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JP2005227859A - Regulator for gas - Google Patents

Regulator for gas Download PDF

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Publication number
JP2005227859A
JP2005227859A JP2004033595A JP2004033595A JP2005227859A JP 2005227859 A JP2005227859 A JP 2005227859A JP 2004033595 A JP2004033595 A JP 2004033595A JP 2004033595 A JP2004033595 A JP 2004033595A JP 2005227859 A JP2005227859 A JP 2005227859A
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Japan
Prior art keywords
valve
filter
passage
gas
pressure reducing
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Granted
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JP2004033595A
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JP4226486B2 (en
Inventor
Kazunori Ishikawa
和記 石川
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Keihin Corp
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Keihin Corp
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Priority to JP2004033595A priority Critical patent/JP4226486B2/en
Priority to MYPI20050461A priority patent/MY144417A/en
Priority to CNB2005800045800A priority patent/CN100511065C/en
Priority to EP05709988.9A priority patent/EP1715400B1/en
Priority to PCT/JP2005/001936 priority patent/WO2005076097A1/en
Priority to US10/588,723 priority patent/US20080047618A1/en
Publication of JP2005227859A publication Critical patent/JP2005227859A/en
Application granted granted Critical
Publication of JP4226486B2 publication Critical patent/JP4226486B2/en
Priority to US13/078,412 priority patent/US8459288B2/en
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02TCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
    • Y02T10/00Road transport of goods or passengers
    • Y02T10/10Internal combustion engine [ICE] based vehicles
    • Y02T10/30Use of alternative fuels, e.g. biofuels

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  • Lubrication Details And Ventilation Of Internal Combustion Engines (AREA)
  • Control Of Fluid Pressure (AREA)
  • Magnetically Actuated Valves (AREA)
  • Details Of Valves (AREA)

Abstract

<P>PROBLEM TO BE SOLVED: To simplify a gas depressurizing system, and to reduce cost, in a regulator for gas wherein at least an electromagnetic shut-off valve and a pressure reducing valve interposed between an inlet passage and an outlet passage are provided on a body provided with the inlet passage and the outlet passage. <P>SOLUTION: In the regulator for the gas wherein at least the electromagnetic shut-off valve 36 and the pressure reducing valve 37 interposed between the inlet passage 59 and the outlet passage 164 are provided on the body 34 provided with the inlet passage 59 and the outlet passage 164, an oil filter 38 interposed between the pressure reducing valve 37 and the outlet passage 164 is mounted on the body 34. Since the oil filter is assembled into the body, the gas depressurizing system can be simplified and the cost can be reduced by integrating at least the electromagnetic shut-off valve, the pressure reducing valve and the oil filter into the body. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

本発明は、ガス用レギュレータに関し、特に、入口通路および出口通路が設けられるボディに、前記入口通路および前記出口通路間に介在する少なくとも電磁遮断弁および減圧弁が設けられるガス用レギュレータに関する。   The present invention relates to a gas regulator, and more particularly to a gas regulator in which a body provided with an inlet passage and an outlet passage is provided with at least an electromagnetic shut-off valve and a pressure reducing valve interposed between the inlet passage and the outlet passage.

このようなガス用レギュレータは、たとえば特許文献1により既に知られている。
特開2002−182751号公報
Such a gas regulator is already known from Patent Document 1, for example.
JP 2002-182751 A

ところが、上記特許文献1で開示されたガス用レギュレータでは、減圧弁で減圧されたガスが含むオイルを除去するためのオイルフィルタが、ボディに接続される管路の途中にボディとは独立して介設されており、ガス減圧システムの複雑化およびコスト高を招いている。   However, in the gas regulator disclosed in Patent Document 1, the oil filter for removing the oil contained in the gas decompressed by the decompression valve is independent of the body in the middle of the pipe line connected to the body. The gas pressure reduction system is complicated and expensive.

本発明は、かかる事情に鑑みてなされたものであり、ガス減圧システムの簡素化およびコスト低減を可能としてオイルフィルタを配置したガス用レギュレータを提供することを目的とする。   The present invention has been made in view of such circumstances, and an object of the present invention is to provide a gas regulator in which an oil filter is arranged to enable simplification and cost reduction of a gas decompression system.

上記目的を達成するために、請求項1記載の発明は、入口通路および出口通路が設けられるボディに、前記入口通路および前記出口通路間に介在する少なくとも電磁遮断弁および減圧弁が設けられるガス用レギュレータにおいて、前記減圧弁および出口通路間に介装されるオイルフィルタが前記ボディに取付けられることを特徴とする。   To achieve the above object, the invention according to claim 1 is for a gas in which at least an electromagnetic shut-off valve and a pressure reducing valve interposed between the inlet passage and the outlet passage are provided in a body provided with the inlet passage and the outlet passage. In the regulator, an oil filter interposed between the pressure reducing valve and the outlet passage is attached to the body.

請求項2記載の発明は、請求項1記載の発明の構成に加えて、前記ボディに取付け凹部が設けられ、該取付け凹部に一端部が挿入される前記オイルフィルタが、該オイルフィルタの前記ボディからの突出部を覆って前記ボディに着脱可能に取付けられるフィルタカバーと前記ボディとの間に挟持されることを特徴とする。   According to a second aspect of the present invention, in addition to the configuration of the first aspect of the invention, the body is provided with a mounting recess in the body, and the oil filter in which one end is inserted into the mounting recess. It is clamped between the body and the filter cover which covers the protrusion part from detachably, and is attached to the body.

請求項3記載の発明は、請求項2記載の発明の構成に加えて、前記オイルフィルタは、合成樹脂から成る筒状のフィルタケースの側壁の一部にガスの流通を許容するメッシュ部が設けられて成り、前記減圧弁で減圧されたガスを導くようにして前記ボディに設けられるガス通路に通じるようにして前記取付け凹部の閉塞端に開口する接続孔が前記ボディに設けられ、該接続孔に一端部を弾発的に嵌合せしめる円筒部ならびに前記フィルタケースの一端部および前記取付け凹部の閉塞端間に挟まれるようにして前記円筒部から外側方に張り出す鍔部を一体に備える弾性部材が、前記円筒部をフィルタケース内に通じさせるようにして前記フィルタケースの一端部に装着され、前記フィルタカバー内で前記オイルフィルタの周囲には、前記オイルフィルタのメッシュ部から滲出したオイルを溜めるオイル溜まり室が、その上端部を前記出口通路に通じさせるようにして形成される。   According to a third aspect of the invention, in addition to the configuration of the second aspect of the invention, the oil filter is provided with a mesh portion that allows a gas to flow in a part of a side wall of a cylindrical filter case made of synthetic resin. A connection hole that opens to the closed end of the mounting recess so as to lead to a gas passage provided in the body so as to guide the gas decompressed by the pressure reducing valve, and the connection hole And an elastic portion integrally provided with a cylindrical portion in which one end portion is elastically fitted to the cylindrical portion and a flange portion projecting outward from the cylindrical portion so as to be sandwiched between the one end portion of the filter case and the closed end of the mounting recess. A member is attached to one end portion of the filter case so that the cylindrical portion passes through the filter case, and the oil filter is disposed around the oil filter in the filter cover. Oil reservoir chamber for storing the exuded oil from the mesh portion of the filter is formed by the upper end portion to establishing communication with the outlet passage.

請求項4記載の発明は、請求項2または3記載の発明の構成に加えて、前記フィルタカバーの底部に、ドレンボルトで液密に閉じられるドレン孔が設けられることを特徴とする。   According to a fourth aspect of the invention, in addition to the configuration of the second or third aspect of the invention, a drain hole that is liquid-tightly closed by a drain bolt is provided at the bottom of the filter cover.

請求項5記載の発明は、請求項2〜4のいずれかに記載の発明の構成に加えて、前記フィルタカバーに、リリーフ弁が取付けられることを特徴とする。   According to a fifth aspect of the present invention, in addition to the configuration of the second aspect of the present invention, a relief valve is attached to the filter cover.

さらに請求項6記載の発明は、請求項3記載の発明の構成に加えて、前記フィルタカバーがボディの下面に取付けられ、前記減圧弁の一部が前記ボディの上面側からボディに装着され、前記減圧弁に背圧を作用せしめる背圧孔が、前記オイル溜まり室に通じて前記ボディに設けられることを特徴とする。   Furthermore, in the invention of claim 6, in addition to the configuration of the invention of claim 3, the filter cover is attached to the lower surface of the body, and a part of the pressure reducing valve is attached to the body from the upper surface side of the body, A back pressure hole for applying a back pressure to the pressure reducing valve is provided in the body through the oil reservoir chamber.

請求項1記載の発明によれば、オイルフィルタがボディに組付けられるので、少なくとも電磁遮断弁、減圧弁およびオイルフィルタをボディに集積化することでガス減圧システムの簡素化を図り、コスト低減を図ることが可能となる。   According to the first aspect of the invention, since the oil filter is assembled to the body, the gas pressure reducing system can be simplified and the cost can be reduced by integrating at least the electromagnetic cutoff valve, the pressure reducing valve and the oil filter in the body. It becomes possible to plan.

また請求項2記載の発明によれば、オイルフィルタをボディおよびフィルタカバー間に挟持することにより、オイルフィルタの取付けが容易となり、しかもボディをコンパクト化しつつオイルフィルタの容量を極力大きく設定することができる。   According to the second aspect of the present invention, the oil filter is sandwiched between the body and the filter cover, so that the oil filter can be easily attached, and the capacity of the oil filter can be set as large as possible while making the body compact. it can.

請求項3記載の発明によれば、減圧弁の下流側に接続されるオイルフィルタを気密にかつ確実にボディに取り付けることが可能であるとともに取り外しも容易であり、しかもオイルフィルタから滲出したオイルをオイル溜まり室に溜めることにより出口通路側にオイルが流出することを容易に防止することができる。   According to the third aspect of the present invention, the oil filter connected to the downstream side of the pressure reducing valve can be securely and securely attached to the body and can be easily removed, and the oil that has exuded from the oil filter can be removed. By storing in the oil reservoir chamber, it is possible to easily prevent oil from flowing out to the outlet passage side.

請求項4記載の発明によれば、点検時にオイル溜まり室に溜まったオイルを容易に除去することができ、メンテナンス性を高めることができる。   According to the fourth aspect of the present invention, the oil accumulated in the oil reservoir chamber at the time of inspection can be easily removed, and the maintainability can be improved.

請求項5記載の発明によれば、リリーフ弁を配置すべきスペースをボディ側に確保せずにすむようにしてボディの小型化を図り、しかもリリーフ弁に通じる通路をボディに設けることを不要として、ボディ内の通路形状の簡素化を図るとともに通路配置上の自由度を高めることができる。   According to the fifth aspect of the present invention, it is possible to reduce the size of the body so as not to secure a space in which the relief valve is to be disposed on the body side, and to eliminate the need for providing a passage in the body that leads to the relief valve. It is possible to simplify the shape of the inner passage and increase the degree of freedom in passage arrangement.

さらに請求項6記載の発明によれば、減圧弁の組付け方向をフィルタカバーのボディへの取付け方向とは逆として減圧弁の組付け性を高めることが可能となるとともに、減圧弁に通じる通路形状のボディ内での簡素化を図ることができ、しかも簡単な構成で減圧弁に背圧を作用せしめることができる。   Further, according to the sixth aspect of the present invention, the assembly direction of the pressure reducing valve can be improved by reversing the direction in which the pressure reducing valve is attached to the body of the filter cover, and the passage leading to the pressure reducing valve Simplification within the body of the shape can be achieved, and back pressure can be applied to the pressure reducing valve with a simple configuration.

以下、本発明の実施の形態を、添付図面に示した本発明の一実施例に基づいて説明する。   DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the present invention will be described below based on one embodiment of the present invention shown in the accompanying drawings.

