JP2008121604A - Fuel injection device - Google Patents

Fuel injection device Download PDF

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JP2008121604A
JP2008121604A JP2006307963A JP2006307963A JP2008121604A JP 2008121604 A JP2008121604 A JP 2008121604A JP 2006307963 A JP2006307963 A JP 2006307963A JP 2006307963 A JP2006307963 A JP 2006307963A JP 2008121604 A JP2008121604 A JP 2008121604A
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fuel
injection device
fuel injection
receiving portion
delivery pipe
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JP4221435B2 (en
Inventor
Fumiya Chazono
史也 茶園
Norihisa Fukutomi
範久 福冨
Naoya Hashii
直也 橋居
Takeshi Munezane
毅 宗実
Manabu Hirai
学 平井
Akio Shingu
章男 新宮
Minoru Igura
穣 井倉
Masayuki Aota
雅之 青田
Koichi Oshima
宏一 尾島
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Mitsubishi Electric Corp
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Mitsubishi Electric Corp
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Abstract

<P>PROBLEM TO BE SOLVED: To provide a fuel injection device capable of maintaining high fuel sealing property even if axial misalignment occurs, and excellent in work efficiency in installing the same to a delivery pipe. <P>SOLUTION: The fuel injection device injecting fuel and stopping injection is provided with a bellows member 23 enabling the delivery pipe 17 and a fuel receiving part 20 to move in a direction crossing an axis of the fuel injection device 1. Moreover, a pipe 24 formed to cross the axis of the fuel injection device roughly perpendicularly at an upper end surface is provided as a means regulating movement of the fuel receiving part 20. Consequently, since the fuel receiving part 20 can be moved in parallel in radial directions without tilting the axis of the fuel receiving part 20, axial misalignment can be absorbed without applying uneven load on an O-ring 21 and high sealing property can be maintained. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

本発明は内燃機関に使用される燃料噴射装置の改良に関するものである。   The present invention relates to an improvement in a fuel injection device used for an internal combustion engine.

近年、噴霧燃料の微粒化、燃料流量増大等を目的として、燃料圧力の高圧化が進んでいる。それにより、より高い燃料シール性が必要となっているが、デリバリパイプ、シリンダヘッドの寸法ばらつきや熱膨張によりデリバリパイプと燃料噴射装置との軸ずれが生じた際に、燃料のシール性が低下する問題があった。   In recent years, fuel pressure has been increased for the purpose of atomizing sprayed fuel and increasing the fuel flow rate. As a result, higher fuel seal performance is required. However, when the delivery pipe and the fuel injection device are misaligned due to dimensional variations or thermal expansion of the delivery pipe and cylinder head, the fuel seal performance decreases. There was a problem to do.

デリバリパイプと燃料噴射装置との軸ずれ解消については各種検討がなされており、従来の内燃機関用の燃料噴射装置の例1として、後記の特許文献1がある。これにはデリバリパイプと燃料噴射装置との間の上流と下流それぞれにOリングによってシールを行う中間片を挿入することでデリバリパイプと燃料噴射装置の軸ずれを吸収する燃料噴射装置が記載されている。   Various studies have been made to eliminate the misalignment between the delivery pipe and the fuel injection device, and there is Patent Document 1 described later as an example of a conventional fuel injection device for an internal combustion engine. This describes a fuel injection device that absorbs axial misalignment between the delivery pipe and the fuel injection device by inserting intermediate pieces that are sealed by O-rings upstream and downstream between the delivery pipe and the fuel injection device, respectively. Yes.

燃料噴射装置の例2として、軸ずれを吸収する方法としては、後記の特許文献2のように、ねじ接続部によってデリバリパイプと結合可能な燃料噴射装置において、デリバリパイプと燃料噴射装置との接続部分に蛇腹部材が設ける方法がある。   As an example 2 of the fuel injection device, as a method of absorbing the shaft misalignment, a connection between the delivery pipe and the fuel injection device in a fuel injection device that can be coupled to the delivery pipe by a screw connection portion as described in Patent Document 2 described later. There is a method in which a bellows member is provided in the portion.

さらに、燃料噴射装置の例3として、後記の特許文献3のようにデリバリパイプ側に蛇腹部材を取り付けて、位置ずれを吸収する方法がある。   Further, as a third example of the fuel injection device, there is a method of absorbing a positional shift by attaching a bellows member to the delivery pipe side as in Patent Document 3 described later.

