[go: up one dir, main page]
More Web Proxy on the site http://driver.im/

WO1997021958A1 - Return type spray nozzle - Google Patents

Return type spray nozzle Download PDF

Info

Publication number
WO1997021958A1
WO1997021958A1 PCT/JP1996/003557 JP9603557W WO9721958A1 WO 1997021958 A1 WO1997021958 A1 WO 1997021958A1 JP 9603557 W JP9603557 W JP 9603557W WO 9721958 A1 WO9721958 A1 WO 9721958A1
Authority
WO
WIPO (PCT)
Prior art keywords
hole
return
center
spray nozzle
spray
Prior art date
Application number
PCT/JP1996/003557
Other languages
French (fr)
Japanese (ja)
Inventor
Yasuo Matake
Hideaki Koga
Original Assignee
Matake Sangyo Co. Ltd.
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 Matake Sangyo Co. Ltd. filed Critical Matake Sangyo Co. Ltd.
Priority to EP96941172A priority Critical patent/EP0809069A4/en
Publication of WO1997021958A1 publication Critical patent/WO1997021958A1/en

Links

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23DBURNERS
    • F23D11/00Burners using a direct spraying action of liquid droplets or vaporised liquid into the combustion space
    • F23D11/36Details, e.g. burner cooling means, noise reduction means
    • F23D11/38Nozzles; Cleaning devices therefor
    • F23D11/383Nozzles; Cleaning devices therefor with swirl means
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23DBURNERS
    • F23D11/00Burners using a direct spraying action of liquid droplets or vaporised liquid into the combustion space
    • F23D11/24Burners using a direct spraying action of liquid droplets or vaporised liquid into the combustion space by pressurisation of the fuel before a nozzle through which it is sprayed by a substantial pressure reduction into a space
    • F23D11/26Burners using a direct spraying action of liquid droplets or vaporised liquid into the combustion space by pressurisation of the fuel before a nozzle through which it is sprayed by a substantial pressure reduction into a space with provision for varying the rate at which the fuel is sprayed
    • F23D11/28Burners using a direct spraying action of liquid droplets or vaporised liquid into the combustion space by pressurisation of the fuel before a nozzle through which it is sprayed by a substantial pressure reduction into a space with provision for varying the rate at which the fuel is sprayed with flow-back of fuel at the burner, e.g. using by-pass

