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JP2010180867A - High pressure pump mounting structure in internal combustion engine - Google Patents

High pressure pump mounting structure in internal combustion engine Download PDF

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Publication number
JP2010180867A
JP2010180867A JP2009027698A JP2009027698A JP2010180867A JP 2010180867 A JP2010180867 A JP 2010180867A JP 2009027698 A JP2009027698 A JP 2009027698A JP 2009027698 A JP2009027698 A JP 2009027698A JP 2010180867 A JP2010180867 A JP 2010180867A
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pressure pump
camshaft
cover member
high pressure
mounting boss
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JP2009027698A
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JP5189520B2 (en
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Naoki Yokoyama
尚希 横山
Masahiro Nakajima
摩沙洋 中嶋
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Honda Motor Co Ltd
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Honda Motor Co Ltd
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Abstract

<P>PROBLEM TO BE SOLVED: To secure the rigidity of a mounting part for a high pressure pump with the weight increase of an engine body suppressed, in an internal combustion engine in which a pump cam for driving the high pressure pump is provided to a cam shaft, and a plurality of bearing parts for rotatably supporting at least a half round of outer circumferences of a plurality of journal sections provided to the cam shaft are integrally provided to a cover member that covers one face of the cylinder head included in the engine body. <P>SOLUTION: A mounting boss 56 is integrally provided to the cover member 14 at a position adjacent to one of the plurality of bearing parts 14c in the direction along the axial line of the cam shaft 31, and the high pressure pump 57 is attached to the mounting boss 56. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

本発明は、高圧ポンプを駆動するためのポンプ用カムがカムシャフトに設けられ、機関本体が備えるシリンダヘッドの一面を覆うカバー部材に、前記カムシャフトが備える複数のジャーナル部の外周の少なくとも半周を回転自在に支承する複数の軸受部が一体に設けられる内燃機関に関し、特に、高圧ポンプの取付け構造の改良に関する。   According to the present invention, a cam for a pump for driving a high-pressure pump is provided on a camshaft, and a cover member that covers one surface of a cylinder head provided on the engine body has at least a half circumference of a plurality of journal portions provided on the camshaft. The present invention relates to an internal combustion engine in which a plurality of bearing portions that are rotatably supported are integrally provided, and more particularly, to an improvement in a mounting structure of a high-pressure pump.

カムシャフトのジャーナル部を回転自在に支承する少なくとも一対の軸受部と、それらの軸受部を連結する連結部とを一体に有するシャフト保持部材が、シリンダヘッドおよびヘッドカバーに取付けられ、高圧ポンプを取付けるための取付けボスが前記シャフト保持部材の前記連結部に設けられるようにしたものが、特許文献1によって知られている。   A shaft holding member that integrally has at least a pair of bearing portions that rotatably support the journal portion of the camshaft and a connecting portion that connects these bearing portions is attached to the cylinder head and the head cover, and is used to attach a high-pressure pump. Patent Document 1 discloses that a mounting boss is provided at the connecting portion of the shaft holding member.

特開2005−36711号公報JP 2005-36711 A

ところが、上記特許文献1で開示されるものでは、取付けボスが設けられる部分の剛性を確保するために、シャフト保持部材における連結部の厚みを厚くする必要があり、機関本体の重量増大を招いてしまう。   However, in the one disclosed in Patent Document 1, it is necessary to increase the thickness of the connecting portion of the shaft holding member in order to ensure the rigidity of the portion where the mounting boss is provided, resulting in an increase in the weight of the engine body. End up.

本発明は、かかる事情に鑑みてなされたものであり、機関本体の重量増大を抑制しつつ、高圧ポンプの取付け部の剛性を確保し得るようにした内燃機関における高圧ポンプ取付け構造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 provides a high-pressure pump mounting structure in an internal combustion engine capable of ensuring the rigidity of the mounting portion of the high-pressure pump while suppressing an increase in the weight of the engine body. With the goal.

上記目的を達成するために、本発明は、高圧ポンプを駆動するためのポンプ用カムがカムシャフトに設けられ、機関本体が備えるシリンダヘッドの一面を覆うカバー部材に、前記カムシャフトが備える複数のジャーナル部の外周の少なくとも半周を回転自在に支承する複数の軸受部が一体に設けられる内燃機関において、前記カムシャフトの軸線に沿う方向で複数の前記軸受部の1つに隣接した位置で前記カバー部材に取付けボスが一体に設けられ、前記高圧ポンプが前記取付けボスに取付けられることを第1の特徴とする。   In order to achieve the above object, according to the present invention, a plurality of camshafts are provided on a cover member that covers a surface of a cylinder head provided on an engine body, wherein a cam for a pump for driving a high-pressure pump is provided on the camshaft. In the internal combustion engine in which a plurality of bearing portions that rotatably support at least a half circumference of the outer circumference of the journal portion are integrally provided, the cover is disposed at a position adjacent to one of the plurality of bearing portions in a direction along the axis of the camshaft. A first feature is that a mounting boss is integrally provided on the member, and the high-pressure pump is mounted on the mounting boss.

また本発明は、第1の特徴の構成に加えて、前記機関本体に、前記カムシャフトの軸線方向と平行な気筒配列方向に並ぶ複数の気筒が配設され、前記取付けボスが、複数の前記軸受部のうち前記気筒配列方向に沿う中間部に配置される軸受部に隣接して前記カバー部材に一体に設けられることを第2の特徴とする。   According to the present invention, in addition to the configuration of the first feature, the engine body includes a plurality of cylinders arranged in a cylinder arrangement direction parallel to an axial direction of the camshaft, and the mounting boss includes a plurality of the bosses. A second feature is that the cover member is integrally provided adjacent to a bearing portion disposed at an intermediate portion along the cylinder arrangement direction among the bearing portions.

本発明は、第1または第2の特徴の構成に加えて、前記取付けボスが、前記高圧ポンプの作動方向を略鉛直方向に向けるようにして前記カバー部材に一体に設けられることを第3の特徴とする。   According to the third aspect of the present invention, in addition to the first or second feature, the mounting boss is provided integrally with the cover member so that the operating direction of the high-pressure pump is substantially vertical. Features.

