材に回動可能に取り付けられ、前記吐水管に吐水方向成分を含む押圧力を付与する押圧部材と、
 前記押圧部材を緩み方向及び締め付け方向に回動させうる回動操作部と、
 前記本体部材に固定又は係合されている第1係合部と、
 前記第1係合部に係合し、前記回動操作部及び前記押圧部材と共に回動する第2係合部と、
 を備えており、
 前記第2係合部が、前記第1係合部と前記押圧部材との間に位置しており、
 前記押圧部材が、前記吐水管に当接する押圧当接面を有しており、前記押圧当接面が、前記押圧部材の回動により前記吐水管との距離が変動するように形成されており、
 前記押圧力の反力が前記第2係合部に伝達されて前記第2係合部を前記第1係合部に押し付けるホース接続具。
[付記2]
 前記第1係合部と前記第2係合部との接触圧を高める付勢部材が更に設けられている付記1に記載のホース接続具。
[付記3]
 前記第2係合部が、前記第1係合部と係合する第1位置と、前記第1係合部との係合が解除される第2位置とに移動できるように構成されており、
 前記付勢部材が、前記第2係合部を前記第1位置側に付勢している付記2に記載のホース接続具。
[付記4]
 前記第1係合部と前記押圧部材との間に係止部材が配置されており、
 前記係止部材が前記第2係合部を有している付記1から3のいずれか1項に記載のホース接続具。
[付記5]
 前記第1係合部が、前記本体部材に形成された1又は2以上の凸部であり、
 前記第2係合部が、前記係止部材に形成され円環状に配列された複数の凸部である付記4に記載のホース接続具。
[付記6]
 前記押圧当接面が、螺旋に沿って形成された斜面及び/又は階段面である付記1から5のいずれか1項に記載のホース接続具。
[付記7]
 前記押圧当接面のリード角が10°以上である付記6に記載のホース接続具。
[付記8]
 前記回動操作部の回動可能角度が300°以下である付記7に記載のホース接続具。
The following appendices are disclosed with respect to the above-described embodiments.
[Appendix 1]
The main body member, which is integrated as a whole and into which the water discharge pipe of the faucet is inserted,
The hose connection where the hose is connected and
A packing that watertightly connects the water discharge pipe inserted into the main body member and the hose connection portion, and
A pressing member that is rotatably attached to the main body member and applies a pressing force containing a water discharge direction component to the water discharge pipe.
A rotation operation unit capable of rotating the pressing member in the loosening direction and the tightening direction, and
With the first engaging portion fixed or engaged with the main body member,
A second engaging portion that engages with the first engaging portion and rotates together with the rotating operating portion and the pressing member.
Is equipped with
The second engaging portion is located between the first engaging portion and the pressing member.
The pressing member has a pressing contact surface that abuts on the water discharge pipe, and the pressing contact surface is formed so that the distance from the water discharge pipe fluctuates due to the rotation of the pressing member. ,
A hose connector in which the reaction force of the pressing force is transmitted to the second engaging portion to press the second engaging portion against the first engaging portion.
[Appendix 2]
The hose connector according to Appendix 1, further provided with an urging member that increases the contact pressure between the first engaging portion and the second engaging portion.
[Appendix 3]
The second engaging portion is configured to be movable between a first position where it engages with the first engaging portion and a second position where the engagement with the first engaging portion is released. ,
