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JP2005126018A - Front part structure for vehicle body - Google Patents

Front part structure for vehicle body Download PDF

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JP2005126018A
JP2005126018A JP2003366463A JP2003366463A JP2005126018A JP 2005126018 A JP2005126018 A JP 2005126018A JP 2003366463 A JP2003366463 A JP 2003366463A JP 2003366463 A JP2003366463 A JP 2003366463A JP 2005126018 A JP2005126018 A JP 2005126018A
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vehicle body
hood ridge
section
closed cross
ridge member
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Japanese (ja)
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Koichi Ota
幸一 太田
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Nissan Motor Co Ltd
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Nissan Motor Co Ltd
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Abstract

<P>PROBLEM TO BE SOLVED: To provide a front part structure for a vehicle body efficiently escaping front surface collision load inputted from a hood ridge member to a pillar member to a rear part of the vehicle body while absorbing it and capable of sufficiently ensuring oblique front part visual field by making a shape and a cross section of the pillar member small. <P>SOLUTION: An inner close cross section part 1A extending in a longitudinal direction of the vehicle body is provided at the inside of the hood ridge member 1 and a reinforcement member 11 having a close cross section structure is bonded to an opposed position of the inner close cross section part 1A while laid between inner side surfaces in the longitudinal direction of the vehicle body at the inside of the close cross section of the pillar 2. A door support member 12 is bonded to a rear part of the vehicle body of the reinforcement member 11 and a curved front end 21b of a slide rail 21 at the inside of the door 20 is supported by the door support member 12. The inner close cross section part 1A, the reinforcement member 11, the door support member 12 and the slide rail 21 are arranged on an approximately linear line L in the longitudinal direction of the vehicle body. Thereby, an input load from the hood ridge member 1 is efficiently transmitted to the rear part of the vehicle at front surface collision and collision energy is efficiently absorbed by the respective members of a transmission route. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

本発明は、車体前部構造に関し、とりわけ、フードリッジメンバからフロントピラーを介してフロントドアに至る部分の車体前部構造に関する。   The present invention relates to a vehicle body front structure, and more particularly to a vehicle body front structure in a portion from a hood ridge member to a front door via a front pillar.

従来の自動車にあっては、フードリッジメンバからフロントピラーに至る部分は、フードリッジアッパ部の後壁の車幅方向外側および上下部に設けた結合フランジ部を、フロントピラーに結合するようにしている(例えば、特許文献1参照)。
特開2001−80544号公報(第4頁、図2)
In the conventional automobile, the portion from the hood ridge member to the front pillar is connected to the front pillar by connecting flange portions provided on the outer side in the vehicle width direction and on the upper and lower portions of the rear wall of the hood ridge upper portion. (For example, refer to Patent Document 1).
JP 2001-80544 A (Page 4, FIG. 2)

従って、前面衝突時に前方から入力される荷重は、車体前後方向に配置したフードリッジアッパ部を介してフロントピラーに直接伝達され、このフロントピラーでその伝達された荷重を受け止める構造となっている。   Therefore, the load input from the front at the time of a frontal collision is directly transmitted to the front pillar via the hood ridge upper portion arranged in the longitudinal direction of the vehicle body, and the transmitted load is received by the front pillar.

このため、比較的小さな前面衝突時にあっても、キャビン部の主要な骨格を成すフロントピラーに変形を発生してしまうことから、この変形を抑制するためにピラーの断面積を拡大して強度を高める必要があり、このように形状面積が拡大したフロントピラーでは斜め前方視界が悪化してしまう。   For this reason, even in the case of a relatively small frontal collision, the front pillar, which forms the main skeleton of the cabin, will be deformed.To suppress this deformation, the cross-sectional area of the pillar is enlarged to increase the strength. In such a front pillar having an enlarged shape area, the oblique front view is deteriorated.

そこで、本発明はフードリッジメンバからピラー部材に入力される前面衝突荷重を吸収しつつ車体後方に効率よく逃がし、もって、ピラー部材の形状および断面積を小さくして斜め前方視界を良好に確保することができる車体前部構造を提供するものである。   Accordingly, the present invention efficiently escapes to the rear of the vehicle body while absorbing the frontal collision load input from the hood ridge member to the pillar member, and thus ensures a good oblique front view by reducing the shape and cross-sectional area of the pillar member. It is an object of the present invention to provide a vehicle body front part structure that can be used.

本発明は、車体前部の車体前後方向に延在し閉断面構造のフードリッジメンバと、
前記フードリッジメンバの車体後方端部を結合して車体上下方向に延在する閉断面構造のピラー部材と、
前記フードリッジメンバの前後方向中間部の上側と前記ピラー部材の上端部との間に跨って連結したフロントウインドウパネル支持フレームと、を備えた車体前部構造であって、
前記フードリッジメンバの内部に車体前後方向に延びる内側閉断面部を設け、
前記ピラー部材の閉断面内部の車体前後方向内側面間に跨って、前記内側閉断面部と対向する位置に閉断面構造の補強部材を結合配置し、
前記補強部材の車体後方にドア支持部材を結合し、このドア支持部材によりドアの前端部をその内部に車体前後方向に配置したスライドレールの湾曲前端部を介して支持し、
前記フードリッジメンバの内側閉断面部と、前記補強部材と、前記ドア支持部材と、前記スライドレールと、を車体前後方向に略一直線上に配置したことを最も主要な特徴とする。
The present invention includes a hood ridge member having a closed cross-sectional structure extending in the longitudinal direction of the vehicle body at the front of the vehicle body,
A pillar member having a closed cross-sectional structure extending in the vehicle body up-down direction by connecting the vehicle body rear end of the hood ridge member;
A front window panel support frame connected between the upper side of the middle part of the hood ridge member in the front-rear direction and the upper end of the pillar member, and a vehicle body front structure comprising:
An inner closed cross section extending in the longitudinal direction of the vehicle body is provided inside the hood ridge member,
A reinforcing member having a closed cross-section structure is coupled and arranged at a position facing the inner closed cross-section portion across the inner side surface in the vehicle longitudinal direction inside the closed cross-section of the pillar member,
A door support member is coupled to the rear of the vehicle body of the reinforcing member, and the front end portion of the door is supported by the door support member via a curved front end portion of a slide rail disposed in the vehicle body longitudinal direction.
The most important feature is that the inner closed cross section of the hood ridge member, the reinforcing member, the door support member, and the slide rail are arranged in a substantially straight line in the longitudinal direction of the vehicle body.

