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WO2018150909A1 - Cap - Google Patents

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Publication number
WO2018150909A1
WO2018150909A1 PCT/JP2018/003621 JP2018003621W WO2018150909A1 WO 2018150909 A1 WO2018150909 A1 WO 2018150909A1 JP 2018003621 W JP2018003621 W JP 2018003621W WO 2018150909 A1 WO2018150909 A1 WO 2018150909A1
Authority
WO
WIPO (PCT)
Prior art keywords
nozzle
cap
container body
section
opening hole
Prior art date
Application number
PCT/JP2018/003621
Other languages
French (fr)
Japanese (ja)
Inventor
敦仁 中川
慶士 永島
Original Assignee
ライオン株式会社
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 ライオン株式会社 filed Critical ライオン株式会社
Priority to KR1020197023726A priority Critical patent/KR102672025B1/en
Priority to CN201880010880.7A priority patent/CN110267884B/en
Publication of WO2018150909A1 publication Critical patent/WO2018150909A1/en

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
    • B65D47/00Closures with filling and discharging, or with discharging, devices
    • B65D47/04Closures with discharging devices other than pumps
    • B65D47/06Closures with discharging devices other than pumps with pouring spouts or tubes; with discharge nozzles or passages
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
    • B65D47/00Closures with filling and discharging, or with discharging, devices
    • B65D47/04Closures with discharging devices other than pumps
    • B65D47/06Closures with discharging devices other than pumps with pouring spouts or tubes; with discharge nozzles or passages
    • B65D47/12Closures with discharging devices other than pumps with pouring spouts or tubes; with discharge nozzles or passages having removable closures

Definitions

  • the present invention relates to a cap.
  • This application claims priority based on Japanese Patent Application No. 2017-026854 filed in Japan on February 16, 2017, the contents of which are incorporated herein by reference.
  • a nozzle cap (cap) attached to a container that stores liquid contents such as softeners and liquid detergents is used to pour out contents from a tilted container body. Used with measuring caps.
  • the content liquid is appropriately added from a refilling pouch to be used for a long time (for example, Patent Document 1).
  • One aspect of the present invention has been made in view of the above-mentioned problems of the prior art, and is a cap that can improve the pouring property of the contents to reduce the residual liquid and effectively use the liquid contents.
  • the purpose is to provide.
  • a cap according to an aspect of the present invention is a cap that is detachably attached to a mouth portion of a container main body that contains a liquid content having viscosity, and that tilts and dispenses the content, and is fitted into the mouth portion.
  • the nozzle portion extending to the opposite side, the nozzle base portion, the dispensing opening hole formed in the bottom surface portion inside the nozzle portion when viewed from the axial container body side, and the dispensing opening hole
  • a concave guide portion connected to a lower portion of the peripheral edge of the container when tilted, and the extraction opening communicates with the accommodation space of the container body through the guide portion.
  • the guide portion may be formed on the bottom surface portion and has a concave shape that is recessed from the container main body side toward the nozzle portion side of the bottom surface portion.
  • the guide portion is formed radially outward from the periphery of the extraction opening hole, and the extraction opening side is said to have the largest recess. It is good also as a structure.
  • the guide portion may have a guide surface that intersects the axis.
  • the present invention it is possible to provide a cap that can improve the pouring property of the contents, reduce the residual liquid, and use the content liquid effectively.
  • the side view which shows the structure of the mouth part vicinity of the erect state of the container with which the nozzle cap (cap) which concerns on embodiment was mounted
  • the side view which shows the structure of a nozzle cap.
  • the cross-sectional perspective view which shows the structure of a nozzle cap.
  • the perspective view which shows a mode that the nozzle cap was seen from the bottom part side.
  • the perspective view which shows a mode that the nozzle cap was seen from the nozzle part side.
  • the fragmentary sectional view which shows the structure of the nozzle part of a nozzle cap.
  • Sectional drawing which shows a mode that the nozzle cap was mounted
  • FIG. 1 is a side view showing a configuration in the vicinity of a mouth portion 101 in an upright state of a container 100 to which a nozzle cap (cap) 10 according to this embodiment is attached.
  • FIG. 2 is a side view showing the configuration of the nozzle cap 10.
  • FIG. 3 is a cross-sectional perspective view showing the configuration of the nozzle cap 10.
  • FIG. 4 is a perspective view showing the nozzle cap 10 as seen from the bottom side.
  • FIG. 5 is a perspective view showing a state in which the nozzle cap 10 is viewed from the nozzle portion 13 side.
  • FIG. 6 is a partial cross-sectional view showing the configuration of the nozzle portion 13 of the nozzle cap 10.
  • FIG. 7 is a top view of the nozzle cap 10 as viewed from the axial direction.
  • FIG. 8 is a cross-sectional view illustrating a state in which the nozzle cap 10 is attached to the mouth portion 103 of the container main body 100A.
  • the nozzle cap 10 of the present embodiment is an inner plug that fits into a mouth portion 101 formed at the upper end of a container main body 100 ⁇ / b> A that accommodates contents, and the contents are measured outside thereof.
  • a measuring cap 102 is attached.
  • the container body 100A is integrally formed by, for example, blow molding using an olefin synthetic resin such as polyethylene.
  • the container main body 100A contains, for example, liquid substances such as liquid detergents, liquid bleaches, liquid softeners, and solvents, and granular substances such as granular detergents, granular bleaches, and granular seasonings as contents.
  • a space 100a is provided.
  • the mouth portion 101 of the container main body 100A is formed in a cylindrical shape centering on an axis C extending in the vertical direction, and opens the accommodation space 100a upward.
  • a male screw portion (not shown) is formed around the axis C on the outer periphery of the mouth portion 101, and the nozzle cap 10 in this embodiment is screwed together.
  • the configuration of the screw type nozzle cap 10 will be described, but the configuration is not limited thereto.
  • the structure which fits by engagement such as press injection and an undercut part, may be sufficient.
  • a direction along the axis C is appropriately referred to as an axial direction
  • a direction orthogonal to the axis C is referred to as a radial direction
  • a direction around the axis about the axis C is appropriately referred to as a circumferential direction.
  • the measuring cap 102 side in the axial direction is appropriately referred to as the upper side (upper side)
  • the container body 100 ⁇ / b> A side is appropriately referred to as the lower side (lower side).
  • the axial direction is referred to as the Z direction
  • the radial direction in FIG. 1 is defined as the X direction
  • the Z direction and the direction orthogonal to the X direction (the direction orthogonal to the paper surface in FIG. 1) are appropriately described as the Y direction.
  • the nozzle cap 10 is formed by injection molding using an olefin-based synthetic resin such as polypropylene, for example.
  • the nozzle cap 10 mainly has a fitting part 11, a nozzle base part 12, and a nozzle part 13, and is configured around an axis C.
  • the fitting part 11 has a cylindrical shape and is fitted to the outside of the mouth part 101 of the container main body 100A shown in FIG.
  • the fitting portion 11 is an intermediate portion that is continuous with the upper end of the annular convex portion 14 along the axis C on the lower end side of the nozzle cap 10 and located radially inward of the annular convex portion 14. It has a portion 15 and an upper portion 16 that is continuous with the end of the intermediate portion 15 opposite to the annular convex portion 14 and that is located radially inward of the intermediate portion 15.
  • a male screw portion 17 is formed around the axis of the upper portion 16.
  • the nozzle cap 10 of the present embodiment has a shape in which the diameter is gradually increased outward in the radial direction from the upper portion 16 toward the intermediate portion 15 and the annular convex portion 14 along the axis C.
  • the above-mentioned measuring cap 102 is attached to the nozzle cap 10.
  • the measuring cap 102 is attached to the outside of the upper portion 16 and is positioned so as to fit in a step 19 between the intermediate portion 15 and the upper portion 16.