またさらに、燃料噴射装置の例4として、後記の特許文献4のように、燃料噴射装置を弾性変形させることにより軸ずれを吸収する方法がある。
特表2000−517032号公報 特開昭55−10095号公報 特開2002−70687号公報 特開2005−69090号公報
Furthermore, as Example 4 of the fuel injection device, there is a method of absorbing an axial deviation by elastically deforming the fuel injection device as in Patent Document 4 described later.
Special Table 2000-517032 Publication JP-A-55-10095 JP 2002-70687 A JP 2005-69090 A

ところで、特許文献1におけるような中間片25を持つ燃料噴射装置では、軸ずれを図3に示すように中間片の倒れによって吸収するため、Oリングには偏荷重が生じるという問題点があった。また、部品点数が増え構造が複雑となり、さらに燃料噴射装置と中間片、及び中間片とデリバリパイプの間をそれぞれOリングによってシールを行っているため、シールリングを2つ使用することになり高コストになるという問題があった。   By the way, in the fuel injection device having the intermediate piece 25 as in Patent Document 1, since the shaft misalignment is absorbed by the fall of the intermediate piece as shown in FIG. . In addition, the number of parts increases and the structure becomes complicated. Furthermore, since the fuel injection device and the intermediate piece, and between the intermediate piece and the delivery pipe are sealed by O-rings, two seal rings are used. There was a problem of cost.

特許文献2におけるように、ねじ接続部によってデリバリパイプと結合を行う燃料噴射装置では、デリバリパイプと燃料噴射装置との組み付けの際の作業性が悪いという問題があった。   As in Patent Document 2, the fuel injection device that is coupled to the delivery pipe by the screw connection portion has a problem that the workability when assembling the delivery pipe and the fuel injection device is poor.

特許文献3におけるように、デリバリパイプ側に、デリバリパイプ蛇部材26を設けて、それにより軸ずれを吸収する構造であるものでは、図4に示すようにデリバリパイプの軸が傾くことによって軸ずれを吸収しており、特許文献1の場合と同様にOリングに偏荷重が生じ、シール性が低下するという問題がある。   As in Patent Document 3, the delivery pipe snake member 26 is provided on the delivery pipe side to absorb the axial deviation. As shown in FIG. 4, the delivery pipe axis is inclined to cause the axial deviation. As in the case of Patent Document 1, there is a problem that an offset load is generated in the O-ring and the sealing performance is lowered.

特許文献4におけるように、図5に示すように、燃料噴射装置にスリット27設けて、燃料噴射装置を弾性変形させて軸ずれを吸収する構造の場合にも、デリバリパイプと燃料噴射装置の軸が傾くため、Oリングに偏荷重がかかる問題がある。   As shown in FIG. 5, as shown in FIG. 5, the delivery pipe and the shaft of the fuel injection device are also provided in the structure in which the fuel injection device is provided with the slit 27 and the fuel injection device is elastically deformed to absorb the axial deviation. Because of the tilt, there is a problem that an offset load is applied to the O-ring.

本発明の目的は、上記した従来技術における問題を解決することであり、中間片を必要とせず、また、軸ずれが生じても高い燃料シール性を保つことのでき、かつ燃料噴射装置をデリバリパイプに取り付ける際の取付け作業性に優れた燃料噴射装置を提供することにある。   SUMMARY OF THE INVENTION An object of the present invention is to solve the above-described problems in the prior art, which does not require an intermediate piece, can maintain a high fuel sealing performance even when an axial deviation occurs, and delivers a fuel injection device. An object of the present invention is to provide a fuel injection device that is excellent in attachment workability when attached to a pipe.

本発明の燃料噴射装置は、燃料を供給するデリバリパイプにOリングを介して油密に接続された燃料受入部、燃料噴射孔を開閉する弁体と燃料流路を内蔵するコア、を備えた燃料噴射装置であって、上記燃料受入部の燃料下流端部と上記コアの燃料上流端部とは蛇腹部材により接続され、上記蛇腹部材の外部には、上記燃料受入部を上記燃料噴射装置の軸に対して交差方向に移動せしめる交差移動補助部材が設けられており、且つ上記交差移動補助部材は、一端が上記コアに固定され、他端は上記燃料受入部とは非固定とされていることを特徴とするものである。   A fuel injection device according to the present invention includes a fuel receiving portion that is oil-tightly connected to a delivery pipe that supplies fuel via an O-ring, a valve body that opens and closes a fuel injection hole, and a core that includes a fuel flow path. A fuel injection device, wherein a fuel downstream end portion of the fuel receiving portion and a fuel upstream end portion of the core are connected by a bellows member, and the fuel receiving portion is connected to the outside of the bellows member of the fuel injection device. A crossing movement assisting member that moves in the crossing direction with respect to the shaft is provided, and one end of the crossing movement assisting member is fixed to the core, and the other end is not fixed to the fuel receiving portion. It is characterized by this.