本発明の車体前部構造によれば、フードリッジメンバの内部に内側閉断面部を設けて増強してあり、この内側閉断面部によって前面衝突時の入力荷重を受けてフードリッジメンバは変形しつつ荷重をピラー部材側へ伝達する。   According to the vehicle body front structure of the present invention, the hood ridge member is provided with an inner closed cross-sectional portion for reinforcement, and the hood ridge member is deformed by receiving an input load at the time of a frontal collision by the inner closed cross-sectional portion. While transmitting the load to the pillar member side.

この荷重は、フードリッジメンバの車体後方端部を結合したピラー部材に入力されるが、このピラー部材には、その閉断面内部の前記内側閉断面部と対向する位置に結合した補強部材が存在するため、この補強部材によってピラー部材の変形を抑制することができる。   This load is input to a pillar member that is coupled to the rear end of the vehicle body of the hood ridge member. The pillar member includes a reinforcing member that is coupled to a position facing the inner closed cross section inside the closed cross section. Therefore, the deformation of the pillar member can be suppressed by the reinforcing member.

また、ピラー部材に入力した荷重は、前記補強部材の車体後方に結合したドア支持部材に伝達された後、このドア支持部材に支持されたドア内部のスライドレールの湾曲前端部に伝達されるが、このとき、前記フードリッジメンバの内側閉断面部と、前記補強部材と、前記ドア支持部材と、前記スライドレールと、を車体前後方向に略一直線上に配置してあるため、スライドレールにはドア支持部材から伝達される荷重を効率よく入力することができる。   The load input to the pillar member is transmitted to the door support member coupled to the rear of the vehicle body of the reinforcing member, and then transmitted to the curved front end portion of the slide rail inside the door supported by the door support member. At this time, the inner closed cross section of the hood ridge member, the reinforcing member, the door support member, and the slide rail are arranged in a substantially straight line in the longitudinal direction of the vehicle body. The load transmitted from the door support member can be input efficiently.

これにより、フードリッジメンバからの前面衝突荷重を車両後方に効率よく伝達するとともに、伝達経路の各部材によって衝突エネルギーを効率よく吸収できるため、ピラー部材自体の強度を過剰に増大する必要が無く、もって、ピラー部材の形状および断面積の拡大を回避することができる。   As a result, the front collision load from the hood ridge member is efficiently transmitted to the rear of the vehicle, and the collision energy can be efficiently absorbed by each member of the transmission path, so there is no need to excessively increase the strength of the pillar member itself, Therefore, the enlargement of the shape and cross-sectional area of the pillar member can be avoided.

また、このように衝突荷重を一直線上に配置した前記各部材によって効率よく伝達・吸収できるため、フードリッジメンバとピラー部材との間に跨って連結したフロントウインドウパネル支持フレームに衝突荷重が入力するのを著しく低減して、この支持フレームの断面積を小さくできるため、前記ピラー部材の形状および断面積の拡大を回避できることと相俟って、斜め前方視界を広く確保できるという利点がある。   Further, since the collision load can be efficiently transmitted and absorbed by the respective members arranged in a straight line in this way, the collision load is input to the front window panel support frame connected between the hood ridge member and the pillar member. Since the cross-sectional area of the support frame can be made smaller and the enlargement of the shape of the pillar member and the cross-sectional area can be avoided, there is an advantage that a wide oblique front view can be secured.

以下、本発明の実施形態を図面と共に詳述する。   Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

図1〜図11は本発明の車体前部構造の第1実施形態を示し、図1は車体前部の要部骨格の斜視図、図2はフロントドアの内部構造の斜視図、図3は前面衝突荷重の流れを示す断面平面図、図4はフードリッジメンバの分解斜視図、図5はフードリッジメンバの組み付け状態の図4中A−A線に対応する断面図、図6は補強部材の取り付け状態の斜視図、図7はフードリッジメンバおよびこれに結合したフロントウインドウパネル支持フレームの斜視図、図8はフードリッジメンバの通常状態の図4中B−B線に対応する断面図、図9はフードリッジメンバの衝突変形後の図4中B−B線に対応する断面図、図10は補強部材の分解斜視図、図11はスライドレールの端部斜視図である。   1 to 11 show a first embodiment of a vehicle body front structure according to the present invention, FIG. 1 is a perspective view of a main part skeleton of the vehicle body front part, FIG. 2 is a perspective view of an internal structure of a front door, and FIG. FIG. 4 is an exploded perspective view of the hood ridge member, FIG. 5 is a sectional view corresponding to line AA in FIG. 4 of the assembled state of the hood ridge member, and FIG. 6 is a reinforcing member. FIG. 7 is a perspective view of a hood ridge member and a front window panel support frame coupled to the hood ridge member. FIG. 8 is a cross-sectional view corresponding to the line BB in FIG. 9 is a cross-sectional view corresponding to line BB in FIG. 4 after the hood ridge member has undergone collision deformation, FIG. 10 is an exploded perspective view of the reinforcing member, and FIG. 11 is an end perspective view of the slide rail.