さらに本発明は、第3の特徴の構成に加えて、前記機関本体が、相互にV形をなす一対のバンクを有してV型に構成され、両バンクの少なくとも一方で、前記カバー部材は、側壁と、該側壁に屈曲部を介して連設される天井壁と、複数の前記軸受部とを一体に有し、該カバー部材の前記屈曲部に、前記高圧ポンプの作動方向を略鉛直方向に向けるようにして前記取付けボスが一体に設けられることを第4の特徴とする。   Furthermore, in the present invention, in addition to the configuration of the third feature, the engine body has a pair of banks that form a V shape with each other, and is configured in a V shape. A side wall, a ceiling wall connected to the side wall through a bent portion, and a plurality of the bearing portions, and the bent portion of the cover member has a substantially vertical operation direction of the high-pressure pump. A fourth feature is that the mounting boss is integrally provided so as to face in the direction.

なお実施の形態のヘッドカバー14,84L,84Rが本発明のカバー部材に対応する。   The head covers 14, 84L, 84R of the embodiments correspond to the cover member of the present invention.

本発明の第1の特徴によれば、カバー部材が備える複数の軸受部の1つに隣接した位置でカバー部材に取付けボスが設けられるので、カバー部材の厚みを増すことなく取付けボスの剛性を高めることができ、機関本体の重量増大を回避することができるとともに、高圧ポンプを駆動するためのポンプ用カムおよび高圧ポンプの相対位置精度を高めることができる。   According to the first feature of the present invention, since the mounting boss is provided on the cover member at a position adjacent to one of the plurality of bearing portions included in the cover member, the rigidity of the mounting boss can be increased without increasing the thickness of the cover member. The increase in the weight of the engine body can be avoided, and the relative position accuracy of the pump cam and the high-pressure pump for driving the high-pressure pump can be increased.

また本発明の第2の特徴によれば、機関本体を車両に搭載する組付け作業を行うときや、車両搭載状態で車両側から機関本体に衝撃が加わったときにも、高圧ポンプが損傷してしまうことを防止することができる。   Further, according to the second feature of the present invention, the high-pressure pump is damaged even when an assembly operation for mounting the engine body on the vehicle is performed or when an impact is applied to the engine body from the vehicle side in the vehicle mounted state. Can be prevented.

本発明の第3の特徴によれば、高圧ポンプがその作動動方向を略鉛直方向として取付けボスに取付けられるので、高圧ポンプ組付け時の作業性を高めることができ、また高圧ポンプの作動時に水平方向の摺接が抑制されるので高圧ポンプの作動抵抗を小さく抑えることができる。   According to the third feature of the present invention, since the high-pressure pump is attached to the mounting boss with its operating direction as a substantially vertical direction, workability at the time of assembling the high-pressure pump can be improved. Since the sliding contact in the horizontal direction is suppressed, the operating resistance of the high-pressure pump can be reduced.

さらに本発明の第4の特徴によれば、カバー部材において、側壁および天井壁を連設する屈曲部は膜面振動が発生し難い箇所であり、高圧ポンプの作動方向を略鉛直方向とすることを可能としつつ、高圧ポンプの取付け剛性を高くするとともに、高圧ポンプのカムシャフトに対する相対位置変化を抑制することができる。   Furthermore, according to the fourth feature of the present invention, in the cover member, the bent portion connecting the side wall and the ceiling wall is a portion where membrane surface vibration is unlikely to occur, and the operating direction of the high-pressure pump is set to a substantially vertical direction. In addition, it is possible to increase the mounting rigidity of the high-pressure pump and to suppress the relative position change of the high-pressure pump with respect to the camshaft.

実施例1の機関本体の要部縦断面図であって図3の1−1線に沿う断面図である。FIG. 4 is a longitudinal sectional view of a main part of the engine body of the first embodiment, and is a sectional view taken along line 1-1 of FIG. 図1の2矢視平面図である。It is a 2 arrow top view of FIG. 図1の3−3線断面図である。FIG. 3 is a sectional view taken along line 3-3 in FIG. 1. 図1の4−4線矢視図である。FIG. 4 is a view taken along line 4-4 in FIG. 1. 図3の5−5線断面図である。FIG. 5 is a sectional view taken along line 5-5 of FIG. 実施例2の機関本体の平面図である。6 is a plan view of an engine body according to Embodiment 2. FIG. 図6の7−7線断面図である。FIG. 7 is a cross-sectional view taken along line 7-7 in FIG. 6.

以下、本発明の実施の形態について添付の図面を参照しながら説明する。   Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

図1〜図5を参照しながら本発明の実施例1について説明すると、先ず図1および図2において、この内燃機関はたとえば4気筒直列のものであり、その機関本体11は、シリンダブロック12と、該シリンダブロック12の上部に結合されるシリンダヘッド13と、該シリンダヘッド13の一面である上面を覆うようにしてシリンダヘッド13に結合されるカバー部材としてのヘッドカバー14とを備え、該ヘッドカバー14は、略長方形の側壁14aと、該側壁14aに連設される天井壁14bとを有して箱形に形成される。   The first embodiment of the present invention will be described with reference to FIGS. 1 to 5. First, in FIGS. 1 and 2, this internal combustion engine is, for example, a four-cylinder inline, and the engine body 11 includes a cylinder block 12 and a cylinder block 12. A cylinder head 13 coupled to the upper portion of the cylinder block 12, and a head cover 14 serving as a cover member coupled to the cylinder head 13 so as to cover an upper surface which is one surface of the cylinder head 13. Is formed in a box shape having a substantially rectangular side wall 14a and a ceiling wall 14b connected to the side wall 14a.

前記シリンダブロック12には、気筒配列方向15に並ぶ第1〜第4気筒C1,C2,C3,C4毎のシリンダボア16…が形成されるものであり、それらのシリンダボア16…に摺動自在に嵌合されるピストン17…の頂部を臨ませる燃焼室18…が、各気筒C1〜C4毎にシリンダブロック12およびシリンダヘッド13間に形成される。   The cylinder block 12 is formed with cylinder bores 16 for each of the first to fourth cylinders C1, C2, C3, and C4 arranged in the cylinder arrangement direction 15, and is slidably fitted into the cylinder bores 16. Combustion chambers 18 are formed between the cylinder block 12 and the cylinder head 13 for each of the cylinders C1 to C4.