図1〜図11は本発明の一実施例を示すものであり、図1は燃料ガス供給装置の構成を概略的に示す図、図2はガス用レギュレータの縦断面図であって図3の2−2線に沿う断面図、図3は減圧弁を除いた状態でのボディを図2の3−3線矢視方向から見た図、図4は図2の4−4線断面図、図5はオイルフィルタを除いた状態でのボディを図2の5−5線矢視方向から見た図、図6は電磁遮断弁の拡大縦断面図、図7は図3の7−7線に沿う減圧弁の拡大縦断面図、図8は図2で示した減圧弁の一部を拡大して示す縦断面図、図9は隔壁部材の平面図、図10は弁軸およびダイヤフラムロッドの連結部を分解して示す断面図、図11は図10の11−11線に沿う断面図である。   1 to 11 show an embodiment of the present invention. FIG. 1 is a diagram schematically showing a configuration of a fuel gas supply device. FIG. 2 is a longitudinal sectional view of a gas regulator. FIG. 3 is a cross-sectional view taken along line 2-2, FIG. 3 is a view of the body in a state where the pressure reducing valve is removed, as viewed from the direction of arrows 3-3 in FIG. 2, and FIG. 5 is a view of the body with the oil filter removed from the direction of arrows 5-5 in FIG. 2, FIG. 6 is an enlarged longitudinal sectional view of the electromagnetic shut-off valve, and FIG. 7 is a line 7-7 in FIG. FIG. 8 is an enlarged longitudinal sectional view of a part of the decompression valve shown in FIG. 2, FIG. 9 is a plan view of the partition member, and FIG. 10 is a view of the valve shaft and the diaphragm rod. FIG. 11 is a sectional view taken along line 11-11 in FIG.

先ず図1において、燃料ガスである圧縮天然ガス(Compressed Natural Gas:以下、CNGと言う)が、1または複数のCNGタンク20…にたとえば25〜1MPaの高圧で貯溜されており、それらのCNGタンク20…がそれぞれ備える容器遮断弁21…が、充填口22に逆止弁23を介して共通に接続されるとともに、手動遮断弁24に共通に接続され、各容器遮断弁21…および手動遮断弁24間の管路25には、圧力センサ26および温度センサ27が付設される。   First, in FIG. 1, compressed natural gas (Compressed Natural Gas: hereinafter referred to as CNG), which is a fuel gas, is stored in one or a plurality of CNG tanks 20 at a high pressure of, for example, 25 to 1 MPa, and these CNG tanks. The container shut-off valves 21... Respectively included in the 20 ... are connected in common to the filling port 22 via the check valve 23 and commonly connected to the manual shut-off valve 24. A pressure sensor 26 and a temperature sensor 27 are attached to the pipe line 25 between 24.

容器遮断弁21…および手動遮断弁24の開弁時に前記CNGタンク20…からのCNGは、CNGタンク20…へのコンプレッサによるCNGの充填時に混入する可能性のあるオイルを除去するためのオイルフィルタ41を備える高圧管路28を介してガス用レギュレータRに導かれ、該ガス用レギュレータRでたとえば0.2〜0.3MPaに減圧されたCNGが、エンジンEのインジェクタ29に管路30を介して導かれ、管路30には、温度センサ31および圧力センサ32が付設される。   CNG from the CNG tank 20 when the container shut-off valve 21 and the manual shut-off valve 24 are opened is an oil filter for removing oil that may be mixed when the CNG tank 20 is filled with CNG by the compressor. CNG, which is led to the gas regulator R through the high-pressure line 28 including 41 and decompressed to 0.2 to 0.3 MPa, for example, by the gas regulator R, passes through the line 30 to the injector 29 of the engine E. The pipe 30 is provided with a temperature sensor 31 and a pressure sensor 32.

ガス用レギュレータRは、温水通路33を有するボディ34に、高圧フィルタ35、電磁遮断弁36、減圧弁37、オイルフィルタ38およびサーモスタット40が配設されるとともに、前記ボディ34に取付けられるフィルタカバー42にリリーフ弁39が配設されて成るものである。   In the gas regulator R, a high pressure filter 35, an electromagnetic shut-off valve 36, a pressure reducing valve 37, an oil filter 38, and a thermostat 40 are disposed in a body 34 having a hot water passage 33, and a filter cover 42 attached to the body 34. A relief valve 39 is provided.

高圧フィルタ35は、手動遮断弁24から高圧管路28を介して導かれるCNGに含まれる不純物を除去するものである。また減圧弁37は、高圧フィルタ35で不純物が除去された25〜1MPaの高圧のCNGを、たとえば0.2〜0.3MPaに減圧するように作動し、電磁遮断弁36は、エンジンEの運転停止に伴って高圧フィルタ35および減圧弁37間を遮断してCNGの供給を停止する働きをする。   The high-pressure filter 35 removes impurities contained in CNG guided from the manual shut-off valve 24 via the high-pressure line 28. The pressure reducing valve 37 operates so as to reduce the pressure of CNG of 25 to 1 MPa from which impurities have been removed by the high pressure filter 35 to, for example, 0.2 to 0.3 MPa, and the electromagnetic cutoff valve 36 operates the engine E. Along with the stop, the high pressure filter 35 and the pressure reducing valve 37 are shut off to stop the supply of CNG.

ボディ34の温水通路33には、減圧弁37での減圧作用に伴ってボディ34の温度が低下し過ぎないようにするために、エンジンEからエンジン冷却水が導入されるのであるが、温水通路33からエンジンE側へのエンジン冷却水の戻り側でボディ34にサーモスタット40が取付けられ、このサーモスタット40は、温水通路33を流通するエンジン冷却水がたとえば80℃を超えたときに閉弁し、それによりボディ34の温度が上昇し過ぎることが防止される。   Engine cooling water is introduced from the engine E into the hot water passage 33 of the body 34 so that the temperature of the body 34 does not drop too much due to the pressure reducing action of the pressure reducing valve 37. A thermostat 40 is attached to the body 34 on the return side of the engine cooling water from the engine 33 to the engine E side. The thermostat 40 is closed when the engine cooling water flowing through the hot water passage 33 exceeds 80 ° C., for example. This prevents the temperature of the body 34 from rising too much.

図2〜図5を併せて参照して、ボディ34は、相互に反対側に臨むとともに相互に平行な平坦面として形成される第1および第2側面44,45と、第1および第2側面44,45と直交する平面に沿う平坦な第3側面46とを外側面に有しており、高圧フィルタ35は、第1側面44側からボディ34に装着され、電磁遮断弁36は第3側面46側からボディ34に装着される。また第1側面44には、ボディ34に設けられる温水通路33にエンジンEからのエンジン冷却水を導くための接続管48が取付けられており、第2側面45には、サーモスタット40のハウジング49が、温水通路33の出口側に通じるようにして螺合される。   2 to 5, the body 34 has first and second side surfaces 44 and 45 formed as flat surfaces facing each other and parallel to each other, and the first and second side surfaces. The high pressure filter 35 is attached to the body 34 from the first side surface 44 side, and the electromagnetic shut-off valve 36 is the third side surface. Mounted on the body 34 from the 46 side. Further, a connecting pipe 48 for guiding engine cooling water from the engine E to a hot water passage 33 provided in the body 34 is attached to the first side face 44, and a housing 49 of the thermostat 40 is attached to the second side face 45. The screw is engaged so as to communicate with the outlet side of the hot water passage 33.

図4に特に注目して、ボディ34の第1側面44には凹部53が設けられており、該凹部53の外端開口部に、管継手54がその内端とボディ34との間に環状のシール部材55を挟み込むようにして螺着され、手動遮断弁24からのCNGを導く高圧管路28が管継手54の外端部に接続される。前記凹部53には、管継手54の内端との間に間隔をあけるようにして高圧フィルタ35が嵌合されており、該高圧フィルタ35と管継手54との間には、高圧フィルタ35を凹部53の内端閉塞部に押付ける弾発力を発揮するばね56が設けられる。   With particular attention to FIG. 4, the first side surface 44 of the body 34 is provided with a recess 53, and a pipe joint 54 is formed between the inner end and the body 34 in the outer end opening of the recess 53. The high-pressure line 28 that guides CNG from the manual shut-off valve 24 is connected to the outer end portion of the pipe joint 54. A high pressure filter 35 is fitted in the recess 53 so as to be spaced from the inner end of the pipe joint 54, and the high pressure filter 35 is interposed between the high pressure filter 35 and the pipe joint 54. A spring 56 is provided that exerts a resilient force that presses against the inner end blocking portion of the recess 53.

凹部53に嵌合された高圧フィルタ35の外周とボディ34との間には、管継手54内に通じる環状の未浄化室57が形成されており、ボディ34には、高圧フィルタ35内の浄化室58に通じる入口通路59が設けられる。而して高圧管路28を介して導かれるCNGは、未浄化室57から高圧フィルタ35を透過して浄化室58に流入することになり、不純物が除去されたCNGが入口通路59へと導かれる。   An annular unpurified chamber 57 communicating with the pipe joint 54 is formed between the outer periphery of the high pressure filter 35 fitted in the recess 53 and the body 34, and the body 34 purifies the inside of the high pressure filter 35. An entrance passage 59 leading to the chamber 58 is provided. Thus, the CNG guided through the high-pressure line 28 passes through the high-pressure filter 35 from the unpurified chamber 57 and flows into the purification chamber 58, and the CNG from which impurities have been removed is guided to the inlet passage 59. It is burned.

図6を併せて参照して、ボディ34の第3側面46において前記高圧フィルタ35に対応した位置に電磁遮断弁36が装着される。   Referring also to FIG. 6, an electromagnetic shut-off valve 36 is mounted on the third side surface 46 of the body 34 at a position corresponding to the high pressure filter 35.

この電磁遮断弁36は、コイル組立体60と、一端側がコイル組立体60内に挿入されるとともに他端側がボディ34に固定される非磁性材料製のガイド筒61と、該ガイド筒61の一端を塞ぐようにしてガイド筒61に固着される固定コア62と、固定コア62に対向してガイド筒61内に摺動可能に嵌合されるプランジャ63と、固定コア62およびプランジャ63間に設けられる戻しばね64と、コイル組立体60を覆うようにして固定コア62に締結される磁性金属製のソレノイドハウジング65と、コイル組立体60をソレノイドハウジング65との間に挟むようにしてボディ34に螺合される磁性支持枠66と、固定コア62とは反対側でプランジャ63に保持される弁部材67とを備える。   The electromagnetic shut-off valve 36 includes a coil assembly 60, a guide cylinder 61 made of a non-magnetic material whose one end is inserted into the coil assembly 60 and the other end is fixed to the body 34, and one end of the guide cylinder 61. A fixed core 62 fixed to the guide cylinder 61 so as to cover the plunger, a plunger 63 slidably fitted into the guide cylinder 61 so as to face the fixed core 62, and provided between the fixed core 62 and the plunger 63. The return spring 64, the magnetic metal solenoid housing 65 fastened to the fixed core 62 so as to cover the coil assembly 60, and the coil assembly 60 screwed into the body 34 so as to be sandwiched between the solenoid housing 65. And a valve member 67 held by the plunger 63 on the opposite side of the fixed core 62.

コイル組立体60は、合成樹脂製のボビン68と、該ボビン68に巻装されるコイル69とが合成樹脂から成る被覆部70で被覆されて成るものであり、被覆部70のボディ34側の部分には、前記コイル69に連なる一対の接続端子71…を臨ませたカプラ部70aが外側方に突出するようにして一体に設けられており、このカプラ部70aの接続端子71…に図示しない導線が接続される。   The coil assembly 60 is formed by covering a bobbin 68 made of synthetic resin and a coil 69 wound around the bobbin 68 with a covering portion 70 made of synthetic resin. In the portion, a coupler part 70a facing the pair of connection terminals 71 connected to the coil 69 is integrally provided so as to protrude outward, and is not shown in the connection terminals 71 of the coupler part 70a. Conductor is connected.