この第1実施形態の車体前部構造は、図1に示すように、フロントコンパートメントF・Cの車幅方向両側に、車体前後方向に延在するフードリッジメンバ1を設け、このフードリッジメンバ1の車体後方端部を、車体上下方向に延在するピラー部材としての閉断面構造のフロントピラー2に結合してある。   As shown in FIG. 1, the vehicle body front portion structure of the first embodiment is provided with hood ridge members 1 extending in the vehicle longitudinal direction on both sides of the front compartments F and C in the vehicle width direction. The rear end of the vehicle body is coupled to a front pillar 2 having a closed cross-sectional structure as a pillar member extending in the vertical direction of the vehicle body.

フロントピラー2の上端部には、ルーフ3の車幅方向両側に車体前後方向に延在したルーフサイドレール4の前端部が結合されるとともに、下端部にはフロア5の車幅方向両側に車体前後方向に延在したサイドシル6の前端部が結合される。   A front end portion of a roof side rail 4 extending in the vehicle longitudinal direction is coupled to both sides of the roof 3 in the vehicle width direction at the upper end portion of the front pillar 2, and the vehicle body on both sides in the vehicle width direction of the floor 5 is coupled to the lower end portion. The front end portion of the side sill 6 extending in the front-rear direction is joined.

また、前記フードリッジメンバ1の前後方向中間部の上側と前記フロントピラー2の上端部との間に後傾状態に跨って、フロントウインドウパネル7の車幅方向両側部を支持するフロントウインドウパネル支持フレーム8を連結してある。   Further, a front window panel support that supports both sides in the vehicle width direction of the front window panel 7 across a rearward inclined state between the upper side of the middle portion in the front-rear direction of the hood ridge member 1 and the upper end portion of the front pillar 2. The frame 8 is connected.

前記フロントウインドウパネル7の上側縁はルーフフロントレール9によって支持するとともに、フロントウインドウパネル7の下側縁はカウルボックス10によって支持してある。   The upper edge of the front window panel 7 is supported by a roof front rail 9, and the lower edge of the front window panel 7 is supported by a cowl box 10.

ここで、本実施形態では前記フードリッジメンバ1の内部に車体前後方向に延びる内側閉断面部1Aを設けるとともに、前記フロントピラー2の閉断面内部の車体前後方向内側面間に跨って、前記内側閉断面部1Aと対向する位置に閉断面構造の補強部材11を結合配置してあり、また、前記補強部材11の車体後方にドア支持部材12を結合し、図2示すように、このドア支持部材12によりフロントドア20の前端部を、その内部に車体前後方向に配置したスライドレール21の湾曲前端部を介して支持し、そして、図3に示すように、フードリッジメンバ1の内側閉断面部1Aと、補強部材11と、ドア支持部材12と、スライドレール21と、を車体前後方向に略一直線L上に配置してある。   Here, in the present embodiment, an inner closed cross-section portion 1A extending in the longitudinal direction of the vehicle body is provided inside the hood ridge member 1, and the inner side of the front pillar 2 is straddled between the inner side surfaces in the longitudinal direction of the vehicle body. A reinforcing member 11 having a closed cross-sectional structure is coupled and disposed at a position facing the closed cross-sectional portion 1A, and a door support member 12 is coupled to the rear of the vehicle body of the reinforcing member 11, and as shown in FIG. The front end portion of the front door 20 is supported by the member 12 via the curved front end portion of the slide rail 21 disposed in the longitudinal direction of the vehicle body, and the inner closed cross section of the hood ridge member 1 as shown in FIG. The part 1A, the reinforcing member 11, the door support member 12, and the slide rail 21 are arranged on a substantially straight line L in the longitudinal direction of the vehicle body.

フードリッジメンバ1に設けた前記内側閉断面部1Aは、図4,図5に示すように、断面逆L字状に形成した外側本体1Bの上端角部内側に、断面L字状の画成部材1Cをスポット溶接Wsすることにより矩形状断面として形成してある。   As shown in FIGS. 4 and 5, the inner closed cross section 1A provided on the hood ridge member 1 is defined as an L-shaped cross section on the inner side of the upper end corner of the outer main body 1B formed in an inverted L-shaped cross section. The member 1C is formed as a rectangular cross section by spot welding Ws.

また、フードリッジメンバ1は、その車体後方端を車体上下方向に沿って垂直に形成してあり、一方、前記フロントピラー2も車体上下方向に垂直に立設してあり、フードリッジメンバ1の車体後方端をフロントピラー2の上下中間部の前側面に接合してある。   Further, the hood ridge member 1 has a rear end of the vehicle body formed vertically along the vertical direction of the vehicle body, while the front pillar 2 is also erected vertically in the vertical direction of the vehicle body. The rear end of the vehicle body is joined to the front side surface of the upper and lower middle part of the front pillar 2.

前記補強部材11は、図6に示すように矩形状の中空部Sを有する閉断面構造に形成され、フロントピラー2の閉断面内部の車体前後方向内側面間に跨って中空部Sの中心軸が車体前後方向に配置されるようにして、前記フードリッジメンバ1の内側閉断面部1Aと対向する位置に接合してある。   The reinforcing member 11 is formed in a closed cross-sectional structure having a rectangular hollow portion S as shown in FIG. 6, and the central axis of the hollow portion S straddles between the vehicle body front and rear inner side surfaces inside the closed cross section of the front pillar 2. Are arranged in the front-rear direction of the vehicle body and are joined at a position facing the inner closed cross-sectional portion 1A of the hood ridge member 1.

前記ドア支持部材12は、図1〜図3に示すように、矩形状の取り付け座12aの車体後方面から腕部12bの先端を車幅方向外方に向かって突出し、この腕部12bの先端部に回動自在に取り付けた二股部12cの各先端部に1対のローラ12dを設けて構成してあり、図3に示すように、このローラ12dによって前記スライドレール21の内側面21aに転動自在に配設してある。   As shown in FIGS. 1 to 3, the door support member 12 protrudes from the rear surface of the vehicle body of the rectangular mounting seat 12a toward the outer side in the vehicle width direction, and the front end of the arm portion 12b. A pair of rollers 12d is provided at each distal end of a bifurcated portion 12c that is rotatably attached to the portion. As shown in FIG. 3, the rollers 12d are used to roll onto the inner surface 21a of the slide rail 21. It is arranged freely.