前記シリンダヘッド13の一側面(図1の左側面)には、各気筒C1〜C4毎の吸気ポート19…が設けられ、前記シリンダヘッド13の他側面(図1の右側面)には、各気筒C1〜C4毎の排気ポート20…が設けられる。しかもシリンダヘッド13には、各気筒C1〜C4毎に一対ずつの吸気弁21,21…が燃焼室18…および吸気ポート19…間の連通・遮断を切換えるようにして開閉作動可能に配設され、各気筒C1〜C4毎に一対ずつの排気弁22,22…が燃焼室18…および排気ポート20…間の連通・遮断を切換えるようにして開閉作動可能に配設され、各吸気弁21…はシリンダヘッド13との間に縮設される弁ばね23…で閉弁方向に付勢され、各排気弁22…はシリンダヘッド13との間に縮設される弁ばね24…で閉弁方向に付勢される。また燃焼室18…の中央部に先端を臨ませる点火プラグ25…が各気筒C1〜C4毎にシリンダヘッド13に螺合されるものであり、シリンダヘッド13には、ヘッドカバー14との間に環状のシール部材26…を介在せしめる該シリンダヘッド13を貫通するプラグ筒27…が、点火プラグ25…を挿入するようにして取付けられる。   An intake port 19 for each of the cylinders C1 to C4 is provided on one side surface (left side surface in FIG. 1) of the cylinder head 13, and each other side surface (right side surface in FIG. Exhaust ports 20 for each of the cylinders C1 to C4 are provided. Moreover, a pair of intake valves 21, 21... Are arranged in the cylinder head 13 so as to be openable and closable so as to switch the communication between the combustion chamber 18 and the intake port 19. A pair of exhaust valves 22, 22... For each of the cylinders C1 to C4 are disposed so as to be openable and closable so as to switch communication / blockage between the combustion chambers 18 and the exhaust ports 20. The intake valves 21. Is energized in the valve closing direction by a valve spring 23 that is contracted between the cylinder head 13 and each exhaust valve 22 is closed by a valve spring 24 that is contracted between the cylinder head 13. Be energized by. In addition, a spark plug 25 having a tip facing the center of the combustion chamber 18 is screwed into the cylinder head 13 for each of the cylinders C1 to C4, and the cylinder head 13 has an annular shape between the head cover 14 and the cylinder head 13. The plug cylinders 27 penetrating the cylinder head 13 interposing the seal members 26 are attached so as to insert the spark plugs 25.

またシリンダヘッド13には、各燃焼室18…に圧縮空気とともに燃料を直線噴射するインジェクタ106…が、第1〜第4気筒C1〜C4毎に取付けられており、それらのインジェクタ106…は共通の燃料レール107に接続される。   Also, the cylinder head 13 is provided with injectors 106 for linearly injecting fuel together with compressed air into the combustion chambers 18 for each of the first to fourth cylinders C1 to C4. Connected to the fuel rail 107.

前記シリンダヘッド13および前記ヘッドカバー14間には、前記吸気弁21…を開閉駆動する吸気側動弁装置28と、前記排気弁22…を開閉駆動する排気側動弁装置29とが収容される。   Between the cylinder head 13 and the head cover 14, an intake side valve device 28 that opens and closes the intake valves 21 and an exhaust side valve device 29 that opens and closes the exhaust valves 22 are accommodated.

吸気側動弁装置28は、第1気筒C1および第4気筒C4については吸気弁21…および排気弁22…を常時開閉駆動するものの、第2および第3気筒C2,C3については機関の低速運転時に吸気弁21…および排気弁22…を閉弁休止して気筒休止状態とすることを可能として構成されるものであり、第2気筒C2での吸気側動弁装置28の構成について、図3および図4を参照しながら以下に説明する。   The intake side valve device 28 always opens and closes the intake valves 21 and the exhaust valves 22 for the first cylinder C1 and the fourth cylinder C4, but operates the engine at a low speed for the second and third cylinders C2 and C3. The intake valve 21... And the exhaust valve 22... Are sometimes closed so as to be in a cylinder deactivation state, and the configuration of the intake side valve operating device 28 in the second cylinder C2 is shown in FIG. This will be described below with reference to FIG.

前記ヘッドカバー14には、気筒配列方向15と平行な軸線を有する吸気側カムシャフト31が回転自在に支承されるとともに、吸気側カムシャフト31と平行な軸線を有する吸気側ロッカシャフト32が支持され、前記吸気側カムシャフト31には、図示しないクランクシャフトから1/2の減速比で減速された回転動力が伝達される。   An intake side camshaft 31 having an axis parallel to the cylinder arrangement direction 15 is rotatably supported on the head cover 14, and an intake side rocker shaft 32 having an axis parallel to the intake side camshaft 31 is supported. Rotational power decelerated with a 1/2 reduction ratio is transmitted to the intake camshaft 31 from a crankshaft (not shown).

吸気側カムシャフト31には、一対の低速用カム33,34と、単一の高速用カム35と、該高速用カム35および前記両低速用カム33,34間に配置される一対の休止用カム36,37とが設けられ、低速用カム33,34によるリフト量は高速用カム35によるリフト量よりもわずかに小さく設定され、休止用カム36,37は、高速用カム35および低速用カム33,34のベース円に対応して形成され、休止用カム36,37によるリフト量は「0」である。   The intake camshaft 31 includes a pair of low-speed cams 33 and 34, a single high-speed cam 35, and a pair of pauses disposed between the high-speed cam 35 and the low-speed cams 33 and 34. Cams 36 and 37 are provided, the lift amount by the low-speed cams 33 and 34 is set slightly smaller than the lift amount by the high-speed cam 35, and the pause cams 36 and 37 are the high-speed cam 35 and the low-speed cam 35. The lift amount of the rest cams 36 and 37 is “0”.

一方、吸気側ロッカシャフト32には、第1、第2、第3、第4および第5サブロッカアーム38,39,40,41,42の上部が揺動可能に支承され、それらのサブロッカアーム38〜42の下方には、油圧タペット45…を介して一端部がシリンダヘッド13に揺動可能に支承されるとともに他端部が両吸気弁21…のステムエンド21a…に当接する第1および第2ロッカアーム43,44が配置される。   On the other hand, upper portions of the first, second, third, fourth, and fifth sub-rocker arms 38, 39, 40, 41, 42 are supported on the intake side rocker shaft 32 so as to be swingable. ... Are respectively supported by the cylinder head 13 via hydraulic tappets 45, and the other end abuts against the stem ends 21a of the intake valves 21. Two rocker arms 43 and 44 are arranged.