The hose connector according to Appendix 2, wherein the urging member urges the second engaging portion toward the first position side.
[Appendix 4]
A locking member is arranged between the first engaging portion and the pressing member.
The hose connector according to any one of Appendix 1 to 3, wherein the locking member has the second engaging portion.
[Appendix 5]
The first engaging portion is one or more convex portions formed on the main body member.
The hose connector according to Appendix 4, wherein the second engaging portion is a plurality of convex portions formed on the locking member and arranged in an annular shape.
[Appendix 6]
The hose connector according to any one of Appendix 1 to 5, wherein the pressing contact surface is a slope and / or a staircase surface formed along a spiral.
[Appendix 7]
The hose connector according to Appendix 6, wherein the lead angle of the pressing contact surface is 10 ° or more.
[Appendix 8]
The hose connector according to Appendix 7, wherein the rotation operating portion has a rotatable angle of 300 ° or less.
 本願には、独立形式請求項に係る発明に含まれない他の発明も記載されている。本願の請求項及び実施形態に記載されたそれぞれの形態、部材、構成等は、それぞれが有する作用効果に基づく発明として認識される。 The present application also describes other inventions that are not included in the invention according to the independent claims. Each of the forms, members, configurations, etc. described in the claims and embodiments of the present application is recognized as an invention based on the action and effect of each.
 上記各実施形態で示されたそれぞれの形態、部材、構成等は、これら実施形態の全ての形態、部材又は構成をそなえなくても、個々に、本願請求項に係る発明をはじめとした、本願記載の全発明に適用されうる。 Each of the embodiments, members, configurations, etc. shown in the above embodiments does not include all the embodiments, members, or configurations of these embodiments, but individually includes the invention according to the claim of the present application. It can be applied to all the described inventions.
 10・・・ホース接続具
 100・・・本体部材
 106・・・上壁
 108・・・受入開口
 134・・・下側当接部
 122・・・上壁の下面
 200・・・押圧部材
 300・・・回動操作部
 304・・・レバー部
 400・・・係止部材
 500・・・付勢部材
 510・・・パッキン
 520・・・下側部材
 530・・・吐水管挿入部
 E1・・・第1係合部
 E2・・・第2係合部
 M1、M2・・・押圧当接面
 f1・・・水栓
 f2・・・水栓本体
 f3・・・吐水管
 f5・・・曲がり部
10 ・ ・ ・ Hose connector 100 ・ ・ ・ Main body member 106 ・ ・ ・ Upper wall 108 ・ ・ ・ Receiving opening 134 ・ ・ ・ Lower contact part 122 ・ ・ ・ Lower surface of upper wall 200 ・ ・ ・ Pressing member 300 ・・ ・ Rotation operation part 304 ・ ・ ・ Lever part 400 ・ ・ ・ Locking member 500 ・ ・ ・ Basis member 510 ・ ・ ・ Packing 520 ・ ・ ・ Lower member 530 ・ ・ ・ Water discharge pipe insertion part E1 ・ ・ ・1st engaging part E2 ... 2nd engaging part M1, M2 ... Pressing contact surface f1 ... Faucet f2 ... Faucet body f3 ... Water discharge pipe f5 ... Bent part