前記スライドレール21は、図2に示すように、フロントドア20の前,後フレーム20a,20bに跨って取り付けてあり、その前端部は車幅方向外方に滑らかに湾曲する湾曲前端部21bとなり、この湾曲前端部21bを前方フレーム20aから突出させるとともに、後端部は後方フレーム20bの剛体部分となるドアロック22に結合してある。   As shown in FIG. 2, the slide rail 21 is attached across the front and rear frames 20a and 20b of the front door 20, and the front end portion thereof is a curved front end portion 21b that smoothly curves outward in the vehicle width direction. The curved front end 21b protrudes from the front frame 20a, and the rear end is coupled to a door lock 22 that is a rigid part of the rear frame 20b.

また、ドア20は、前面衝突時に断面が潰されるように荷重が作用するが、ドア補強板23とドアガードバー24とを前後方向に連結することによって断面強度を高めることができ、これによってドア20全体での衝突エネルギーの吸収効果を期待できる。   The door 20 is subjected to a load so that the cross-section is crushed at the time of a frontal collision, but the cross-sectional strength can be increased by connecting the door reinforcing plate 23 and the door guard bar 24 in the front-rear direction. The overall impact energy absorption effect can be expected.

前記フードリッジメンバ1は、図7に示すように、それぞれプレス成形した断面逆L字状の前記外側本体1Bと、断面L字状に形成した内側本体1Dとを接合して閉断面構造を形成しており、本実施形態ではこれら外側,内側本体1B,1Dの周縁部の適宜箇所に形成したフランジ1Ba,1Daを互いにスポット溶接Wsしてある。   As shown in FIG. 7, the hood ridge member 1 forms a closed cross-section structure by joining the outer main body 1B having an inverted L-shaped cross section formed by press molding and the inner main body 1D having an L-shaped cross section. In the present embodiment, the flanges 1Ba and 1Da formed at appropriate locations on the peripheral edges of the outer and inner bodies 1B and 1D are spot-welded Ws to each other.

前記フランジ1Ba,1Daは車幅方向に対向する面として形成してあり、前面衝突時の車体変形に対してフランジ1Ba,1Daは互いに離反する方向の荷重が作用し、スポット溶接Wsが剥離可能となっている。   The flanges 1Ba and 1Da are formed as faces facing in the vehicle width direction, and the flanges 1Ba and 1Da are subjected to a load in a direction away from each other against deformation of the vehicle body at the time of a frontal collision, and the spot weld Ws can be peeled off. It has become.

また、前記フードリッジメンバ1には、車体前方からの荷重入力によりこのフードリッジメンバ1を車幅方向外方に変形させる脆弱部としてのビード30を形成してある。   Further, the hood ridge member 1 is formed with a bead 30 as a fragile portion that deforms the hood ridge member 1 outward in the vehicle width direction by a load input from the front of the vehicle body.

ビード30は、図8に示すように、フードリッジメンバ1の内側閉断面部1Aの側面、つまり、画成部材1Cの内側面1CaにV字状の凹設部としてプレスにより形成してある。   As shown in FIG. 8, the bead 30 is formed by pressing as a V-shaped recessed portion on the side surface of the inner closed cross-sectional portion 1A of the hood ridge member 1, that is, the inner side surface 1Ca of the defining member 1C.

更に、前記ビード30は、前面衝突時の荷重が入力することにより、図9に示すように、前記画成部材1Cの内側面1Caがビード30から車幅方向外方(図中下方)に湾曲変形し、ひいては、フードリッジメンバ1が全体的に車幅方向外方に変形するようになっている。   Furthermore, the bead 30 receives the load at the time of a frontal collision, and as shown in FIG. 9, the inner side surface 1Ca of the defining member 1C is bent outwardly in the vehicle width direction (downward in the figure) from the bead 30. As a result, the hood ridge member 1 is deformed outward in the vehicle width direction as a whole.

また、前記フロントウインドウパネル7の支持フレーム8は、図7に示すように、フードリッジメンバ1の外側本体1Bの上側縁中央部から突設した固定片1Bbにアーク溶接Waするようしており、このとき、このアーク溶接Waの溶接部分は前面衝突による荷重入力時にフードリッジメンバ1が車体後方に後退することにより剥離可能となっている。   Further, as shown in FIG. 7, the support frame 8 of the front window panel 7 is arc-welded Wa to a fixed piece 1Bb protruding from the center of the upper edge of the outer body 1B of the hood ridge member 1, At this time, the welded portion of the arc welding Wa can be peeled off when the hood ridge member 1 moves backward toward the rear of the vehicle body when a load is input due to a frontal collision.

一方、フロントピラー2の内部に結合した補強部材11は、図10に示すように、それぞれ平板をプレス成形した断面コ字状の第1部材11Aと第2部材11Bとを結合して構成され、第1部材11Aの開放側内方に第2部材11Bの開放側を挿入して、それぞれの上面11Aa,11Ba同士および下面11Ab,11Bb同士をスポット溶接Wsしてある。   On the other hand, as shown in FIG. 10, the reinforcing member 11 coupled to the inside of the front pillar 2 is configured by coupling a first member 11A and a second member 11B each having a U-shaped cross section obtained by press-molding a flat plate, The open side of the second member 11B is inserted inside the open side of the first member 11A, and the respective upper surfaces 11Aa and 11Ba and the lower surfaces 11Ab and 11Bb are spot-welded Ws.