第1〜第5サブロッカアーム38〜42は、第2および第4サブロッカアーム39,41を第1および第2ロッカアーム43,44の直上に、第3サブロッカアーム40を第2および第4ロッカアーム39,41間に、第1および第5サブロッカアーム38,42を第3サブロッカアーム40との間に第2および第4サブロッカアーム39,41を挟むようにして、吸気側ロッカシャフト32に揺動可能に支承されるものであり、第1および第5サブロッカアーム38,42には、低速用カム33,34に転がり接触するローラ46,47が軸支され、第3サブロッカアーム40には、高速用カム35に転がり接触するローラ48が軸支される。また第2および第4サブロッカアーム39,41には、休止用カム36,37に接触する第1スリッパ部49,50と、第1および第2ロッカアーム43,44の中間部に軸支されるローラ51,52に接触する第2スリッパ部53,54がそれぞれ設けられる。   The first to fifth sub rocker arms 38 to 42 have the second and fourth sub rocker arms 39 and 41 directly above the first and second rocker arms 43 and 44, and the third sub rocker arm 40 to the second and fourth rocker arms 39,. 41, the first and fifth sub rocker arms 38 and 42 are swingably supported on the intake side rocker shaft 32 so that the second and fourth sub rocker arms 39 and 41 are sandwiched between the third sub rocker arm 40 and the third sub rocker arm 40. The first and fifth sub-rocker arms 38 and 42 are supported by rollers 46 and 47 which are in rolling contact with the low-speed cams 33 and 34, and the third sub-rocker arm 40 is connected to the high-speed cam 35. A roller 48 that is in rolling contact is pivotally supported. Further, the second and fourth sub rocker arms 39 and 41 are provided with first slipper portions 49 and 50 that come into contact with the resting cams 36 and 37, and rollers that are pivotally supported by intermediate portions between the first and second rocker arms 43 and 44, respectively. 2nd slipper parts 53 and 54 which contact 51 and 52 are provided, respectively.

したがって第2および第4サブロッカアーム39,41が吸気側ロッカシャフト32の軸線まわりに揺動すると、第2スリッパ部53,54でローラ51,52が押圧されることによって第1および第2ロッカアーム43,44が油圧タペット45…を支点として揺動し、両吸気弁21…が開閉駆動されることになる。   Therefore, when the second and fourth sub-rocker arms 39 and 41 swing around the axis of the intake-side rocker shaft 32, the first and second rocker arms 43 are pressed by the rollers 51 and 52 being pressed by the second slipper portions 53 and 54. 44 swing around the hydraulic tappets 45 as a fulcrum, and the intake valves 21 are driven to open and close.

また第1、第3および第5サブロッカアーム38,40,42には、前記吸気側ロッカシャフト32で支持された部分から上方に延びる当接腕部38a,40a,42aがそれぞれ一体に設けられており、前記当接腕部38a,40a,42aおよびヘッドカバー14間には、第1、第3および第5サブロッカアーム38,40,42に軸支されたローラ46,47,48を吸気側カムシャフト31側に付勢するロストモーションスプリング55…が設けられる。   The first, third and fifth sub-rocker arms 38, 40, 42 are integrally provided with contact arm portions 38a, 40a, 42a extending upward from the portion supported by the intake side rocker shaft 32, respectively. Further, between the abutting arm portions 38a, 40a, 42a and the head cover 14, rollers 46, 47, 48 pivotally supported by the first, third and fifth sub-rocker arms 38, 40, 42 are provided on the intake side camshaft. Lost motion springs 55 urging to the 31 side are provided.

一方、第1〜第5サブロッカアーム38〜42には、第2および第4サブロッカアーム39,41を第1および第5サブロッカアーム38,42に連結する状態と、第2および第4サブロッカアーム39,41を第3サブロッカアーム40に連結する状態と、第2および第4サブロッカアーム39,41を第1、第3および第5サブロッカアーム38,40,42のいずれとも連結しない状態とを油圧の作用によって切換える連結切換機構(図示せず)が設けられる。而して第2および第4サブロッカアーム39,41を第1および第5サブロッカアーム38,42に連結した状態では、第2および第4サブロッカアーム39,41が低速用カム33,34に従動する第1および第5サブロッカアーム38,42とともに揺動するのに応じて両吸気弁21…が低速用カム33,34のカムプロフィルに応じた特性で開閉駆動され、第2および第4サブロッカアーム39,41を第3サブロッカアーム40に連結した状態では第2および第4サブロッカアーム39,41が高速用カム35に従動する第3ロッカアーム40とともに揺動するのに応じて両吸気弁21…が高速用カム35のカムプロフィルに応じた特性で開閉駆動され、第2および第4サブロッカアーム39,41を第1、第3および第5サブロッカアーム38,40,42のいずれとも連結しない状態では、第2および第4サブロッカアーム39,41は休止用カム36,37に第1スリッパ部49,50を摺接させたままで揺動せず、両吸気弁21…は閉弁休止することになる。   On the other hand, the first to fifth sub rocker arms 38 to 42 include a state in which the second and fourth sub rocker arms 39 and 41 are connected to the first and fifth sub rocker arms 38 and 42, and the second and fourth sub rocker arms 39. , 41 are connected to the third sub rocker arm 40, and the second and fourth sub rocker arms 39, 41 are not connected to any of the first, third and fifth sub rocker arms 38, 40, 42. A connection switching mechanism (not shown) that switches by action is provided. Thus, in a state where the second and fourth sub-rocker arms 39, 41 are connected to the first and fifth sub-rocker arms 38, 42, the second and fourth sub-rocker arms 39, 41 follow the low speed cams 33, 34. As the first and fifth sub-rocker arms 38 and 42 swing together, both intake valves 21 are driven to open and close with characteristics corresponding to the cam profile of the low-speed cams 33 and 34, and the second and fourth sub-rocker arms 39. , 41 are connected to the third sub-rocker arm 40, the second and fourth sub-rocker arms 39, 41 are swung together with the third rocker arm 40 driven by the high-speed cam 35, so that both intake valves 21. The second and fourth sub rocker arms 39 and 41 are driven to open and close with characteristics according to the cam profile of the cam 35 for the first cam, and the first, third and fifth sub rocker arms. In a state where none of the arms 38, 40, 42 is connected, the second and fourth sub-rocker arms 39, 41 do not swing while the first slipper portions 49, 50 are in sliding contact with the pause cams 36, 37. Both intake valves 21 are closed and stopped.

図5を併せて参照して、各気筒C1〜C4間にそれぞれ対応する部分で前記吸気側カムシャフト31はジャーナル部31a…を有しており、前記ヘッドカバー14には、各ジャーナル部31a…の外周の少なくとも半周、この実施例1ではジャーナル部31a…の全周を回転自在に支承するようにして気筒配列方向に並ぶ複数の軸受部14c…が、ヘッドカバー14の側壁14cおよび天井壁14bに一体に連なるようにして一体に設けられる。また前記吸気側カムシャフト31の軸線に沿う方向で複数の前記軸受部14c…の1つに隣接した位置で前記ヘッドカバー14の天井壁14bに取付けボス56が一体に設けられ、前記インジェクタ106…に燃料を供給するための高圧ポンプ57が前記取付けボスに取付けられる。   Referring also to FIG. 5, the intake side camshaft 31 has journal portions 31a... At portions corresponding to the respective cylinders C1 to C4, and the head cover 14 includes the journal portions 31a. A plurality of bearings 14c arranged in the cylinder arrangement direction so as to rotatably support the entire circumference of the journal part 31a in the first embodiment are integrated with the side wall 14c and the ceiling wall 14b of the head cover 14. Are integrally provided so as to be continuous with each other. Further, a mounting boss 56 is integrally provided on the ceiling wall 14b of the head cover 14 at a position adjacent to one of the plurality of bearing portions 14c... In the direction along the axis of the intake camshaft 31, and the injector 106. A high pressure pump 57 for supplying fuel is attached to the mounting boss.