Claims (8)

  1.  全体として一体であり、水栓の吐水管が挿入される本体部材と、
     ホースが接続されるホース接続部と、
     前記本体部材に挿入された前記吐水管と前記ホース接続部とを水密に接続するパッキンと、
     前記本体部材に回動可能に取り付けられ、前記吐水管に吐水方向成分を含む押圧力を付与する押圧部材と、
     前記押圧部材を緩み方向及び締め付け方向に回動させうる回動操作部と、
     前記本体部材に固定又は係合されている第1係合部と、
     前記第1係合部に係合し、前記回動操作部及び前記押圧部材と共に回動する第2係合部と、
     を備えており、
     前記第2係合部が、前記第1係合部と前記押圧部材との間に位置しており、
     前記押圧部材が、前記吐水管に当接する押圧当接面を有しており、前記押圧当接面が、前記押圧部材の回動により前記吐水管との距離が変動するように形成されており、
     前記押圧力の反力が前記第2係合部に伝達されて前記第2係合部を前記第1係合部に押し付けるホース接続具。
    The main body member, which is integrated as a whole and into which the water discharge pipe of the faucet is inserted,
    The hose connection where the hose is connected and
    A packing that watertightly connects the water discharge pipe inserted into the main body member and the hose connection portion, and
    A pressing member that is rotatably attached to the main body member and applies a pressing force containing a water discharge direction component to the water discharge pipe.
    A rotation operation unit capable of rotating the pressing member in the loosening direction and the tightening direction, and
    With the first engaging portion fixed or engaged with the main body member,
    A second engaging portion that engages with the first engaging portion and rotates together with the rotating operating portion and the pressing member.
    Is equipped with
    The second engaging portion is located between the first engaging portion and the pressing member.
    The pressing member has a pressing contact surface that abuts on the water discharge pipe, and the pressing contact surface is formed so that the distance from the water discharge pipe fluctuates due to the rotation of the pressing member. ,
    A hose connector in which the reaction force of the pressing force is transmitted to the second engaging portion to press the second engaging portion against the first engaging portion.
  2.  前記第1係合部と前記第2係合部との接触圧を高める付勢部材が更に設けられている請求項1に記載のホース接続具。 The hose connector according to claim 1, further provided with an urging member that increases the contact pressure between the first engaging portion and the second engaging portion.
  3.  前記第2係合部が、前記第1係合部と係合する第1位置と、前記第1係合部との係合が解除される第2位置とに移動できるように構成されており、
     前記付勢部材が、前記第2係合部を前記第1位置側に付勢している請求項2に記載のホース接続具。
    The second engaging portion is configured to be movable between a first position where it engages with the first engaging portion and a second position where the engagement with the first engaging portion is released. ,
    The hose connector according to claim 2, wherein the urging member urges the second engaging portion toward the first position side.
  4.  前記第1係合部と前記押圧部材との間に係止部材が配置されており、
     前記係止部材が前記第2係合部を有している請求項1から3のいずれか1項に記載のホース接続具。
    A locking member is arranged between the first engaging portion and the pressing member.
    The hose connector according to any one of claims 1 to 3, wherein the locking member has the second engaging portion.
  5.  前記第1係合部が、前記本体部材に形成された1又は2以上の凸部であり、
     前記第2係合部が、前記係止部材に形成され円環状に配列された複数の凸部である請求項4に記載のホース接続具。
    The first engaging portion is one or more convex portions formed on the main body member.
    The hose connector according to claim 4, wherein the second engaging portion is a plurality of convex portions formed on the locking member and arranged in an annular shape.
  6.  前記押圧当接面が、螺旋に沿って形成された斜面及び/又は階段面である請求項1から5のいずれか1項に記載のホース接続具。 The hose connector according to any one of claims 1 to 5, wherein the pressing contact surface is a slope and / or a staircase surface formed along a spiral.
  7.  前記押圧当接面のリード角が10°以上である請求項6に記載のホース接続具。 The hose connector according to claim 6, wherein the lead angle of the pressing contact surface is 10 ° or more.
  8.  前記回動操作部の回動可能角度が300°以下である請求項7に記載のホース接続具。 The hose connector according to claim 7, wherein the rotatable angle of the rotating operation unit is 300 ° or less.
PCT/JP2021/005112 2020-03-10 2021-02-10 Hose connector WO2021182003A1 (en)

Applications Claiming Priority (2)

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JP2020-041412 2020-03-10
JP2020041412A JP6775810B1 (en) 2020-03-10 2020-03-10 Hose connector

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Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS497477Y1 (en) * 1969-05-26 1974-02-21
JPS4943825U (en) * 1972-07-20 1974-04-17
JPS5060617U (en) * 1973-09-29 1975-06-04
JPH04126966U (en) * 1991-05-09 1992-11-19 壽雄 高城 Hose fitting for faucet
JPH07103369A (en) * 1993-09-14 1995-04-18 Claber Spa Male type coupling member
JP2017219194A (en) * 2016-06-06 2017-12-14 株式会社タカギ Hose connection tool

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS497477Y1 (en) * 1969-05-26 1974-02-21
JPS4943825U (en) * 1972-07-20 1974-04-17
JPS5060617U (en) * 1973-09-29 1975-06-04
JPH04126966U (en) * 1991-05-09 1992-11-19 壽雄 高城 Hose fitting for faucet
JPH07103369A (en) * 1993-09-14 1995-04-18 Claber Spa Male type coupling member
JP2017219194A (en) * 2016-06-06 2017-12-14 株式会社タカギ Hose connection tool

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TW202134560A (en) 2021-09-16
JP2021143485A (en) 2021-09-24
JP2021143585A (en) 2021-09-24
JP6775810B1 (en) 2020-10-28
JP7508067B2 (en) 2024-07-01

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