ボディ34の第3側面46には、内端を閉じた小径孔73と、小径孔73よりも大径にして小径孔73の外端に同軸に連なる大径孔74とが、外方に臨む環状の段部75を相互間に形成して設けられる。一端側をボビン59に挿入せしめるガイド筒61の他端側外面には、大径孔74の内面に外周面を近接、対向せしめる鍔部61aが半径方向外方に張出すようにして一体に設けられており、この鍔部61aおよび段部75間に環状のシール部材76を挟むようにしてガイド筒61の他端部が大径孔74に挿入される。   The third side surface 46 of the body 34 has a small-diameter hole 73 whose inner end is closed, and a large-diameter hole 74 that is larger in diameter than the small-diameter hole 73 and that is coaxially connected to the outer end of the small-diameter hole 73. An annular step 75 is provided between each other. On the outer surface of the other end side of the guide tube 61 that is inserted into the bobbin 59 at one end side, a flange portion 61a that makes the outer peripheral surface approach and face the inner surface of the large diameter hole 74 is integrally provided so as to project outward in the radial direction. The other end portion of the guide tube 61 is inserted into the large-diameter hole 74 so that the annular seal member 76 is sandwiched between the flange portion 61 a and the step portion 75.

磁性支持枠66は、大径孔74にねじ込まれることによりボディ34に組付けられる。しかも段部75および磁性支持枠66間にシール部材76および鍔部61aが挟持されることにより、ガイド筒61もボディ34に固定される。   The magnetic support frame 66 is assembled to the body 34 by being screwed into the large diameter hole 74. Moreover, the guide cylinder 61 is also fixed to the body 34 by sandwiching the seal member 76 and the flange 61a between the stepped portion 75 and the magnetic support frame 66.

有底円筒状に形成されるソレノイドハウジング65の閉塞端中央部を貫通するねじ軸部62aが固定コア62に一体に連設されており、ねじ軸部62aのソレノイドハウジング65からの突出部には、ソレノイドハウジング65との間にワッシャ77を介在させて袋ナット78が螺合されており、該袋ナット78を締付けることによりソレノイドハウジング65の閉塞端中央部が固定コア62に締結されることになる。   A screw shaft portion 62 a penetrating through the central portion of the closed end of the solenoid housing 65 formed in a bottomed cylindrical shape is integrally connected to the fixed core 62, and the protruding portion from the solenoid housing 65 of the screw shaft portion 62 a A cap nut 78 is screwed with a washer 77 interposed between the solenoid housing 65 and the central portion of the closed end of the solenoid housing 65 is fastened to the fixed core 62 by tightening the cap nut 78. Become.

ガイド筒61の他端側が大径孔74への挿入状態でボディ34に固定され、ガイド筒61にプランジャ63が摺動自在に嵌合されていることにより、ボディ34が備える小径孔73の内端部と、ガイド筒61およびプランジャ63の他端との間にはメイン弁室79が形成される。しかも前記高圧フィルタ35の浄化室58に通じる入口通路59が該メイン弁室79に連通されており、高圧フィルタ35で不純物が除去されたCNGがメイン弁室79に導入される。   The other end side of the guide cylinder 61 is fixed to the body 34 in a state of being inserted into the large diameter hole 74, and the plunger 63 is slidably fitted to the guide cylinder 61, so that the inside of the small diameter hole 73 provided in the body 34 is reduced. A main valve chamber 79 is formed between the end portion and the other ends of the guide cylinder 61 and the plunger 63. In addition, an inlet passage 59 that leads to the purification chamber 58 of the high-pressure filter 35 communicates with the main valve chamber 79, and CNG from which impurities have been removed by the high-pressure filter 35 is introduced into the main valve chamber 79.

また小径孔73の内端部における中央で開口するようにしてボディ34に通路80が設けられており、この通路80のメイン弁室79への開口端を囲繞するようにしてメイン弁室79側にわずかに突出する環状の弁座81がボディ34に設けられる。   Further, a passage 80 is provided in the body 34 so as to open at the center of the inner end portion of the small diameter hole 73, and the main valve chamber 79 side so as to surround the opening end of the passage 80 to the main valve chamber 79. An annular valve seat 81 that slightly protrudes from the body 34 is provided on the body 34.

弁部材67は、プランジャ63側に向けて小径となるテーパ面を一端面に有して円盤状に形成される一端側のパイロット弁部67aと、小径孔73の内端部に対向して円盤状に形成される他端側のメイン弁部67bとが、両弁部67a,67bとの間で段差をなす連結筒部67cを介して一体に連設されて成るものであり、パイロット弁部67aの直径はメイン弁部67bの直径よりも小さく設定される。この弁部材67の中心部には、通路80に常時連通する第1通路82と、第1通路82に通じてパイロット弁部67aの一端面中央部に開口する第2通路83とが同軸に設けられ、第2通路83は第1通路82よりも小径に形成される。   The valve member 67 has a tapered surface with a small diameter toward the plunger 63 side at one end surface and is formed in a disk shape so as to face the pilot valve portion 67a on one end side and the inner end portion of the small diameter hole 73. The main valve portion 67b on the other end side formed in the shape of the pilot valve portion is integrally connected via a connecting cylinder portion 67c forming a step between the valve portions 67a and 67b. The diameter of 67a is set smaller than the diameter of the main valve portion 67b. A central portion of the valve member 67 is provided with a first passage 82 that always communicates with the passage 80 and a second passage 83 that communicates with the first passage 82 and opens at the center of one end surface of the pilot valve portion 67a. The second passage 83 is formed with a smaller diameter than the first passage 82.

プランジャ63においてメイン弁室79に臨む端部には、パイロット弁部67aを挿入せしめる凹部84が設けられており、パイロット弁部67aは、プランジャ63の他端に固定されるC字形の止め輪85で凹部84からの離脱を阻止されるようにして凹部84に緩く挿入され、パイロット弁部67aおよびプランジャ63間にはメイン弁室79に通じるパイロット弁室86が形成される。またパイロット弁部67aの一端面中央部を着座させたときに前記第2通路83のパイロット弁室86への開口を塞ぐゴムシール87が前記凹部84の閉塞端中央部に埋設される。而して前記止め輪85は、凹部84の閉塞端および止め輪85間でパイロット弁部67aがプランジャ63との間での軸方向相対移動が可能となる位置でプランジャ63に固定される。   A concave portion 84 into which the pilot valve portion 67 a is inserted is provided at the end facing the main valve chamber 79 in the plunger 63, and the pilot valve portion 67 a is a C-shaped retaining ring 85 fixed to the other end of the plunger 63. Thus, a pilot valve chamber 86 is formed between the pilot valve portion 67 a and the plunger 63 so as to be prevented from being detached from the recess 84, and communicates with the main valve chamber 79. In addition, a rubber seal 87 is embedded in the central portion of the closed end of the recess 84 to block the opening of the second passage 83 to the pilot valve chamber 86 when the central portion of the one end surface of the pilot valve portion 67a is seated. Thus, the retaining ring 85 is fixed to the plunger 63 at a position where the pilot valve portion 67 a can move relative to the plunger 63 between the closed end of the recess 84 and the retaining ring 85.

またメイン弁部67bにおいて小径孔73の閉塞端に対向する面には、弁座81に着座してメイン弁室79および通路80間を遮断するための環状のゴムシール88が埋設される。   An annular rubber seal 88 is embedded in the surface of the main valve portion 67b facing the closed end of the small diameter hole 73 so as to be seated on the valve seat 81 and shut off between the main valve chamber 79 and the passage 80.

このような電磁遮断弁36では、コイル60への電力供給を遮断することにより、プランジャ63が戻しばね64のばね力により固定コア62から離反する方向に移動し、メイン弁部67bのゴムシール88が弁座81に着座してメイン弁室79および通路80間が遮断されるとともに、パイロット弁部67aがゴムシール87に着座してパイロット弁室86および通路80間も遮断され、高圧のCNGの通路80側への供給が停止される。   In such an electromagnetic shut-off valve 36, the power supply to the coil 60 is cut off, so that the plunger 63 moves away from the fixed core 62 by the spring force of the return spring 64, and the rubber seal 88 of the main valve portion 67b is moved. The main valve chamber 79 and the passage 80 are blocked by being seated on the valve seat 81, and the pilot valve portion 67a is also seated on the rubber seal 87 and the pilot valve chamber 86 and the passage 80 are also blocked. Supply to the side is stopped.

一方、コイル60に電力が供給されると、先ずプランジャ63がパイロット弁部67aをゴムシール87から離反させるだけ固定コア62側に移動し、第1通路82を介して通路80に連通している第2通路83がパイロット弁室86に連通することになる。これにより、メイン弁室79からパイロット弁室86、第2通路83および第1通路82を経て通路80にCNGが徐々に流れることになり、それによりメイン弁部67bにメイン弁室79および通路80側から作用している圧力の差が小さくなる。而してコイル60による電磁力がメイン弁部67bに作用している差圧に打ち勝ったときに、プランジャ63が固定コア62側にさらに移動して、メイン弁部67bのゴムシール88が弁座81から離反し、メイン弁室79から通路80へとCNGが流れることになる。   On the other hand, when electric power is supplied to the coil 60, the plunger 63 first moves to the fixed core 62 side so as to separate the pilot valve portion 67 a from the rubber seal 87, and communicates with the passage 80 through the first passage 82. The two passages 83 communicate with the pilot valve chamber 86. As a result, CNG gradually flows from the main valve chamber 79 to the passage 80 through the pilot valve chamber 86, the second passage 83, and the first passage 82, whereby the main valve chamber 79 and the passage 80 enter the main valve portion 67b. The difference in pressure acting from the side is reduced. Thus, when the electromagnetic force by the coil 60 overcomes the differential pressure acting on the main valve portion 67b, the plunger 63 further moves to the fixed core 62 side, and the rubber seal 88 of the main valve portion 67b moves to the valve seat 81. The CNG flows away from the main valve chamber 79 to the passage 80.

図7および図8を併せて参照して、減圧弁37の弁ハウジング90は、ボディ34と、該ボディ34の上面34aに複数のボルト92…で締結されるカバー91とで構成されるものであり、ボディ34の上面34aと、円筒部91aを有するカバー91との間にダイヤフラム93の周縁部が挟持される。   7 and 8 together, the valve housing 90 of the pressure reducing valve 37 includes a body 34 and a cover 91 fastened to the upper surface 34a of the body 34 by a plurality of bolts 92. The peripheral edge of the diaphragm 93 is sandwiched between the upper surface 34a of the body 34 and the cover 91 having the cylindrical part 91a.

ボディ34の上面34aには凹部94が設けられており、ボディ34には、前記凹部94に嵌合される隔壁部材96が固定されるとともに、凹部94の閉塞端中央部に上端を開口せしめて下方に延びる取付け孔95が設けられる。この取付け孔95は、凹部94の閉塞端中央部に上端を開口する大径孔部95aと、大径孔部95aよりも小径にして大径孔部95aの下端に上端が同軸に連なるねじ孔部95bと、ねじ孔部95bよりも小径にしてねじ孔部95bの下端に上端が同軸に連なる中径孔部95cと、中径孔部95cよりも小径にして中径孔部95cの下端に上端が同軸に連なる小径孔部95dとで構成され、電磁遮断弁36からCNGを導く通路80が中径孔部95cの内面に開口される。   A concave portion 94 is provided on the upper surface 34 a of the body 34, and a partition wall member 96 fitted to the concave portion 94 is fixed to the body 34, and an upper end is opened at the central portion of the closed end of the concave portion 94. A mounting hole 95 extending downward is provided. The attachment hole 95 includes a large-diameter hole portion 95a having an upper end opened at the central portion of the closed end of the recess 94, and a screw hole having a smaller diameter than the large-diameter hole portion 95a and having an upper end coaxially connected to the lower end of the large-diameter hole portion 95a. A portion 95b having a diameter smaller than that of the screw hole portion 95b, a medium diameter hole portion 95c having an upper end coaxially connected to the lower end of the screw hole portion 95b, and a diameter smaller than that of the medium diameter hole portion 95c. A small diameter hole portion 95d having an upper end coaxially connected thereto, and a passage 80 for guiding CNG from the electromagnetic shut-off valve 36 is opened on the inner surface of the medium diameter hole portion 95c.