しかも前記取付けボス56が、複数の前記軸受部14c…のうち前記気筒配列方向15に沿う中間部に配置される軸受部14c、この実施例1では、第1および第2気筒C1,C2間の軸受部14cに第2気筒C2側から隣接した位置で前記ヘッドカバー14の天井壁14bに一体に設けられるものであり、この取付けボス56は、高圧ポンプ57の作動方向を略鉛直方向に向けるようにしてヘッドカバー14の天井壁14bに一体に設けられる。   Moreover, the mounting boss 56 is a bearing portion 14c disposed at an intermediate portion along the cylinder arrangement direction 15 among the plurality of bearing portions 14c, and in this embodiment 1, between the first and second cylinders C1 and C2. The bearing 14c is integrally provided on the ceiling wall 14b of the head cover 14 at a position adjacent to the second cylinder C2 side. The mounting boss 56 directs the operating direction of the high-pressure pump 57 in a substantially vertical direction. The head cover 14 is integrally provided on the ceiling wall 14b.

ところで前記高圧ポンプ57に対応した位置で前記吸気側カムシャフト31にはポンプ用カム58が設けられており、前記吸気側ロッカシャフト32には、ポンプ用カム58に転がり接触するローラ59が軸支されたポンプ駆動用ロッカアーム60が揺動可能に支承される。またポンプ駆動用ロッカアーム60には、高圧ポンプ57側に延びる腕部60aが設けられており、この腕部60aの先端に軸支されるローラ61が、前記高圧ポンプ57の入力部62に転がり接触する。したがって高圧ポンプ57は、吸気側カムシャフト31の回転に応じてポンプ駆動用ロッカアーム60が揺動するのに応じて、高圧ポンプ57の入力部62にポンプ駆動用ロッカアーム60から駆動力が作用することによって略鉛直方向に駆動されることになる。而して高圧ポンプ57から吐出される燃料油は供給管路108を経て前記燃料レール107に供給される。   The intake camshaft 31 is provided with a pump cam 58 at a position corresponding to the high-pressure pump 57, and a roller 59 that is in rolling contact with the pump cam 58 is pivotally supported on the intake rocker shaft 32. The pump drive rocker arm 60 is supported so as to be swingable. Further, the pump driving rocker arm 60 is provided with an arm portion 60a extending toward the high pressure pump 57, and the roller 61 pivotally supported at the tip of the arm portion 60a is brought into rolling contact with the input portion 62 of the high pressure pump 57. To do. Therefore, in the high-pressure pump 57, when the pump driving rocker arm 60 swings according to the rotation of the intake camshaft 31, a driving force is applied to the input portion 62 of the high pressure pump 57 from the pump driving rocker arm 60. Is driven in a substantially vertical direction. Thus, the fuel oil discharged from the high-pressure pump 57 is supplied to the fuel rail 107 through the supply line 108.

また高圧ポンプ57の潤滑部には吸気側ロッカシャフト32から潤滑油が供給されるものであり、第1および第2気筒C1,C2間の軸受部14cには、吸気側ロッカシャフト32および高圧ポンプ57間を結ぶ潤滑油路(図示せず)が設けられる。   The lubricating portion of the high pressure pump 57 is supplied with lubricating oil from the intake side rocker shaft 32. The bearing portion 14c between the first and second cylinders C1 and C2 has an intake side rocker shaft 32 and a high pressure pump. A lubricating oil passage (not shown) connecting 57 is provided.

ところで、低速用カム33…,34…、高速用カム35…、休止用カム36…,37…およびポンプ用カム58が設けられる吸気側カムシャフト31は、その一端側から前記ヘッドカバー14に挿通されて前記各軸受部14c…に支持されるものであり、吸気側カムシャフト31のジャーナル部31a…ならびにそれらのジャーナル部31a…を挿通、支持するために前記各軸受部14c…にそれぞれ設けられる円形の軸受孔105…の直径は、低速用カム33…,34…、高速用カム35…、休止用カム36…,37…およびポンプ用カム58を挿通可能な大きさに設定される。   The intake side camshaft 31 provided with the low speed cams 33, 34, high speed cams 35, pause cams 36, 37, and the pump cam 58 is inserted into the head cover 14 from one end thereof. Are supported by the respective bearing portions 14c, and are provided in the respective bearing portions 14c in order to insert and support the journal portions 31a of the intake camshaft 31 and the journal portions 31a. The diameters of the bearing holes 105 are set to a size that allows the low speed cams 33, 34, high speed cams 35, pause cams 36, 37, and the pump cam 58 to be inserted.

而してヘッドカバー14の小型化を図るためにジャーナル部31a…および軸受孔105…の直径を小さくすると、ポンプ用カム58も小さく形成されることになるが、高圧ポンプ57は、ポンプ用カム58に従動するポンプ駆動用ロッカアーム60の腕部60aで駆動されるものであり、ポンプ用カム58が小さくてもポンプ駆動用ロッカアーム60のレバー比の設定によって高圧ポンプ57で必要とされるストロークを充分に確保することができる。   Thus, if the diameters of the journal portions 31a and the bearing holes 105 are reduced in order to reduce the size of the head cover 14, the pump cam 58 is also formed smaller. It is driven by the arm portion 60a of the pump drive rocker arm 60 that is driven, and even if the pump cam 58 is small, the stroke required by the high pressure pump 57 is sufficient by setting the lever ratio of the pump drive rocker arm 60. Can be secured.