  • the radial height positions of the outer peripheral surface 102 a of the attached measuring cap 102 and the intermediate portion 15 of the nozzle cap 10 substantially coincide. That is, the step 19 between the intermediate portion 15 and the upper portion 16 corresponds to the thickness dimension of the measuring cap 102, and a continuous outer shape from the measuring cap 102 to the nozzle cap 10 with the measuring cap 102 attached to the nozzle cap 10. It is comprised so that it may make.
  • fitting portion 11 is formed with a female screw portion 20 around the axis C along the inner peripheral surface 11b, and a male screw portion (outside the mouth portion 101 of the container main body 100A shown in FIG. (Not shown).
  • the nozzle base portion 12 is provided coaxially inside the fitting portion 11, and is inserted into the accommodating space 100a from the mouth portion 101 of the container main body 100A when the cap is attached.
  • the nozzle base portion 12 has a bottomed cylindrical shape having an inner cylindrical portion 21 and a bottom surface portion 22 provided on one end side of the inner cylindrical portion 21, and the bottom surface portion 22 has a dispensing opening as shown in FIG. A hole 23 and a guide portion 28 are formed.
  • the inner cylinder portion 21 is located radially inward (on the axis C side) from the upper portion 16 of the fitting portion 11, and the lower end side along the axis C is outside the annular convex portion 14 (container main body). 100A side).
  • the bottom surface portion 22 has a V shape that is convex toward the container body 100 ⁇ / b> A, and includes a first inclined surface (inclined surface) 22 ⁇ / b> A and a second inclined surface (inclined surface) 22 ⁇ / b> B that have different inclination angles.
  • the first inclined surface 22A and the second inclined surface 22B have a third inclined surface 22D and a fourth inclined surface 22E facing each other on an extension line of the connection top portions 22C and 22C. It is getting thinner.
  • An extraction opening hole 23 is formed from the first inclined surface 22A to the second inclined surface 22B of the bottom surface portion 22 as described above.
  • a portion formed in the second inclined surface 22 ⁇ / b> B of the dispensing opening hole 23 functions as the air replacement hole 25.
  • the bottom surface portion 22 is provided with a groove-shaped guide portion 28 that guides the contents in the container main body 100A to the dispensing opening hole 23 during use.
  • the guide portion 28 is formed on the first inclined surface 22 ⁇ / b> A constituting the bottom surface portion 22, and is connected to a part of the peripheral edge of the extraction opening hole 23.
  • the guiding portion 28 is located at the lowest position in use (at the time of tilting) on the side facing the air replacement hole 25 through the axis C in the peripheral edge of the dispensing opening hole 23. It is connected.
  • the guide portion 28 is formed radially outward from the dispensing opening hole 23.
  • the other end side of the guide portion 28 opposite to the side of the dispensing opening hole 23 is brought close to the mouth portion 103 of the container main body 100A shown in FIG. 8, so that the remaining liquid accumulated on the mouth portion 103 side can be easily collected. Become.
  • the guiding portion 28 has a concave shape that is recessed from the container main body 100 ⁇ / b> A side toward the nozzle portion 13 side of the bottom surface portion 22, and is closer to the periphery of the dispensing opening hole 23. It is a deep dent that is far from the surface 22B.
  • the inner surface 28 a is curved in a bowl shape, and the top portion Q side extends in a direction intersecting the axis C, and is inclined with respect to the first inclined surface 22 A of the bottom surface portion 22. ing.
  • the guide portion 28 has a wider groove width as it is closer to the dispensing opening hole 23, so that the contents are efficiently guided to the dispensing opening hole 23 through the guiding portion 28. .
  • the nozzle portion 13 is erected on the bottom surface portion 22 of the nozzle base portion 12, and extends toward the opposite side of the container body 100 ⁇ / b> A along the axis C.
  • the nozzle portion 13 includes a flange-like portion 24 and a pair of receiving portions 26 and 26 erected on the first inclined surface 22A of the bottom surface portion 22.
  • the bowl-shaped portion 24 extends so as to rise upward (+ Z direction) from the peripheral edge of the dispensing opening hole 23, and is a nozzle flow path formed on the inner side.
  • the flow path diameter of 18 is made substantially constant in the extending direction (Z direction).
  • the bowl-shaped portion 24 is provided so as to surround a part of the dispensing opening hole 23.
  • the bowl-shaped portion 24 has a U-shaped cross section that opens to the + X side, and the opening ends 24 a and 24 a on the + X side do not follow the peripheral edge of the dispensing opening hole 23. Extends along the direction.
  • the extraction opening 23 of the present embodiment has a bowl shape as an example.
  • the bowl-shaped portion 24 surrounds a part of the first opening 23A formed in the first inclined surface 22A in the dispensing opening hole 23, and is provided along an arcuate periphery. Further, the second opening 23B formed in the second inclined surface 22B in the dispensing opening hole 23 protrudes radially outward from the opening end 24a on the + X side of the bowl-shaped part 24, and the bowl-shaped part It is open without being surrounded by 24.
  • the dispensing opening hole 23 is formed from the first inclined surface 22A of the bottom surface portion 22 to the second inclined surface 22B. Since the second inclined surface 22B, which is the upper side when tilting, is inclined so as to be folded back with respect to the first inclined surface 22A on which the nozzle portion 13 is erected, the contents are second inclined surface 22B when being poured out. It is difficult to get on the side. Therefore, it is easy to maintain the opening state of the part formed in the 2nd inclined surface 22B among the opening holes 23 for extraction, and one part can be functioned as the air replacement hole 25.
  • a pair of receiving portions 26 and 26 that extend in the axial direction along the hook-shaped portion 24 and bend following the outer shape of the hook-shaped portion 24 are provided on both outer sides of the hook-shaped portion 24.
  • the pair of receiving portions 26, 26 are located outside the fitting portion 11 with respect to the first portion 26 ⁇ / b> A hidden inside the fitting portion 11 in the axial direction when viewed from the side.
  • the exposed second portion 26 ⁇ / b> B has a tapered shape that becomes extremely narrow toward the tip of the bowl-shaped portion 24.
  • the pair of receiving portions 26 and 26 are curved so as to expand outward from the top portion q on the ⁇ X side of the nozzle portion 13 in the radial direction when viewed in the axial direction, so as to form a space between the nozzle portion 13 and the nozzle portion 13. It faces away from the nozzle portion 13.
  • FIG. 7 when viewed from the axial direction of each receiving portion 26, 26, 26, the opening end 26a, 26a on the + X side in the first portion 26A is ⁇ X more than the opening end 24a, 24a of the bowl-shaped portion 24. Located on the side.
  • the nozzle cap 10 having the above configuration is configured such that the female screw portion 20 of the fitting portion 11 is inserted into the male screw portion (on the container main body 100A side) while the bottom portion side of the nozzle base portion 12 is inserted into the accommodating space 100a from the mouth portion 101 of the container main body 100A.
  • the container body 100A is attached by being fastened to the container body (not shown).
  • the measuring cap 102 is attached to the nozzle cap 10 attached to the container main body 100 ⁇ / b> A by screwing and fastening the female screw portion (not shown) of the measuring cap 102 to the male screw portion 17 of the fitting portion 11. .
  • the measuring cap 102 When the contents are poured out from the container main body 100A, the measuring cap 102 is rotated in the direction opposite to that at the time of fastening, and the female screw portion (not shown) of the measuring cap 102 and the male screw portion 17 of the nozzle cap 10 And the measuring cap 102 is removed from the nozzle cap 10. From the state where the container body 100A is gripped and the opening side of the nozzle part 13 of the nozzle cap 10 is directed upward with the measuring cap 102 removed, the nozzle part 13 is positioned downward as shown in FIG. The contents stored in the container main body 100A can be poured out from the nozzle portion 13 to the measuring cap 102 and weighed.