本発明の燃料噴射装置は、Oリングおよび燃料受入部の下流に蛇腹部材が設けられ、また蛇腹部材の外壁から離隔した位置には交差移動補助部材が設けられている。交差移動補助部材は、その一端がコアに固定され、他端は上記燃料受入部が、燃料噴射装置の軸に対して交差方向に移動可能なように非固定とされている。したがって、蛇腹部材を設けることにより、上記燃料受入部は燃料噴射装置の軸に対して交差方向に移動可能となり、しかも交差移動補助部材はその一端がコアに固定されているので、コアと一緒に移動して蛇腹部材を変形させるが、その他端はフリーとなっているので、燃料受入部は燃料噴射装置の軸に対して交差方向に移動可能となっている。また燃料受入部の交差方向移動により、Oリングへの偏荷重が防止され、前記した従来技術の問題が解消するので、燃料受入部の高シール性が安定に保たれる大きな効果がある。    In the fuel injection device of the present invention, a bellows member is provided downstream of the O-ring and the fuel receiving portion, and a cross movement assisting member is provided at a position spaced from the outer wall of the bellows member. One end of the cross movement assisting member is fixed to the core, and the other end is not fixed so that the fuel receiving portion can move in the crossing direction with respect to the axis of the fuel injection device. Therefore, by providing the bellows member, the fuel receiving portion can move in the crossing direction with respect to the axis of the fuel injection device, and one end of the crossing movement assisting member is fixed to the core. Although it moves and deforms the bellows member, the other end is free, so that the fuel receiving portion can move in the direction intersecting the axis of the fuel injection device. In addition, since the fuel receiving portion moves in the crossing direction, an unbalanced load on the O-ring is prevented and the above-described problems of the prior art are solved. Therefore, the high sealing performance of the fuel receiving portion can be maintained stably.

以下において、図上での同一部分は同一符号が付されている。
実施の形態1.
図1は、本発明の実施の形態1による燃料噴射装置の動作軸に垂直な断面図である。図1において、燃料噴射装置1は、ソレノイド装置2、ヨーク3、コア4、アマチュア5およびバルブユニット6から構成されており、ソレノイド装置2はコイルアセンブリ7、コイル8を有している。また、バルブユニット6はバルブホルダ9の一端に溶接などの手段にて結合されている。
In the following, the same parts in the drawings are given the same reference numerals.
Embodiment 1 FIG.
FIG. 1 is a cross-sectional view perpendicular to the operating axis of the fuel injection device according to Embodiment 1 of the present invention. In FIG. 1, the fuel injection device 1 includes a solenoid device 2, a yoke 3, a core 4, an armature 5 and a valve unit 6, and the solenoid device 2 has a coil assembly 7 and a coil 8. The valve unit 6 is coupled to one end of the valve holder 9 by means such as welding.

バルブユニット6は、外形部が二段構造に構成されている中空円筒型のバルブボディ(弁本体)10と、このバルブボディ10内の中心口先端に固着されるとともに、噴孔11を有するバルブシート12とこのバルブシート12とバルブボディ10の間に配置され、噴射燃料に旋回流を与えるためのスワーラー(旋回体)13と、ソレノイド装置2によりバルブシート12に接触し、あるいは離れることにより、噴孔11を開閉するバルブ機構であるニードルバルブ(弁体)14とを備えている。   The valve unit 6 is a valve having a hollow cylindrical valve body (valve main body) 10 whose outer portion is configured in a two-stage structure, and a nozzle having an injection hole 11 while being fixed to the tip of the central port in the valve body 10. The seat 12 is disposed between the valve seat 12 and the valve body 10, and a swirler (swivel body) 13 for giving a swirling flow to the injected fuel, and by contacting or leaving the valve seat 12 by the solenoid device 2, A needle valve (valve element) 14 that is a valve mechanism for opening and closing the nozzle hole 11 is provided.