図1および図3に注目して、排気側動弁装置29は、前記吸気側動弁装置28と同様に構成されるものであり、第2気筒C2での排気側動弁装置29は、一対の低速用カム63,64、単一の高速用カム65および一対の休止用カム66,67が設けられるとともに前記ヘッドカバー14の軸受部14c…で回転自在に支承されるようにして前記吸気側カムシャフト31と平行に配置される排気側カムシャフト68と、排気側カムシャフト68と平行な軸線を有して前記軸受部14c…に支持される排気側ロッカシャフト69と、排気側ロッカシャフト69で揺動可能に支承される第1、第2、第3、第4および第5サブロッカアーム70,71,72,73,74と、油圧タペット75を介して一端部がシリンダヘッド13に揺動可能に支承されるとともに他端部が両排気弁22…のステムエンド22a…に当接する第1および第2ロッカアーム76,77とを備え、前記軸受部14c…での排気側カムシャフト68の支持構造は、前記軸受部14c…での吸気側カムシャフト31の支持構造と同様である。   1 and 3, the exhaust side valve operating device 29 is configured in the same manner as the intake side valve operating device 28, and the exhaust side valve operating device 29 in the second cylinder C2 includes a pair. The low-speed cams 63 and 64, a single high-speed cam 65, and a pair of pause cams 66 and 67 are provided, and the intake side cam is rotatably supported by the bearing portions 14c of the head cover 14. An exhaust camshaft 68 disposed in parallel with the shaft 31, an exhaust rocker shaft 69 having an axis parallel to the exhaust camshaft 68 and supported by the bearing portion 14 c, and an exhaust rocker shaft 69. One end of the first, second, third, fourth and fifth sub-rocker arms 70, 71, 72, 73, 74 supported so as to be swingable and a hydraulic tappet 75 can swing on the cylinder head 13. Support The first and second rocker arms 76 and 77 are in contact with the stem ends 22a of the two exhaust valves 22 at the other end, and the support structure of the exhaust camshaft 68 at the bearing portion 14c is as follows. This is the same as the support structure of the intake camshaft 31 at the bearings 14c.

次にこの実施例1の作用について説明すると、機関本体11が備えるシリンダヘッド13の一面を覆うヘッドカバー14に、吸気側カムシャフト31のジャーナル部31a…の外周の少なくとも半周、この実施例1では前記ジャーナル部31a…の外周の全周を回転自在に軸支する複数の軸受部14c…が一体に設けられており、吸気側カムシャフト31の軸線に沿う方向で複数の前記軸受部14c…の1つに隣接した位置、この実施例1では第1および第2気筒C1,C2間の軸受部14cに第2気筒C2側から隣接した位置で前記ヘッドカバー14に一体に設けられ、高圧ポンプ57が取付けボス56に取付けられるので、補強のためのリブを不要とし、またヘッドカバー14の厚みを増すことなく取付けボス56の剛性を高めることができ、機関本体11の重量増大を回避することができる。しかも第1および第2気筒C1,C2間の軸受部14cおよび取付けボス56の相対位置精度を高く維持することができるので、ポンプ用カム58および高圧ポンプ57の相対位置精度を高めることができる。   Next, the operation of the first embodiment will be described. The head cover 14 covering one surface of the cylinder head 13 provided in the engine body 11 is provided with at least a half of the outer periphery of the journal portion 31a. A plurality of bearing portions 14c that rotatably support the entire outer periphery of the journal portion 31a are integrally provided, and one of the plurality of bearing portions 14c in the direction along the axis of the intake side camshaft 31 is provided. In the first embodiment, in the first embodiment, the head cover 14 is integrally provided at the position adjacent to the bearing portion 14c between the first and second cylinders C1 and C2 from the second cylinder C2 side, and the high pressure pump 57 is attached. Since it is attached to the boss 56, a rib for reinforcement is not required, and the rigidity of the attachment boss 56 can be increased without increasing the thickness of the head cover 14. Come, it is possible to avoid the increase in weight of the engine body 11. In addition, since the relative positional accuracy of the bearing portion 14c and the mounting boss 56 between the first and second cylinders C1 and C2 can be maintained high, the relative positional accuracy of the pump cam 58 and the high-pressure pump 57 can be increased.

しかもこの実施例1では、吸気側カムシャフト31が、その一端側からヘッドカバー14に挿通されて該ヘッドカバー14と一体である軸受部14c…の軸受孔105…に挿通、支持されるものであるので、分割された軸受部で挟持されるようにして吸気側カムシャフト31が回転自在に支持されるものに比べて、吸気側カムシャフト31および高圧ポンプ57の相対位置精度を高めることができる。   In addition, in the first embodiment, the intake camshaft 31 is inserted into the head cover 14 from one end thereof, and is inserted into and supported by the bearing holes 105 of the bearing portion 14c integrated with the head cover 14. The relative position accuracy of the intake side camshaft 31 and the high-pressure pump 57 can be improved as compared with the case where the intake side camshaft 31 is rotatably supported so as to be sandwiched between the divided bearing portions.

また機関本体11には、吸気側カムシャフト31の軸線方向と平行な気筒配列方向15に並ぶ第1〜第4気筒C1〜C4が配設されており、取付けボス56が、複数の軸受部14c…のうち前記気筒配列方向15に沿う中間部に配置される軸受部14c、この実施例1では第1および第2気筒C1,C2間の軸受部14cに隣接して前記ヘッドカバー14に一体に設けられるので、気筒配列方向に機関本体11が大型化することを回避することができるとともに、機関本体11を車両に搭載する組付け作業を行うときや、車両搭載状態で車両側から機関本体11に衝撃が加わったときにも、高圧ポンプ57が損傷してしまうことを防止することができる。   The engine body 11 is provided with first to fourth cylinders C1 to C4 arranged in a cylinder arrangement direction 15 parallel to the axial direction of the intake camshaft 31, and the mounting boss 56 includes a plurality of bearing portions 14c. ... of the bearing portion 14c disposed in the intermediate portion along the cylinder arrangement direction 15, in the first embodiment, adjacent to the bearing portion 14c between the first and second cylinders C1 and C2, provided integrally with the head cover 14. Therefore, the engine main body 11 can be prevented from increasing in size in the cylinder arrangement direction, and when the assembling work for mounting the engine main body 11 on the vehicle is performed, or when the vehicle main body is mounted on the engine main body 11 from the vehicle side. Even when an impact is applied, it is possible to prevent the high-pressure pump 57 from being damaged.

さらに取付けボス56が、前記高圧ポンプ57の作動方向を略鉛直方向に向けるようにして前記ヘッドカバー14に一体に設けられるので、高圧ポンプ57を組付ける際の作業性を高めることができ、また高圧ポンプ57の作動時に水平方向の摺接が抑制されるので、高圧ポンプ57の作動抵抗を小さく抑えることができる。   Further, since the mounting boss 56 is provided integrally with the head cover 14 so that the operating direction of the high-pressure pump 57 is substantially vertical, workability when the high-pressure pump 57 is assembled can be improved. Since the sliding contact in the horizontal direction is suppressed when the pump 57 is operated, the operating resistance of the high-pressure pump 57 can be reduced.