  • the content liquid leaking outside the bowl-like portion 24 without entering the dispensing opening 23 is It is received by a pair of receiving portions 26, 26 existing on both sides.
  • the content liquid received by each receiving portion 26 is guided to the distal end side along the second portion 26b at the time of tilting, and is poured out during the subsequent measurement.
  • the measuring cap 102 When refilling the contents, the measuring cap 102 is rotated in the direction opposite to that at the time of fastening, and the screwing of the female screw portion (not shown) of the measuring cap 102 and the male screw portion 17 of the nozzle cap 10 is released. The measuring cap 102 is removed from the nozzle cap 10. With the measuring cap 102 removed, the contents are refilled from the refill container into the container body 100A through the nozzle portion 13 of the nozzle cap 10.
  • a concave guiding portion 28 that leads to the dispensing opening hole 23 is provided in a part of the first inclined surface 22A constituting the bottom surface portion 22, and the guiding portion 28
  • the contents entering between the mouth part 101 of the container body 100A and the nozzle base part 12 inserted into the mouth part 101 are poured out by the guide part 28. It is guided to the opening hole 23 and can be poured out through the bowl-shaped portion 24.
  • the guiding portion 28 extends radially outward from the extraction opening hole 23, and becomes a deep recess that is further away from the one surface 22 ⁇ / b> B side as it is closer to the extraction opening hole 23. Further, the top portion Q side of the inner surface 28 a of the guide portion 28 extends in a direction intersecting the axis C, and is inclined with respect to the first inclined surface 22 A of the bottom surface portion 22. As a result, when the container body 100A is tilted, the contents accumulated below the dispensing opening hole 23 along the first inclined surface 22A enter the guide portion 28 that is recessed toward the nozzle portion 13 side. It becomes easy to enter. Therefore, even when the remaining amount of the contents in the container main body 100A is small, the contents are efficiently guided to the dispensing opening hole 23 without extremely increasing the tilt angle of the container main body 100A. Can be dispensed.
  • the nozzle cap 10 of the present embodiment by providing the guide portion 28 at the lower position when tilted, the outflow of the contents accumulated between the container main body 100A can be improved. It is possible to reduce the residual liquid in the container body 100A and use the contents effectively.
  • the top Q side of the inner surface 28a of the guide portion 28 extends in a direction intersecting the axis C.
  • the present invention is not limited to this.
  • the top portion Q side of the inner surface 28a The end portion may be inclined so as to be positioned in the + Z direction with respect to the end portion on the inner cylinder portion 21 side. That is, you may incline to the opposite side to 22 A of 1st inclined surfaces. Thereby, it can be made to flow out so that the contents by the side of container main part 100A may be scooped out.
  • the second portion 26 ⁇ / b> B exposed to the outside of the fitting portion 11 is thinned while ensuring the function of collecting the remaining liquid in the first portion 26 ⁇ / b> A.
  • the front end side of the bowl-shaped portion 24 is sometimes easy to see. Thereby, it is easy to pour the contents into the measuring cap 102.
  • the residual liquid received in the second portion 26B is guided to the distal end side along the second portion 26b, and is poured into the measuring cap 102 together with the contents poured out from the bowl-shaped portion 24.
  • the second portion 26B is made thinner than the first portion 26A, the amount of resin to be used can be reduced, and weight reduction and cost reduction can be achieved. Further, the overall size of the nozzle cap 10 can be reduced.
  • the nozzle cap 10 of the present embodiment is a screw type, but is inserted and fitted into the mouth portion 101 of the container main body 100A so as not to come out upward due to, for example, press fitting, engagement of an undercut portion or the like. It is good also as a structure.
  • the size and shape of the guiding portion 28 described above are not limited to those shown in the drawings, and can be changed as appropriate according to the type of contents.
  • the present invention can be applied to a cap.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Closures For Containers (AREA)

Abstract

The purpose of the present invention is to provide a cap that reduces residual liquid by improving the pourability of contents, thus allowing the contents to be effectively used. The cap is detachably fitted to an opening of a container body, which accommodates viscous liquid contents, and enables the tilted pouring of the contents, and comprises a fitting section that fits on the opening, a nozzle base section that is provided to the inside of the fitting section on the same axis and that inserts inside the opening, a nozzle section that stands on the bottom surface section of the nozzle base section on the same axis and that extends in the opposite direction to the container body, wherein the nozzle base section comprises an opening hole for pouring, which is formed in the bottom surface section inward of the nozzle section as viewed from the container body side in the axial direction, and a guiding section that is connected to a portion of the peripheral edge of the opening hole and faces downward when tilted, said guiding section being formed on one surface of the bottom surface section on the container body side, and having a recess shape which is recessed toward the nozzle section side from the one surface.

Description

キャップcap
 本発明は、キャップに関する。
 本願は、2017年2月16日に、日本に出願された特願2017-026854号に基づき優先権を主張し、その内容をここに援用する。
The present invention relates to a cap.
This application claims priority based on Japanese Patent Application No. 2017-026854 filed in Japan on February 16, 2017, the contents of which are incorporated herein by reference.
 例えば、柔軟剤、液体洗剤等の液状の内容物を収容する容器に装着されるノズルキャップ(キャップ)は、傾倒させた容器本体から内容物を注出するもので、注出した内容物を計量する計量キャップとともに使用される。このような容器では、収容した内容物が消費されたり、残量が少なくなったりしたときに、例えば、詰め替え用のパウチから内容液が適宜注ぎ足されることで長期的に使用される(例えば、特許文献1)。 For example, a nozzle cap (cap) attached to a container that stores liquid contents such as softeners and liquid detergents is used to pour out contents from a tilted container body. Used with measuring caps. In such a container, when the contained content is consumed or the remaining amount is low, for example, the content liquid is appropriately added from a refilling pouch to be used for a long time (for example, Patent Document 1).
特開平11-321910号公報Japanese Patent Laid-Open No. 11-321910
 しかしながら従来の構成では、残量が少なくなってくると、容器本体を傾倒させてもノズルキャップから内容物が注出されず、容器本体内に内容物が残留して完全に使いきることができない場合があった。容器本体内の内容物が少なくなってくると、傾倒時に容器本体とノズルキャップとの間に内容物が入り込んでしまい、ノズル部からなかなか注出されないという不具合が生じる。そのため、注出されずに容器本体内に残ってしまう残液を低減させることが望まれている。 However, in the conventional configuration, when the remaining amount is low, even if the container body is tilted, the contents are not poured out from the nozzle cap, and the contents remain in the container body and cannot be used up completely. There was a case. When the content in the container body decreases, the content enters between the container body and the nozzle cap at the time of tilting, and there is a problem that it is difficult to pour out from the nozzle portion. Therefore, it is desired to reduce the residual liquid that remains in the container body without being poured out.
 本発明の一つの態様は、上記従来技術の問題点に鑑み成されたものであって、内容物の注出性を改善して残液を減らし、内容液を有効に使用することのできるキャップを提供することを目的とする。 One aspect of the present invention has been made in view of the above-mentioned problems of the prior art, and is a cap that can improve the pouring property of the contents to reduce the residual liquid and effectively use the liquid contents. The purpose is to provide.
 本発明の一態様におけるキャップは、粘性を有する液状の内容物を収容する容器本体の口部に着脱可能に装着され前記内容物を傾倒注出するキャップであって、前記口部に嵌合する嵌合部と、前記嵌合部の内側に同軸をなして設けられ前記口部の内側に挿入されるノズル基部と、前記ノズル基部の底面部に同軸をなして立設され前記容器本体とは反対側に延出するノズル部と、前記ノズル基部は、軸線方向容器本体側から見て前記ノズル部の内方の前記底面部に形成された注出用開口孔と、前記注出用開口孔の周縁のうち傾倒時に下側となる部分に接続された凹形状の誘導部と、を有し、前記誘導部を介して、前記注出用開口孔が前記容器本体の収容空間に連通している。 A cap according to an aspect of the present invention is a cap that is detachably attached to a mouth portion of a container main body that contains a liquid content having viscosity, and that tilts and dispenses the content, and is fitted into the mouth portion. A fitting part, a nozzle base provided coaxially inside the fitting part and inserted inside the mouth part, and a container body standing upright coaxially with the bottom part of the nozzle base The nozzle portion extending to the opposite side, the nozzle base portion, the dispensing opening hole formed in the bottom surface portion inside the nozzle portion when viewed from the axial container body side, and the dispensing opening hole A concave guide portion connected to a lower portion of the peripheral edge of the container when tilted, and the extraction opening communicates with the accommodation space of the container body through the guide portion. Yes.