コア4とバルブホルダ9の間には、金属製のスリーブ15が配置されており、このスリーブ15は、コア4およびバルブホルダ9に溶接などの手段で締結されている。このように締結されることにより、内部燃料が漏れないようにシールされている。燃料噴射装置には、デリバリパイプ17から燃料を供給される。燃料受入部20は、デリバリパイプ17と燃料噴射装置1とを油密に接続するために、Oリング21とシール部コア22とから構成されていて、その燃料下流端部、即ちシール部コア22の下流端部は、溶接などの手段にて接続されている。蛇腹部材23の燃料下流端部は、コア4の燃料上流端部と溶接などの手段にて接続されている。   A metal sleeve 15 is disposed between the core 4 and the valve holder 9, and the sleeve 15 is fastened to the core 4 and the valve holder 9 by means such as welding. By being fastened in this way, the internal fuel is sealed so as not to leak. Fuel is supplied from the delivery pipe 17 to the fuel injection device. The fuel receiving portion 20 is composed of an O-ring 21 and a seal portion core 22 in order to connect the delivery pipe 17 and the fuel injection device 1 in an oil-tight manner, and the fuel downstream end portion, that is, the seal portion core 22. The downstream end of each is connected by means such as welding. The fuel downstream end of the bellows member 23 is connected to the fuel upstream end of the core 4 by means such as welding.

蛇腹部材23の全体及びコア4の1部の外周部には、本発明における前記交差移動補助部材の一例としてのパイプ24が配置されている。パイプ24は、その燃料下流端部がコア4の燃料上流端部と溶接などの手段にて固定されており、その燃料上流端部は、シール部コア22とは接合されずにフリーとなっている。フリーとなっていることにより、前記した燃料受入部20が軸に対して交差方向に移動可能となる効果があるが、一層好ましくは、図1に示すように、シール部コア22の下端面は、燃料噴射装置1の軸に対して直交する平面とし、且つパイプ24の上端面が、シール部コア22の平面下端面に規制されて左右に円滑に移動可能としておくとよい。   A pipe 24 as an example of the crossing movement assisting member in the present invention is disposed on the entire bellows member 23 and an outer peripheral portion of one part of the core 4. The pipe 24 has a fuel downstream end fixed to the fuel upstream end of the core 4 by means such as welding, and the fuel upstream end is free from being joined to the seal core 22. Yes. By being free, there is an effect that the fuel receiving portion 20 described above can move in the direction intersecting the axis, but more preferably, as shown in FIG. In addition, it is preferable that the plane be orthogonal to the axis of the fuel injection device 1 and that the upper end surface of the pipe 24 be regulated by the lower end surface of the flat surface of the seal core 22 and be smoothly moved to the left and right.

次に動作について説明する。 コイル8に電流を流すことにより、アマチュア5、コア4、ヨーク3で構成される磁気回路に磁束が発生し、アマチュア5はコア4側へ吸引される。アマチュア5と一体的に構成されているニードルバルブ14は、ロッド18に固定されたバネ19によりバルブシート12に押し付けられているが、アマチュア5がコア4側へ吸引されることにより、ニードルバルブ14の先端はバルブシート12から離れて隙間が形成され、デリバリパイプ17から供給された高圧の燃料はバルブボディ10からバルブシート12の噴口11に入って、その先端出口から噴射される。   Next, the operation will be described. By passing a current through the coil 8, a magnetic flux is generated in the magnetic circuit composed of the armature 5, the core 4, and the yoke 3, and the armature 5 is attracted to the core 4 side. The needle valve 14 integrally formed with the amateur 5 is pressed against the valve seat 12 by a spring 19 fixed to the rod 18, but when the armature 5 is sucked toward the core 4 side, A gap is formed at the front end of the valve seat 12, and high-pressure fuel supplied from the delivery pipe 17 enters the injection hole 11 of the valve seat 12 from the valve body 10 and is injected from the outlet of the front end.

燃料噴射装置1とデリバリパイプ17とが軸ずれした場合、燃料受入部20の下流に設置された蛇腹部材23が変形し、燃料受入部20が移動して軸ずれを吸収する。その際燃料受入部20は燃料の圧力によりパイプ24上端面に押し付けられて当接するため、図2に示すように、燃料噴射装置の軸と燃料受入部20の軸が平行のまま移動するので、デリバリパイプ17の軸と燃料受入部20の軸に傾きが生じない。よってOリング21には偏荷重が発生せず、高いシール性能を保つ。   When the fuel injection device 1 and the delivery pipe 17 are misaligned, the bellows member 23 installed downstream of the fuel receiving portion 20 is deformed, and the fuel receiving portion 20 moves to absorb the shaft misalignment. At that time, the fuel receiving portion 20 is pressed against and contacted with the upper end surface of the pipe 24 by the pressure of the fuel, so that the shaft of the fuel injection device and the shaft of the fuel receiving portion 20 move in parallel as shown in FIG. There is no inclination between the axis of the delivery pipe 17 and the axis of the fuel receiving portion 20. Therefore, an eccentric load is not generated in the O-ring 21 and high sealing performance is maintained.