Definitions

  • the present invention relates to a return type spray nozzle, and more particularly, to a liquid fuel combustor such as a household water heater or a heater which requires a relatively small combustion capacity, is fine, accurate, and requires a large turndown ratio.
  • the present invention relates to a return type spray nozzle that can be used.
  • the return type spray nozzle as shown in the schematic diagram of Fig. 11, ejects the liquid fuel sent from tank 1 through pump 2 to supply type spray nozzle 4 to recirculation type spray nozzle 4, and burns.
  • the nozzle is provided to return to the return path 5 without spraying a part of the supplied liquid fuel.
  • the liquid fuel returned to the return path 5 is returned to the tank 1 or the like as shown in FIG. 11, or is circulated again on the way to the inlet side of the pump 2 in the supply path 3.
  • the return amount is adjusted by the return amount control valve 6.
  • the conventional return type spray nozzle has a spray nozzle main body 10 and a distributor 20 fitted in an inner hole 11 thereof, as shown in a vertical sectional view of FIG. I have.
  • the spray nozzle main body 10 is provided with a spray pore 12 at the center of the tip.
  • the distributor 20 is formed with a return hole 21 penetrating through the center of the flat portion 25 at the tip and a shoulder 22 contacting the inner hole 11 of the spray nozzle body 10.
  • a plurality of fuel supply slit grooves 23 are provided.
  • the liquid fuel sent from the pump 2 passes from the inner hole 11 of the spray nozzle body 10 through the fuel supply slit groove 23 and the spray standby chamber 3 After entering 0, it is ejected from the spray holes 12. A part is returned from the spray standby chamber 30 through the return pore 21.
  • FIGS. 13 and 14 The configuration of the present invention is shown in FIGS. 13 and 14.
  • FIG. 13 is a longitudinal sectional configuration view of a main part of the nozzle
  • FIG. 14 is a plan view of the distributor 20.
  • the center is located near the center of the flat portion 25 at the tip of the distributor 20 with respect to the central axis X of the spraying pore 12 provided at the center of the tip of the spray nozzle body 10.
  • a return hole 24 is provided at a position eccentric from the axis X to penetrate.
  • the return pores 24 By providing the return pores 24 so as to be off the center axis X of the spray pores 12, the return pores 24 pass through the center of the swirling vortex of the liquid fuel in the spray standby chamber 30 from the spray pores 12. It is possible to prevent the external air that has entered by mixing with the fuel into the pores 24 for return.
  • a plurality of (two in the figure) pores 24 are provided at symmetrical positions around the central axis X.
  • members, parts and elements similar to those described in FIG. 12 are denoted by the same reference numerals.
  • the return spray nozzle shown in Figs. 13 and 14 above In the case of using a large size combustor, since the overall spray amount is large, the diameters of the spraying holes 12 and the return holes 24 become relatively large. The drilling of holes 12 and 24 does not pose a significant problem, but if a smaller-capacity combustor is to be used for home use, etc. It becomes necessary to make the hole diameter of 4 smaller.
  • the return holes 24 are configured to be eccentric from the center axis X, it is necessary to provide a plurality of return holes 24 symmetrically in consideration of balance. In this case, it is necessary to make the diameters of the individual return pores 24 considerably small.
  • the diameter of the circular flat portion 25 at the tip of the distributor 20 is about 3 to 4 occluded or more, and the return hole 24 having a diameter of about 1 to 1.5 hidden hole is formed in the flat portion 25.
  • the diameter of the flat portion 25 at the tip of the distributor 20 is further reduced, Then, when it is desired to form a return pore 24 having a smaller pore diameter in the plane portion 25, for example, a return pore 24 having a pore diameter of about 0.3 to 0.4 hidden, It was difficult to directly drill the small-diameter hole 24 for cleaning, and even when drilling was possible, the cost of the drilling equipment was extremely high.
  • the present invention solves the above-mentioned conventional problems, and a small return pore can be obtained reliably, easily and at low cost at a position eccentric with respect to the center axis of the spray pore.
  • the purpose of the present invention is to provide a return spray nozzle capable of preventing external air from being caught in the return pores and obtaining a delicate, accurate and large turndown ratio in small capacity combustion. I do.
  • a return type spray nozzle has a spray nozzle main body and a distributor fitted in an inner hole of the spray nozzle main body, and the spray nozzle main body has A spraying hole is provided in the center of the distributor, and the distributor is provided with a return hole near the center of the tip of the distributor at a position eccentric from the center axis of the spraying hole and a shoulder of the distributor.
  • a slit groove for supplying fuel for supplying the liquid fuel sent through the inner hole of the spray nozzle main body to the spray standby chamber in front of the distributor tip is provided on the outer side, and is supplied to the spray standby chamber.
  • the return hole has a central through-hole formed near the center of the tip of the distributor and coaxial with the central axis of the atomizing hole, and has a cross-sectional shape that is inconsistent with the central through-hole.
  • the first feature is that the core to be fitted is configured as a through gap generated in a boundary region between the center through hole and the core fitted to the center through hole.
  • the return spray nozzle of the present invention further comprises a core having a concave streak formed on the outer surface, which is fitted and fixed in the center through-hole, so that the core and the center through-hole can be connected to each other.
  • a second feature is that the return fine pores formed by the concave streaks are formed in the boundary area as through spaces.
  • the return spray nozzle of the present invention has a structure in which the core is fitted into and fixed to the center through-hole having a concave streak on the inner surface, so that the core and the center through-hole can be connected to each other.
  • a third feature is that a return pore formed by the concave stripe is formed as a through space in the boundary area.
  • a plurality of return pores are provided symmetrically around the central axis.
  • the return type spray nozzle of the present invention further comprises a similar core having a smaller diameter than the central through-hole, which is fitted and fixed in the central through-hole, so that the core and the central through-hole can be fixed.
  • the fifth feature is that a ring-shaped pore for the ring is formed as a through gap in the boundary area with the hole.
  • the through hole formed in the boundary area due to the different cross-sectional shapes of the core is used as the return pore, so that the return pore having a small pore diameter can be easily formed in the center axis. It can be configured with eccentricity. Since the diameters of the center through-hole and the core itself can be relatively large, drilling is easy.
  • the return hole can be formed much easier and at low cost.
  • the number of the return pores may be plural, such as two, three, or four, but may be one.
  • a return pore having a sufficiently small hole diameter can be obtained reliably, easily, and easily.
  • the center through hole and the core body for example, cold fitting, shrink fitting, ultrasonic fitting, and other well-known techniques can be used.
  • the concave streak on the outer surface of the core body can be formed by pulling the portion, shaving, or coining.
  • the core having a concave streak on the outer surface is fitted and fixed in the center through-hole, so that the return pore by the concave streak is formed in the boundary area between the core and the center through-hole.
  • the concave streak on the inner surface of the center through hole can be configured in the same manner as in the case of the core.
  • the core is fitted into and fixed to the center through hole having the recess formed on the inner surface, so that the recess is formed in the boundary area between the core and the center through hole. Because the return pores are formed as through gaps, the return pores with sufficiently small diameter can be obtained eccentrically from the central axis, ensuring that air can enter the return pores. Prevention and capacity adjustment in small capacity combustion can be performed reliably.
  • the fourth feature in addition to the operation and effect of any of the first to third features, since a plurality of return pores are provided symmetrically around the central axis, Liquid returned from the standby chamber to the return pore The body fuel is balanced, so that there is no excess or deficiency of the liquid fuel in the spray standby chamber, and stable spray can be performed from the spray standby chamber.
  • a return pore having a small diameter can be obtained in a ring shape at a position eccentric from the central axis, and air is returned.
  • FIGS. 1, 2, 3, and 4 show a first embodiment of the present invention
  • FIG. 1 is a partial cross-sectional view schematically showing the entirety of a return type spray nozzle
  • FIG. 3 is a longitudinal sectional configuration view of a main part of the turn type spray nozzle
  • FIG. 3 is a plan view of a main part of the distributor
  • FIG. 4 is a perspective view of a core.
  • FIG. 5 and 6 show a second embodiment of the present invention.
  • FIG. 5 is a plan view of a main part of a distributor of a return type spray nozzle
  • FIG. 6 is a perspective view of a core.
  • 7 and 8 show a third embodiment of the present invention.
  • FIG. 7 is a longitudinal sectional view of a main part of the distributor of the return type spray nozzle
  • FIG. 8 is a plan view of a main part of the distributor.
  • FIG. 9 and 10 show a fourth embodiment of the present invention.
  • FIG. 9 is a vertical sectional view of a main part of a distributor of a return type spray nozzle
  • FIG. 10 is a return type spray nozzle. It is a top view of the distributor of a fog nozzle.
  • Fig. 11 and Fig. 12 show a conventional example.
  • Fig. 11 is an overall schematic diagram of a return spray nozzle.
  • Fig. 12 is a longitudinal sectional view of a main part of a return spray nozzle.
  • FIG. 13 and Fig. 14 show other conventional examples
  • Fig. 13 is a vertical cross-sectional view of the main part of a return spray nozzle
  • Fig. 14 is a distributor of a return spray nozzle.
  • a supply path 3 for liquid fuel such as petroleum and a return path 5 are connected to a return spray nozzle 4 in the same manner as in FIG.
  • a spray nozzle main body 50 is provided, and a distributor 60 is provided in the spray nozzle main body 50.
  • the spray nozzle main body 50 is detachably screwed to the distal end of the outer cylinder case 41 of the return spray nozzle 4.
  • the distributor 60 is fitted and fixed to the distal end of the inner cylinder 42 of the return spray nozzle 4.
  • the inner cylinder 42 and the outer cylinder case 41 are removably screwed and fixed concentrically. 4 3 is the evening.
  • the oil that has entered the return type spray nozzle 4 from the tank 1 (not shown) see Fig.
  • the vehicle further proceeds forward, passes through the inner hole of the spray nozzle body 50, passes between the spray nozzle body 50 and the distributor 60, and passes through the inside of the distributor 60. It is supplied to the spray standby room 70 ahead.
  • the petroleum supplied to the spray standby chamber 70 is jetted from the spray nozzle 51 of the spray nozzle main body 50 and is provided for combustion.
  • Some of the oil is returned from the spray standby chamber 70 to the inner cylinder 42 through a return hole 90 of the distributor 60 described later, and further returned to the return path 5.
  • the amount of oil to be returned is adjusted by the return amount control valve 6.
  • the adjustment by the return amount control valve 6 is automatically adjusted by a controller (not shown) according to the required amount of combustion heat.
  • FIG. At the center of the tip of the spray nozzle body 50, a spray hole 51 is provided.
  • the central axis X of the spray hole 51 is also the center axis of the spray nozzle body 50, and It is also the central axis of the turn type spray nozzle 4 itself.
  • the distributor 60 is fitted into the inner hole of the spray nozzle body 50 by means of a hinge, but the distributor 60 abuts against a circular inner hole 52 near the tip of the spray nozzle body 50.
  • a plurality of fuel supply slit grooves 62 are provided in the shoulder outer portion 61 of the container 60. In this example, four fuel supply slit grooves 62 are provided.
  • three or six fuel supply slit grooves may be provided, and the number of fuel supply slit grooves is not limited. It is preferable to provide a The oil is supplied to the spray standby chamber 70 in front of the tip of the distributor 60 through the fuel supply slit groove 62.
  • the spray standby chamber 70 is provided near the tip of the circular inner hole 52 of the spray nozzle main body 50, a flat portion 6 formed on the wall of the conical inner hole 52 and the tip of the distributor 60. 5 and the center axis X is the center of the space.
  • a central through hole 63 is formed coaxially with the central axis X.
  • the central through hole 63 is continuous with the enlarged through hole 64 of the distributor 60, and the enlarged through hole 64 is connected to the inner cylinder 42 (see FIG. 1).
  • a core body 80 is fitted in the center through hole 63 of the distributor 60.
  • the core body 80 is a rod-like body having a plurality of concave streaks 81 formed on the outer surface thereof in the axial direction.
  • the concave streak 81 and the inner surface of the center through hole 63 are formed in the boundary area between the closely adhered center through hole 63 and the core body 80.
  • a through gap surrounded by is defined, and this through gap forms a return hole 90. That is, since the cross-sectional shape of the core body 80 fitted into the central through-hole 63 does not match at the concave streak 81, return pores 90 can be formed, and further, the return pores 90.
  • the core body 80 is actually slightly larger in size than the center through-hole 63, and the core body 80 and the center through-hole 63 are subjected to ultrasonic vibration or shrink-fit or cold-fit. By doing so, it can be fitted and fixed in close contact.
  • the concave streak 81 formed in the outer surface of the core body 80 in the axial direction can be configured by pulling the outer surface in the axial direction. It can also be cut. Further, it can be formed by press working such as coining. Since only a concave streak is formed on the outer side surface, a concave streak having a size sufficiently smaller than that of forming a hole can be formed very simply, easily, and reliably.
  • FIG. 5 and 6 show a second embodiment of the present invention.
  • FIG. 5 is a plan view of a main part of the distributor
  • FIG. 6 is a perspective view of a core.
  • FIG. 7 and FIG. 8 show a third embodiment of the present invention.
  • Figure 7 shows the main components of the distributor.
  • FIG. 8 is a plan view of a main part of the distributor.
  • a plurality of return pores 90 are eccentric around the central axis X by forming a concave streak 63 a on the side of the central through hole 63 of the distributor 60. It consists of. That is, a plurality of concave stripes 63 a are formed on the inner side surface of the center through hole 63, and the core 80 is fitted and fixed in the center through hole 63, so that the closely contacted center through hole 63 is formed. A through gap surrounded by the concave streak 63 a and the outer surface of the core body 80 is formed in a boundary region between the core 3 and the core body 80, and the return gap 90 is formed by the through gap. Make up.
  • the core body 80 is actually slightly larger in size than the center through-hole 63, and the core body 80 and the center through-hole 63 are subjected to ultrasonic vibration or shrink-fit or cold-fit. By doing so, it can be fitted and fixed in close contact.
  • the concave streak 63 a formed in the inner surface of the center through hole 63 in the axial direction can be configured by pulling the inner surface in the axial direction. It can also be cut. Further, it can be formed by press working such as coining. Since only a concave streak is formed on the inner surface, a concave streak having a size sufficiently smaller than that of forming a hole can be formed very simply, easily, and reliably.
  • This embodiment basically has the same operation and effect as the case where the concave streak 81 is provided on the core 80 side.
  • the number of the concave stripes 63 a formed in the center through hole 63 and the number of the concave stripes 81 formed in the core body 80 are plural, The number is not particularly limited.
  • the shape and size of the concave stripes 6 3 a and 81 are also special. However, the present invention is not limited to this.
  • the length of the core body 80 is set to a length comparable to the length of the center through hole 63, but it is not necessary that the length is the same as that of the center through hole 63. It can be shorter or longer.
  • the central through-hole 63 and the core 80 are formed with the concave stripes 63 a and 81, so that the central through-holes closely fitted to each other are fitted.
  • a through gap is formed in the boundary area between 63 and the core body 80, thereby forming a pore 90 for the cleaning. It is not necessary that the ridges 63a, 81 be formed.
  • FIG. 9 and FIG. 10 show a fourth embodiment of the present invention.
  • FIG. 9 is a longitudinal sectional view of a main part of the distributor
  • FIG. 10 is a plan view of the distributor.
  • the core body 80 is fitted into the central through-hole 63 of the distributor 60 in close contact with the portion except for the concave streaks 63 a and 81, whereas this embodiment Then, a similar core body 80 having a smaller diameter than the central through hole 63 is fitted into and fixed to the central through hole 63 of the distributor 60, so that the core body 80 and the central through hole A single ring-shaped through gap is formed continuously at the boundary area with 3, and this is defined as a return pore 90.
  • the fixing method of the core body 80 is as follows.
  • the length of the core body 80 is made longer than the center through hole 63, and the rear part of the core body 80 protruding from the center through hole 63 to the enlarged through hole 64.
  • the fixture 100 should not interfere with the flow of return flow. Then, it is fixed to the inner wall of the enlarged through hole 64.
  • the fixture 100 may be three projecting pieces integrally attached to the rear of the core body 80 at an angle of 120 degrees to each other. In this case, the core 80 to which the projecting piece as the fixing tool 100 is integrally attached is inserted from the side of the enlarged through hole 64 and fixed.
  • the fixing tool 100 may be integrally fixed to the enlarged through hole 64 side.
  • the fixing tool 100 may be detachable from any of the core body 80 and the enlarged through hole 64.
  • the core body 80 may be fitted into the fixture 100 and fixed, and then fitted into the enlarged through hole 64, or the fixture 100 may be fitted into the enlarged through hole 64 first. After that, the core body 80 may be fitted.
  • the periphery of the outer surface of the core body 80 at a portion to be fitted into the center through hole 63 are provided on the surface in a well-balanced manner, and when the core body 80 is fitted into the center through-hole 63, the protrusion comes into contact with the inner wall of the center through-hole 63 so that the ring-shaped through gap is formed. May be secured.
  • the center through-hole 63 described in the above-described embodiment is preferably a hole having a circular cross section.
  • the center through hole 63 is not necessarily required to have a circular shape. There may be.
  • the core body 80 has a circular cross section and the cross section is deformed by concave means 81 or other means.However, basically, the core body 80 has a polygonal cross section other than the circular cross section. Deformation means may be added to this.
  • the length of the core body 80 is not particularly limited.
  • the diameter of the spraying pore 51 is, for example, about 1 or less for small capacity. It can be changed according to the target combustion capacity, and is not particularly limited.
  • the diameter of the return pore 90 is 1 mm or less for small capacity, for example, about 0.3 to 0.4 country. Although it can be easily configured in the present invention, the diameter of the return pores 90 can also be a diameter according to the ability, and is not particularly limited.
  • the return pores of the distributor are arranged near the center of the tip end of the distributor.
  • a central through hole formed coaxially with the central axis of the center through hole, and a core body fitted with an inconsistent cross-sectional shape with respect to the central through hole, the boundary area between the central through hole and the core body fitted therein. Because it is configured as a through gap that occurs,
  • the return pore having a sufficiently small diameter required for low-capacity combustion can be easily and eccentrically formed from the central axis.
  • the return holes can be formed much easier and at low cost. Also, it is easy to form a plurality of return pores, and the return amount can be easily increased accordingly, so that the turndown ratio can be easily increased.
  • a core body having a concave streak on the outer surface is fitted and fixed in the center through hole.
  • the return hole formed by the above-mentioned concave streak is formed as a through gap in the boundary area between the core body and the center through hole, it is necessary to obtain a sufficiently small return hole eccentric from the center axis. As a result, it is possible to reliably prevent air from entering the return pores, and it is possible to reliably perform capacity adjustment in small capacity combustion.
  • the core body is fitted and fixed in the center through-hole having a concave streak on the inner surface.
  • the return hole formed by the above-mentioned concave streak is formed as a through gap in the boundary area between the core body and the center through hole, so that the return hole having a sufficiently small hole diameter is formed in the center axis.
  • a plurality of return pores are provided symmetrically around the central axis. From the spray standby room The liquid fuel returned to the spray pores is balanced, so that there is no excessive or insufficient location of the liquid fuel in the spray waiting room, and stable spraying can be performed from the spray waiting room.
  • a return pore having a small diameter is formed in a ring shape at a position eccentric from the central axis.

Landscapes

  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Nozzles For Spraying Of Liquid Fuel (AREA)

Abstract

In a return type spray nozzle, a small hole (90) for return is provided in a distributor (60) so as to be eccentric relative to the central axis (X) of a small hole (51) for spray, a liquid fuel supplied to a spray stand-by chamber (70) is jetted from the small spraying hole (51) of a spray nozzle body (50), and a part of the liquid fuel is returned through the small hole (90) for return. The small hole (90) for return is defined as a through gap formed in a boundary region between a central through hole (63), which is formed near the center of a tip end of the distributor (60) so as to be coaxial with the central axis (X) of the small hole (51) for spray, and a core body (80), which is different in cross-sectional shape from and fitted into the central through hole (63), by the central through hole (63) and the core body (80).