図9を併せて参照して、隔壁部材96は、前記凹部94の閉塞端に対向する環状平板部96aと、該環状平板部96aの外周に連なるとともに凹部94に嵌合される短円筒部96bと、前記環状平板部96aの内周に連なって前記短円筒部96bとは反対側に延びる円筒状のガイド筒部96cとを一体に有して、薄鋼板がプレス成形されて成るものである。   Referring also to FIG. 9, the partition member 96 includes an annular flat plate portion 96 a that faces the closed end of the concave portion 94, and a short cylindrical portion 96 b that is continuous with the outer periphery of the annular flat plate portion 96 a and is fitted in the concave portion 94. And a cylindrical guide tube portion 96c that is connected to the inner periphery of the annular flat plate portion 96a and extends to the opposite side of the short cylindrical portion 96b, and is formed by press-forming a thin steel plate. .

前記ガイド筒部96cを囲む位置には複数個たとえば3個の挿通孔97…が周方向に等間隔をあけて設けられており、それらの挿通孔97…に挿通されるボルト98…をボディ34に螺合して締めつけることにより、隔壁部材96がボディ34に固定される。しかも各ボルト98…を囲む環状のシール部材99が、隔壁部材96の環状平板部96aに弾発的に接触するようにして、凹部94の閉塞端に装着される。   A plurality of, for example, three insertion holes 97... Are provided at equal intervals in the circumferential direction at positions surrounding the guide tube portion 96 c, and bolts 98 that are inserted through these insertion holes 97. The partition wall member 96 is fixed to the body 34 by being screwed onto and tightened. Moreover, an annular seal member 99 surrounding each bolt 98 is attached to the closed end of the recess 94 so as to elastically contact the annular flat plate portion 96a of the partition wall member 96.

取付け孔95のねじ孔部95bには、円筒状である弁座部材100が、前記隔壁部材96との間に減圧室101を形成するようにして螺合され、該弁座部材100の外周には、前記電磁遮断弁36からCNGを導く通路80の開口端よりも上方で中径孔部95cの内面全周に弾発的に接触する環状のシール部材102が装着される。   A cylindrical valve seat member 100 is screwed into the screw hole portion 95 b of the attachment hole 95 so as to form a decompression chamber 101 with the partition wall member 96, and is attached to the outer periphery of the valve seat member 100. An annular seal member 102 that elastically contacts the entire inner surface of the medium-diameter hole 95c above the opening end of the passage 80 that guides CNG from the electromagnetic shut-off valve 36 is mounted.

弁座部材100の減圧室101側の端面には、取付け孔95の軸線に直交する平面内で弁座部材100の半径方向に延びる複数たとえば4つの溝103…を相互間に形成する複数たとえば4つの突部104…が突設されており、それらの溝103…は十字状に配置される。而して弁座部材100のねじ孔部95bへの螺合時には、十字状に配置された溝103…に図示しない工具を係合して弁座部材100を回転操作することが可能であり、弁座部材100をボディ34に容易に取付けることができる。   On the end face of the valve seat member 100 on the decompression chamber 101 side, a plurality of, for example, four, for example, four grooves 103 extending in the radial direction of the valve seat member 100 in a plane perpendicular to the axis of the mounting hole 95 are formed. Two protrusions 104 are projected, and the grooves 103 are arranged in a cross shape. Thus, when the valve seat member 100 is screwed into the screw hole portion 95b, it is possible to rotate the valve seat member 100 by engaging a tool (not shown) with the grooves 103 arranged in a cross shape. The valve seat member 100 can be easily attached to the body 34.

前記弁座部材100において前記各突部104…とは反対側の端部すなわち弁座部材100の下端部には、前記取付け孔95と同軸のガイド孔105を有する円筒状のガイド部材106が圧入されるものであり、このガイド部材106は取付け孔95の小径孔部95dに嵌合される。而して圧入により相互に結合された前記弁座部材100および前記ガイド部材106の外周と、取付け孔95における中径孔部95cの内面との間には前記通路80に通じる環状室107が形成される。   A cylindrical guide member 106 having a guide hole 105 coaxial with the mounting hole 95 is press-fitted into an end portion of the valve seat member 100 opposite to the projections 104, that is, a lower end portion of the valve seat member 100. The guide member 106 is fitted into the small diameter hole portion 95 d of the attachment hole 95. Thus, an annular chamber 107 communicating with the passage 80 is formed between the outer periphery of the valve seat member 100 and the guide member 106 which are coupled to each other by press-fitting and the inner surface of the medium-diameter hole 95c in the mounting hole 95. Is done.

弁座部材100およびガイド部材106間には弁室108が形成され、該弁室108を前記環状室107に通じさせる複数の連通孔109…が弁座部材100の側壁に設けられる。   A valve chamber 108 is formed between the valve seat member 100 and the guide member 106, and a plurality of communication holes 109... For allowing the valve chamber 108 to communicate with the annular chamber 107 are provided in the side wall of the valve seat member 100.

また弁座部材100の減圧室101側の端部には減圧室101に通じる弁孔111が形成され、その弁孔111を中央部に開口させて弁室108に臨むテーパ状の弁座112が弁座部材100に形成される。   Further, a valve hole 111 communicating with the decompression chamber 101 is formed at an end portion of the valve seat member 100 on the decompression chamber 101 side, and a tapered valve seat 112 facing the valve chamber 108 with the valve hole 111 opened at the central portion. The valve seat member 100 is formed.

弁室108内には前記弁座112に着座可能な合成樹脂製の弁体113が収納され、該弁体113は、一端を減圧室101側に突出させるようにして弁孔111に同軸に挿通される弁軸114の中間部に固定される。   A valve body 113 made of synthetic resin that can be seated on the valve seat 112 is accommodated in the valve chamber 108, and the valve body 113 is coaxially inserted into the valve hole 111 so that one end protrudes toward the decompression chamber 101 side. The valve shaft 114 is fixed to an intermediate portion.

弁体113は、テーパ状である弁座112に着座すべく該弁座112に対向する一端面をテーパ状にして円筒状に形成されるものであり、弁軸114が弁体113に弾発的に嵌合されることにより、弁軸114に固定される。しかも弁軸114の外面には、弁体113の内面に弾発的に接触するOリング115が装着されている。   The valve body 113 is formed in a cylindrical shape with one end surface facing the valve seat 112 being tapered so as to be seated on the valve seat 112 having a tapered shape, and the valve shaft 114 is elastically formed on the valve body 113. By being fitted to each other, the valve shaft 114 is fixed. Moreover, an O-ring 115 that elastically contacts the inner surface of the valve body 113 is attached to the outer surface of the valve shaft 114.

弁軸114の他端部は、ガイド孔105の内面との間に介装せしめたOリング116に摺接するようにしてガイド孔105に摺動可能に嵌合される。またガイド孔105の内周に前記Oリング116を保持するための保持板117がガイド部材106の弁室108側端面に当接されており、この保持板117と弁体113との間に、弁体113を弁座112に着座させる方向のばね力を発揮するばね118が設けられる。   The other end of the valve shaft 114 is slidably fitted into the guide hole 105 so as to be in sliding contact with the O-ring 116 interposed between the inner surface of the guide hole 105. A holding plate 117 for holding the O-ring 116 is in contact with the end surface of the guide member 106 on the valve chamber 108 side on the inner periphery of the guide hole 105, and between the holding plate 117 and the valve body 113, A spring 118 is provided that exerts a spring force in a direction in which the valve body 113 is seated on the valve seat 112.

而して、前記弁座部材100、ガイド部材106、弁体113、弁軸114およびばね118は、予め組付けられて弁作動ユニット120を構成するものであり、この弁作動ユニット120が上面34a側からボディ34に取付けられることになる。   Thus, the valve seat member 100, the guide member 106, the valve body 113, the valve shaft 114, and the spring 118 are assembled in advance to constitute the valve operating unit 120, and the valve operating unit 120 is formed on the upper surface 34a. It will be attached to the body 34 from the side.

ダイヤフラム93は、前記隔壁部材96との間に圧力作用室121を形成するとともにカバー91との間にばね室122を形成するようにして弁ハウジング90に支持されるものであり、前記隔壁部材96は、減圧室101および圧力作用室121間を隔てることになる。しかもダイヤフラム93の圧力作用室121側への撓みは、前記隔壁部材96をボディ34に締結する複数のボルト98…の拡径頭部98a…に当接することで規制される。またカバー91内の前記ばね室122には、ダイヤフラム93を減圧室101側に付勢するコイルばね123が収納される。   The diaphragm 93 is supported by the valve housing 90 so as to form a pressure acting chamber 121 between the diaphragm member 96 and the cover 91, and the partition member 96. Separates the decompression chamber 101 and the pressure action chamber 121. In addition, the deflection of the diaphragm 93 toward the pressure acting chamber 121 is restricted by abutting the enlarged diameter heads 98a of a plurality of bolts 98 for fastening the partition member 96 to the body 34. The spring chamber 122 in the cover 91 houses a coil spring 123 that urges the diaphragm 93 toward the decompression chamber 101.

カバー91の円筒部91a内には、弁孔111と同軸に延びる収納孔124が外端を開口するようにして設けられており、該収納孔124は、軸方向外方側のねじ孔部124aと、該ねじ孔部124aよりも大径としてねじ孔部124aに同軸に連なる軸方向内方側の摺動孔部124bとから成る。   A housing hole 124 extending coaxially with the valve hole 111 is provided in the cylindrical portion 91a of the cover 91 so as to open an outer end, and the housing hole 124 is a screw hole portion 124a on the axially outer side. And a sliding hole 124b on the inner side in the axial direction and having a diameter larger than that of the screw hole 124a and coaxially connected to the screw hole 124a.

ダイヤフラム93の中央部の減圧室101側に臨む面には、ダイヤフラム93の中心部を貫通してばね室122側に突出する円筒部125aを一体に有する第1ダイヤフラムリテーナ125が当接され、ダイヤフラム93の中央部のばね室122側に臨む面には、前記円筒部125aの外面に設けられる環状段部126に内周を係合せしめてダイヤフラム93の中央部を第1ダイヤフラムリテーナ125との間に挟み込む第2ダイヤフラムリテーナ127が当接される。   A first diaphragm retainer 125 that integrally has a cylindrical portion 125a that penetrates the central portion of the diaphragm 93 and protrudes toward the spring chamber 122 is brought into contact with the surface facing the decompression chamber 101 side of the central portion of the diaphragm 93. The central portion of the diaphragm 93 is engaged with the annular step portion 126 provided on the outer surface of the cylindrical portion 125 a on the surface facing the spring chamber 122 side of the central portion of the diaphragm 93, so that the central portion of the diaphragm 93 is between the first diaphragm retainer 125. A second diaphragm retainer 127 to be sandwiched is brought into contact.