 本発明の一態様のキャップにおいて、前記誘導部は、前記底面部に形成され、前記底面部の前記容器本体側から前記ノズル部側へ向かって凹む凹形状とされている構成としてもよい。 In the cap according to one aspect of the present invention, the guide portion may be formed on the bottom surface portion and has a concave shape that is recessed from the container main body side toward the nozzle portion side of the bottom surface portion.
 本発明の一態様のキャップにおいて、前記誘導部は、前記注出用開口孔の周縁から径方向外側に向かって形成されており、前記注出用開口孔側が最も凹み具合が大きいとされている構成としてもよい。 In the cap of one aspect of the present invention, the guide portion is formed radially outward from the periphery of the extraction opening hole, and the extraction opening side is said to have the largest recess. It is good also as a structure.
 本発明の一態様のキャップにおいて、前記誘導部は、軸線に対して交差する誘導面を有している構成としてもよい。 In the cap according to one aspect of the present invention, the guide portion may have a guide surface that intersects the axis.
 本発明によれば、内容物の注出性を改善して残液を減らし、内容液を有効に使用することのできるキャップを提供することができる。 According to the present invention, it is possible to provide a cap that can improve the pouring property of the contents, reduce the residual liquid, and use the content liquid effectively.
実施形態に係るノズルキャップ(キャップ)が装着された容器の正立状態の口部付近の構成を示す側面図。The side view which shows the structure of the mouth part vicinity of the erect state of the container with which the nozzle cap (cap) which concerns on embodiment was mounted | worn. ノズルキャップの構成を示す側面図。The side view which shows the structure of a nozzle cap. ノズルキャップの構成を示す断面斜視図。The cross-sectional perspective view which shows the structure of a nozzle cap. ノズルキャップを底部側から見た様子を示す斜視図。The perspective view which shows a mode that the nozzle cap was seen from the bottom part side. ノズルキャップをノズル部側から見た様子を示す斜視図。The perspective view which shows a mode that the nozzle cap was seen from the nozzle part side. ノズルキャップのノズル部の構成を示す部分断面図。The fragmentary sectional view which shows the structure of the nozzle part of a nozzle cap. ノズルキャップを軸線方向から見た上面図。The top view which looked at the nozzle cap from the axial direction. ノズルキャップが容器本体の口部に装着された様子を示す断面図。Sectional drawing which shows a mode that the nozzle cap was mounted | worn with the opening part of the container main body. ノズルキャップを備えた容器の使用方法を説明するための図。The figure for demonstrating the usage method of the container provided with the nozzle cap.
 以下、本発明のノズルキャップにおける一実施形態の構成について説明する。
 なお、以下の各図面においては、各構成要素を見やすくするため、構成要素によって寸法の縮尺を異ならせて示すことがある。
Hereinafter, the configuration of an embodiment of the nozzle cap of the present invention will be described.
In the following drawings, in order to make each component easy to see, the scale of dimensions may be different depending on the component.
 図1は、本実施形態に係るノズルキャップ(キャップ)10が装着された容器100の正立状態の口部101付近の構成を示す側面図である。図2は、ノズルキャップ10の構成を示す側面図である。図3は、ノズルキャップ10の構成を示す断面斜視図である。図4は、ノズルキャップ10を底部側から見た様子を示す斜視図である。図5は、ノズルキャップ10をノズル部13側から見た様子を示す斜視図である。図6は、ノズルキャップ10のノズル部13の構成を示す部分断面図である。図7は、ノズルキャップ10を軸線方向から見た上面図である。図8は、ノズルキャップ10が容器本体100Aの口部103に装着された様子を示す断面図である。 FIG. 1 is a side view showing a configuration in the vicinity of a mouth portion 101 in an upright state of a container 100 to which a nozzle cap (cap) 10 according to this embodiment is attached. FIG. 2 is a side view showing the configuration of the nozzle cap 10. FIG. 3 is a cross-sectional perspective view showing the configuration of the nozzle cap 10. FIG. 4 is a perspective view showing the nozzle cap 10 as seen from the bottom side. FIG. 5 is a perspective view showing a state in which the nozzle cap 10 is viewed from the nozzle portion 13 side. FIG. 6 is a partial cross-sectional view showing the configuration of the nozzle portion 13 of the nozzle cap 10. FIG. 7 is a top view of the nozzle cap 10 as viewed from the axial direction. FIG. 8 is a cross-sectional view illustrating a state in which the nozzle cap 10 is attached to the mouth portion 103 of the container main body 100A.
 本実施形態のノズルキャップ10は、図1に示すように、内容物を収容する容器本体100Aの上端に形成された口部101に嵌合する中栓であり、その外側に内容物を計量する計量キャップ102が装着されるものである。 As shown in FIG. 1, the nozzle cap 10 of the present embodiment is an inner plug that fits into a mouth portion 101 formed at the upper end of a container main body 100 </ b> A that accommodates contents, and the contents are measured outside thereof. A measuring cap 102 is attached.
 容器本体100Aは、例えばポリエチレン等のオレフィン系合成樹脂を用いたブロー成形により一体形成されている。容器本体100Aは、内容物として、例えば、液体洗剤、液体漂白剤、液体柔軟剤、溶剤等の液状物や、粒状洗剤、粒状漂白剤、粒状調味料等の粉粒物を収納するための収容空間100aを有している。容器本体100Aの口部101は、上下方向に延びる軸線Cを中心とする円筒状に形成されており、収容空間100aを上方に開放している。口部101の外周には、軸線C周りに雄ねじ部(不図示)が形成されており、本実施形態におけるノズルキャップ10が螺合する。本実施形態では、螺合タイプのノズルキャップ10の構成について述べるが、これに限らない。例えば、圧入やアンダーカット部等の係合により嵌合する構成であってもよい。 The container body 100A is integrally formed by, for example, blow molding using an olefin synthetic resin such as polyethylene. The container main body 100A contains, for example, liquid substances such as liquid detergents, liquid bleaches, liquid softeners, and solvents, and granular substances such as granular detergents, granular bleaches, and granular seasonings as contents. A space 100a is provided. The mouth portion 101 of the container main body 100A is formed in a cylindrical shape centering on an axis C extending in the vertical direction, and opens the accommodation space 100a upward. A male screw portion (not shown) is formed around the axis C on the outer periphery of the mouth portion 101, and the nozzle cap 10 in this embodiment is screwed together. In the present embodiment, the configuration of the screw type nozzle cap 10 will be described, but the configuration is not limited thereto. For example, the structure which fits by engagement, such as press injection and an undercut part, may be sufficient.
 以下の説明では、軸線Cに沿った方向を軸線方向、軸線Cに直交する方向を径方向、軸線Cを中心とする軸回り方向を周方向と適宜称する。また、ノズルキャップ10において、軸線方向における計量キャップ102側を上方(上側)、容器本体100A側を下方(下側)と適宜称する。また、軸線方向をZ方向とし、図1中、径方向をX方向とし、Z方向およびX方向と直交する方向(図1中、紙面と直交する方向)をY方向として適宜説明する。 In the following description, a direction along the axis C is appropriately referred to as an axial direction, a direction orthogonal to the axis C is referred to as a radial direction, and a direction around the axis about the axis C is appropriately referred to as a circumferential direction. In the nozzle cap 10, the measuring cap 102 side in the axial direction is appropriately referred to as the upper side (upper side), and the container body 100 </ b> A side is appropriately referred to as the lower side (lower side). In addition, the axial direction is referred to as the Z direction, the radial direction in FIG. 1 is defined as the X direction, and the Z direction and the direction orthogonal to the X direction (the direction orthogonal to the paper surface in FIG. 1) are appropriately described as the Y direction.