Description

明 細 書 リターン式噴霧ノズル 技術分野  Description Return type spray nozzle Technical field
本発明は、 リターン式噴霧ノズルに関し、 詳しくは家庭用の給湯器や 暖房器等の比較的燃焼能力が小さく、 且つ織細で正確、 大きなターンダ ゥン比を必要とする液体燃料燃焼器に適して用いることができるリ タ一 ン式噴霧ノズルに関する。 背景技術  The present invention relates to a return type spray nozzle, and more particularly, to a liquid fuel combustor such as a household water heater or a heater which requires a relatively small combustion capacity, is fine, accurate, and requires a large turndown ratio. The present invention relates to a return type spray nozzle that can be used. Background art
リターン式噴霧ノズルは、 第 1 1 図の概略図に示すように、 タンク 1 からポンプ 2で供給路 3を通ってリ 夕一ン式噴霧ノズル 4に送られた液 体燃料を噴出して燃焼に供すると共に供給された液体燃料の一部を噴霧 することなく リターン路 5に戻すようにしたノズルである。 リターン路 5に戻された液体燃料は、 第 1 1図に示すようにタンク 1等に戻された り、 或いは途中で再度供給路 3のポンプ 2の入口側へ循環される。 リ タ 一ン量はリターン量調節弁 6によって調節される。  The return type spray nozzle, as shown in the schematic diagram of Fig. 11, ejects the liquid fuel sent from tank 1 through pump 2 to supply type spray nozzle 4 to recirculation type spray nozzle 4, and burns. The nozzle is provided to return to the return path 5 without spraying a part of the supplied liquid fuel. The liquid fuel returned to the return path 5 is returned to the tank 1 or the like as shown in FIG. 11, or is circulated again on the way to the inlet side of the pump 2 in the supply path 3. The return amount is adjusted by the return amount control valve 6.
前記従来のリ ターン式噴霧ノズルは、 第 1 2図の縦断面構成図に示す ように、 噴霧ノズル本体 1 0 と、 その内孔 1 1 に装嵌される分配器 2 0 とを有している。 噴霧ノズル本体 1 0にはその先端部中央に噴霧用細孔 1 2が備えられている。 また分配器 2 0には、 その先端部の平面部 2 5 の中心を貫通するリターン用細孔 2 1 と、 前記噴霧ノズル本体 1 0の内 孔 1 1 に接する肩部 2 2に形成される複数の燃料供給用スリ ッ ト溝 2 3 が備えられている。 ポンプ 2から送られた液体燃料は噴霧ノズル本体 1 0の内孔 1 1 から前記燃料供給用スリ ッ ト溝 2 3を通って噴霧待機室 3 0に入り、 さらに噴霧用钿孔 1 2から噴出される。 また一部は噴霧待機 室 3 0からリターン用細孔 2 1 を通って戻される。 The conventional return type spray nozzle has a spray nozzle main body 10 and a distributor 20 fitted in an inner hole 11 thereof, as shown in a vertical sectional view of FIG. I have. The spray nozzle main body 10 is provided with a spray pore 12 at the center of the tip. Further, the distributor 20 is formed with a return hole 21 penetrating through the center of the flat portion 25 at the tip and a shoulder 22 contacting the inner hole 11 of the spray nozzle body 10. A plurality of fuel supply slit grooves 23 are provided. The liquid fuel sent from the pump 2 passes from the inner hole 11 of the spray nozzle body 10 through the fuel supply slit groove 23 and the spray standby chamber 3 After entering 0, it is ejected from the spray holes 12. A part is returned from the spray standby chamber 30 through the return pore 21.
ところが上記第 1 2図に示す従来のリタ一ン式噴霧ノズルにおいては 、 分配器 2 0のリターン用細孔 2 1 の位置と噴霧ノズル本体 1 0の噴霧 用細孔 1 2の位置が同軸上に一致し、 且つ前記複数のスリ ッ ト溝 2 3を 通って噴霧待機室 3 0に導入された液体燃料の勢いによって発生せられ る旋回渦の中心がリ夕一ン用細孔 2 1 に一致することから、 液体燃料の リターン流量が増して噴霧量が減少した場合等には、 前記旋回渦の中心 を通って外部から空気がリ ターン用細孔 2 1 内に前記液体燃料と一緒に 混入するという問題があった。  However, in the conventional return type spray nozzle shown in FIG. 12, the position of the return hole 21 of the distributor 20 and the position of the spray hole 12 of the spray nozzle body 10 are coaxial. And the center of the swirling vortex generated by the momentum of the liquid fuel introduced into the spray standby chamber 30 through the plurality of slit grooves 23 enters the re-opening pore 21. Therefore, when the return flow rate of the liquid fuel increases and the spray amount decreases, air from the outside passes through the center of the swirling vortex and enters the return pore 21 together with the liquid fuel. There was a problem of mixing.
そして上記問題を解決するリ夕一ン式噴霧ノズルとして、 特開平 2 — 2 1 7 7 0 6号の発明が提供されている。 この発明の構成を第 1 3図、 第 1 4図に示す。 第 1 3図はノズル要部の縱断面構成図で、 第 1 4図は 分配器 2 0の平面図である。 この発明においては、 噴霧ノズル本体 1 0 の先端部中央に設けられた噴霧用細孔 1 2の中心軸 Xに対して、 分配器 2 0の先端の平面部 2 5の中央付近に、 前記中心軸 Xから偏心した位置 にリターン用細孔 2 4を貫通して設けている。  The invention of Japanese Patent Application Laid-Open No. 2-217770 is provided as a re-spray type spray nozzle which solves the above problem. The configuration of the present invention is shown in FIGS. 13 and 14. FIG. 13 is a longitudinal sectional configuration view of a main part of the nozzle, and FIG. 14 is a plan view of the distributor 20. In the present invention, the center is located near the center of the flat portion 25 at the tip of the distributor 20 with respect to the central axis X of the spraying pore 12 provided at the center of the tip of the spray nozzle body 10. A return hole 24 is provided at a position eccentric from the axis X to penetrate.
リターン用細孔 2 4を前記噴霧用細孔 1 2の中心軸 Xから外れるよう にして設けることで、 噴霧用細孔 1 2から噴霧待機室 3 0内の液体燃料 の旋回渦の中心を通って侵入してく る外部空気がリ夕ーン用細孔 2 4内 に燃料と共に混入するのを防止することかできる。  By providing the return pores 24 so as to be off the center axis X of the spray pores 12, the return pores 24 pass through the center of the swirling vortex of the liquid fuel in the spray standby chamber 30 from the spray pores 12. It is possible to prevent the external air that has entered by mixing with the fuel into the pores 24 for return.
リ夕一ン用細孔 2 4は中心軸 Xの回りの対称位置に複数個 (図では 2 個) 設けられている。 尚、 第 1 3図、 第 1 4図において第 1 2図で説明 した部材、 部分、 要素と同様の部材、 部分、 要素については、 同じ符号 で示している。  A plurality of (two in the figure) pores 24 are provided at symmetrical positions around the central axis X. In FIGS. 13 and 14, members, parts and elements similar to those described in FIG. 12 are denoted by the same reference numerals.
ところが上記、 第 1 3図、 第 1 4図に示す様なリ ターン式噴霧ノズル を用いる場合において、 比較的大型の燃焼器に用いられる場合には全体 的な噴霧量が多いため、 噴霧用細孔 1 2やリターン用細孔 2 4の孔径も 比較的大き くなり、 それらの孔 1 2、 2 4の穿孔加工がそんなに問題と なることはないが、 家庭用等としてより小能力の燃焼器を得よう とする 場合には、 噴霧用細孔 1 2やリターン用細孔 2 4の孔径をより小さくす る必要が生じる。 特にリ ターン用紬孔 2 4を中心軸 Xから偏心して構成 する場合には、 バランスを考慮して複数個のリ 夕ーン用細孔 2 4を対称 的に設ける必要があり、 その場合には個々のリ ターン用細孔 2 4の孔径 をかなり小さいものにする必要が生じる。 例えば分配器 2 0の先端の円 形の平面部 2 5の直径が 3〜 4 隱程度以上あり、 その平面部 2 5に 1〜 1 . 5隱孔径程度のリターン用細孔 2 4を形成する場合には、 前記平面 部 2 5にリターン用細孔 2 4を直接的に穿孔加工することも可能である カ^ 前記分配器 2 0の先端の平面部 2 5の直径が更に小さ くなり、 そし てその平面部 2 5に更に小さな孔径のリターン用細孔 2 4、 例えば 0 . 3〜 0 . 4 隱程度の孔径のリ 夕一ン用細孔 2 4を形成しょうとする場合 には、 その小さな孔径のリ 夕一ン用細孔 2 4を直接的に穿孔加工するこ とが難しくなり、 また穿孔できる場合においてもそのための穿孔設備が 非常にコス ト高となる問題があった。 However, the return spray nozzle shown in Figs. 13 and 14 above In the case of using a large size combustor, since the overall spray amount is large, the diameters of the spraying holes 12 and the return holes 24 become relatively large. The drilling of holes 12 and 24 does not pose a significant problem, but if a smaller-capacity combustor is to be used for home use, etc. It becomes necessary to make the hole diameter of 4 smaller. In particular, when the return holes 24 are configured to be eccentric from the center axis X, it is necessary to provide a plurality of return holes 24 symmetrically in consideration of balance. In this case, it is necessary to make the diameters of the individual return pores 24 considerably small. For example, the diameter of the circular flat portion 25 at the tip of the distributor 20 is about 3 to 4 occluded or more, and the return hole 24 having a diameter of about 1 to 1.5 hidden hole is formed in the flat portion 25. In this case, it is also possible to directly perforate the return pores 24 in the flat portion 25.The diameter of the flat portion 25 at the tip of the distributor 20 is further reduced, Then, when it is desired to form a return pore 24 having a smaller pore diameter in the plane portion 25, for example, a return pore 24 having a pore diameter of about 0.3 to 0.4 hidden, It was difficult to directly drill the small-diameter hole 24 for cleaning, and even when drilling was possible, the cost of the drilling equipment was extremely high.
そこで、 本発明は上記従来における問題を解消し、 噴霧用細孔の中心 軸に対して偏心した位置に小さなリターン用細孔を確実、 容易に且つ低 コス トで得ることができ、 これによつて外部空気がリターン用細孔に巻 き込まれるのを防止することができると共に小能力燃焼において繊細で 正確、 且つ大きなターンダウン比を得ることができるリ ターン式噴霧ノ ズルの提供を目的とする。 発明の開示 上記目的を達成するため、 本発明のリターン式噴霧ノズルは、 噴霧ノ ズル本体と、 該噴霧ノズル本体の内孔に装嵌される分配器とを有し、 前 記噴霧ノズル本体にはその先端部中央に噴霧用細孔を設け、 前記分配器 には、 該分配器先端部の中央付近に前記噴霧用細孔の中心軸から偏心し た位置にリターン用細孔を設けると共に分配器の肩部外側部に前記噴霧 ノズル本体の内孔内を送られてきた液体燃料を分配器先端部前方の噴霧 待機室へ供給する燃料供給用スリ ッ ト溝を設け、 前記噴霧待機室に供給 されてきた液体燃料を該噴霧待機室から前記噴霧用細孔を通して噴出す ると共に、 一部の液体燃料を噴出させることなく前記噴霧待機室から前 記リターン用細孔を通して戻すようにしたリ ターン式噴霧ノズルであつ て、 前記分配器のリターン用細孔は、 分配器の先端部中央付近に前記噴 霧用細孔の中心軸と同軸に形成された中心貫通孔と、 該中心貫通孔に対 して不一致な断面形状を持って嵌め込まれる芯体とによって、 中心貫通 孔とそれに嵌め込まれた芯体との境界域に生じる貫通隙間として構成さ れていることを第 1 の特徴としている。 Therefore, the present invention solves the above-mentioned conventional problems, and a small return pore can be obtained reliably, easily and at low cost at a position eccentric with respect to the center axis of the spray pore. The purpose of the present invention is to provide a return spray nozzle capable of preventing external air from being caught in the return pores and obtaining a delicate, accurate and large turndown ratio in small capacity combustion. I do. Disclosure of the invention In order to achieve the above object, a return type spray nozzle according to the present invention has a spray nozzle main body and a distributor fitted in an inner hole of the spray nozzle main body, and the spray nozzle main body has A spraying hole is provided in the center of the distributor, and the distributor is provided with a return hole near the center of the tip of the distributor at a position eccentric from the center axis of the spraying hole and a shoulder of the distributor. A slit groove for supplying fuel for supplying the liquid fuel sent through the inner hole of the spray nozzle main body to the spray standby chamber in front of the distributor tip is provided on the outer side, and is supplied to the spray standby chamber. Return spray from the spray waiting chamber through the spray hole, and return from the spray waiting chamber through the return hole without spraying part of the liquid fuel. A nozzle, the distributor The return hole has a central through-hole formed near the center of the tip of the distributor and coaxial with the central axis of the atomizing hole, and has a cross-sectional shape that is inconsistent with the central through-hole. The first feature is that the core to be fitted is configured as a through gap generated in a boundary region between the center through hole and the core fitted to the center through hole.