第1部材11Aの上面11Aaおよび下面11Abの両端部は、それぞれを外方に折曲してセンターピラー2に接合するフランジ11Acとしてある。   Both end portions of the upper surface 11Aa and the lower surface 11Ab of the first member 11A are flanges 11Ac that are bent outward and joined to the center pillar 2.

また、このように閉断面構造とした前記補強部材11の内部には発泡部材31を充填するようにしている。   The reinforcing member 11 having a closed cross-sectional structure is filled with a foam member 31.

勿論、前記発泡部材31は補強部材11の内側形状に沿って直方体状に形成し、補強部材11の内側を埋めるように密接させて挿入してある。   Of course, the foam member 31 is formed in a rectangular parallelepiped shape along the inner shape of the reinforcing member 11 and is inserted in close contact so as to fill the inner side of the reinforcing member 11.

また、前記フロントドア20の内部に組み込んだ前記スライドレール21(図2参照)は、図11に示すように押出し成型により形成してあり、内側面21aに対向するスリット21cを形成したチャンネル部21dを設け、スリット21cからドア支持部材12の二股部12cおよびローラ12d(図1〜図3参照)を挿入して、このローラ12dを内側面21aに圧接するようになっている。   Further, the slide rail 21 (see FIG. 2) incorporated in the front door 20 is formed by extrusion as shown in FIG. 11, and a channel portion 21d having a slit 21c facing the inner side surface 21a. The bifurcated portion 12c of the door support member 12 and the roller 12d (see FIGS. 1 to 3) are inserted from the slit 21c, and the roller 12d is pressed against the inner side surface 21a.

本実施形態では、図11に示すように、前記スライドレール21の内部には、チャンネル部21dの内側面21a側に隣接してスライドレール21の延設方向(前後方向)に沿った中空部32を一体に成型してある。   In the present embodiment, as shown in FIG. 11, a hollow portion 32 is formed in the slide rail 21 along the extending direction (front-rear direction) of the slide rail 21 adjacent to the inner surface 21a side of the channel portion 21d. Is integrally molded.

以上の構成によりこの第1実施形態の車体前部構造によれば、前面衝突した際に衝突荷重はフロントバンパー部分から車体後方へと入力され、その衝突荷重の一部はフードリッジメンバ1の車体前方端部から入力される。   With the above configuration, according to the vehicle body front structure of the first embodiment, when a frontal collision occurs, the collision load is input from the front bumper portion to the rear of the vehicle body, and a part of the collision load is forward of the vehicle body of the hood ridge member 1. Input from the end.

このとき、フードリッジメンバ1は、その内部に内側閉断面部1Aを設けて増強してあり、この内側閉断面部1Aによって前面衝突時の入力荷重を受けてフードリッジメンバ1は変形しつつ荷重を伝達する。   At this time, the hood ridge member 1 is strengthened by providing an inner closed cross section 1A therein, and the hood ridge member 1 is deformed by receiving an input load at the time of a frontal collision by the inner closed cross section 1A. To communicate.

このフードリッジメンバ1に入力した荷重は、フードリッジメンバ1の車体後方端部を結合したフロントピラー2に入力されるが、このフロントピラー2には、その閉断面内部の前記フードリッジメンバ1の内側閉断面部1Aと対向する位置に結合した補強部材11が存在するため、この補強部材11によってフロントピラー2の変形を効果的に抑制することができる。   The load input to the hood ridge member 1 is input to the front pillar 2 which is coupled to the rear end of the vehicle body of the hood ridge member 1, and the front pillar 2 includes the hood ridge member 1 inside the closed cross section. Since the reinforcing member 11 coupled to the position facing the inner closed cross section 1A is present, deformation of the front pillar 2 can be effectively suppressed by the reinforcing member 11.

また、フロントピラー2に入力した荷重は、前記補強部材11の車体後方に結合したドア支持部材12に伝達された後、このドア支持部材12に支持されたフロントドア20のスライドレール21の湾曲前端部に伝達されるが、このとき、前記フードリッジメンバ1の内側閉断面部1Aと、前記補強部材11と、前記ドア支持部材12と、前記スライドレール21と、を車体前後方向に略一直線L上に配置してあるため、スライドレール21にはドア支持部材12から伝達される荷重を効率よく入力することができる。   Further, the load input to the front pillar 2 is transmitted to the door support member 12 coupled to the rear of the vehicle body of the reinforcing member 11 and then the curved front end of the slide rail 21 of the front door 20 supported by the door support member 12. At this time, the inner closed cross section 1A of the hood ridge member 1, the reinforcing member 11, the door support member 12, and the slide rail 21 are substantially aligned in the vehicle longitudinal direction. Since it is arranged above, the load transmitted from the door support member 12 can be efficiently input to the slide rail 21.

これにより、フードリッジメンバ1からの前面衝突荷重を車両後方に効率よく伝達するとともに、伝達経路の各部材1,11,12,21によって衝突エネルギーを効率よく吸収できるため、フロントピラー2自体の強度を過剰に増大する必要が無く、もって、フロントピラー2の形状および断面積の拡大を回避することができる。   As a result, the front collision load from the hood ridge member 1 can be efficiently transmitted to the rear of the vehicle, and the collision energy can be efficiently absorbed by the members 1, 11, 12, and 21 of the transmission path. Therefore, it is not necessary to excessively increase the width of the front pillar 2, and the enlargement of the shape and cross-sectional area of the front pillar 2 can be avoided.