弁軸114の一端部すなわちダイヤフラム93側の端部にはダイヤフラムロッド128が連結されるものであり、このダイヤフラムロッド128が、第1ダイヤフラムリテーナ125の中央部に減圧室101側から挿入される。第1ダイヤフラムリテーナ125における円筒部125aの内面には、減圧室101側に臨む環状段部129が設けられ、ダイヤフラムロッド128は該環状段部129に係合される。また第2ダイヤフラムリテーナ127は、ダイヤフラム93および補助リテーナ130間に挟まれており、円筒部125aからの突出部分でダイヤフラムロッド128に設けられたねじ軸部128aに、前記補助リテーナ130との間にワッシャ131…を介在させたナット132が螺合され、このナット132を締付けることにより、ダイヤフラム93の中央部を両ダイヤフラムリテーナ125,127で挟むとともに、ダイヤフラム93の中央部に弁軸114が連結されることになる。しかも減圧室101およびばね室122間をシールするために、ダイヤフラムロッド128の外周に装着されたOリング134が円筒部125aの内面に弾発的に接触する。   A diaphragm rod 128 is connected to one end portion of the valve shaft 114, that is, the end portion on the diaphragm 93 side, and this diaphragm rod 128 is inserted into the central portion of the first diaphragm retainer 125 from the decompression chamber 101 side. An annular step portion 129 facing the decompression chamber 101 side is provided on the inner surface of the cylindrical portion 125 a of the first diaphragm retainer 125, and the diaphragm rod 128 is engaged with the annular step portion 129. The second diaphragm retainer 127 is sandwiched between the diaphragm 93 and the auxiliary retainer 130, and a screw shaft portion 128 a provided on the diaphragm rod 128 at a protruding portion from the cylindrical portion 125 a is interposed between the auxiliary retainer 130 and the screw shaft portion 128 a. A nut 132 with washers 131... Is screwed in, and by tightening the nut 132, the central portion of the diaphragm 93 is sandwiched between the two diaphragm retainers 125 and 127, and the valve shaft 114 is connected to the central portion of the diaphragm 93. Will be. Moreover, in order to seal between the decompression chamber 101 and the spring chamber 122, an O-ring 134 mounted on the outer periphery of the diaphragm rod 128 elastically contacts the inner surface of the cylindrical portion 125a.

図10および図11において、弁軸114の一端には先端を球面とした膨大部114aが設けられており、ダイヤフラムロッド128の弁軸114側の端部には、嵌合凹部135が同軸に設けられ、該嵌合凹部135の閉塞端はテーパ面135aとして形成される。而して前記膨大部114aは、その先端を嵌合凹部135の閉塞端に当接させるようにして嵌合凹部135に首振り可能に嵌合される。   10 and 11, the valve shaft 114 is provided with an enormous portion 114a having a spherical tip at one end, and a fitting recess 135 is provided coaxially at the end of the diaphragm rod 128 on the valve shaft 114 side. The closed end of the fitting recess 135 is formed as a tapered surface 135a. Thus, the enormous portion 114a is fitted to the fitting recess 135 so as to be able to swing, with its tip abutting against the closed end of the fitting recess 135.

しかもダイヤフラムロッド128には、その軸線に直交する平面に沿うスリット136が前記嵌合凹部135を横切るように設けられており、略U字状に形成されるクリップ部材137が、嵌合凹部135に一端部が嵌合された前記弁軸114の膨大部114aに弁座部材100側から係合するようにして前記スリット136に挿脱可能に挿入される。   In addition, the diaphragm rod 128 is provided with a slit 136 extending along a plane orthogonal to the axis thereof so as to cross the fitting recess 135, and a clip member 137 formed in a substantially U shape is formed in the fitting recess 135. The valve shaft 114 is inserted into the slit 136 so as to be detachable so as to engage with the enlarged portion 114a of the valve shaft 114 fitted with one end thereof from the valve seat member 100 side.

しかもダイヤフラムロッド128が、第1ダイヤフラムリテーナ125の円筒部125aに挿入されることで、前記クリップ部材137のダイヤフラムロッド128からの離脱が阻止され、弁軸114の一端部がダイヤフラムロッド128に首振り可能に連結された状態が保持される。   In addition, the diaphragm rod 128 is inserted into the cylindrical portion 125 a of the first diaphragm retainer 125, so that the clip member 137 is prevented from being detached from the diaphragm rod 128, and one end portion of the valve shaft 114 is swung to the diaphragm rod 128. The connected state is maintained.

収納孔124の外端開口部すなわちねじ孔部124aには、有底円筒状である調節ねじ138が進退可能に螺合され、該調節ねじ138の開放端側外周には、収納孔124における摺動孔部124b0内面全周に弾発的に接触するOリング144が装着される。また調節ねじ138の閉塞端外面には、調節ねじ138の進退位置を調節する工具を係合するための係合凹部139が設けられる。   An adjustment screw 138 having a bottomed cylindrical shape is screwed into the outer end opening of the storage hole 124, that is, the screw hole 124 a so that the adjustment screw 138 can advance and retreat, and the outer periphery of the adjustment screw 138 is slid in the storage hole 124. An O-ring 144 that elastically contacts the entire inner periphery of the moving hole portion 124b0 is attached. An engagement recess 139 for engaging a tool for adjusting the advance / retreat position of the adjustment screw 138 is provided on the outer surface of the closed end of the adjustment screw 138.

前記調節ねじ138の閉塞端中央部内面には突部138aが突設されており、該突部138aに嵌合、保持されるリテーナ140と、ばね室122側でダイヤフラム93に装着される補助リテーナ130に当接されるリーフばね141との間にコイルばね123が縮設される。したがって調節ねじ138の進退位置を調節することにより、コイルばね123のばね荷重を調節することができる。   A protrusion 138a protrudes from the inner surface of the central portion of the closed end of the adjusting screw 138. The retainer 140 is fitted and held in the protrusion 138a, and the auxiliary retainer is attached to the diaphragm 93 on the spring chamber 122 side. The coil spring 123 is contracted between the leaf spring 141 and the leaf spring 141 that is in contact with 130. Therefore, the spring load of the coil spring 123 can be adjusted by adjusting the advance / retreat position of the adjustment screw 138.

前記リーフばね141は、前記カバー91における円筒部91aの内面に摩擦接触することでダイヤフラム93に摺動抵抗を付与するためのものであり、ばね室122側でダイヤフラム93の中央部に装着される補助リテーナ130およびコイルばね123間に閉塞端が挟まれる有底円筒状のカップ部141aと、前記円筒部91aにおける摺動孔124bの内面の周方向に等間隔をあけた複数箇所たとえば8箇所に弾発的に摺接するようにして前記カップ部141aの開口端に一体に連設される複数のリーフ部141b,141b…とから成る。   The leaf spring 141 is for applying sliding resistance to the diaphragm 93 by frictional contact with the inner surface of the cylindrical portion 91a of the cover 91, and is attached to the central portion of the diaphragm 93 on the spring chamber 122 side. A bottomed cylindrical cup portion 141a having a closed end sandwiched between the auxiliary retainer 130 and the coil spring 123, and a plurality of, for example, eight locations at equal intervals in the circumferential direction of the inner surface of the sliding hole 124b in the cylindrical portion 91a. It is composed of a plurality of leaf portions 141b, 141b,... Integrally connected to the open end of the cup portion 141a so as to be slidably contacted.

またカバー91における円筒部91aの基部には、ばね室122に通じる負圧通路142が設けられており、該負圧通路142に通じる接続管143が圧入等によりカバー91に取付けられる。而して接続管143はエンジンEに接続されるものであり、前記ばね室122にはエンジンEの吸気負圧が導入される。   A negative pressure passage 142 communicating with the spring chamber 122 is provided at the base of the cylindrical portion 91a of the cover 91, and a connection pipe 143 communicating with the negative pressure passage 142 is attached to the cover 91 by press fitting or the like. Thus, the connection pipe 143 is connected to the engine E, and the intake air negative pressure of the engine E is introduced into the spring chamber 122.

このような減圧弁37において、弁室108に高圧のCNGが流入していない状態では、コイルばね123のばね力によりダイヤフラム93が減圧室101側に撓んでおり、弁体113は弁座112から離反して弁孔111を開口せしめている。而して弁室108に流入した高圧のCNGが弁孔111から減圧室101側に流入し、減圧室101の圧力が、コイルばね123のばね力に抗してダイヤフラム93をばね室122側に撓ませる程度に増大すると、弁体113が弁座112に着座して弁孔111が閉鎖されることになり、そのような弁孔111の開放・閉鎖が繰り返されることにより、弁室108にたとえば25〜1MPaの高圧で流入したCNGが、減圧室101では、たとえば0.2〜0.3MPaに減圧されることになる。   In such a pressure reducing valve 37, in a state where high pressure CNG does not flow into the valve chamber 108, the diaphragm 93 is bent toward the pressure reducing chamber 101 by the spring force of the coil spring 123, and the valve body 113 is moved from the valve seat 112. The valve hole 111 is opened away. Thus, the high-pressure CNG flowing into the valve chamber 108 flows into the decompression chamber 101 side from the valve hole 111, and the pressure in the decompression chamber 101 moves the diaphragm 93 toward the spring chamber 122 against the spring force of the coil spring 123. When increased to such an extent that the valve body 113 is bent, the valve body 113 is seated on the valve seat 112 and the valve hole 111 is closed. By repeating such opening and closing of the valve hole 111, for example, CNG that has flowed in at a high pressure of 25 to 1 MPa is decompressed to, for example, 0.2 to 0.3 MPa in the decompression chamber 101.

再び図2において、前記減圧弁37がボディ34に取付けられる側であるボディ34の上面34aとは反対側の面である下面34bにはフィルタカバー42が着脱可能に取付けられる。このフィルタカバー42は、その開放端側のフランジ部42aを有して有底円筒状に形成されるものであり、前記フランジ部42aが複数個たとえば4個のボルト146…によりボディ34の下面34bに取付けられ、ボディ34の下面34bには、フィルタカバー42の開放端に弾発的に接触する環状のシール部材147が装着される。   In FIG. 2 again, a filter cover 42 is detachably attached to a lower surface 34b which is a surface opposite to the upper surface 34a of the body 34, which is the side where the pressure reducing valve 37 is attached to the body 34. The filter cover 42 has a flange portion 42a on the open end side and is formed in a bottomed cylindrical shape. The plurality of flange portions 42a, for example, four bolts 146. An annular seal member 147 that elastically contacts the open end of the filter cover 42 is attached to the lower surface 34b of the body 34.

前記減圧弁37の軸線からオフセットした位置に配置されて減圧弁37の軸線と平行な軸線を有するオイルフィルタ38が、前記フィルタカバー42およびボディ34間に挟持されるようにしてボディ34に取付けられる。   An oil filter 38 disposed at a position offset from the axis of the pressure reducing valve 37 and having an axis parallel to the axis of the pressure reducing valve 37 is attached to the body 34 so as to be sandwiched between the filter cover 42 and the body 34. .

ボディ34の下面34bには、オイルフィルタ38の一端部を挿入せしめる取付け凹部148が設けられる。一方、減圧弁37の弁作動ユニット120を取付けるべくボディ34に設けられている取付け孔95における大径孔部95aの内側面のうちオイルフィルタ38に対応する部分には、凹部94の閉塞端側にも開口するようにして減圧室101に通じる連絡凹部149が、前記取付け孔95の半径方向外方に向かうにつれて細狭まりとなるように形成される。この連絡凹部149の先端部は、前記凹部94の閉塞端に装着されるシール部材99よりも内方に配置されるものであり、前記凹部94の閉塞端への連絡凹部149の開口部は隔壁部材96で閉じられる。   A mounting recess 148 into which one end of the oil filter 38 is inserted is provided on the lower surface 34b of the body 34. On the other hand, the portion corresponding to the oil filter 38 on the inner surface of the large-diameter hole 95a in the mounting hole 95 provided in the body 34 to attach the valve operating unit 120 of the pressure reducing valve 37 is on the closed end side of the recess 94. Further, the communication recess 149 that opens to the decompression chamber 101 is formed so as to become narrower toward the outside in the radial direction of the mounting hole 95. The leading end of the connecting recess 149 is disposed inward of the seal member 99 attached to the closed end of the recess 94, and the opening of the connecting recess 149 to the closed end of the recess 94 is a partition wall. The member 96 is closed.