 図2に示すように、ノズルキャップ10は、例えば、ポリプロピレン等のオレフィン系合成樹脂を用いた射出成形により形成されている。ノズルキャップ10は、嵌合部11、ノズル基部12及びノズル部13を主に有し、互いに軸線Cを中心として構成されている。 As shown in FIG. 2, the nozzle cap 10 is formed by injection molding using an olefin-based synthetic resin such as polypropylene, for example. The nozzle cap 10 mainly has a fitting part 11, a nozzle base part 12, and a nozzle part 13, and is configured around an axis C.
 嵌合部11は、筒状をなし、図1に示した容器本体100Aの口部101の外側に嵌合する。嵌合部11は、ノズルキャップ10の下端側にキャップ最大径となる環状凸部14と、軸線Cに沿う環状凸部14の上端に連続し環状凸部14よりも径方向内側に位置する中間部15と、中間部15の環状凸部14とは反対側の端部に連続するとともに中間部15よりも径方向内側に位置する上部16とを有している。上部16の軸線周りには、雄ねじ部17が形成されている。本実施形態のノズルキャップ10は、軸線Cに沿って上部16から中間部15、環状凸部14へ向かうにしたがって、径方向外側に段階的に拡径した形状となっている。 The fitting part 11 has a cylindrical shape and is fitted to the outside of the mouth part 101 of the container main body 100A shown in FIG. The fitting portion 11 is an intermediate portion that is continuous with the upper end of the annular convex portion 14 along the axis C on the lower end side of the nozzle cap 10 and located radially inward of the annular convex portion 14. It has a portion 15 and an upper portion 16 that is continuous with the end of the intermediate portion 15 opposite to the annular convex portion 14 and that is located radially inward of the intermediate portion 15. A male screw portion 17 is formed around the axis of the upper portion 16. The nozzle cap 10 of the present embodiment has a shape in which the diameter is gradually increased outward in the radial direction from the upper portion 16 toward the intermediate portion 15 and the annular convex portion 14 along the axis C.
 ノズルキャップ10には、上述の計量キャップ102が装着される。計量キャップ102は、上部16の外側に装着され、中間部15と上部16との間の段差19に収まるように位置する。ノズルキャップ10に計量キャップ102が装着された状態で、装着された計量キャップ102の外周面102aと、ノズルキャップ10の中間部15との径方向における高さ位置が略一致する。すなわち、中間部15と上部16との段差19は、計量キャップ102の厚さ寸法に相当し、計量キャップ102がノズルキャップ10に装着された状態で、計量キャップ102からノズルキャップ10にかけて連続した外形をなすように構成されている。 The above-mentioned measuring cap 102 is attached to the nozzle cap 10. The measuring cap 102 is attached to the outside of the upper portion 16 and is positioned so as to fit in a step 19 between the intermediate portion 15 and the upper portion 16. With the measuring cap 102 attached to the nozzle cap 10, the radial height positions of the outer peripheral surface 102 a of the attached measuring cap 102 and the intermediate portion 15 of the nozzle cap 10 substantially coincide. That is, the step 19 between the intermediate portion 15 and the upper portion 16 corresponds to the thickness dimension of the measuring cap 102, and a continuous outer shape from the measuring cap 102 to the nozzle cap 10 with the measuring cap 102 attached to the nozzle cap 10. It is comprised so that it may make.
 また、嵌合部11には、内周面11bに沿って軸線C周りに雌ねじ部20が形成されており、図1に示した容器本体100Aの口部101の外側に形成された雄ねじ部(不図示)に螺合する構成としている。 Further, the fitting portion 11 is formed with a female screw portion 20 around the axis C along the inner peripheral surface 11b, and a male screw portion (outside the mouth portion 101 of the container main body 100A shown in FIG. (Not shown).
 ノズル基部12は、図2及び図3に示すように、嵌合部11の内側に同軸をなして設けられ、キャップ装着時に容器本体100Aの口部101から収容空間100a内に挿入される。ノズル基部12は、内側筒部21と、内側筒部21の一端側に設けられた底面部22とを有する有底円筒状をなし、底面部22には図4に示すような注出用開口孔23及び誘導部28が形成されている。 2 and 3, the nozzle base portion 12 is provided coaxially inside the fitting portion 11, and is inserted into the accommodating space 100a from the mouth portion 101 of the container main body 100A when the cap is attached. The nozzle base portion 12 has a bottomed cylindrical shape having an inner cylindrical portion 21 and a bottom surface portion 22 provided on one end side of the inner cylindrical portion 21, and the bottom surface portion 22 has a dispensing opening as shown in FIG. A hole 23 and a guide portion 28 are formed.
 内側筒部21は、図3に示すように、嵌合部11の上部16よりも径方向内側(軸線C側)に位置し、軸線Cに沿う下端側が環状凸部14よりも外側(容器本体100A側)に突出している。 As shown in FIG. 3, the inner cylinder portion 21 is located radially inward (on the axis C side) from the upper portion 16 of the fitting portion 11, and the lower end side along the axis C is outside the annular convex portion 14 (container main body). 100A side).
 底面部22は、図3に示すように容器本体100A側に凸のV字形状をなし、互いに傾斜角度の異なる第1傾斜面(傾斜面)22Aと第2傾斜面(傾斜面)22Bと、これら第1傾斜面22A及び第2傾斜面22Bの接続頂部22C,22Cの延長線上で互いに対向する第3傾斜面22D及び第4傾斜面22Eとを有し、最下端の接続頂部22C,22Cに向かって細くなっている。このような底面部22の第1傾斜面22Aから第2傾斜面22Bにかけて注出用開口孔23が形成されている。注出用開口孔23のうち、第2傾斜面22Bに形成された部分が空気置換孔25として機能する。 As shown in FIG. 3, the bottom surface portion 22 has a V shape that is convex toward the container body 100 </ b> A, and includes a first inclined surface (inclined surface) 22 </ b> A and a second inclined surface (inclined surface) 22 </ b> B that have different inclination angles. The first inclined surface 22A and the second inclined surface 22B have a third inclined surface 22D and a fourth inclined surface 22E facing each other on an extension line of the connection top portions 22C and 22C. It is getting thinner. An extraction opening hole 23 is formed from the first inclined surface 22A to the second inclined surface 22B of the bottom surface portion 22 as described above. A portion formed in the second inclined surface 22 </ b> B of the dispensing opening hole 23 functions as the air replacement hole 25.
 さらに、底面部22には、図3及び図4に示すように、使用時に容器本体100A内の内容物を注出用開口孔23へと誘導する溝状の誘導部28が設けられている。誘導部28は、底面部22を構成する第1傾斜面22Aに形成され、注出用開口孔23の周縁の一部に接続している。具体的には、注出用開口孔23の周縁のうち、軸線Cを介して空気置換孔25と対向する側であって、使用時(傾倒時)に最下位となる位置に誘導部28が接続されている。誘導部28は、図7に示すように、注出用開口孔23から径方向外側へ向かって形成されている。誘導部28の注出用開口孔23側とは反対側の他端側を、図8に示す容器本体100Aの口部103に近づけることで、口部103側に溜まった残液を回収しやすくなる。 Further, as shown in FIGS. 3 and 4, the bottom surface portion 22 is provided with a groove-shaped guide portion 28 that guides the contents in the container main body 100A to the dispensing opening hole 23 during use. The guide portion 28 is formed on the first inclined surface 22 </ b> A constituting the bottom surface portion 22, and is connected to a part of the peripheral edge of the extraction opening hole 23. Specifically, the guiding portion 28 is located at the lowest position in use (at the time of tilting) on the side facing the air replacement hole 25 through the axis C in the peripheral edge of the dispensing opening hole 23. It is connected. As shown in FIG. 7, the guide portion 28 is formed radially outward from the dispensing opening hole 23. The other end side of the guide portion 28 opposite to the side of the dispensing opening hole 23 is brought close to the mouth portion 103 of the container main body 100A shown in FIG. 8, so that the remaining liquid accumulated on the mouth portion 103 side can be easily collected. Become.