また本発明のリ ターン式噴霧ノズルは、 上記第 1 の特徴に加えて、 外 側面に凹条を形成した芯体が中心貫通孔に嵌め込み固定されることで、 芯体と中心貫通孔との境界域に前記凹条によるリターン用細孔が貫通隙 間として構成されていることを第 2の特徴としている。  In addition, in addition to the first feature, the return spray nozzle of the present invention further comprises a core having a concave streak formed on the outer surface, which is fitted and fixed in the center through-hole, so that the core and the center through-hole can be connected to each other. A second feature is that the return fine pores formed by the concave streaks are formed in the boundary area as through spaces.
また本発明のリ ターン式噴霧ノズルは、 上記第 1 の特徴に加えて、 内 側面に凹条を形成した中心貫通孔に芯体が嵌め込み固定されることで、 芯体と中心貫通孔との境界域に前記凹条によるリ ターン用細孔が貫通隙 間として構成されていることを第 3の特徴としている。  Further, in addition to the first feature, the return spray nozzle of the present invention has a structure in which the core is fitted into and fixed to the center through-hole having a concave streak on the inner surface, so that the core and the center through-hole can be connected to each other. A third feature is that a return pore formed by the concave stripe is formed as a through space in the boundary area.
また本発明のリ ターン式噴霧ノズルは、 上記第 1 〜第 3の何れかに記 載の特徴に加えて、 リ ターン用細孔は複数個が中心軸の回りに対称に設 けられていることを第 4の特徴としている。 また本発明のリターン式噴霧ノズルは、 上記第 1 の特徵に加えて、 中 心貫通孔よりも径の小さい相似形の芯体が中心貫通孔に嵌め込み固定さ れることで、 芯体と中心貫通孔との境界域にリ ング状のリ夕一ン用細孔 が貫通隙間として構成されていることを第 5の特徴としている。 In addition, in the return spray nozzle of the present invention, in addition to the features described in any one of the first to third aspects, a plurality of return pores are provided symmetrically around the central axis. This is the fourth feature. Further, in addition to the first feature, the return type spray nozzle of the present invention further comprises a similar core having a smaller diameter than the central through-hole, which is fitted and fixed in the central through-hole, so that the core and the central through-hole can be fixed. The fifth feature is that a ring-shaped pore for the ring is formed as a through gap in the boundary area with the hole.
上記第 1 の特徴においては、 分配器の先端部中央付近に噴霧用細孔の 中心軸と同軸に形成された中心貫通孔と、 該中心貫通孔に対して不一致 な断面形状を持って嵌め込まれる芯体とによって、 それらの異なる断面 形状に起因してそれらの境界域に構成される貫通隙間をリ ターン用細孔 としているので、 孔径の小さいリ ターン用細孔を容易に、 且つ中心軸か ら偏心して構成することができる。 前記中心貫通孔及び芯体そのものの 径は比較的大径とすることができるので、 穿孔加工が容易である。 また 中心貫通孔と芯体の断面形状を不一致に構成することは、 中心貫通孔の 内側面や芯体の外側面に対して、 軸方向の凸条ゃ凹条を付加加工したり 、 削り加工したり、 引つ搔き加工したり、 圧印加工したりすることで容 易に行う ことができる。 よって小さな孔を分配器に直接穿孔加工する場 合に比べて、 はるかに容易、 且つ低コス トでリ ターン用細孔を構成する ことができる。  In the first feature, the central through-hole formed coaxially with the center axis of the spray hole near the center of the tip of the distributor, and fitted with a cross-sectional shape inconsistent with the central through-hole. The through hole formed in the boundary area due to the different cross-sectional shapes of the core is used as the return pore, so that the return pore having a small pore diameter can be easily formed in the center axis. It can be configured with eccentricity. Since the diameters of the center through-hole and the core itself can be relatively large, drilling is easy. In addition, by making the cross-sectional shapes of the center through hole and the core body inconsistent, it is necessary to add or cut axially convex and concave stripes on the inner surface of the center through hole and the outer surface of the core body. This can be easily performed by drawing, drawing, or coining. Therefore, compared with a case where a small hole is directly drilled in the distributor, the return hole can be formed much easier and at low cost.
リ ターン用細孔の数は、 例えば 2個、 3個、 4個等、 複数個形成する ことができるが、 1個でもよい。 また複数形成する場合は、 中心軸の回 りに対称に設けるのがリタ一ン流の吸い込みのバランス上好ま しいが、 必ずしも各リターン用細孔が対称位置にある必要はない。  The number of the return pores may be plural, such as two, three, or four, but may be one. When a plurality of holes are formed, it is preferable to provide them symmetrically around the central axis in order to balance the suction of the return flow, but it is not always necessary for each return hole to be at a symmetric position.
リターン用細孔を中心軸から偏心して設けることで、 噴霧用細孔から 噴霧待機室の渦流の中心を通って侵入してく る空気がリ ターン用細孔に 侵入しょう とするのを防止できる。  By providing the return pore eccentrically from the central axis, it is possible to prevent the air that has entered from the spray pore through the center of the vortex in the spray standby chamber from entering the return pore.
また中心貫通孔とそれに嵌め込まれる芯体との隙間を利用することで 、 孔径の十分に小さいリ ターン用細孔を確実に且つ簡単、 容易に得るこ とができるので、 空気のリターン用細孔への侵入を一層確実に防止でき またリターン用細孔の数を複数個形成するのも容易であり、 その分だ けリ 夕一ン量も容易に増加させることができるので、 ターンダウン比を 大きくすることも容易に行うことができる。 In addition, by utilizing the gap between the center through hole and the core body fitted therein, a return pore having a sufficiently small hole diameter can be obtained reliably, easily, and easily. As a result, it is possible to more reliably prevent air from entering the return pores, and it is easy to form a plurality of return pores. Since it can be increased, it is easy to increase the turndown ratio.
中心貫通孔と芯体との嵌め込みは、 例えば冷し嵌め、 焼き嵌め、 超音 波嵌め合い、 その他の周知技術を用いることができる。  For fitting the center through hole and the core body, for example, cold fitting, shrink fitting, ultrasonic fitting, and other well-known techniques can be used.
上記第 2の特徴において、 芯体外側面の凹条は、 その部分を引つ搔ぃ て削り取ったり、 切削加工したり、 圧印加工して構成することかできる また上記第 1 の特徴による作用、 効果に加えて、 外側面に凹条を形成 した芯体が中心貫通孔に嵌め込み固定されることで、 芯体と中心貫通孔 との境界域に前記凹条によるリタ一ン用細孔が貫通隙間として構成され るので、 十分に孔径の小さいリタ一ン用細孔を中心軸から偏心して得る ことができ、 空気がリ夕ーン用細孔に侵入するのを確実に防止すると共 に小能力燃焼での能力調節を確実に行うことができる。  In the above second feature, the concave streak on the outer surface of the core body can be formed by pulling the portion, shaving, or coining. In addition, the core having a concave streak on the outer surface is fitted and fixed in the center through-hole, so that the return pore by the concave streak is formed in the boundary area between the core and the center through-hole. As a result, it is possible to obtain a return hole with a sufficiently small diameter eccentric from the central axis, to reliably prevent air from entering the return hole and to achieve a small capacity. It is possible to reliably adjust the capacity in combustion.
上記第 3の特徴において、 中心貫通孔の内側面の凹条も、 芯体の場合 と同様に構成することができる。 また上記第 1 の特徴による作用、 効果 に加えて、 内側面に凹条を形成した中心貫通孔に芯体が嵌め込み固定さ れることで、 芯体と中心貫通孔との境界域に前記凹条によるリターン用 細孔が貫通隙間として構成されるので、 十分に孔径の小さいリ ターン用 細孔を中心軸から偏心して得ることができ、 空気がリ ターン用細孔に侵 入するのを確実に防止すると共に小能力燃焼での能力調節を確実に行う ことができる。  In the third feature, the concave streak on the inner surface of the center through hole can be configured in the same manner as in the case of the core. Further, in addition to the operation and effect of the first feature, the core is fitted into and fixed to the center through hole having the recess formed on the inner surface, so that the recess is formed in the boundary area between the core and the center through hole. Because the return pores are formed as through gaps, the return pores with sufficiently small diameter can be obtained eccentrically from the central axis, ensuring that air can enter the return pores. Prevention and capacity adjustment in small capacity combustion can be performed reliably.
上記第 4の特徴によれば、 上記第 1 〜第 3の何れかの特徴による作用 、 効果に加えて、 リターン用細孔は複数個が中心軸の回りに対称に設け られているので、 噴霧待機室からリ タ一ン用細孔へリターンせられる液 体燃料のバランスがとれ、 よって噴霧待機室内での液体燃料の場所的過 不足がなく、 噴霧待機室から安定した噴霧を行うことができる。 According to the fourth feature, in addition to the operation and effect of any of the first to third features, since a plurality of return pores are provided symmetrically around the central axis, Liquid returned from the standby chamber to the return pore The body fuel is balanced, so that there is no excess or deficiency of the liquid fuel in the spray standby chamber, and stable spray can be performed from the spray standby chamber.
上記第 5の特徵によれば、 上記第 1 の特徴による作用、 効果に加えて 、 孔径の小さいリターン用細孔を中心軸から偏心した位置にリ ング状に 得ることができ、 空気がリ ターン用細孔に侵入するのを確実に防止する と共に小能力燃焼での能力調節を確実に行うことができる。 図面の簡単な説明  According to the fifth feature, in addition to the action and effect of the first feature, a return pore having a small diameter can be obtained in a ring shape at a position eccentric from the central axis, and air is returned. In addition, it is possible to reliably prevent intrusion into the pores for use, and to surely adjust the capacity in small capacity combustion. BRIEF DESCRIPTION OF THE FIGURES