ボディ34には、上端を前記連絡凹部149の先端部に開口せしめるガス通路150が、連絡凹部148を介して減圧室101に通じるようにして設けられ、このガス通路150は、下方に向かうにつれて減圧弁37から離反する側に傾斜して形成される。またガス通路150の下端に通じて上下に延びる接続孔151が、その下端部を前記取付け凹部148の閉塞端中央部に開口するようにしてボディ34に設けられる。   The body 34 is provided with a gas passage 150 whose upper end is opened to the tip of the communication recess 149 so as to communicate with the decompression chamber 101 through the communication recess 148. The gas passage 150 is depressurized downward. It is formed to be inclined to the side away from the valve 37. Further, a connecting hole 151 that extends vertically through the lower end of the gas passage 150 is provided in the body 34 such that the lower end thereof opens to the central portion of the closed end of the mounting recess 148.

オイルフィルタ38は、合成樹脂から成る筒状のフィルタケース152の側壁の一部にガスの流通を許容するメッシュ部153が設けられて成り、前記接続孔151に一端部を弾発的に嵌合せしめる円筒部154aならびにフィルタケース152の一端部および取付け凹部148の閉塞端間に挟まれるようにして円筒部154aの中間部から外側方に張り出す鍔部154bを一体に備える弾性部材154が、円筒部154aをフィルタケース152内に通じさせるようにして前記円筒部154aの下部をフィルタケース152の上部に嵌合することにより、フィルタケース152の一端部に装着される。   The oil filter 38 is formed by providing a mesh portion 153 that allows a gas flow in a part of a side wall of a cylindrical filter case 152 made of synthetic resin, and one end thereof is elastically fitted into the connection hole 151. An elastic member 154 that integrally includes a cylindrical portion 154a to be clamped and a flange portion 154b projecting outward from an intermediate portion of the cylindrical portion 154a so as to be sandwiched between one end portion of the filter case 152 and the closed end of the mounting recess 148. By fitting the lower part of the cylindrical part 154 a to the upper part of the filter case 152 so that the part 154 a is communicated with the filter case 152, the cylindrical part 154 a is attached to one end part of the filter case 152.

而してフィルタカバー42は、前記ボディ34の下面34bからのオイルフィルタ38の突出部を覆うようにしてボディ34の下面34bに着脱可能に取付けられるものであり、フィルタカバー42内でオイルフィルタ38の周囲には、オイルフィルタ38のメッシュ部153から滲出したオイルを溜めるオイル溜まり室156が形成される。   Thus, the filter cover 42 is detachably attached to the lower surface 34 b of the body 34 so as to cover the protruding portion of the oil filter 38 from the lower surface 34 b of the body 34, and the oil filter 38 is installed in the filter cover 42. Is formed with an oil reservoir chamber 156 for collecting oil that has exuded from the mesh portion 153 of the oil filter 38.

また前記オイルフィルタ38に対応する部分でフィルタカバー42の底部には、ドレン孔157が設けられており、フィルタカバー42の下面との間に環状のシール部材158を介在させてドレン孔157に螺合されるドレンボルト159でドレン孔157は液密に閉じられ、前記オイルフィルタ38におけるフィルタケース152の下端は前記ドレンボルト159の内端に当接する。すなわちオイルフィルタ38は、フィルタカバー42にねじ込まれるドレンボルト159およびボディ34間に挟持されることになる。しかもドレン孔157は、オイルフィルタ38の挿脱を可能とした内径を有するように形成されており、ドレンボルト159の着脱によりオイルフィルタ38の交換が可能となる。   A drain hole 157 is provided at the bottom of the filter cover 42 at a portion corresponding to the oil filter 38, and an annular seal member 158 is interposed between the lower surface of the filter cover 42 and screwed into the drain hole 157. The drain hole 157 is liquid-tightly closed by the drain bolt 159 to be joined, and the lower end of the filter case 152 in the oil filter 38 comes into contact with the inner end of the drain bolt 159. That is, the oil filter 38 is sandwiched between the drain bolt 159 screwed into the filter cover 42 and the body 34. Moreover, the drain hole 157 is formed to have an inner diameter that allows the oil filter 38 to be inserted and removed, and the oil filter 38 can be replaced by attaching and detaching the drain bolt 159.

またボディ34の下面34bには、下端部をオイル溜まり室156に通じさせる背圧孔160が、減圧弁37の弁作動ユニット120を取付けるべくボディ34に設けられている取付け孔95と同軸に設けられており、この背圧孔160の上端は、ガイド部材106のガイド孔105に同軸に連通する。しかも前記ガイド部材106の下端には、前記背圧孔160を囲む環状のシール部材161がボディ34に弾発接触するようにして装着されており、減圧弁37における弁軸114にはオイル溜まり室156からの背圧が作用することになる。   Further, a back pressure hole 160 that allows the lower end portion to communicate with the oil reservoir chamber 156 is provided on the lower surface 34 b of the body 34 so as to be coaxial with the mounting hole 95 provided in the body 34 for mounting the valve operating unit 120 of the pressure reducing valve 37. The upper end of the back pressure hole 160 communicates coaxially with the guide hole 105 of the guide member 106. In addition, an annular seal member 161 surrounding the back pressure hole 160 is attached to the lower end of the guide member 106 so as to elastically contact the body 34, and an oil reservoir chamber is provided on the valve shaft 114 of the pressure reducing valve 37. The back pressure from 156 will act.

ボディ34の第2側面45には、前記オイル溜まり室156の上方で入口通路59と平行に延びるようにしてボディ34に設けられる出口通路164の外端が開口されており、この出口通路164の内端に上端を通じさせて上下に延びるガス通路165が、その下端をオイル溜まり室156の上端に開口するようにしてボディ34に設けられる。すなわちオイル溜まり室156の上部がガス通路165を介して出口通路164に通じることになる。   An outer end of an outlet passage 164 provided in the body 34 is opened on the second side surface 45 of the body 34 so as to extend in parallel with the inlet passage 59 above the oil reservoir chamber 156. A gas passage 165 extending vertically through the inner end through the upper end is provided in the body 34 with its lower end opened to the upper end of the oil reservoir chamber 156. That is, the upper part of the oil reservoir chamber 156 communicates with the outlet passage 164 via the gas passage 165.

ところで、減圧弁37においてダイヤフラム93の一面を臨ませる圧力作用室121と、該圧力作用室121に作用せしめるガス圧を発生する減圧室101との間を隔てる隔壁部材96の環状平板部96aにおいて、環状平板部96aおよびボディ34間に介装される環状のシール部材99よりも内方で前記凹部94の閉塞端に当接する部分には、圧力作用室121に通じる連通孔166が設けられており、この連通孔166に一端を通じさせてボディ34に設けられるアスピレータ通路167の他端が、前記出口通路164に連通される。   By the way, in the annular flat plate portion 96a of the partition wall member 96 that separates the pressure acting chamber 121 that faces one surface of the diaphragm 93 in the pressure reducing valve 37 and the pressure reducing chamber 101 that generates the gas pressure acting on the pressure acting chamber 121, A communication hole 166 that communicates with the pressure action chamber 121 is provided in a portion that is inward of the annular sealing member 99 interposed between the annular flat plate portion 96a and the body 34 and that abuts against the closed end of the recess 94. The other end of the aspirator passage 167 provided in the body 34 through one end of the communication hole 166 is communicated with the outlet passage 164.

しかもボディ34には、前記出口通路164内でのガス流通方向下流側に向けて開口するアスピレータチューブ168が、一部を出口通路164内に配置して取付けられており、前記アスピレータ通路167の他端は該アスピレータチューブ168に接続される。   In addition, an aspirator tube 168 that opens toward the downstream side in the gas flow direction in the outlet passage 164 is attached to the body 34 with a part disposed in the outlet passage 164. The end is connected to the aspirator tube 168.

リリーフ弁39は、ボディ34の第2側面45に対応する側でフィルタカバー42の側部に取付けられており、オイル溜まり室156に通じる弁孔169を先端に有してフィルタカバー42の側部に気密に螺着される弁ハウジング170内に、前記弁孔169を塞ぎ得るゴムシール171を前端に有する弁体172と、前記ゴムシール171で弁孔169を塞ぐ方向に弁体172をばね付勢するばね173とが収納されて成り、弁ハウジング170および弁体172は、弁孔169の開放時にオイル溜まり室156からのCNGを外部に開放し得るように形成される。   The relief valve 39 is attached to the side of the filter cover 42 on the side corresponding to the second side surface 45 of the body 34, and has a valve hole 169 leading to the oil reservoir chamber 156 at the tip, and the side of the filter cover 42. A valve body 172 having a rubber seal 171 at the front end capable of closing the valve hole 169 and a valve body 172 in a direction to close the valve hole 169 with the rubber seal 171 are spring-biased in a valve housing 170 that is airtightly screwed into the valve housing 170. The valve housing 170 and the valve body 172 are formed so that the CNG from the oil reservoir chamber 156 can be opened to the outside when the valve hole 169 is opened.

次にこの実施例の作用について説明すると、ガス用レギュレータRにおける減圧弁37の弁ハウジング90は、ダイヤフラム93側に臨む凹部94が設けられるボディ34と、ダイヤフラム93の周縁部をボディ34との間に挟持するようにしてボディ34に結合されるカバー91とから成り、ダイヤフラム93の一面を臨ませる圧力作用室121と、圧力作用室121に作用させる圧力を発生する減圧室101との間を隔てる隔壁部材96が、薄鋼板のプレス成形により形成されるものであり、凹部94に嵌合される隔壁部材96がボディ34に固定される。   Next, the operation of this embodiment will be described. The valve housing 90 of the pressure reducing valve 37 in the gas regulator R includes a body 34 provided with a recess 94 facing the diaphragm 93 side, and the peripheral edge of the diaphragm 93 between the body 34 and the body 34. And a cover 91 coupled to the body 34 so as to be sandwiched between the pressure action chamber 121 that faces one surface of the diaphragm 93 and the decompression chamber 101 that generates pressure acting on the pressure action chamber 121. The partition member 96 is formed by press-forming a thin steel plate, and the partition member 96 fitted in the recess 94 is fixed to the body 34.

したがってボディ34およびカバー91間に隔壁部材96が介装されることはなく、減圧弁37の小型化を図ることができ、しかも低コストで隔壁部材96を形成することができる。   Therefore, the partition member 96 is not interposed between the body 34 and the cover 91, the pressure reducing valve 37 can be downsized, and the partition member 96 can be formed at low cost.

また隔壁部材96は、ダイヤフラム93の圧力作用室121側の面に当接することで該ダイヤフラム93の圧力作用室121側への撓みを規制する拡径頭部98a…を有するボルト98…でボディ34に固定されるので、隔壁部材96にダイヤフラム93の撓みを規制するための部分を設けることが不要となり、隔壁部材96の形状を簡素化することができる。   The partition member 96 is in contact with the surface of the diaphragm 93 on the side of the pressure action chamber 121, and thereby the body 34 is a bolt 98 having an enlarged head portion 98a that restricts the deflection of the diaphragm 93 toward the pressure action chamber 121. Therefore, it is not necessary to provide the partition member 96 with a portion for restricting the bending of the diaphragm 93, and the shape of the partition member 96 can be simplified.

ところで、前記凹部94の内面に接触する部分で隔壁部材96には圧力作用室121に通じる連通孔166が設けられ、ボディ34には減圧室101に通じる出口通路164が設けられ、連通孔166に一端を通じさせてボディ34に設けられるアスピレータ通路167の他端が前記出口通路164に連通されているので、減圧室101のガスが圧力作用室121に直接作用しないようにして、減圧弁37の減圧制御性能を高めることができる。   By the way, the partition member 96 is provided with a communication hole 166 that communicates with the pressure action chamber 121 at a portion that contacts the inner surface of the recess 94, and the body 34 is provided with an outlet passage 164 that communicates with the decompression chamber 101. Since the other end of the aspirator passage 167 provided in the body 34 through one end communicates with the outlet passage 164, the pressure in the pressure reducing valve 37 is reduced so that the gas in the pressure reducing chamber 101 does not directly act on the pressure acting chamber 121. Control performance can be improved.