また、このように衝突荷重を一直線上に配置した前記各部材1,11,12,21によって効率よく伝達・吸収できるため、フードリッジメンバ1とフロントピラー2との間に跨って連結したフロントウインドウパネル7の支持フレーム8に衝突荷重が入力するのを著しく低減して、この支持フレーム8の断面積を小さくできるため、前記フロントピラー2の形状および断面積の拡大を回避できることと相俟って、斜め前方視界を広く確保できる。   Further, since the collision load can be efficiently transmitted and absorbed by the members 1, 11, 12, 21 arranged in a straight line in this way, the front window connected between the hood ridge member 1 and the front pillar 2 is straddled. Combined with the fact that the input of a collision load to the support frame 8 of the panel 7 can be remarkably reduced and the cross-sectional area of the support frame 8 can be reduced, so that the increase in the shape and cross-sectional area of the front pillar 2 can be avoided. , Can ensure a wide oblique front view.

ところで、本実施形態にあっては前記作用効果に加えて、図8に示すように、フードリッジメンバ1には、車体前方からの荷重入力によりこのフードリッジメンバ1を車幅方向外方に変形させる脆弱部としてのビード30を形成したので、図9に示すように、フードリッジメンバ1の変形モードを車幅方向外方にコントロールし、キャビン内方への衝突荷重の伝達や変形を抑制することができる。   Incidentally, in the present embodiment, in addition to the above-described effects, as shown in FIG. 8, the hood ridge member 1 is deformed outward in the vehicle width direction by a load input from the front of the vehicle body. Since the bead 30 as the weakened portion is formed, as shown in FIG. 9, the deformation mode of the hood ridge member 1 is controlled outward in the vehicle width direction, and the transmission and deformation of the collision load to the cabin inward are suppressed. be able to.

また、ビード30は、フードリッジメンバ1の内側閉断面部1Aを構成する画成部材1Cの内側面1CaにV字状の凹設部としてプレスにより形成したので、脆弱部を簡単に形成することができる。   Further, the bead 30 is formed by pressing as a V-shaped recessed portion on the inner side surface 1Ca of the defining member 1C constituting the inner closed cross-sectional portion 1A of the hood ridge member 1, so that the fragile portion can be easily formed. Can do.

更に、フロントウインドウパネル7の支持フレーム8をフードリッジメンバ1にアーク溶接Waした溶接部分は、前面衝突時の荷重入力時に剥離可能としたので、フードリッジメンバ1は支持フレーム8に邪魔されることなく車体後方へ効率よく荷重伝達できるとともに、支持フレーム8およびフロントウインドウパネル7への荷重伝達を抑制してキャビン内への進入を抑制することができる。   Furthermore, since the welded portion where the support frame 8 of the front window panel 7 is arc-welded Wa to the hood ridge member 1 can be peeled off when a load is applied during a frontal collision, the hood ridge member 1 is obstructed by the support frame 8. As a result, the load can be efficiently transmitted to the rear of the vehicle body, and the load transmission to the support frame 8 and the front window panel 7 can be suppressed to prevent entry into the cabin.

更にまた、フードリッジメンバ1の外側本体1Bおよび内側本体1Dを結合するフランジ1Ba,1Daを車幅方向に対向する面として形成したので、前面衝突時の車体変形に対してフランジ1Ba,1Daは互いに離反する方向の荷重が作用して、フランジ1Ba,1Daのスポット溶接Wsを剥離できるため、前面衝突時に外側本体1Bを確実に車幅方向外方に変形させることができる。   Furthermore, since the flanges 1Ba and 1Da that connect the outer main body 1B and the inner main body 1D of the hood ridge member 1 are formed as surfaces facing in the vehicle width direction, the flanges 1Ba and 1Da are mutually opposed to deformation of the vehicle body at the time of a frontal collision. Since the load in the separating direction acts and the spot welds Ws of the flanges 1Ba and 1Da can be peeled off, the outer body 1B can be reliably deformed outward in the vehicle width direction at the time of a frontal collision.

また、フロントピラー2の閉断面内部に結合した閉断面構造の補強部材11は、その内部に発泡部材31を充填したので、この補強部材11による衝突エネルギーの吸収量を増大できるとともに、発泡部材31の材質や密度によって閉断面部分の強度を調整して、車体後方への伝達荷重量をコントロールすることができる。   Further, since the reinforcing member 11 having a closed cross-section structure coupled to the inside of the closed cross section of the front pillar 2 is filled with the foam member 31, the amount of collision energy absorbed by the reinforcing member 11 can be increased and the foam member 31 can be increased. It is possible to control the amount of load transmitted to the rear of the vehicle body by adjusting the strength of the closed section according to the material and density.

更に、スライドレール21の内部にスライドレール21の延設方向に沿った中空部32を一体に形成したので、スライドレール21の強度を高めることができるとともに、前面衝突のエネルギー吸収量および荷重伝達量を増大することができる。   Furthermore, since the hollow portion 32 along the extending direction of the slide rail 21 is integrally formed inside the slide rail 21, the strength of the slide rail 21 can be increased, and the energy absorption amount and load transmission amount of the frontal collision can be increased. Can be increased.

尚、本実施形態では前記補強部材11を、プレス成形した2部材11A,11Bを溶接Wsして形成したが、図12に示すように、液圧成型や押出し成型によって閉断面構造部分11Cを一体成型し、これにセンターピラー2に結合するためのフランジ11Dを取り付けることによっても補強部材11を形成することができる。   In this embodiment, the reinforcing member 11 is formed by welding Ws with two press-formed members 11A and 11B. However, as shown in FIG. 12, the closed cross-section structure portion 11C is integrally formed by hydraulic molding or extrusion molding. The reinforcing member 11 can also be formed by molding and attaching a flange 11D for coupling to the center pillar 2 thereto.

勿論、この一体成形した補強部材11にあっても、前記発泡部材31を充填することにより、衝突エネルギーの吸収量を増大し、車体後方への伝達荷重量のコントロールをすることができる。   Of course, even in the integrally formed reinforcing member 11, the amount of collision energy absorbed can be increased and the amount of load transmitted to the rear of the vehicle body can be controlled by filling the foamed member 31.