第 1図、 第 2図、 第 3図、 第 4図は本発明の第 1 の実施例を示し、 第 1 図はリターン式噴霧ノズルの全体概略を示す一部断面図、 第 2図はリ ターン式噴霧ノズルの要部の縦断面構成図、 第 3図は分配器の要部の平 面図、 第 4図は芯体の斜視図である。  FIGS. 1, 2, 3, and 4 show a first embodiment of the present invention, FIG. 1 is a partial cross-sectional view schematically showing the entirety of a return type spray nozzle, and FIG. FIG. 3 is a longitudinal sectional configuration view of a main part of the turn type spray nozzle, FIG. 3 is a plan view of a main part of the distributor, and FIG. 4 is a perspective view of a core.
第 5図と第 6図は本発明の第 2の実施例を示し、 第 5図はリ ターン式 噴霧ノズルの分配器の要部の平面図、 第 6図は芯体の斜視図である。 第 7図と第 8図は本発明の第 3の実施例を示し、 第 7図はリターン式 噴霧ノズルの分配器の要部の縦断面構成図、 第 8図は分配器の要部の平 面図である。  5 and 6 show a second embodiment of the present invention. FIG. 5 is a plan view of a main part of a distributor of a return type spray nozzle, and FIG. 6 is a perspective view of a core. 7 and 8 show a third embodiment of the present invention. FIG. 7 is a longitudinal sectional view of a main part of the distributor of the return type spray nozzle, and FIG. 8 is a plan view of a main part of the distributor. FIG.
第 9図と第 1 0図は本発明の第 4の実施例を示し、 第 9図はリ ターン 式噴霧ノズルの分配器の要部の縦断面構成図、 第 1 0図はリ ターン式噴 霧ノズルの分配器の平面図である。  9 and 10 show a fourth embodiment of the present invention. FIG. 9 is a vertical sectional view of a main part of a distributor of a return type spray nozzle, and FIG. 10 is a return type spray nozzle. It is a top view of the distributor of a fog nozzle.
第 1 1図と第 1 2図は従来例を示し、 第 1 1 図はリ 夕一ン式噴霧ノズ ルの全体概略図、 第 1 2図はリ ターン式噴霧ノズルの要部の縱断面構成 図である。  Fig. 11 and Fig. 12 show a conventional example. Fig. 11 is an overall schematic diagram of a return spray nozzle. Fig. 12 is a longitudinal sectional view of a main part of a return spray nozzle. FIG.
第 1 3図と第 1 4図は他の従来例を示し、 第 1 3図はリ ターン式噴霧 ノ ズルの要部の縦断面構成図、 第 1 4図はリ ターン式噴霧ノズルの分配 器の平面図である。 発明を実施するための最良の形態 Fig. 13 and Fig. 14 show other conventional examples, Fig. 13 is a vertical cross-sectional view of the main part of a return spray nozzle, and Fig. 14 is a distributor of a return spray nozzle. FIG. BEST MODE FOR CARRYING OUT THE INVENTION
第 1図において、 リターン式噴霧ノズル 4に対して石油等の液体燃料 の供給路 3、 リ ターン路 5が第 1 1図の場合と同様に接続されている。 前記リタ一ン式噴霧ノズル 4の頭部には噴霧ノズル本体 5 0 と、 該噴 霧ノズル本体 5 0の内に分配器 6 0が設けられている。  In FIG. 1, a supply path 3 for liquid fuel such as petroleum and a return path 5 are connected to a return spray nozzle 4 in the same manner as in FIG. At the head of the return type spray nozzle 4, a spray nozzle main body 50 is provided, and a distributor 60 is provided in the spray nozzle main body 50.
前記噴霧ノズル本体 5 0はリタ一ン式噴霧ノズル 4の外筒ケース 4 1 の先端部に着脱自在に螺合される。 また分配器 6 0はリタ一ン式噴霧ノ ズル 4の内筒 4 2の先端部に嵌合固定されている。 内筒 4 2 と前記外筒 ケース 4 1 とは同心状態で着脱自在に螺合固定される。 4 3はフィ ル夕 一である。 図示しないタンク 1 (第 1 1図参照) から供給路 3を通って リターン式噴霧ノズル 4内に入った石油は外筒ケース 4 1 と内筒 4 2 と の間を前方へ送られ、 フィルター 4 3で混入物等が除去された後、 さら に前方へ進み、 噴霧ノズル本体 5 0の内孔内を、 該噴霧ノズル本体 5 0 と分配器 6 0 との間を通って分配器 6 0の前方の噴霧待機室 7 0に供給 される。 そしてこの噴霧待機室 7 0に供給された石油は噴霧ノズル本体 5 0の噴霧用細孔 5 1から噴出されて燃焼に供される。 また一部の石油 は噴霧待機室 7 0から分配器 6 0の後述する リターン用細孔 9 0を通つ て、 内筒 4 2内に戻され、 さらにリターン路 5に戻される。 リ ターンさ れる石油量はリターン量調節弁 6で調節される。 このリ ターン量調節弁 6による調節は、 図示しないコ ン トローラによって、 必要燃焼熱量に応 じて自動調節される。  The spray nozzle main body 50 is detachably screwed to the distal end of the outer cylinder case 41 of the return spray nozzle 4. The distributor 60 is fitted and fixed to the distal end of the inner cylinder 42 of the return spray nozzle 4. The inner cylinder 42 and the outer cylinder case 41 are removably screwed and fixed concentrically. 4 3 is the evening. The oil that has entered the return type spray nozzle 4 from the tank 1 (not shown) (see Fig. 11) through the supply path 3 is sent forward between the outer cylinder case 4 1 and the inner cylinder 4 2, and the filter 4 After the contaminants and the like are removed in 3, the vehicle further proceeds forward, passes through the inner hole of the spray nozzle body 50, passes between the spray nozzle body 50 and the distributor 60, and passes through the inside of the distributor 60. It is supplied to the spray standby room 70 ahead. The petroleum supplied to the spray standby chamber 70 is jetted from the spray nozzle 51 of the spray nozzle main body 50 and is provided for combustion. Some of the oil is returned from the spray standby chamber 70 to the inner cylinder 42 through a return hole 90 of the distributor 60 described later, and further returned to the return path 5. The amount of oil to be returned is adjusted by the return amount control valve 6. The adjustment by the return amount control valve 6 is automatically adjusted by a controller (not shown) according to the required amount of combustion heat.
第 2図、 第 3図、 第 4図を参照してさらに詳細に説明する。 前記噴霧 ノズル本体 5 0の先端部中央に噴霧用細孔 5 1 が設けられているが、 こ の噴霧用細孔 5 1 の中心軸 Xは噴霧ノズル本体 5 0の中心軸でもあり、 またリ タ一ン式噴霧ノズル 4そのものの中心軸でもある。 前記分配器 6 0は蝶合によって前記噴霧ノズル本体 5 0の内孔内に装 嵌されるが、 噴霧ノズル本体 5 0の先端付近の円維形状内孔 5 2に対し て当接される分配器 6 0の肩部外側部 6 1 には、 燃料供給用スリ ッ ト溝 6 2を複数本設けている。 この例では燃料供給用スリ ッ ト溝 6 2を 4本 設けているが、 3本でもよく、 また 1本でも可能であり、 数は特に限定 されないが、 複数本を中心軸 Xの回りにバランスをとつて設けるのが好 ましい。 石油はこの燃料供給用スリ ッ ト溝 6 2を通って分配器 6 0先端 部前方の噴霧待機室 7 0に供給される。 This will be described in more detail with reference to FIGS. 2, 3, and 4. FIG. At the center of the tip of the spray nozzle body 50, a spray hole 51 is provided. The central axis X of the spray hole 51 is also the center axis of the spray nozzle body 50, and It is also the central axis of the turn type spray nozzle 4 itself. The distributor 60 is fitted into the inner hole of the spray nozzle body 50 by means of a hinge, but the distributor 60 abuts against a circular inner hole 52 near the tip of the spray nozzle body 50. A plurality of fuel supply slit grooves 62 are provided in the shoulder outer portion 61 of the container 60. In this example, four fuel supply slit grooves 62 are provided. However, three or six fuel supply slit grooves may be provided, and the number of fuel supply slit grooves is not limited. It is preferable to provide a The oil is supplied to the spray standby chamber 70 in front of the tip of the distributor 60 through the fuel supply slit groove 62.
噴霧待機室 7 0は前記噴霧ノズル本体 5 0の円維形状内孔 5 2の先端 付近に、 該円錐形状内孔 5 2の壁と前記分配器 6 0の先端部に構成され た平面部 6 5 とによって囲まれる空間であり、 中心軸 Xを空間の中心と している。  The spray standby chamber 70 is provided near the tip of the circular inner hole 52 of the spray nozzle main body 50, a flat portion 6 formed on the wall of the conical inner hole 52 and the tip of the distributor 60. 5 and the center axis X is the center of the space.
前記分配器 6 0の先端部中央付近には中心貫通孔 6 3が前記中心軸 X と同軸に形成されている。 この中心貫通孔 6 3は分配器 6 0の拡大貫通 孔 6 4に連続し、 拡大貫通孔 6 4は上記内筒 (第 1図参照) 4 2に接続 している。  Near the center of the tip of the distributor 60, a central through hole 63 is formed coaxially with the central axis X. The central through hole 63 is continuous with the enlarged through hole 64 of the distributor 60, and the enlarged through hole 64 is connected to the inner cylinder 42 (see FIG. 1).
前記分配器 6 0の中心貫通孔 6 3には芯体 8 0が嵌め込まれている。 この第 1図〜第 4図に示す実施例においては、 前記芯体 8 0はその外側 面に複数本の凹条 8 1 を軸方向に形成した棒状体からなる。 この芯体 8 0が中心貫通孔 6 3に嵌め込まれることで、 密着せられた中心貫通孔 6 3 と芯体 8 0 との境界域に凹条 8 1 と中心貫通孔 6 3の内側面とで囲ま れた貫通隙間が構成され、 この貫通隙間がリ ターン用紬孔 9 0を構成す る。 即ち、 中心貫通孔 6 3に対して嵌め込まれる芯体 8 0の断面形状が 凹条 8 1 の部分において不一致となることでリターン用細孔 9 0が構成 でき、 しかもそのリターン用細孔 9 0が中心軸 Xから偏心した位置に構 成されるのである。 前記芯体 8 0は実際には前記中心貫通孔 6 3よりも若干大きい寸法と して、 芯体 8 0 と中心貫通孔 6 3 とを超音波振動を利用し、 或いは焼き 嵌め、 冷し嵌めによって、 十分密着して嵌め合わせ固定することができ る。 また芯体 8 0の外側面に軸方向に形成される凹条 8 1 については、 外側面を軸方向に引つ搔いて構成することができる。 また切削加工する こともできる。 さらに圧印加工等のプレス加工によっても構成すること ができる。 外側面に凹条を形成するだけであるので、 孔を穿設するのに 比べて十分に小さな寸法の凹条を非常に簡単、 容易に、 また確実に形成 することができる。 A core body 80 is fitted in the center through hole 63 of the distributor 60. In the embodiment shown in FIGS. 1 to 4, the core body 80 is a rod-like body having a plurality of concave streaks 81 formed on the outer surface thereof in the axial direction. By fitting this core body 80 into the center through hole 63, the concave streak 81 and the inner surface of the center through hole 63 are formed in the boundary area between the closely adhered center through hole 63 and the core body 80. A through gap surrounded by is defined, and this through gap forms a return hole 90. That is, since the cross-sectional shape of the core body 80 fitted into the central through-hole 63 does not match at the concave streak 81, return pores 90 can be formed, and further, the return pores 90. Is configured at a position eccentric from the central axis X. The core body 80 is actually slightly larger in size than the center through-hole 63, and the core body 80 and the center through-hole 63 are subjected to ultrasonic vibration or shrink-fit or cold-fit. By doing so, it can be fitted and fixed in close contact. Further, the concave streak 81 formed in the outer surface of the core body 80 in the axial direction can be configured by pulling the outer surface in the axial direction. It can also be cut. Further, it can be formed by press working such as coining. Since only a concave streak is formed on the outer side surface, a concave streak having a size sufficiently smaller than that of forming a hole can be formed very simply, easily, and reliably.