しかもアスピレータ通路167の他端が、出口通路164内でのガス流通方向下流側に向けて開口してボディ34に取付けられるアスピレータチューブ168に接続されているので、出口通路164を流通するガスの流れによってアスピレータチューブ168およびアスピレータ通路167内のガスが引かれることになり、より安定した圧力を圧力作用室121に作用せしめて減圧制御性能の向上を図ることができる。   Moreover, since the other end of the aspirator passage 167 is connected to the aspirator tube 168 that opens toward the downstream side in the gas flow direction in the outlet passage 164 and is attached to the body 34, the flow of gas flowing through the outlet passage 164 As a result, the gas in the aspirator tube 168 and the aspirator passage 167 is drawn, and a more stable pressure can be applied to the pressure action chamber 121 to improve the pressure reduction control performance.

また減圧弁37において、弁孔111および弁座112が設けられる弁座部材100と、ガイド孔105を有して弁座部材100に圧入されるガイド部材106と、弁座112に着座可能な弁体113が設けられる弁軸114と、ばね118等が予め組付けられて弁作動ユニット120が構成され、この弁作動ユニット120が、弁孔111から弁軸114の一端を突出させるとともにガイド孔105に弁軸114の他端部を摺動可能に嵌合せしめた状態で、上面34a側からボディ34に取付けられるので、ボディ34に比べて小さいことから加工精度の高精度化が容易であるガイド部材106のガイド孔105と弁座部材100の弁座112との同軸精度を高めるこては容易であり、コストの増大を招く部分での加工の高精度化を回避してコスト低減を図りつつ、同軸精度の向上を図った上で組付け性を高めることができ、しかも弁作動ユニット120単独での気密および性能確認等も容易であり、歩留りの向上を図ることができる。   Further, in the pressure reducing valve 37, a valve seat member 100 provided with a valve hole 111 and a valve seat 112, a guide member 106 having a guide hole 105 and press-fitted into the valve seat member 100, and a valve seatable on the valve seat 112 The valve shaft 114 provided with the body 113, the spring 118, and the like are assembled in advance to form the valve operating unit 120. The valve operating unit 120 projects one end of the valve shaft 114 from the valve hole 111 and the guide hole 105. Since the other end of the valve shaft 114 is slidably fitted to the body 34, the valve shaft 114 is attached to the body 34 from the upper surface 34a side. It is easy to improve the coaxial accuracy between the guide hole 105 of the member 106 and the valve seat 112 of the valve seat member 100, and avoid high processing accuracy in a portion that increases the cost. While reducing the cost and improving the coaxial accuracy, the assemblability can be improved, and the valve operation unit 120 alone can be easily hermetically sealed and the performance can be confirmed, thereby improving the yield. .

またダイヤフラム93の中央部に第1および第2ダイヤフラムリテーナ125,127を介して保持されるダイヤフラムロッド128に弁軸114の一端部が着脱可能に連結されるのであるが、ダイヤフラムロッド128の弁軸114側の端部には、弁軸の一端に設けられる膨大部114aを首振り可能に嵌合せしめる嵌合凹部135が同軸に設けられ、膨大部114aに弁座部材100側から係合するクリップ部材137が、ダイヤフラムロッド128の軸線に直交する平面に沿ってダイヤフラムロッド128に設けられるスリット136に挿脱可能に挿入される。   In addition, one end portion of the valve shaft 114 is detachably connected to the diaphragm rod 128 held through the first and second diaphragm retainers 125 and 127 at the center of the diaphragm 93. The valve shaft of the diaphragm rod 128 is The end portion on the 114 side is provided with a fitting recess 135 that coaxially engages the enormous portion 114a provided at one end of the valve shaft so as to be able to swing, and the clip that engages the enormous portion 114a from the valve seat member 100 side. The member 137 is removably inserted into a slit 136 provided in the diaphragm rod 128 along a plane orthogonal to the axis of the diaphragm rod 128.

これにより、弁軸114をダイヤフラムロッド128に首振り可能に連結することができるので、ダイヤフラムロッド128の軸線と、弁座112およびガイド孔105の軸線とがずれても、ガイド孔105および弁座112との軸線を維持しつつ弁軸114をダイヤフラムロッド128に連結することが可能であり、弁体113の弁座112への着座時のシート性能を高めるとともに、弁軸114の傾斜によってダイヤフラム93が偏って撓むことを防止することが可能となり、減圧制御性を高めることができる。   As a result, the valve shaft 114 can be pivotably connected to the diaphragm rod 128, so that even if the axis of the diaphragm rod 128 and the axis of the valve seat 112 and the guide hole 105 are deviated, the guide hole 105 and the valve seat It is possible to connect the valve shaft 114 to the diaphragm rod 128 while maintaining the axis of the valve 112, improving the seat performance when the valve body 113 is seated on the valve seat 112, and the diaphragm 93 by tilting the valve shaft 114. Can be prevented from being deflected and the pressure reduction controllability can be improved.

しかも弁軸114およびダイヤフラムロッド128を螺合によって連結した場合には、組付け性の低下を招くとともに切り粉の発生による信頼性の低下を招く可能性があるが、ダイヤフラムロッド128のスリット136に挿入したクリップ部材137を弁軸114の一端の膨大部114aに係合するだけであるので、組付け性および信頼性を高めることができる。   Moreover, when the valve shaft 114 and the diaphragm rod 128 are connected by screwing, there is a possibility that the assembling property is lowered and the reliability is lowered due to the generation of chips, but the slit 136 of the diaphragm rod 128 is Since the inserted clip member 137 is merely engaged with the enlarged portion 114a at one end of the valve shaft 114, the assembling property and the reliability can be improved.

さらにガス用レギュレータRにおいて、ボディ34には、少なくとも電磁遮断弁36および減圧弁37が設けられ、この実施例では、電磁遮断弁36および減圧弁37以外にも高圧フィルタ35およびサーモスタット40もボディ34に配設されるのであるが、減圧弁37および出口通路164間に介装されるオイルフィルタ38がボディ34に取付けられるので、少なくとも電磁遮断弁36、減圧弁37およびオイルフィルタ38をボディ34に集積化することでガス減圧システムの簡素化を図り、コスト低減を図ることが可能となる。   Further, in the gas regulator R, the body 34 is provided with at least an electromagnetic cutoff valve 36 and a pressure reducing valve 37. In this embodiment, in addition to the electromagnetic cutoff valve 36 and the pressure reducing valve 37, the high pressure filter 35 and the thermostat 40 include the body 34. However, since the oil filter 38 interposed between the pressure reducing valve 37 and the outlet passage 164 is attached to the body 34, at least the electromagnetic shut-off valve 36, the pressure reducing valve 37 and the oil filter 38 are attached to the body 34. By integrating, the gas decompression system can be simplified and the cost can be reduced.

オイルフィルタ38に対応してボディ34に取付け凹部148が設けられ、該取付け凹部148に一端部が挿入されるオイルフィルタ38が、該オイルフィルタ38のボディ34からの突出部を覆ってボディ34に着脱可能に取付けられるフィルタカバー42と前記ボディ34との間に挟持されるので、オイルフィルタ38の取付けが容易となり、しかもボディ34をコンパクト化しつつオイルフィルタ38の容量を極力大きく設定することができる。   A mounting recess 148 is provided in the body 34 corresponding to the oil filter 38, and the oil filter 38, one end of which is inserted into the mounting recess 148, covers the protruding portion of the oil filter 38 from the body 34. Since the filter cover 42 is detachably mounted between the body 34 and the body 34, the oil filter 38 can be easily mounted, and the capacity of the oil filter 38 can be set as large as possible while reducing the size of the body 34. .

またオイルフィルタ38は、合成樹脂から成る筒状のフィルタケース152の側壁の一部にガスの流通を許容するメッシュ部153が設けられて成り、減圧弁37で減圧されたガスを導くようにしてボディ34に設けられるガス通路150に通じるようにして取付け凹部148の閉塞端に開口する接続孔151がボディ34に設けられ、該接続孔151に一端部を弾発的に嵌合せしめる円筒部154aならびにフィルタケース152の一端部および取付け凹部148の閉塞端間に挟まれるようにして円筒部154aから外側方に張り出す鍔部154bを一体に備える弾性部材154が、円筒部154aをフィルタケース152内に通じさせるようにしてフィルタケース152の一端部に装着され、フィルタカバー42内でオイルフィルタ38の周囲には、オイルフィルタ38のメッシュ部153から滲出したオイルを溜めるオイル溜まり室156が、その上端部を出口通路164に通じさせるようにして形成される。   The oil filter 38 is formed by providing a mesh portion 153 that allows gas flow in a part of the side wall of a cylindrical filter case 152 made of synthetic resin, and guides the gas decompressed by the decompression valve 37. A connecting hole 151 that opens to the closed end of the mounting recess 148 so as to communicate with the gas passage 150 provided in the body 34 is provided in the body 34, and a cylindrical portion 154 a in which one end is elastically fitted into the connecting hole 151. In addition, an elastic member 154 that integrally includes a flange portion 154b that projects outwardly from the cylindrical portion 154a so as to be sandwiched between one end portion of the filter case 152 and the closed end of the mounting recess 148, and the cylindrical portion 154a in the filter case 152 Is attached to one end of the filter case 152 so as to communicate with the oil filter 38 in the filter cover 42. Around the oil reservoir chamber 156 for storing the exuded oil from the mesh portion 153 of the oil filter 38 is formed so as to make through its upper end to the outlet passage 164.

このため減圧弁37の下流側に接続されるオイルフィルタ38を気密にかつ確実にボディ34に取り付けることが可能であるとともに取り外しも容易であり、しかもオイルフィルタ38から滲出したオイルをオイル溜まり室156に溜めることにより出口通路164側にオイルが流出することを容易に防止することができる。   Therefore, the oil filter 38 connected to the downstream side of the pressure reducing valve 37 can be attached to the body 34 in an airtight and reliable manner, and can be easily removed, and the oil that has oozed from the oil filter 38 is removed from the oil reservoir chamber 156. It is possible to easily prevent oil from flowing out to the outlet passage 164 side.

ところで、フィルタカバー42の底部には、ドレンボルト159で液密に閉じられるドレン孔157が設けられており、ドレンボルト159の着脱により、点検時にオイル溜まり室156に溜まったオイルを容易に除去することができ、メンテナンス性を高めることができる。   By the way, a drain hole 157 that is liquid-tightly closed by a drain bolt 159 is provided at the bottom of the filter cover 42, and the oil accumulated in the oil reservoir chamber 156 at the time of inspection can be easily removed by attaching and detaching the drain bolt 159. And maintainability can be improved.

またフィルタカバー42にはリリーフ弁39が取付けられており、リリーフ弁39を配置すべきスペースをボディ34側に確保せずにすむようにしてボディ34の小型化を図り、しかもリリーフ弁39に通じる通路をボディ34に設けることを不要として、ボディ34内の通路形状の簡素化を図るとともに通路配置上の自由度を高めることができる。   In addition, a relief valve 39 is attached to the filter cover 42, so that the body 34 can be downsized so as not to secure a space for the relief valve 39 on the side of the body 34, and a passage leading to the relief valve 39 is provided. Since it is not necessary to provide the body 34, the shape of the passage in the body 34 can be simplified and the degree of freedom in the passage arrangement can be increased.