また、前記スライドレール21は押出し成型によりチャンネル部21dおよび中空部32を一体に形成したが、図13に示すように、プレス成形により別体に形成した断面コ字状部材32aをチャンネル部21dの内側面21a側に被せて溶接することによっても構成することができる。   Further, the slide rail 21 is formed by integrally forming the channel portion 21d and the hollow portion 32 by extrusion molding. However, as shown in FIG. 13, a U-shaped cross-sectional member 32a formed separately by press molding is formed on the channel portion 21d. It can also be configured by welding on the inner side surface 21a side.

図14は本発明の第2実施形態を示し、前記第1実施形態と同一構成部分に同一符号を付して重複する説明を省略して述べるものとし、図14はフードリッジメンバの要部断面図である。   FIG. 14 shows a second embodiment of the present invention, in which the same components as those in the first embodiment are denoted by the same reference numerals and redundant description is omitted, and FIG. 14 is a sectional view of the main part of the hood ridge member. FIG.

この第2実施形態の車体前部構造は、図14に示すように、フードリッジメンバ1の内側閉断面部1Aの側面、つまり、画成部材1Cの内側面1Caを車幅方向外方に湾曲形成した凹設湾曲部33を形成し、この凹設湾曲部33を脆弱部として用いてある。   As shown in FIG. 14, the vehicle body front portion structure of the second embodiment is configured such that the side surface of the inner closed cross section 1A of the hood ridge member 1, that is, the inner side surface 1Ca of the defining member 1C is curved outward in the vehicle width direction. The formed concave curved portion 33 is formed, and the concave curved portion 33 is used as the fragile portion.

従って、この第2実施形態によれば、前面衝突時の荷重が車体前方から入力されると、内側閉断面部1Aの内側面1Caが凹設湾曲部33から車幅方向外方に湾曲変形するため、前記第1実施形態と同様にフードリッジメンバ1の変形モードを車幅方向外方にコントロールし、キャビン内方への衝突荷重の伝達や変形を抑制することができる。   Therefore, according to the second embodiment, when a load at the time of a frontal collision is input from the front of the vehicle body, the inner side surface 1Ca of the inner closed cross section 1A is curved and deformed outward from the concave curved portion 33 in the vehicle width direction. Therefore, similarly to the first embodiment, the deformation mode of the hood ridge member 1 can be controlled outward in the vehicle width direction, and the transmission and deformation of the collision load to the cabin inward can be suppressed.

また、前記凹設湾曲部33は内側面1Caを単に湾曲形成するのみでよく、脆弱部をより簡単に形成することができる。   Further, the concave curved portion 33 only needs to bend the inner side surface 1Ca, and the fragile portion can be more easily formed.

図15は本発明の第3実施形態を示し、前記第1実施形態と同一構成部分に同一符号を付して重複する説明を省略して述べるものとし、図15はフードリッジメンバの要部断面図である。   FIG. 15 shows a third embodiment of the present invention, in which the same components as in the first embodiment are denoted by the same reference numerals and redundant description is omitted, and FIG. FIG.

この第3実施形態の車体前部構造は、図15に示すように、フードリッジメンバ1の内側閉断面部1Aの側面、つまり、画成部材1Cの内側面1Caを差厚鋼板で形成し、この内側面1Caの前後方向略中央部に板厚tを薄肉化した薄肉部分34を形成し、この薄肉部分34を脆弱部として用いてある。   As shown in FIG. 15, the vehicle body front structure of the third embodiment is formed by forming a side surface of the inner closed cross section 1 </ b> A of the hood ridge member 1, i.e., an inner surface 1 </ b> Ca of the defining member 1 </ b> C using a differential thickness steel plate, A thin portion 34 having a reduced thickness t is formed at a substantially central portion in the front-rear direction of the inner surface 1Ca, and the thin portion 34 is used as a fragile portion.

従って、この第3実施形態によれば、前面衝突時の荷重が車体前方から入力されると、内側閉断面部1Aの内側面1Caが薄肉部分34から車幅方向外方に湾曲変形するため、前記第2実施形態と同様にフードリッジメンバ1の変形モードを車幅方向外方にコントロールし、キャビン内方への衝突荷重の伝達や変形を抑制することができる。   Therefore, according to the third embodiment, when the load at the time of the frontal collision is input from the front of the vehicle body, the inner side surface 1Ca of the inner closed cross section 1A is curved and deformed outward from the thin portion 34 in the vehicle width direction. As in the second embodiment, the deformation mode of the hood ridge member 1 can be controlled to the outside in the vehicle width direction, and the transmission and deformation of the collision load to the cabin inward can be suppressed.

また、前記薄肉部分34にあっても薄肉部分34を形成した差厚鋼板を用いることで、脆弱部を簡単に形成することができる。   Moreover, even if it exists in the said thin part 34, a weak part can be easily formed by using the difference thickness steel plate in which the thin part 34 was formed.

図16は本発明の第4実施形態を示し、前記第1実施形態と同一構成部分に同一符号を付して重複する説明を省略して述べるものとし、図16はフードリッジメンバの要部断面図である。   FIG. 16 shows a fourth embodiment of the present invention, in which the same components as those in the first embodiment are denoted by the same reference numerals and redundant description is omitted, and FIG. 16 is a sectional view of the main part of the hood ridge member. FIG.

この第4実施形態の車体前部構造は、図16に示すように、フードリッジメンバ1の内側閉断面部1A内に発泡部材35を充填してある。   In the vehicle body front portion structure of the fourth embodiment, a foam member 35 is filled in the inner closed cross section 1A of the hood ridge member 1, as shown in FIG.

発泡部材35は前記内側閉断面部1Aの内側形状に沿って形成し、この内側閉断面部1A内を埋めるようにして密接させて挿入してある。   The foam member 35 is formed along the inner shape of the inner closed cross section 1A, and is inserted in close contact so as to fill the inner closed cross section 1A.