図6および図7を参照しながら本発明の実施例2について説明するが、実施例1に対応する部分には同一の参照符号を付して図示するのみとし、詳細な説明は省略する。   A second embodiment of the present invention will be described with reference to FIGS. 6 and 7, but the portions corresponding to the first embodiment are only given the same reference numerals and are not illustrated in detail.

先ず図6において、この機関本体81は、相互にV形をなす一対の左および右バンクBL,BRを有してV型に構成されるものであり、車両搭載時に左側に配置される左バンクBLには、第1〜第4気筒C1〜C4が気筒配列方向82に並んで配設され、車両搭載時に右側に配置される右バンクBRには、第5〜第8気筒C5〜C8が気筒配列方向82に並んで配設される。しかも左バンクBLの第1および第4気筒C1,C4ならびに右バンクBRの第6および第7気筒C6,C7は気筒休止可能である。   First, in FIG. 6, the engine body 81 has a pair of left and right banks BL and BR that form a V shape, and is configured in a V shape. In BL, the first to fourth cylinders C1 to C4 are arranged side by side in the cylinder arrangement direction 82, and in the right bank BR arranged on the right side when the vehicle is mounted, the fifth to eighth cylinders C5 to C8 are cylinders. They are arranged side by side in the arrangement direction 82. Moreover, the first and fourth cylinders C1 and C4 of the left bank BL and the sixth and seventh cylinders C6 and C7 of the right bank BR can be deactivated.

図7で示すように、右バンクBRにおいてシリンダヘッド83に結合されるヘッドカバー84Rは、略長方形状に形成される側壁85と、該側壁85に屈曲部87を介して連設される天井壁86と、吸気側カムシャフト89が備える複数のジャーナル部89a…の全周を回転自在に支承するようにして各気筒C5〜C8間に配置される軸受部88…とを一体に有する。   As shown in FIG. 7, the head cover 84 </ b> R coupled to the cylinder head 83 in the right bank BR includes a side wall 85 formed in a substantially rectangular shape, and a ceiling wall 86 that is connected to the side wall 85 via a bent portion 87. And bearing portions 88 arranged between the cylinders C5 to C8 so as to rotatably support the entire circumference of the plurality of journal portions 89a provided in the intake side camshaft 89.

右バンクBRの第8気筒C8において、吸気弁21を開閉駆動する吸気側動弁装置90は、シリンダヘッド83に設けられる油圧タペット91で一端部が回動自在に支承されるとともに他端部が吸気弁21のステムエンド21aに当接されるロッカアーム92と、そのロッカアーム92が備えるローラ93に接触するサブロッカアーム94を含むとともに連結および連結解除を切換可能としつつ吸気側ロッカシャフト95に揺動自在に支承される複数のサブロッカアームとを備える。   In the eighth cylinder C8 of the right bank BR, the intake side valve operating device 90 that opens and closes the intake valve 21 is rotatably supported at one end by a hydraulic tappet 91 provided on the cylinder head 83 and has the other end. It includes a rocker arm 92 that abuts on the stem end 21a of the intake valve 21 and a sub-rocker arm 94 that contacts a roller 93 provided in the rocker arm 92. And a plurality of sub rocker arms supported by the.

また前記吸気側カムシャフト89にポンプ用カム96が設けられており、該ポンプ用カム96に接触するローラ97が先端に軸支される入力部98を有する高圧ポンプ99を取り付けるための取付けボス100が前記ヘッドカバー84Rに設けられる。   The intake camshaft 89 is provided with a pump cam 96, and a mounting boss 100 for mounting a high pressure pump 99 having an input portion 98 on which a roller 97 that contacts the pump cam 96 is pivotally supported. Is provided on the head cover 84R.

而して吸気側カムシャフト31の軸線に沿う方向で複数の前記軸受部88…の1つに隣接した位置で前記ヘッドカバー84Rに取付けボス100が一体に設けられ、該取付けボス100は、複数の前記軸受部88…のうち前記気筒配列方向82に沿う中間部に配置される軸受部88、この実施例2では、第7および第8気筒C7,C8間に配置される軸受部88に第8気筒C8側から隣接して前記ヘッドカバー84Rに一体に設けられる。   Thus, a mounting boss 100 is integrally provided on the head cover 84R at a position adjacent to one of the plurality of bearing portions 88 in a direction along the axis of the intake camshaft 31, and the mounting boss 100 is formed of a plurality of mounting bosses 100. Of the bearing portions 88..., The bearing portion 88 disposed at an intermediate portion along the cylinder arrangement direction 82, and in the second embodiment, the eighth bearing portion 88 disposed between the seventh and eighth cylinders C 7 and C 8. Adjacent from the cylinder C8 side, the head cover 84R is integrally provided.

しかも取付けボス100は、高圧ポンプ99の作動方向を略鉛直方向に向けるようにして前記ヘッドカバー84Rの側壁85および天井壁86の連設部である屈曲部87に一体に設けられる。   Moreover, the mounting boss 100 is provided integrally with a bent portion 87 which is a continuous portion of the side wall 85 and the ceiling wall 86 of the head cover 84R so that the operating direction of the high-pressure pump 99 is substantially vertical.

また左バンクBLのヘッドカバー84Lには、その第3および第4気筒C3,C4間に配置される軸受部88に第4気筒C4側から隣接するようにして取付けボス100が一体に設けられ、該取付けボス100に高圧ポンプ99が取付けられる。しかも取付けボス100は、高圧ポンプ99の作動方向を略鉛直方向に向けるようにして前記ヘッドカバー84Lの側壁および天井壁の連設部である屈曲部87に一体に設けられる。   The head cover 84L of the left bank BL is integrally provided with a mounting boss 100 so as to be adjacent to the bearing portion 88 disposed between the third and fourth cylinders C3 and C4 from the fourth cylinder C4 side. A high pressure pump 99 is attached to the attachment boss 100. Moreover, the mounting boss 100 is integrally provided on the bent portion 87 which is a continuous portion of the side wall and the ceiling wall of the head cover 84L so that the operating direction of the high-pressure pump 99 is oriented in a substantially vertical direction.