 誘導部28は、図3及び図6に示すように、底面部22の容器本体100A側からノズル部13側へ向かって凹む凹形状とされており、注出用開口孔23の周縁に近いほど一面22B側から離れた深い凹み具合となっている。誘導部28では、内面28aが樋状に湾曲しており、その頂部Q側が軸線Cに対して交差する方向へ延在しているとともに、底面部22の第1傾斜面22Aに対して傾斜している。また、誘導部28は、注出用開口孔23に近いほど溝幅が広くなっており、これらによって誘導部28を介して効率よく注出用開口孔23へ内容物が誘導されることになる。 As shown in FIGS. 3 and 6, the guiding portion 28 has a concave shape that is recessed from the container main body 100 </ b> A side toward the nozzle portion 13 side of the bottom surface portion 22, and is closer to the periphery of the dispensing opening hole 23. It is a deep dent that is far from the surface 22B. In the guide portion 28, the inner surface 28 a is curved in a bowl shape, and the top portion Q side extends in a direction intersecting the axis C, and is inclined with respect to the first inclined surface 22 A of the bottom surface portion 22. ing. Further, the guide portion 28 has a wider groove width as it is closer to the dispensing opening hole 23, so that the contents are efficiently guided to the dispensing opening hole 23 through the guiding portion 28. .
 ノズル部13は、図5、図6及び図7に示すように、ノズル基部12の底面部22に立設され、軸線Cに沿って容器本体100Aとは反対側に向かって延出している。具体的に、ノズル部13は、底面部22の第1傾斜面22Aに立設された、樋状部24と、一対の受け部26,26とを有している。 As shown in FIGS. 5, 6, and 7, the nozzle portion 13 is erected on the bottom surface portion 22 of the nozzle base portion 12, and extends toward the opposite side of the container body 100 </ b> A along the axis C. Specifically, the nozzle portion 13 includes a flange-like portion 24 and a pair of receiving portions 26 and 26 erected on the first inclined surface 22A of the bottom surface portion 22.
 樋状部24は、図3,図5及び図6に示すように、注出用開口孔23の周縁から上方(+Z方向)へ立ち上がるようにして延在し、内側に形成されるノズル流路18の流路径が延在方向(Z方向)で略一定とされている。
 樋状部24は、図7に示すように、注出用開口孔23の一部を囲むようにして設けられている。樋状部24は、図7に示すように、+X側に開口する断面U字形状をなし、+X側の開口端24a,24aは注出用開口孔23の周縁には沿っておらず、X方向に沿って延在している。
As shown in FIGS. 3, 5, and 6, the bowl-shaped portion 24 extends so as to rise upward (+ Z direction) from the peripheral edge of the dispensing opening hole 23, and is a nozzle flow path formed on the inner side. The flow path diameter of 18 is made substantially constant in the extending direction (Z direction).
As shown in FIG. 7, the bowl-shaped portion 24 is provided so as to surround a part of the dispensing opening hole 23. As shown in FIG. 7, the bowl-shaped portion 24 has a U-shaped cross section that opens to the + X side, and the opening ends 24 a and 24 a on the + X side do not follow the peripheral edge of the dispensing opening hole 23. Extends along the direction.
 本実施形態の注出用開口孔23は、一例として雫形状をなしている。樋状部24は、注出用開口孔23のうち第1傾斜面22Aに形成された第1の開口23Aの一部を囲んでおり、円弧状の周縁に沿って設けられている。また、注出用開口孔23のうち第2傾斜面22Bに形成された第2の開口23Bは、樋状部24の+X側の開口端24aよりも径方向外側へ突出しており、樋状部24によって囲まれずに開放されている。 The extraction opening 23 of the present embodiment has a bowl shape as an example. The bowl-shaped portion 24 surrounds a part of the first opening 23A formed in the first inclined surface 22A in the dispensing opening hole 23, and is provided along an arcuate periphery. Further, the second opening 23B formed in the second inclined surface 22B in the dispensing opening hole 23 protrudes radially outward from the opening end 24a on the + X side of the bowl-shaped part 24, and the bowl-shaped part It is open without being surrounded by 24.
 上述したように、注出用開口孔23は、底面部22の第1傾斜面22Aから第2傾斜面22Bにかけて形成されている。傾倒時に上位側となる第2傾斜面22Bは、ノズル部13が立設されている第1傾斜面22Aに対して折り返すように傾斜しているため、注出時に内容物が第2傾斜面22B側に乗り上げにくい。そのため、注出用開口孔23のうち、第2傾斜面22Bに形成された部分の開口状態を維持しやすく、一部を空気置換孔25として機能させることができる。 As described above, the dispensing opening hole 23 is formed from the first inclined surface 22A of the bottom surface portion 22 to the second inclined surface 22B. Since the second inclined surface 22B, which is the upper side when tilting, is inclined so as to be folded back with respect to the first inclined surface 22A on which the nozzle portion 13 is erected, the contents are second inclined surface 22B when being poured out. It is difficult to get on the side. Therefore, it is easy to maintain the opening state of the part formed in the 2nd inclined surface 22B among the opening holes 23 for extraction, and one part can be functioned as the air replacement hole 25. FIG.
 このような樋状部24の両外側には、樋状部24に沿って軸線方向へ延びるとともに樋状部24の外形に倣って湾曲する、一対の受け部26,26が設けられている。 A pair of receiving portions 26 and 26 that extend in the axial direction along the hook-shaped portion 24 and bend following the outer shape of the hook-shaped portion 24 are provided on both outer sides of the hook-shaped portion 24.
 一対の受け部26,26は、図6に示すように側方から見たときに、軸線方向で嵌合部11の内側に隠れる第1部分26Aに対して、嵌合部11よりも外側に露出する第2部分26Bが樋状部24の先端に向かって極端に細くなった先細り形状とされている。これら一対の受け部26,26は、軸線方向から見て、ノズル部13の-X側の頂部qから径方向両外側へ拡がるように湾曲し、ノズル部13との間に空間を形成すべくノズル部13から離れて対向している。図7に示すように、各受け部26,26の軸線方向から見たときの第1部分26Aにおける+X側の開口端26a,26aは、樋状部24の開口端24a,24aよりも-X側に位置する。 As shown in FIG. 6, the pair of receiving portions 26, 26 are located outside the fitting portion 11 with respect to the first portion 26 </ b> A hidden inside the fitting portion 11 in the axial direction when viewed from the side. The exposed second portion 26 </ b> B has a tapered shape that becomes extremely narrow toward the tip of the bowl-shaped portion 24. The pair of receiving portions 26 and 26 are curved so as to expand outward from the top portion q on the −X side of the nozzle portion 13 in the radial direction when viewed in the axial direction, so as to form a space between the nozzle portion 13 and the nozzle portion 13. It faces away from the nozzle portion 13. As shown in FIG. 7, when viewed from the axial direction of each receiving portion 26, 26, the opening end 26a, 26a on the + X side in the first portion 26A is −X more than the opening end 24a, 24a of the bowl-shaped portion 24. Located on the side.