前記凹条 8 1 は複数個を円周方向の対称位置に配設することで、 得ら れる リターン用細孔 9 0の配置バランスを得ることができる。 配置バラ ンスを取ることで、 噴霧待機室 7 0内での石油の存在バランスを取りつ つリタ一ンを行うことができる。 また個々のリ夕一ン用細孔 9 0の径を 小さ く、 且つリターン用細孔 9 0の全体としての開孔面積を十分に大き く して、 燃焼調節におけるターンダウン比を十分に大きくすることがで きる。  By arranging a plurality of the concave streaks 81 at symmetric positions in the circumferential direction, it is possible to obtain an arrangement balance of the obtained return pores 90. By keeping the arrangement balance, it is possible to perform a return while balancing the presence of oil in the spray standby chamber 70. In addition, the diameter of each of the return pores 90 is small, and the overall open area of the return pores 90 is sufficiently large, so that the turndown ratio in combustion control is sufficiently large. can do.
第 5図と第 6図に本発明の第 2の実施例を示す。 第 5図は分配器の要 部の平面図、 第 6図は芯体の斜視図である。  5 and 6 show a second embodiment of the present invention. FIG. 5 is a plan view of a main part of the distributor, and FIG. 6 is a perspective view of a core.
本実例では、 分配器 6 0の中心貫通孔 6 3に嵌め込まれる芯体 8 0 と して、 水平断面が三角形状の棒状体を採用している。 この芯体 8 0を水 平断面を略三角形状とすることで、 円形とした前記中心貫通孔 6 3にこ の三角柱状の芯体 8 0を嵌め合わせることで、 密着せられた中心貫通孔 6 3 と芯体 8 0 との境界域に貫通隙間としてのリ夕一ン用細孔 9 ()が構 成される。 本実施例では三角柱状の各辺が凹条 8 1 ということになる。 その他の構成や作用等は上記した第 1 の実施例の場合と同様である。 第 7図と第 8図に本発明の第 3の実施例を示す。 第 7図は分配器の要 部の縦断面構成図、 第 8図は分配器の要部の平面図である。 In this example, a rod-shaped body having a triangular horizontal cross section is used as the core body 80 fitted into the center through hole 63 of the distributor 60. By making this core body 80 have a substantially triangular horizontal cross section, the triangular prism-shaped core body 80 is fitted into the circular center through hole 63 to thereby make the center through hole adhered closely. In the boundary area between 63 and the core body 80, a pore 9 () is formed as a through gap as a through gap. In this embodiment, each side of the triangular prism is a concave streak 81. Other configurations and operations are the same as those of the first embodiment. FIG. 7 and FIG. 8 show a third embodiment of the present invention. Figure 7 shows the main components of the distributor. FIG. 8 is a plan view of a main part of the distributor.
本実施例では、 分配器 6 0の中心貫通孔 6 3側に凹条 6 3 aを形成す ることで、 複数のリ タ一ン用細孔 9 0を中心軸 Xの回りに偏心した状態 で構成している。 即ち、 中心貫通孔 6 3の内側面に複数の凹条 6 3 aを 形成しておき、 この中心貫通孔 6 3内に芯体 8 0を嵌め込み固定するこ とで、 密接した中心貫通孔 6 3 と芯体 8 0 との境界域に、 前記凹条 6 3 a と芯体 8 0の外側面とで囲まれた貫通隙間を構成し、 この貫通隙間で もってリ ターン用細孔 9 0を構成している。  In the present embodiment, a plurality of return pores 90 are eccentric around the central axis X by forming a concave streak 63 a on the side of the central through hole 63 of the distributor 60. It consists of. That is, a plurality of concave stripes 63 a are formed on the inner side surface of the center through hole 63, and the core 80 is fitted and fixed in the center through hole 63, so that the closely contacted center through hole 63 is formed. A through gap surrounded by the concave streak 63 a and the outer surface of the core body 80 is formed in a boundary region between the core 3 and the core body 80, and the return gap 90 is formed by the through gap. Make up.
前記芯体 8 0は実際には前記中心貫通孔 6 3 より も若干大きい寸法と して、 芯体 8 0 と中心貫通孔 6 3 とを超音波振動を利用し、 或いは焼き 嵌め、 冷し嵌めによって、 十分密着して嵌め合わせ固定することができ る。 また中心貫通孔 6 3の内側面に軸方向に形成される凹条 6 3 aは、 内側面を軸方向に引つ搔いて構成することができる。 また切削加工する こともできる。 さらに圧印加工等のプレス加工によっても構成すること ができる。 内側面に凹条を形成するだけであるので、 孔を穿設するのに 比べて十分に小さな寸法の凹条を非常に簡単、 容易に、 また確実に形成 することができる。  The core body 80 is actually slightly larger in size than the center through-hole 63, and the core body 80 and the center through-hole 63 are subjected to ultrasonic vibration or shrink-fit or cold-fit. By doing so, it can be fitted and fixed in close contact. In addition, the concave streak 63 a formed in the inner surface of the center through hole 63 in the axial direction can be configured by pulling the inner surface in the axial direction. It can also be cut. Further, it can be formed by press working such as coining. Since only a concave streak is formed on the inner surface, a concave streak having a size sufficiently smaller than that of forming a hole can be formed very simply, easily, and reliably.
前記凹条 6 3 aは複数個を円周方向の対称位置に配設することで、 得 られるリターン用細孔 9 0の配置バランスを得ることができる。 配置バ ランスを取ることで、 噴霧待機室 7 0内での石油の存在バランスを取り つつリ夕ーンを行うことができる。  By arranging a plurality of the concave streaks 63 a at symmetrical positions in the circumferential direction, it is possible to obtain an arrangement balance of the obtained return pores 90. By balancing the arrangement, it is possible to carry out the reinfestation while balancing the presence of oil in the spray standby room 70.
この実施例は、 基本的には上記した芯体 8 0側に凹条 8 1 を設ける場 合と同様の作用、 効果を持つ。  This embodiment basically has the same operation and effect as the case where the concave streak 81 is provided on the core 80 side.
尚、 上記第 1〜第 3の実施例において、 中心貫通孔 6 3に構成される 凹条 6 3 aや芯体 8 0に構成される凹条 8 1 の個数は複数であれば、 そ の個数は特に限定されない。 また凹条 6 3 a、 8 1 の形状、 大きさも特 に限定されるものではない。 In the first to third embodiments, if the number of the concave stripes 63 a formed in the center through hole 63 and the number of the concave stripes 81 formed in the core body 80 are plural, The number is not particularly limited. The shape and size of the concave stripes 6 3 a and 81 are also special. However, the present invention is not limited to this.
また芯体 8 0の長さは中心貫通孔 6 3の長さに匹敵する長さとしてい るが、 中心貫通孔 6 3 と同じ長さである必要はない。 もっと短くても、 また長くてもよい。  Further, the length of the core body 80 is set to a length comparable to the length of the center through hole 63, but it is not necessary that the length is the same as that of the center through hole 63. It can be shorter or longer.
更に、 上記第 1 〜第 3の実施例では、 中心貫通孔 6 3や芯体 8 0に凹 条 6 3 a、 8 1 を形成することで、 相互に密着して嵌め込まれた中心貫 通孔 6 3 と芯体 8 0 との境界域に貫通隙間を構成し、 これによつてリ夕 —ン用細孔 9 0を構成しているが、 前記中心貫通孔 6 3や芯体 8 0に形 成されるのは凹条 6 3 a、 8 1 である必要はない。 要するに中心貫通孔 6 3 とそれに密着して嵌め込まれる芯体 8 0 との境界域に、 芯体 8 0 と 中心貫通孔 6 3の断面形状の不一致による貫通隙間が構成されれば、 そ の貫通隙間がリ ターン用細孔 9 0 となることができるので、 前記凹条 6 3 a、 8 1 の代わりに相互間での凹凸やその他のあらゆる形状変化を利 用することができる。 また形状の不一致を形成するための具体的な加工 の方法は、 既述した方法に限定されるものではない。  Further, in the above-described first to third embodiments, the central through-hole 63 and the core 80 are formed with the concave stripes 63 a and 81, so that the central through-holes closely fitted to each other are fitted. A through gap is formed in the boundary area between 63 and the core body 80, thereby forming a pore 90 for the cleaning. It is not necessary that the ridges 63a, 81 be formed. In other words, if a through gap is formed in the boundary area between the center through hole 63 and the core body 80 fitted in close contact with the core body 80 by disagreement of the cross-sectional shape of the core body 80 and the center through hole 63, then the penetration Since the gaps can be the return pores 90, irregularities and any other shape changes between each other can be used instead of the concave streaks 63a and 81. Further, a specific processing method for forming the shape mismatch is not limited to the method described above.
第 9図と第 1 0図に本発明の第 4の実施例を示す。 第 9図は分配器の 要部の縦断面構成図、 第 1 0図は分配器の平面図である。  FIG. 9 and FIG. 10 show a fourth embodiment of the present invention. FIG. 9 is a longitudinal sectional view of a main part of the distributor, and FIG. 10 is a plan view of the distributor.
既述した実施例では、 分配器 6 0の中心貫通孔 6 3に対して芯体 8 0 が凹条 6 3 a、 8 1 を除いた部分に密着して嵌め込まれるの対して、 本 実施例では、 分配器 6 0の中心貫通孔 6 3に対して、 該中心貫通孔 6 3 よりも径の小さい相似形の芯体 8 0を嵌め込み固定することで、 芯体 8 0 と中心貫通孔 6 3 との境界域に連続した 1個のリ ング状の貫通隙間を 構成し、 これをリ ターン用細孔 9 0 としている。  In the above-described embodiment, the core body 80 is fitted into the central through-hole 63 of the distributor 60 in close contact with the portion except for the concave streaks 63 a and 81, whereas this embodiment Then, a similar core body 80 having a smaller diameter than the central through hole 63 is fitted into and fixed to the central through hole 63 of the distributor 60, so that the core body 80 and the central through hole A single ring-shaped through gap is formed continuously at the boundary area with 3, and this is defined as a return pore 90.
芯体 8 0の固定の仕方は、 この芯体 8 0の長さを中心貫通孔 6 3より も長く し、 中心貫通孔 6 3から拡大貫通孔 6 4に突出する芯体 8 0の後 部を固定具 1 0 0で、 リタ一ン流の流れに支障をきたすことのないよう にして、 拡大貫通孔 6 4の内壁に固定するようにしている。 この固定具 1 0 0は相互に 1 2 0度の角度で芯体 8 0の後部に一体に取り付けられ た 3つの突出片であってもよい。 この場合は前記固定具 1 0 0 としての 突出片を一体に取り付けた芯体 8 0を拡大貫通孔 6 4の側から差し込ん で固定する。 前記固定具 1 0 0は拡大貫通孔 6 4側に一体固定されるも のであってもよい。 その場合は拡大貫通孔 6 4の内壁の各 1 2 0度の位 置から中心方向に延設される 3つの支持体を固定具として、 その支持体 で芯体 8 0を周囲から支えるようにする。 また固定具 1 0 0は 芯体 8 0及び拡大貫通孔 6 4の何れにも着脱自在であってもよい。 この場合に は固定具 1 0 0に芯体 8 0を嵌め込んで固定した後拡大貫通孔 6 4に嵌 め込んでもよいし、 先に拡大貫通孔 6 4に固定具 1 0 0を嵌め込んだ後 、 芯体 8 0を嵌め込んでもよい。 The fixing method of the core body 80 is as follows. The length of the core body 80 is made longer than the center through hole 63, and the rear part of the core body 80 protruding from the center through hole 63 to the enlarged through hole 64. The fixture 100 should not interfere with the flow of return flow. Then, it is fixed to the inner wall of the enlarged through hole 64. The fixture 100 may be three projecting pieces integrally attached to the rear of the core body 80 at an angle of 120 degrees to each other. In this case, the core 80 to which the projecting piece as the fixing tool 100 is integrally attached is inserted from the side of the enlarged through hole 64 and fixed. The fixing tool 100 may be integrally fixed to the enlarged through hole 64 side. In this case, three support members extending in the center direction from the positions of 120 degrees on the inner wall of the enlarged through hole 64 are used as fixtures, and the support members support the core body 80 from the surroundings. I do. Further, the fixing tool 100 may be detachable from any of the core body 80 and the enlarged through hole 64. In this case, the core body 80 may be fitted into the fixture 100 and fixed, and then fitted into the enlarged through hole 64, or the fixture 100 may be fitted into the enlarged through hole 64 first. After that, the core body 80 may be fitted.