さらにフィルタカバー42がボディ34の下面34bに取付けられるのに対し、減圧弁37の一部である弁作動ユニット120がボディ34の上面34a側からボディ34に装着され、減圧弁37に背圧を作用せしめる背圧孔160が、オイル溜まり室156に通じてボディ34に設けられるので、減圧弁37の組付け方向をフィルタカバー42のボディ34への取付け方向とは逆として減圧弁37の組付け性を高めることが可能となるとともに、減圧弁37に通じる通路形状のボディ34内での簡素化を図ることができ、しかも簡単な構成で減圧弁37に背圧を作用せしめることができる。   Further, while the filter cover 42 is attached to the lower surface 34 b of the body 34, the valve operating unit 120 that is a part of the pressure reducing valve 37 is attached to the body 34 from the upper surface 34 a side of the body 34, and back pressure is applied to the pressure reducing valve 37. Since the back pressure hole 160 to be acted is provided in the body 34 through the oil reservoir chamber 156, the assembly direction of the pressure reducing valve 37 is reversed from the mounting direction of the filter cover 42 to the body 34. It is possible to improve the performance, simplify the passage-shaped body 34 leading to the pressure reducing valve 37, and apply a back pressure to the pressure reducing valve 37 with a simple configuration.

以上、本発明の実施例を説明したが、本発明は上記実施例に限定されるものではなく、特許請求の範囲に記載された本発明を逸脱することなく種々の設計変更を行うことが可能である。   Although the embodiments of the present invention have been described above, the present invention is not limited to the above-described embodiments, and various design changes can be made without departing from the present invention described in the claims. It is.

燃料ガス供給装置の構成を概略的に示す図である。It is a figure which shows schematically the structure of a fuel gas supply apparatus. ガス用レギュレータの縦断面図であって図3の2−2線に沿う断面図である。It is a longitudinal cross-sectional view of the regulator for gas, Comprising: It is sectional drawing which follows the 2-2 line of FIG. 減圧弁を除いた状態でのボディを図2の3−3線矢視方向から見た図である。It is the figure which looked at the body in the state except a pressure-reducing valve from the 3-3 arrow direction of FIG. 図2の4−4線断面図である。FIG. 4 is a cross-sectional view taken along line 4-4 of FIG. オイルフィルタを除いた状態でのボディを図2の5−5線矢視方向から見た図である。It is the figure which looked at the body in the state which removed the oil filter from the 5-5 line arrow direction of FIG. 電磁遮断弁の拡大縦断面図である。It is an enlarged vertical sectional view of an electromagnetic shut-off valve. 図3の7−7線に沿う減圧弁の拡大縦断面図である。FIG. 7 is an enlarged longitudinal sectional view of the pressure reducing valve taken along line 7-7 in FIG. 3. 図2で示した減圧弁の一部を拡大して示す縦断面図である。It is a longitudinal cross-sectional view which expands and shows a part of pressure-reduction valve shown in FIG. 隔壁部材の平面図である。It is a top view of a partition member. 弁軸およびダイヤフラムロッドの連結部を分解して示す断面図である。It is sectional drawing which decomposes | disassembles and shows the connection part of a valve shaft and a diaphragm rod. 図10の11−11線に沿う断面図である。It is sectional drawing which follows the 11-11 line of FIG.

符号の説明Explanation of symbols

34・・・ボディ
34a・・・上面
34b・・・下面
36・・・電磁遮断弁
37・・・減圧弁
38・・・オイルフィルタ
39・・・リリーフ弁
59・・・入口通路
148・・・取付け凹部
152・・・フィルタケース
153・・・メッシュ部
150・・・ガス通路
151・・・接続孔
154・・・弾発部材
154a・・・円筒部
154b・・・鍔部
156・・・オイル溜まり室
157・・・ドレン孔
159・・・ドレンボルト
160・・・背圧孔
164・・・出口通路
R・・・ガス用レギュレータ
34 ... Body 34a ... Upper surface 34b ... Lower surface 36 ... Electromagnetic shut-off valve 37 ... Pressure reducing valve 38 ... Oil filter 39 ... Relief valve 59 ... Inlet passage 148 ... Mounting recess 152... Filter case 153... Mesh portion 150... Gas passage 151 .. Connection hole 154 .. Elastic member 154a .. Cylindrical portion 154b. Reservoir chamber 157 ... Drain hole 159 ... Drain bolt 160 ... Back pressure hole 164 ... Exit passage R ... Gas regulator

Claims (6)

入口通路(59)および出口通路(164)が設けられるボディ(34)に、前記入口通路(59)および前記出口通路(164)間に介在する少なくとも電磁遮断弁(36)および減圧弁(37)が設けられるガス用レギュレータにおいて、前記減圧弁(37)および出口通路(164)間に介装されるオイルフィルタ(38)が前記ボディ(34)に取付けられることを特徴とするガス用レギュレータ。   At least an electromagnetic shut-off valve (36) and a pressure reducing valve (37) interposed between the inlet passage (59) and the outlet passage (164) in the body (34) provided with the inlet passage (59) and the outlet passage (164). The gas regulator is characterized in that an oil filter (38) interposed between the pressure reducing valve (37) and the outlet passage (164) is attached to the body (34). 前記ボディ(34)に取付け凹部(148)が設けられ、該取付け凹部(148)に一端部が挿入される前記オイルフィルタ(38)が、該オイルフィルタ(38)の前記ボディ(34)からの突出部を覆って前記ボディ(34)に着脱可能に取付けられるフィルタカバー(42)と前記ボディ(34)との間に挟持されることを特徴とする請求項1記載のガス用レギュレータ。   An attachment recess (148) is provided in the body (34), and the oil filter (38), one end of which is inserted into the attachment recess (148), extends from the body (34) of the oil filter (38). The gas regulator according to claim 1, wherein the gas regulator is sandwiched between the body (34) and a filter cover (42) that covers the protrusion and is detachably attached to the body (34). 前記オイルフィルタ(38)は、合成樹脂から成る筒状のフィルタケース(152)の側壁の一部にガスの流通を許容するメッシュ部(153)が設けられて成り、前記減圧弁(37)で減圧されたガスを導くようにして前記ボディ(34)に設けられるガス通路(150)に通じるようにして前記取付け凹部(148)の閉塞端に開口する接続孔(151)が前記ボディ(34)に設けられ、該接続孔(151)に一端部を弾発的に嵌合せしめる円筒部(154a)ならびに前記フィルタケース(152)の一端部および前記取付け凹部(148)の閉塞端間に挟まれるようにして前記円筒部(154a)から外側方に張り出す鍔部(154b)を一体に備える弾性部材(154)が、前記円筒部(154a)をフィルタケース(152)内に通じさせるようにして前記フィルタケース(152)の一端部に装着され、前記フィルタカバー(42)内で前記オイルフィルタ(38)の周囲には、前記オイルフィルタ(38)のメッシュ部(153)から滲出したオイルを溜めるオイル溜まり室(156)が、その上端部を前記出口通路(164)に通じさせるようにして形成されることを特徴とする請求項2記載のガス用レギュレータ。   The oil filter (38) is formed by providing a mesh portion (153) that allows gas flow in a part of a side wall of a cylindrical filter case (152) made of synthetic resin, and the pressure reducing valve (37) A connecting hole (151) that opens to the closed end of the mounting recess (148) so as to lead to a gas passage (150) provided in the body (34) so as to guide the decompressed gas is provided in the body (34). Is provided between the closed end of the cylindrical case (154a) and one end of the filter case (152) and the mounting recess (148). Thus, the elastic member (154) which is integrally provided with the flange portion (154b) projecting outward from the cylindrical portion (154a), the cylindrical portion (154a) is connected to the filter case (152). The filter case (152) is attached to one end of the filter case (152) so that the mesh portion (153) of the oil filter (38) is disposed around the oil filter (38) in the filter cover (42). 3. The gas regulator according to claim 2, wherein an oil reservoir chamber (156) for storing oil exuded from the outlet is formed so that an upper end portion thereof communicates with the outlet passage (164). 前記フィルタカバー(42)の底部に、ドレンボルト(159)で液密に閉じられるドレン孔(157)が設けられることを特徴とする請求項2または3記載のガス用レギュレータ。   The gas regulator according to claim 2 or 3, wherein a drain hole (157) that is liquid-tightly closed by a drain bolt (159) is provided at the bottom of the filter cover (42). 前記フィルタカバー(42)に、リリーフ弁(39)が取付けられることを特徴とする請求項2〜4のいずれかに記載のガス用レギュレータ。   The gas regulator according to any one of claims 2 to 4, wherein a relief valve (39) is attached to the filter cover (42). 前記フィルタカバー(42)がボディ(34)の下面(34b)に取付けられ、前記減圧弁(37)の一部が前記ボディ(34)の上面(34a)側からボディ(34)に装着され、前記減圧弁(37)に背圧を作用せしめる背圧孔(160)が、前記オイル溜まり室(156)に通じて前記ボディ(34)に設けられることを特徴とする請求項3記載のガス用レギュレータ。   The filter cover (42) is attached to the lower surface (34b) of the body (34), and a part of the pressure reducing valve (37) is attached to the body (34) from the upper surface (34a) side of the body (34), 4. The gas use according to claim 3, wherein a back pressure hole (160) for applying a back pressure to the pressure reducing valve (37) is provided in the body (34) through the oil reservoir chamber (156). regulator.
JP2004033595A 2004-02-10 2004-02-10 Gas regulator Expired - Fee Related JP4226486B2 (en)

Priority Applications (7)

Application Number Priority Date Filing Date Title
JP2004033595A JP4226486B2 (en) 2004-02-10 2004-02-10 Gas regulator
MYPI20050461A MY144417A (en) 2004-02-10 2005-02-07 Pressure reducing valve and regulator for gas
EP05709988.9A EP1715400B1 (en) 2004-02-10 2005-02-09 Pressure reducing valve and gas regulator
PCT/JP2005/001936 WO2005076097A1 (en) 2004-02-10 2005-02-09 Pressure reducing valve and gas regulator
CNB2005800045800A CN100511065C (en) 2004-02-10 2005-02-09 Pressure reducing valve and gas regulator
US10/588,723 US20080047618A1 (en) 2004-02-10 2005-02-09 Pressure Reducing Valve And Regulator For Gas
US13/078,412 US8459288B2 (en) 2004-02-10 2011-04-01 Pressure reducing valve and regulator for gas

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2004033595A JP4226486B2 (en) 2004-02-10 2004-02-10 Gas regulator

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JP4226486B2 JP4226486B2 (en) 2009-02-18

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JP2009301963A (en) * 2008-06-16 2009-12-24 Keihin Corp Regulator unit for fuel cell
WO2010087476A1 (en) 2009-02-02 2010-08-05 株式会社ケーヒン Pressure reducing valve
KR101070290B1 (en) 2009-10-20 2011-10-06 주식회사 엑시언 Regulator module having mass exhaust function
KR101235812B1 (en) * 2009-07-30 2013-02-21 주식회사 엑시언 decompression regulator
CN116220962A (en) * 2023-05-06 2023-06-06 四川华气动力有限责任公司 High-power gas engine for refining blast furnace tail gas

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CN106168303B (en) * 2016-08-26 2019-03-26 北京控制工程研究所 A kind of micrometeor high-precision lightweight miniaturization pressure maintaining valve
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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2008269459A (en) * 2007-04-24 2008-11-06 Keihin Corp Pressure reducing valve
JP2009301963A (en) * 2008-06-16 2009-12-24 Keihin Corp Regulator unit for fuel cell
WO2010087476A1 (en) 2009-02-02 2010-08-05 株式会社ケーヒン Pressure reducing valve
KR101235812B1 (en) * 2009-07-30 2013-02-21 주식회사 엑시언 decompression regulator
KR101070290B1 (en) 2009-10-20 2011-10-06 주식회사 엑시언 Regulator module having mass exhaust function
CN116220962A (en) * 2023-05-06 2023-06-06 四川华气动力有限责任公司 High-power gas engine for refining blast furnace tail gas
CN116220962B (en) * 2023-05-06 2023-07-07 四川华气动力有限责任公司 High-power gas engine for refining blast furnace tail gas

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JP4226486B2 (en) 2009-02-18
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