 上記構成のノズルキャップ10は、容器本体100Aの口部101から、ノズル基部12の底部側を収容空間100a内へ挿入させつつ、嵌合部11の雌ねじ部20を容器本体100A側の雄ねじ部(不図示)に螺合させながら締結することにより、容器本体100Aに装着される。容器本体100Aに装着されたノズルキャップ10には、嵌合部11の雄ねじ部17に計量キャップ102の雌ねじ部(不図示)が螺合されて締結されることにより、計量キャップ102が装着される。 The nozzle cap 10 having the above configuration is configured such that the female screw portion 20 of the fitting portion 11 is inserted into the male screw portion (on the container main body 100A side) while the bottom portion side of the nozzle base portion 12 is inserted into the accommodating space 100a from the mouth portion 101 of the container main body 100A. The container body 100A is attached by being fastened to the container body (not shown). The measuring cap 102 is attached to the nozzle cap 10 attached to the container main body 100 </ b> A by screwing and fastening the female screw portion (not shown) of the measuring cap 102 to the male screw portion 17 of the fitting portion 11. .
 容器本体100A内から内容物を注出する際には、計量キャップ102を締結時とは逆方向に回転して、計量キャップ102の雌ねじ部(不図示)と、ノズルキャップ10の雄ねじ部17との螺合を解除して計量キャップ102をノズルキャップ10から取り外す。
計量キャップ102を取り外した状態で、容器本体100Aを把持してノズルキャップ10のノズル部13の開口側を上方に向けた状態から、図9に示すように、ノズル部13が下方に位置するように斜めに傾けることにより、容器本体100Aに収納された内容物をノズル部13から計量キャップ102に注出して計量することができる。
When the contents are poured out from the container main body 100A, the measuring cap 102 is rotated in the direction opposite to that at the time of fastening, and the female screw portion (not shown) of the measuring cap 102 and the male screw portion 17 of the nozzle cap 10 And the measuring cap 102 is removed from the nozzle cap 10.
From the state where the container body 100A is gripped and the opening side of the nozzle part 13 of the nozzle cap 10 is directed upward with the measuring cap 102 removed, the nozzle part 13 is positioned downward as shown in FIG. The contents stored in the container main body 100A can be poured out from the nozzle portion 13 to the measuring cap 102 and weighed.
 多く出し過ぎてしまった場合は再び容器本体100A内へ戻そうとするが、その際に、注出用開口孔23内に入らずに樋状部24の外側に漏れ出した内容液は、その両側に存在する一対の受け部26,26によって受け止められる。各受け部26によって受容された内容液は、傾倒時に第2部分26bに沿って先端側へと案内されて、その後の計量の際に注出される。 If too much is taken out, it tries to return to the container body 100A again, but at this time, the content liquid leaking outside the bowl-like portion 24 without entering the dispensing opening 23 is It is received by a pair of receiving portions 26, 26 existing on both sides. The content liquid received by each receiving portion 26 is guided to the distal end side along the second portion 26b at the time of tilting, and is poured out during the subsequent measurement.
 内容物を詰め替える際には、計量キャップ102を締結時とは逆方向に回転して、計量キャップ102の雌ねじ部(不図示)と、ノズルキャップ10の雄ねじ部17との螺合を解除して計量キャップ102をノズルキャップ10から取り外す。計量キャップ102を取り外した状態で、詰め替え容器からノズルキャップ10のノズル部13を通して容器本体100Aへ内容物を詰め替える。 When refilling the contents, the measuring cap 102 is rotated in the direction opposite to that at the time of fastening, and the screwing of the female screw portion (not shown) of the measuring cap 102 and the male screw portion 17 of the nozzle cap 10 is released. The measuring cap 102 is removed from the nozzle cap 10. With the measuring cap 102 removed, the contents are refilled from the refill container into the container body 100A through the nozzle portion 13 of the nozzle cap 10.
 従来の構成では、容器本体100A内の内容物の残量が少なくなってくると、容器本体100Aの口部103とノズルキャップ10のノズル基部12との間に内容物が入り込んでしまう。そのため、容器本体100Aを傾倒させてもノズルキャップ10から内容物がなかなか注出されず、容器本体100A内に内容物が残留してしまって完全に使い切ることができないことが多かった。 In the conventional configuration, when the remaining amount of the contents in the container main body 100A decreases, the contents enter between the mouth portion 103 of the container main body 100A and the nozzle base portion 12 of the nozzle cap 10. Therefore, even if the container body 100A is tilted, the contents are not easily poured out from the nozzle cap 10, and the contents remain in the container body 100A and cannot be completely used up in many cases.
 これに対して本実施形態では、底面部22を構成する第1傾斜面22Aの一部に、注出用開口孔23に通じる凹形状の誘導部28が設けられており、この誘導部28によって、使用時に容器本体100Aを傾倒させた際に、容器本体100Aの口部101と、口部101内に挿入されたノズル基部12との間に入り込んだ内容物が、誘導部28によって注出用開口孔23へと誘導され、樋状部24を通じて注出させることが可能となっている。 On the other hand, in the present embodiment, a concave guiding portion 28 that leads to the dispensing opening hole 23 is provided in a part of the first inclined surface 22A constituting the bottom surface portion 22, and the guiding portion 28 When the container body 100A is tilted at the time of use, the contents entering between the mouth part 101 of the container body 100A and the nozzle base part 12 inserted into the mouth part 101 are poured out by the guide part 28. It is guided to the opening hole 23 and can be poured out through the bowl-shaped portion 24.
 誘導部28は、注出用開口孔23から径方向外側へ向かって延在しており、注出用開口孔23に近いほど一面22B側から離れた深い凹みとなっている。また、誘導部28の内面28aの頂部Q側が軸線Cに対して交差する方向へ延在しているとともに、底面部22の第1傾斜面22Aに対して傾斜している。これにより、容器本体100Aを傾倒させた際に、第1傾斜面22Aに沿って注出用開口孔23よりも下側に溜まった内容物が、ノズル部13側へ凹んだ誘導部28内へ入り込みやすくなる。そのため、容器本体100A内の内容物の残量が少ない場合であっても、容器本体100Aの傾倒角度を極端に大きくすることなく、内容物を注出用開口孔23へと効率よく誘導し、注出することができる。 The guiding portion 28 extends radially outward from the extraction opening hole 23, and becomes a deep recess that is further away from the one surface 22 </ b> B side as it is closer to the extraction opening hole 23. Further, the top portion Q side of the inner surface 28 a of the guide portion 28 extends in a direction intersecting the axis C, and is inclined with respect to the first inclined surface 22 A of the bottom surface portion 22. As a result, when the container body 100A is tilted, the contents accumulated below the dispensing opening hole 23 along the first inclined surface 22A enter the guide portion 28 that is recessed toward the nozzle portion 13 side. It becomes easy to enter. Therefore, even when the remaining amount of the contents in the container main body 100A is small, the contents are efficiently guided to the dispensing opening hole 23 without extremely increasing the tilt angle of the container main body 100A. Can be dispensed.
 このように、本実施形態のノズルキャップ10によれば、傾倒時に下側となる箇所に誘導部28を設けることで、容器本体100Aとの間に溜まった内容物の流出性を改善することができ、容器本体100A内における残液を減らして内容物を有効に使用することができる。 As described above, according to the nozzle cap 10 of the present embodiment, by providing the guide portion 28 at the lower position when tilted, the outflow of the contents accumulated between the container main body 100A can be improved. It is possible to reduce the residual liquid in the container body 100A and use the contents effectively.