その他、 第 9図に示すような固定具 1 0 0を設けることなく、 或いは 固定具 1 0 0に加えて、 中心貫通孔 6 3内に嵌まり込む部分の芯体 8 0 の外側面の周面にバランスよく小さな突起を設け、 芯体 8 0が中心貫通 孔 6 3に嵌め合わされた際に前記突起が中心貫通孔 6 3の内壁の所々に 当接することで、 前記リ ング状の貫通隙間が確保されるようにしてもよ い。  In addition, without providing the fixing tool 100 as shown in FIG. 9 or in addition to the fixing tool 100, the periphery of the outer surface of the core body 80 at a portion to be fitted into the center through hole 63. Small protrusions are provided on the surface in a well-balanced manner, and when the core body 80 is fitted into the center through-hole 63, the protrusion comes into contact with the inner wall of the center through-hole 63 so that the ring-shaped through gap is formed. May be secured.
既述した実施例において説明した中心貫通孔 6 3は円形断面の孔とす るのが好ましいが、 必ずしも円形である必要はなく、 円形に近いものや 、 その他、 多角形の断面を持つ孔であってもよい。 同様に芯体 8 0 も円 形断面のものに凹状 8 1 やその他の手段による断面形状の変形を加える のが好ましいが、 前記円形断面以外の多角形の断面をもつものを基本と して、 これに変形手段を加えるものであってもよい。  The center through-hole 63 described in the above-described embodiment is preferably a hole having a circular cross section. However, the center through hole 63 is not necessarily required to have a circular shape. There may be. Similarly, it is preferable that the core body 80 has a circular cross section and the cross section is deformed by concave means 81 or other means.However, basically, the core body 80 has a polygonal cross section other than the circular cross section. Deformation means may be added to this.
芯体 8 0の長さは特に限定されない。  The length of the core body 80 is not particularly limited.
噴霧用細孔 5 1 の孔径は、 小能力用には例えば 1隨程度以下とするが 、 目的とする燃焼能力に応じて変更することができ、 特に限定されない ( リ ターン用細孔 9 0の孔径は、 小能力用として、 1 mm以下、 たとえば 0 . 3〜 0 . 4國程度となるように構成することは本発明において容易 に行えるが、 このリターン用細孔 9 0の孔径についても能力に応じた径 とすることができ、 特に限定されるものではない。 The diameter of the spraying pore 51 is, for example, about 1 or less for small capacity. It can be changed according to the target combustion capacity, and is not particularly limited. ( The diameter of the return pore 90 is 1 mm or less for small capacity, for example, about 0.3 to 0.4 country. Although it can be easily configured in the present invention, the diameter of the return pores 90 can also be a diameter according to the ability, and is not particularly limited.
その他、 勿論、 リターン用細孔 9 0は中心軸 Xから偏心して構成され ることは必須であるが、 それ以外の配置や形等の点において特に構成が 限定されるものではない。 産業上の利用可能性  In addition, it is, of course, essential that the return pores 90 be configured eccentrically from the central axis X, but the configuration is not particularly limited in terms of other arrangements, shapes, and the like. Industrial applicability
本発明は以上の構成、 作用よりなり、 請求項 1 に記載のリターン式噴 霧ノズルによれば、 分配器のリ ターン用細孔は、 分配器の先端部中央付 近に前記噴霧用細孔の中心軸と同軸に形成された中心貫通孔と、 該中心 貫通孔に対して不一致な断面形状を持って嵌め込まれる芯体とによって 、 中心貫通孔とそれに嵌め込まれた芯体との境界域に生じる貫通隙間と して構成されているので、  According to the return type spray nozzle according to claim 1, the return pores of the distributor are arranged near the center of the tip end of the distributor. A central through hole formed coaxially with the central axis of the center through hole, and a core body fitted with an inconsistent cross-sectional shape with respect to the central through hole, the boundary area between the central through hole and the core body fitted therein. Because it is configured as a through gap that occurs,
小能力燃焼に必要な十分に孔径の小さいリターン用細孔を容易に、 且 つ中心軸から偏心して構成することができる。  The return pore having a sufficiently small diameter required for low-capacity combustion can be easily and eccentrically formed from the central axis.
また中心貫通孔及び芯体そのものの径は比較的大径とすることができ るので、 穿孔加工が容易である。  In addition, since the diameter of the center through hole and the diameter of the core itself can be relatively large, drilling is easy.
また中心貫通孔と芯体の断面形状を不一致に構成することは、 中心貫 通孔の内側面や芯体の外側面に対して、 軸方向の凸条ゃ凹条を付加加工 したり、 削り加工したり、 引つ搔き加工したり、 圧印加工したりするこ とで容易に行うことができる。 よって小さな孔を分配器に直接穿孔加工 する場合に比べて、 はるかに容易、 且つ低コス トでリ ターン用細孔を構 成することができる。 またリ ターン用細孔の数を複数個形成するのも容易であり、 その分だ けリターン量も容易に増加させることができるので、 ターンダウン比を 大きくすることも容易に行うことができる。 In addition, by making the cross-sectional shapes of the center through hole and the core body inconsistent, it is necessary to add or machine axial convex and concave stripes on the inner surface of the center through hole and the outer surface of the core body. It can be easily done by processing, pulling, or coining. Therefore, compared with the case where small holes are directly drilled in the distributor, the return holes can be formed much easier and at low cost. Also, it is easy to form a plurality of return pores, and the return amount can be easily increased accordingly, so that the turndown ratio can be easily increased.
勿論、 リターン用細孔を中心軸から偏心して設けることで、 噴霧用紬 孔から噴霧待機室の渦流の中心を通って侵入してく る空気がリターン用 細孔に侵入しょうとするのを防止できる。 また中心貫通孔とそれに嵌め 込まれる芯体との隙間を利用することで、 孔径の十分に小さいリ ターン 用細孔を確実に且つ簡単、 容易に得ることができるので、 空気のリ タ一 ン用細孔への侵入を一層確実に防止できる。  Of course, by providing the return hole eccentrically from the central axis, it is possible to prevent air that enters from the spray hole through the center of the vortex in the spray standby chamber from trying to enter the return hole. . In addition, by utilizing the gap between the center through hole and the core body fitted therein, a return hole having a sufficiently small hole diameter can be obtained reliably, easily, and easily. Intrusion into the pores can be more reliably prevented.
また請求項 2に記載のリターン式噴霧ノズルによれば、 上記請求項 1 に記載の構成による効果に加えて、 外側面に凹条を形成した芯体が中心 貫通孔に嵌め込み固定されることで、 芯体と中心貫通孔との境界域に前 記凹条によるリ ターン用細孔が貫通隙間として構成されているので、 十 分に孔径の小さいリターン用細孔を中心軸から偏心して得ることができ 、 空気がリ ターン用細孔に侵入するのを確実に防止すると共に小能力燃 焼での能力調節を確実に行うことができる。  According to the return type spray nozzle of the second aspect, in addition to the effect of the configuration of the first aspect, a core body having a concave streak on the outer surface is fitted and fixed in the center through hole. However, since the return hole formed by the above-mentioned concave streak is formed as a through gap in the boundary area between the core body and the center through hole, it is necessary to obtain a sufficiently small return hole eccentric from the center axis. As a result, it is possible to reliably prevent air from entering the return pores, and it is possible to reliably perform capacity adjustment in small capacity combustion.
また請求項 3に記載のリ タ一ン式噴霧ノズルによれば、 上記請求項 1 に記載の構成による効果に加えて、 内側面に凹条を形成した中心貫通孔 に芯体が嵌め込み固定されることで、 芯体と中心貫通孔との境界域に前 記凹条によるリターン用細孔が貫通隙間として構成されているので、 十 分に孔径の小さいリ タ一ン用細孔を中心軸から偏心して得ることができ 、 空気がリ ターン用細孔に侵入するのを確実に防止すると共に小能力燃 焼での能力調節を確実に行うことができる。  According to the return spray nozzle of the third aspect, in addition to the effect of the configuration of the first aspect, the core body is fitted and fixed in the center through-hole having a concave streak on the inner surface. As a result, the return hole formed by the above-mentioned concave streak is formed as a through gap in the boundary area between the core body and the center through hole, so that the return hole having a sufficiently small hole diameter is formed in the center axis. Thus, it is possible to reliably prevent the air from entering the return pores and adjust the capacity in small capacity combustion.
また請求項 4に記載のリターン式噴霧ノズルによれば、 上記請求項 1 〜 3の何れかに記載の構成による効果に加えて、 リターン用細孔は複数 個が中心軸の回りに対称に設けられているので、 噴霧待機室からリ タ一 ン用細孔へリターンせられる液体燃料のバランスがとれ、 よって噴霧待 機室内での液体燃料の場所的過不足がなく、 噴霧待機室から安定した噴 霧を行うことができる。 According to the return type spray nozzle according to claim 4, in addition to the effect of the configuration according to any one of claims 1 to 3, a plurality of return pores are provided symmetrically around the central axis. From the spray standby room The liquid fuel returned to the spray pores is balanced, so that there is no excessive or insufficient location of the liquid fuel in the spray waiting room, and stable spraying can be performed from the spray waiting room.
また請求項 5に記載のリターン式噴霧ノズルによれば、 請求項 1 に記 載の構成による効果に加えて、 孔径の小さいリターン用細孔を中心軸か ら偏心した位置にリ ング状に得ることができ、 空気がリ 夕一ン用細孔に 侵入するのを確実に防止すると共に小能力燃焼での能力調節を確実に行 うことができる。  According to the return type spray nozzle of the fifth aspect, in addition to the effect of the configuration of the first aspect, a return pore having a small diameter is formed in a ring shape at a position eccentric from the central axis. As a result, it is possible to reliably prevent air from entering the cleaning pores, and to reliably perform capacity adjustment in small capacity combustion.