本発明は、各種内燃機関の燃料噴射装置としての利用が期待される。   The present invention is expected to be used as a fuel injection device for various internal combustion engines.

本発明の実施の形態1による燃料噴射装置の断面図である。1 is a cross-sectional view of a fuel injection device according to Embodiment 1 of the present invention. 本発明の実施の形態1の他の断面図である。It is other sectional drawing of Embodiment 1 of this invention. 従来の燃料噴射装置の断面図である。It is sectional drawing of the conventional fuel-injection apparatus. 従来の他の燃料噴射装置の断面図である。It is sectional drawing of the other conventional fuel injection apparatus. 従来のさらに他の燃料噴射装置の断面図である。It is sectional drawing of the other conventional fuel injection apparatus.

符号の説明Explanation of symbols

1:燃料噴射装置、2:ソレノイド装置、3:ヨーク、4:コア、5:アマチュア、
6:バルブユニット、7:コイルアセンブリ、8:コイル、9:バルブホルダ、
10:バルブボディ、11:噴口、12:バルブシート、13:スワーラー(旋回体)、
14:弁体、15:スリーブ、16:シリンダヘッド、17:デリバリパイプ、
18:ロッド、19:バネ、20:燃料受入部、21:Oリング、22:シール部コア、
23:蛇腹部材、24:パイプ。
1: fuel injection device, 2: solenoid device, 3: yoke, 4: core, 5: amateur,
6: valve unit, 7: coil assembly, 8: coil, 9: valve holder,
10: valve body, 11: nozzle, 12: valve seat, 13: swirler (swivel body),
14: Valve body, 15: Sleeve, 16: Cylinder head, 17: Delivery pipe,
18: Rod, 19: Spring, 20: Fuel receiving part, 21: O-ring, 22: Seal part core,
23: bellows member, 24: pipe.

Claims (3)

燃料を供給するデリバリパイプにOリングを介して油密に接続された燃料受入部、燃料噴射孔を開閉する弁体と燃料流路を内蔵するコア、を備えた燃料噴射装置であって、上記燃料受入部の燃料下流端部と上記コアの燃料上流端部とは蛇腹部材により接続され、上記蛇腹部材23の外部には、上記燃料受入部を上記燃料噴射装置の軸に対して交差方向に移動せしめる交差移動補助部材が設けられており、且つ上記交差移動補助部材は、一端が上記コアに固定され、他端は上記燃料受入部とは非固定とされていることを特徴とする燃料噴射装置。   A fuel injection device comprising: a fuel receiving portion that is oil-tightly connected to a delivery pipe that supplies fuel via an O-ring; a valve body that opens and closes a fuel injection hole; and a core that includes a fuel flow path. The fuel downstream end portion of the fuel receiving portion and the fuel upstream end portion of the core are connected by a bellows member, and the fuel receiving portion is arranged in a direction intersecting the axis of the fuel injection device outside the bellows member 23. A fuel-injection characterized in that a cross-movement assisting member for movement is provided, and the cross-movement assisting member has one end fixed to the core and the other end non-fixed to the fuel receiving portion. apparatus. 上記交差移動補助部材24は、パイプである請求項1に記載の燃料噴射装置。   The fuel injection device according to claim 1, wherein the cross movement assisting member 24 is a pipe. 上記燃料受入部と交差移動補助部材とは、燃料噴射装置の軸に対して直交する方向またはそれに近い方向に相互移動が可能なように接触している、請求項1または請求項2に記載の燃料噴射装置。   The fuel receiving portion and the cross movement assisting member are in contact with each other so as to be capable of mutual movement in a direction orthogonal to or close to the axis of the fuel injection device. Fuel injection device.
JP2006307963A 2006-11-14 2006-11-14 Fuel injection device Expired - Fee Related JP4221435B2 (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2009136491A1 (en) 2008-05-07 2009-11-12 日本曹達株式会社 Color-developing compositions and recording material containing same
JP2013204478A (en) * 2012-03-28 2013-10-07 Hitachi Automotive Systems Ltd Fuel injection valve
WO2017051489A1 (en) * 2015-09-24 2017-03-30 京三電機株式会社 Fuel supply device

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2009136491A1 (en) 2008-05-07 2009-11-12 日本曹達株式会社 Color-developing compositions and recording material containing same
JP2013204478A (en) * 2012-03-28 2013-10-07 Hitachi Automotive Systems Ltd Fuel injection valve
WO2017051489A1 (en) * 2015-09-24 2017-03-30 京三電機株式会社 Fuel supply device

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