 なお、本実施形態では、誘導部28の内面28aの頂部Q側が軸線Cに対して交差する方向へ延在しているがこれに限らず、例えば、内面28aの注出用開口孔23側の端部が、内側筒部21側の端部よりも+Z方向へ位置するように傾斜していてもよい。つまり、第1傾斜面22Aとは反対側へ傾斜していてもよい。これにより、容器本体100A側の内容物をすくい出すように流出させることができる。 In the present embodiment, the top Q side of the inner surface 28a of the guide portion 28 extends in a direction intersecting the axis C. However, the present invention is not limited to this. For example, the top portion Q side of the inner surface 28a The end portion may be inclined so as to be positioned in the + Z direction with respect to the end portion on the inner cylinder portion 21 side. That is, you may incline to the opposite side to 22 A of 1st inclined surfaces. Thereby, it can be made to flow out so that the contents by the side of container main part 100A may be scooped out.
 また、本実施形態では、各受け部26において、第1部分26Aにおける残液回収機能を確保しつつ、嵌合部11よりも外側に露出する第2部分26Bを細くすることによって、注出操作時に樋状部24の先端側が見やすくなる構成としている。これにより、計量キャップ102へ内容物を注ぎやすい。また、第2部分26Bに受容された残液は、第2部分26bに沿って先端側へ案内され、樋状部24から注出される内容物とともに計量キャップ102へ注出される。さらに、第1部分26Aに対して第2部分26Bを細くしたことにより、使用する樹脂量を減らすことができ、軽量化及びコスト削減が図れる。また、ノズルキャップ10の全体としての小型化も図ることができる。 Further, in the present embodiment, in each receiving portion 26, the second portion 26 </ b> B exposed to the outside of the fitting portion 11 is thinned while ensuring the function of collecting the remaining liquid in the first portion 26 </ b> A. The front end side of the bowl-shaped portion 24 is sometimes easy to see. Thereby, it is easy to pour the contents into the measuring cap 102. The residual liquid received in the second portion 26B is guided to the distal end side along the second portion 26b, and is poured into the measuring cap 102 together with the contents poured out from the bowl-shaped portion 24. Furthermore, since the second portion 26B is made thinner than the first portion 26A, the amount of resin to be used can be reduced, and weight reduction and cost reduction can be achieved. Further, the overall size of the nozzle cap 10 can be reduced.
 なお、本実施形態のノズルキャップ10は螺合タイプであるが、例えば、圧入やアンダーカット部等の係合等により上方に抜けないように容器本体100Aの口部101に挿入されて嵌合する構成としてもよい。 The nozzle cap 10 of the present embodiment is a screw type, but is inserted and fitted into the mouth portion 101 of the container main body 100A so as not to come out upward due to, for example, press fitting, engagement of an undercut portion or the like. It is good also as a structure.
 以上、添付図面を参照しながら本発明に係る好適な実施形態について説明したが、本発明は係る例に限定されない。当業者であれば、特許請求の範囲に記載された技術的思想の範疇内において、各種の変更例または修正例に想到し得ることは明らかであり、それらについても当然に本発明の技術的範囲に属するものと了解される。 The preferred embodiments according to the present invention have been described above with reference to the accompanying drawings, but the present invention is not limited to such examples. It is obvious for those skilled in the art that various changes or modifications can be conceived within the scope of the technical idea described in the claims. It is understood that it belongs to.
 例えば、上述した誘導部28の大きさ及び形状は、図示したものに限られず、内容物の種類等に応じて適宜変更が可能である。 For example, the size and shape of the guiding portion 28 described above are not limited to those shown in the drawings, and can be changed as appropriate according to the type of contents.
 本発明は、キャップに適用できる。 The present invention can be applied to a cap.
 10…ノズルキャップ(キャップ)、11…嵌合部、12…ノズル基部、13…ノズル部、22…底面部、22A…第1傾斜面(傾斜面)、22B…第2傾斜面(傾斜面)、23…注出用開口孔、24…樋状部、28…誘導部、100…容器、100A…容器本体、101,103…口部、C…軸線、Q…頂部 DESCRIPTION OF SYMBOLS 10 ... Nozzle cap (cap), 11 ... Fitting part, 12 ... Nozzle base, 13 ... Nozzle part, 22 ... Bottom part, 22A ... 1st inclined surface (inclined surface), 22B ... 2nd inclined surface (inclined surface) , 23 ... opening hole for pouring, 24 ... bowl-shaped part, 28 ... guide part, 100 ... container, 100A ... container body, 101, 103 ... mouth part, C ... axis, Q ... top part

Claims (4)

  1.  粘性を有する液状の内容物を収容する容器本体の口部に着脱可能に装着され前記内容物を傾倒注出するキャップであって、
     前記口部に嵌合する嵌合部と、
     前記嵌合部の内側に同軸をなして設けられ前記口部の内側に挿入されるノズル基部と、
     前記ノズル基部の底面部に同軸をなして立設され前記容器本体とは反対側に延出するノズル部と、
     前記ノズル基部は、軸線方向容器本体側から見て前記ノズル部の内方の前記底面部に形成された注出用開口孔と、前記注出用開口孔の周縁のうち傾倒時に下側となる部分に接続された凹形状の誘導部と、を有し、
     前記誘導部を介して、前記注出用開口孔が前記容器本体の収容空間に連通している、キャップ。
    A cap that is detachably attached to the mouth of a container body that contains liquid content having viscosity, and that tilts and dispenses the content,
    A fitting part that fits into the mouth part;
    A nozzle base provided coaxially inside the fitting portion and inserted inside the mouth; and
    A nozzle portion that is erected coaxially with the bottom surface of the nozzle base and extends to the opposite side of the container body;
    The nozzle base portion is a lower side when tilted out of a pouring opening hole formed in the bottom surface portion inside the nozzle portion as viewed from the axial container body side and a peripheral edge of the pouring opening hole. A concave guiding part connected to the part,
    A cap in which the extraction opening hole communicates with the accommodation space of the container body via the guide portion.
  2.  前記誘導部は、前記底面部に形成され、前記底面部の前記容器本体側から前記ノズル部側へ向かって凹む凹形状とされている、請求項1に記載のキャップ。 The cap according to claim 1, wherein the guide portion is formed in the bottom surface portion and has a concave shape that is recessed from the container main body side of the bottom surface portion toward the nozzle portion side.
  3.  前記誘導部は、前記注出用開口孔の周縁から径方向外側に向かって形成されており、前記注出用開口孔側が最も凹み具合が大きい、請求項1または2に記載のキャップ。 The cap according to claim 1 or 2, wherein the guide portion is formed from a peripheral edge of the extraction opening hole toward a radially outer side, and the depression opening hole side has the largest depression.
  4.  前記誘導部は、樋状に湾曲しておりその頂部側が軸線に対して交差する方向へ延在している、請求項1から3のいずれか一項に記載のキャップ。 The cap according to any one of claims 1 to 3, wherein the guide portion is curved in a bowl shape and has a top portion extending in a direction intersecting the axis.
PCT/JP2018/003621 2017-02-16 2018-02-02 Cap WO2018150909A1 (en)

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KR1020197023726A KR102672025B1 (en) 2017-02-16 2018-02-02 cap
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JPH11321910A (en) 1998-05-11 1999-11-24 Kao Corp Container and cap
JP5305801B2 (en) * 2008-09-17 2013-10-02 ライオン株式会社 Liquid dispensing container
JP2012188128A (en) * 2011-03-09 2012-10-04 Rohto Pharmaceutical Co Ltd Cap for liquid container and container for liquid
JP5934589B2 (en) * 2012-07-02 2016-06-15 ライオン株式会社 Cap and cap structure
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Publication number Priority date Publication date Assignee Title
JPH0715556U (en) * 1993-08-24 1995-03-14 株式会社吉野工業所 Liquid dispensing container
JP2001097432A (en) * 1999-09-28 2001-04-10 Yoshino Kogyosho Co Ltd Pouring-out cap
JP2010274975A (en) * 2009-05-29 2010-12-09 Yoshino Kogyosho Co Ltd Liquid pool preventing cap

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JP6895765B2 (en) 2021-06-30
KR102672025B1 (en) 2024-06-04

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