この実施例2によれば、上記実施例1と同様の効果を奏することができる上に、膜面振動が発生し難い箇所であるヘッドカバー84L,84Rの屈曲部87…に取付けボス100…が一体に設けられるので、高圧ポンプ99の取付け剛性を高くするとともに、高圧ポンプ99の吸気側カムシャフト89…に対する相対位置変化を抑制することができる。   According to the second embodiment, the same effects as those of the first embodiment can be obtained, and the mounting bosses 100 are integrated with the bent portions 87 of the head covers 84L and 84R where the film surface vibration hardly occurs. Therefore, the mounting rigidity of the high-pressure pump 99 can be increased, and the relative position change of the high-pressure pump 99 with respect to the intake side camshafts 89 can be suppressed.

また高圧ポンプ99が、吸気側カムシャフト89に設けられたポンプ用カム96で直接駆動されるものであるので、実施例1のものと比べて、部品点数が少なくてすむ。   Further, since the high-pressure pump 99 is directly driven by a pump cam 96 provided on the intake side camshaft 89, the number of parts can be reduced as compared with that of the first embodiment.

以上、本発明の実施の形態について説明したが、本発明は上記実施の形態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. Is possible.

11,81・・・機関本体
13,83・・・シリンダヘッド
14,84L,84R・・・カバー部材であるヘッドカバー
14c,88・・・軸受部
31,89・・・吸気側カムシャフト
31a,89a・・・ジャーナル部
56,100・・・取付けボス
57,99・・・高圧ポンプ
58,96・・・ポンプ用カム
85・・・側壁
86・・・天井壁
87・・・屈曲部
BL,BR・・・バンク
C1,C2,C3,C4,C5,C6,C7,C8・・・気筒
DESCRIPTION OF SYMBOLS 11, 81 ... Engine main body 13, 83 ... Cylinder head 14, 84L, 84R ... Head cover 14c, 88 which is a cover member ... Bearing part 31, 89 ... Intake side camshaft 31a, 89a ... Journal parts 56,100 ... Mounting bosses 57,99 ... High pressure pumps 58,96 ... Pump cams 85 ... Side walls 86 ... Ceiling walls 87 ... Bent parts BL, BR ... Banks C1, C2, C3, C4, C5, C6, C7, C8 ... Cylinder

Claims (4)

高圧ポンプ(57,99)を駆動するためのポンプ用カム(58,96)がカムシャフト(31,89)に設けられ、機関本体(11,81)が備えるシリンダヘッド(13,83)の一面を覆うカバー部材(14,84L,84R)に、前記カムシャフト(31,89)が備える複数のジャーナル部(31a,89a)の外周の少なくとも半周を回転自在に支承する複数の軸受部(14c,88)が一体に設けられる内燃機関において、前記カムシャフト(31,89)の軸線に沿う方向で複数の前記軸受部(14c,88)の1つに隣接した位置で前記カバー部材(14,84L,84R)に取付けボス(56,100)が一体に設けられ、前記高圧ポンプ(57,99)が前記取付けボス(56,100)に取付けられることを特徴とする内燃機関における高圧ポンプ取付け構造。   One surface of the cylinder head (13, 83) provided in the engine body (11, 81) is provided with a cam for the pump (58, 96) for driving the high pressure pump (57, 99) on the camshaft (31, 89). A plurality of bearing parts (14c, 14c, 84R, 84R) for rotatably supporting at least half of the outer circumferences of the plurality of journal parts (31a, 89a) included in the camshaft (31, 89) 88), the cover member (14, 84L) at a position adjacent to one of the bearings (14c, 88) in the direction along the axis of the camshaft (31, 89). , 84R) are integrally provided with mounting bosses (56, 100), and the high-pressure pump (57, 99) is mounted on the mounting boss (56, 100). High-pressure pump mounting structure in an internal combustion engine that. 前記機関本体(11,81)に、前記カムシャフト(31,89)の軸線方向と平行な気筒配列方向に並ぶ複数の気筒(C1,C2,C3,C4,C5,C6,C7,C8)が配設され、前記取付けボス(56,100)が、複数の前記軸受部(14c,88)のうち前記気筒配列方向に沿う中間部に配置される軸受部(14c,88)に隣接して前記カバー部材(14,84L,84R)に一体に設けられることを特徴とする請求項1記載の内燃機関における高圧ポンプ取付け構造。   The engine body (11, 81) has a plurality of cylinders (C1, C2, C3, C4, C5, C6, C7, C8) arranged in a cylinder arrangement direction parallel to the axial direction of the camshaft (31, 89). The mounting boss (56, 100) is disposed adjacent to a bearing portion (14c, 88) disposed in an intermediate portion along the cylinder arrangement direction among the plurality of bearing portions (14c, 88). The high pressure pump mounting structure for an internal combustion engine according to claim 1, wherein the cover member (14, 84L, 84R) is provided integrally with the cover member (14, 84L, 84R). 前記取付けボス(56,100)が、前記高圧ポンプ(57,99)の作動方向を略鉛直方向に向けるようにして前記カバー部材(14,84L,84R)に一体に設けられることを特徴とする請求項1または2記載の内燃機関における高圧ポンプ取付け構造。   The mounting boss (56, 100) is provided integrally with the cover member (14, 84L, 84R) so that the operating direction of the high-pressure pump (57, 99) is substantially vertical. 3. A high pressure pump mounting structure in an internal combustion engine according to claim 1 or 2. 前記機関本体(81)が、相互にV形をなす一対のバンク(BL,BR)を有してV型に構成され、両バンク(BL,BR)の少なくとも一方で、前記カバー部材(84L,84R)は、側壁(85)と、該側壁(85)に屈曲部(87)を介して連設される天井壁(86)と、複数の前記軸受部(88)とを一体に有し、該カバー部材(84L,84R)の前記屈曲部(87)に、前記高圧ポンプ(99)の作動方向を略鉛直方向に向けるようにして前記取付けボス(100)が一体に設けられることを特徴とする請求項3記載の内燃機関における高圧ポンプ取付け構造。   The engine body (81) has a pair of V-shaped banks (BL, BR) and is formed into a V-shape, and at least one of the banks (BL, BR) includes the cover member (84L, 84R) integrally includes a side wall (85), a ceiling wall (86) connected to the side wall (85) via a bent portion (87), and a plurality of the bearing portions (88). The mounting boss (100) is integrally provided at the bent portion (87) of the cover member (84L, 84R) so that the operating direction of the high-pressure pump (99) is substantially vertical. The high pressure pump mounting structure for an internal combustion engine according to claim 3.
JP2009027698A 2009-02-09 2009-02-09 High pressure pump mounting structure for internal combustion engine Expired - Fee Related JP5189520B2 (en)

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JP2016217314A (en) * 2015-05-25 2016-12-22 日産自動車株式会社 Internal combustion engine

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