Claims

請 求 の 範 囲 し 噴霧ノズル本体 ( 5 0 ) と、 該噴霧ノズル本体 ( 5 0 ) の内孔に装 嵌される分配器 ( 6 0 ) とを有し、 前記噴霧ノズル本体 ( 5 0 ) にはそ の先端部中央に噴霧用細孔 ( 5 1 ) を設け、 前記分配器 ( 6 0 ) には、 該分配器 ( 6 0 ) 先端部の中央付近に前記噴霧用細孔 ( 5 1 ) の中心軸 (X) から偏心した位置にリターン用細孔 ( 9 0 ) を設けると共に分配 器 ( 6 0 ) の肩部外側部 ( 6 1 ) に前記噴霧ノズル本体 ( 5 0 ) の内孔 内を送られてきた液体燃料を分配器 ( 6 0 ) 先端部前方の噴霧待機室 ( 7 0 ) へ供給する燃料供給用スリ ッ ト溝 ( 6 2 ) を設け、 前記噴霧待機 室 ( 7 0 ) に供給されてきた液体燃料を該噴霧待機室 ( 7 0 ) から前記 噴霧用細孔 ( 5 1 ) を通して噴出すると共に、 一部の液体燃料を噴出さ せることなく前記噴霧待機室 ( 7 0 ) から前記リターン用細孔 ( 9 0 ) を通して戻すようにしたリターン式噴霧ノズル ( 4 ) であって、 前記分 配器 ( 6 0 ) のリ 夕一ン用細孔 ( 9 0 ) は、 分配器 ( 6 0 ) の先端部中 央付近に前記噴霧用細孔 ( 5 1 ) の中心軸 (X) と同軸に形成された中 心貫通孔 ( 6 3 ) と、 該中心貫通孔 ( 6 3 ) に対して不一致な断面形状 を持って嵌め込まれる芯体 ( 8 0 ) とによって、 中心貫通孔 ( 6 3 ) と それに嵌め込まれた芯体 ( 8 0 ) との境界域に生じる貫通隙間として構 成されていることを特徴とするリターン式噴霧ノズル。 Claims: A spray nozzle body (50) having a spray nozzle body (50) and a distributor (60) fitted in an inner hole of the spray nozzle body (50); The dispenser (60) is provided with a spray pore (51) at the center of the tip thereof, and the spray pore (51) is provided near the center of the distributor (60) tip. ), A return hole (90) is provided at a position eccentric from the central axis (X), and an inner hole of the spray nozzle body (50) is provided at a shoulder outer portion (61) of the distributor (60). The fuel supply slit groove (62) for supplying the liquid fuel sent through the inside to the spray standby chamber (70) in front of the tip of the distributor (60) is provided, and the spray standby chamber (70) is provided. ) Is sprayed from the spray standby chamber (70) through the spray pores (51), and the liquid fuel is sprayed without causing some of the liquid fuel to be sprayed. A return type spray nozzle (4) that returns from the standby chamber (70) through the return hole (90), and includes a return hole (90) of the distributor (60). ) Is a central through-hole (63) formed near the center of the tip of the distributor (60), coaxially with the central axis (X) of the spray pore (51), The core body (80) fitted with an inconsistent cross-sectional shape with respect to the hole (63) causes a boundary area between the central through hole (63) and the core body (80) fitted therein. A return type spray nozzle characterized by being configured as a through gap.
2. 外側面に凹条 ( 8 1 ) を形成した芯体 ( 8 0 ) が中心貫通孔 ( 6 3 ) に嵌め込み固定されることで、 芯体 ( 8 0 ) と中心貫通孔 ( 6 3 ) と の境界域に前記凹条 ( 8 1 ) によるリ ターン用細孔 ( 9 0 ) が貫通隙間 として構成されている請求項 1 に記載のリターン式噴霧ノズル。  2. The core (80) having the concave strip (81) formed on the outer surface is fitted and fixed in the center through-hole (63), so that the core (80) and the center through-hole (63) are fixed. The return type spray nozzle according to claim 1, wherein a return pore (90) formed by the concave streak (81) is formed as a through gap in a boundary area between and.
3. 内側面に凹条 ( 6 3 a ) を形成した中心貫通孔 ( 6 3 ) に芯体 ( 8 0 ) が嵌め込み固定されることで、 芯体 ( 8 0 ) と中心貫通孔 ( 6 3 ) との境界域に前記凹条 ( 6 3 a) によるリタ一ン用細孔 ( 9 0 ) が貫通 隙間として構成されている請求項 1 に記載のリ ターン式噴霧ノズル。 3. The core body (80) is fitted and fixed in the center through hole (63) having a concave streak (63a) on the inner surface, so that the core body (80) and the center through hole (63) are fixed. ) 2. The return spray nozzle according to claim 1, wherein a return pore (90) formed by the concave streak (63 a) is formed as a penetrating gap in a boundary area between the return spray nozzle and the nozzle.
4. リ ターン用細孔 ( 9 0 ) は複数個が中心軸 (X) の回りに対称に設 けられている請求項 1〜 3の何れかに記載のリ ターン式噴霧ノズル。 4. The return spray nozzle according to any one of claims 1 to 3, wherein a plurality of return pores (90) are provided symmetrically around the central axis (X).
5. 中心貫通孔 ( 6 3 ) よりも径の小さい相似形の芯体 ( 8 0 ) が中心 貫通孔 ( 6 3 ) に嵌め込み固定されることで、 芯体 ( 8 0 ) と中心貫通 孔 ( 6 3 ) との境界域にリ ング状のリ夕一ン用細孔 ( 9 0 ) が貫通隙間 として構成されている請求項 1 に記載のリタ一ン式噴霧ノズル。 5. A core (80) having a smaller diameter than the center through-hole (63) is fitted and fixed in the center through-hole (63), so that the core (80) and the center through-hole (80) are fixed. 3. The return spray nozzle according to claim 1, wherein a ring-shaped cleaning pore (90) is formed as a through gap in a boundary region with the gap (63).
PCT/JP1996/003557 1995-12-08 1996-12-04 Return type spray nozzle WO1997021958A1 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
EP96941172A EP0809069A4 (en) 1995-12-08 1996-12-04 Return type spray nozzle

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
JP7/345838 1995-12-08
JP34583895 1995-12-08

Publications (1)

Publication Number Publication Date
WO1997021958A1 true WO1997021958A1 (en) 1997-06-19

Family

ID=18379330

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/JP1996/003557 WO1997021958A1 (en) 1995-12-08 1996-12-04 Return type spray nozzle

Country Status (2)

Country Link
EP (1) EP0809069A4 (en)
WO (1) WO1997021958A1 (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP3736496A1 (en) * 2019-05-08 2020-11-11 Pratt & Whitney Canada Corp. Fuel swirler for pressure fuel nozzles

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5066840A (en) * 1973-10-22 1975-06-05
JPH02217706A (en) 1989-02-16 1990-08-30 Toto Ltd Flow rate control nozzle
JPH04295505A (en) * 1991-03-25 1992-10-20 Noritz Corp Spray nozzle for combustion
JPH04295506A (en) * 1991-03-25 1992-10-20 Noritz Corp Spray nozzle for combustion
JPH0579211U (en) * 1992-03-25 1993-10-29 東陶機器株式会社 Spray nozzle

Family Cites Families (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB702770A (en) * 1951-04-16 1954-01-20 Lucas Industries Ltd Liquid fuel injection nozzles
GB766558A (en) * 1954-01-15 1957-01-23 Dowty Fuel Syst Ltd Improvements in liquid fuel atomising nozzles
US2921742A (en) * 1958-06-16 1960-01-19 Jr Wadsworth J Johnsyn Fuel nozzles
DE1179421B (en) * 1963-02-14 1964-10-08 Daimler Benz Ag Fuel injection nozzle for combustion chambers of gas turbine engines
DE4415863A1 (en) * 1994-05-05 1995-11-09 Tecaro Ag Oil burner nozzle with body in fuel supply pipe

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5066840A (en) * 1973-10-22 1975-06-05
JPH02217706A (en) 1989-02-16 1990-08-30 Toto Ltd Flow rate control nozzle
JPH04295505A (en) * 1991-03-25 1992-10-20 Noritz Corp Spray nozzle for combustion
JPH04295506A (en) * 1991-03-25 1992-10-20 Noritz Corp Spray nozzle for combustion
JPH0579211U (en) * 1992-03-25 1993-10-29 東陶機器株式会社 Spray nozzle

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
See also references of EP0809069A4 *

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP3736496A1 (en) * 2019-05-08 2020-11-11 Pratt & Whitney Canada Corp. Fuel swirler for pressure fuel nozzles
US11175044B2 (en) 2019-05-08 2021-11-16 Pratt & Whitney Canada Corp. Fuel swirler for pressure fuel nozzles

Also Published As

Publication number Publication date
EP0809069A4 (en) 1999-02-10
EP0809069A1 (en) 1997-11-26

Similar Documents

Publication Publication Date Title
RU2434686C2 (en) Fluid sprayer and sprayer head (versions)
US6578777B2 (en) Low pressure spray nozzle
JP3240188B2 (en) Inlet spray nozzle
US4989788A (en) Binary flat-jet nozzle for atomizing liquids
KR100728998B1 (en) Sprayhead with nozzles made by boring
JP4971708B2 (en) Two-fluid nozzle
CA2394127A1 (en) Device for atomizing a liquid product, a spray-drying and conditioning device provided therewith, and a method for conditioning a liquid product
JP2016163034A (en) Two-fluid nozzle
JP2021525645A (en) Cartridges, methods for operating cartridges, water nozzle inserts and outlets
JP2018058063A (en) Nozzle hole part structure of spray mechanism
EP0847306B1 (en) Arrangement in a spray tube mouthpiece
WO1997021958A1 (en) Return type spray nozzle
JP2002306991A (en) Full cone nozzle
JP3382320B2 (en) Two-fluid nozzle
JP7502775B2 (en) Spray nozzle
WO2005097345A1 (en) Liquid atomizer
JP4504641B2 (en) Spray nozzle and spraying method using the same
RU2044957C1 (en) Injector
JP2022014191A (en) Spray nozzle
JP2002210391A (en) Multi-injection nozzle
JP2004344689A (en) Two-fluid nozzle
JP3132283B2 (en) Liquid injection valve
KR20060128289A (en) Ultra-fine spray-jetting nozzle
KR101927612B1 (en) Nozzle Device
JPS6212439Y2 (en)

Legal Events

Date Code Title Description
AK Designated states

Kind code of ref document: A1

Designated state(s): JP US

AL Designated countries for regional patents

Kind code of ref document: A1

Designated state(s): AT BE CH DE DK ES FI FR GB GR IE IT LU MC NL PT SE

ENP Entry into the national phase

Ref country code: US

Ref document number: 1997 860203

Date of ref document: 19970624

Kind code of ref document: A

Format of ref document f/p: F

WWE Wipo information: entry into national phase

Ref document number: 1996941172

Country of ref document: EP

121 Ep: the epo has been informed by wipo that ep was designated in this application
WWP Wipo information: published in national office

Ref document number: 1996941172

Country of ref document: EP

WWW Wipo information: withdrawn in national office

Ref document number: 1996941172

Country of ref document: EP