従って、この第4実施形態によれば、前面衝突時の荷重が車体前方から入力された場合に、フードリッジメンバ1が変形する際に、内側閉断面部1A内に充填した発泡部材35によって衝突エネルギーを効率よく吸収できるとともに、発泡部材35の材質や密度によって内側閉断面部1Aの強度を調整できるため、車体後方への伝達荷重量をコントロールすることができる。   Therefore, according to the fourth embodiment, when the load at the time of a frontal collision is input from the front of the vehicle body, when the hood ridge member 1 is deformed, the collision is caused by the foam member 35 filled in the inner closed cross section 1A. Since energy can be absorbed efficiently and the strength of the inner closed cross section 1A can be adjusted by the material and density of the foam member 35, the amount of load transmitted to the rear of the vehicle body can be controlled.

ところで、本発明の車体前部構造は前記第1〜第4実施形態に例をとって説明したが、これら実施形態に限ることなく本発明の要旨を逸脱しない範囲で他の実施形態を各種採用することができる。   By the way, although the vehicle body front structure of the present invention has been described by taking the first to fourth embodiments as examples, the present invention is not limited to these embodiments, and various other embodiments are adopted without departing from the scope of the present invention. can do.

本発明の第1実施形態における車体前部の要部骨格の斜視図である。It is a perspective view of the principal part skeleton of the vehicle body front part in a 1st embodiment of the present invention. 本発明の第1実施形態におけるフロントドアの内部構造の斜視図である。It is a perspective view of the internal structure of the front door in a 1st embodiment of the present invention. 本発明の第1実施形態における前面衝突荷重の流れを示す断面平面図である。It is a cross-sectional top view which shows the flow of the front collision load in 1st Embodiment of this invention. 本発明の第1実施形態におけるフードリッジメンバの分解斜視図である。It is a disassembled perspective view of the hood ridge member in 1st Embodiment of this invention. 本発明の第1実施形態におけるフードリッジメンバの組み付け状態の図4中A−A線に対応する断面図である。It is sectional drawing corresponding to the AA line in FIG. 4 of the assembly | attachment state of the hood ridge member in 1st Embodiment of this invention. 本発明の第1実施形態における補強部材の取り付け状態の斜視図である。It is a perspective view of the attachment state of the reinforcement member in 1st Embodiment of this invention. 本発明の第1実施形態におけるフードリッジメンバおよびこれに結合した支持フレームの斜視図である。It is a perspective view of the hood ridge member in 1st Embodiment of this invention, and the support frame couple | bonded with this. 本発明の第1実施形態におけるフードリッジメンバの通常状態の図4中B−B線に対応する断面図である。It is sectional drawing corresponding to the BB line in FIG. 4 of the normal state of the hood ridge member in 1st Embodiment of this invention. 本発明の第1実施形態におけるフードリッジメンバの衝突変形後の図4中B−B線に対応する断面図である。It is sectional drawing corresponding to the BB line in FIG. 4 after the impact deformation of the hood ridge member in 1st Embodiment of this invention. 本発明の第1実施形態における補強部材の分解斜視図である。It is a disassembled perspective view of the reinforcement member in 1st Embodiment of this invention. 本発明の第1実施形態におけるスライドレールの端部斜視図である。It is an edge part perspective view of the slide rail in 1st Embodiment of this invention. 本発明の第1実施形態の他の実施形態を示す補強部材の分解斜視図である。It is a disassembled perspective view of the reinforcement member which shows other embodiment of 1st Embodiment of this invention. 本発明の第1実施形態の他の実施形態を示すスライドレールの端部斜視図である。It is an edge part perspective view of the slide rail which shows other embodiment of 1st Embodiment of this invention. 本発明の第2実施形態におけるフードリッジメンバの要部断面図である。It is principal part sectional drawing of the hood ridge member in 2nd Embodiment of this invention. 本発明の第3実施形態におけるフードリッジメンバの要部断面図である。It is principal part sectional drawing of the hood ridge member in 3rd Embodiment of this invention. 本発明の第4実施形態におけるフードリッジメンバの要部断面図である。It is principal part sectional drawing of the hood ridge member in 4th Embodiment of this invention.

符号の説明Explanation of symbols

1 フードリッジメンバ
1A 内側閉断面部
2 フロントピラー(ピラー部材)
7 フロントウインドウパネル
8 フロントウインドウパネル支持フレーム
11 補強部材
12 ドア支持部材
21 スライドレール
30 ビード(脆弱部)
31 発泡部材
33 凹設湾曲部(脆弱部)
34 薄肉部分(脆弱部)
35 発泡部材
1 Hood Ridge Member 1A Inner closed cross section 2 Front pillar (pillar member)
7 Front window panel 8 Front window panel support frame 11 Reinforcement member 12 Door support member 21 Slide rail 30 Bead (fragile part)
31 Foam member 33 Recessed curved part (fragile part)
34 Thin part (fragile part)
35 Foam members

Claims (10)

車体前部の車体前後方向に延在する閉断面構造のフードリッジメンバと、
前記フードリッジメンバの車体後方端部を結合して車体上下方向に延在する閉断面構造のピラー部材と、
前記フードリッジメンバの前後方向中間部の上側と前記ピラー部材の上端部との間に跨って連結したフロントウインドウパネル支持フレームと、を備えた車体前部構造であって、
前記フードリッジメンバの内部に車体前後方向に延びる内側閉断面部を設け、
前記ピラー部材の閉断面内部の車体前後方向内側面間に跨って、前記内側閉断面部と対向する位置に閉断面構造の補強部材を結合配置し、
前記補強部材の車体後方にドア支持部材を結合し、このドア支持部材によりドアの前端部を、その内部に車体前後方向に配置したスライドレールの湾曲前端部を介して支持し、
前記フードリッジメンバの内側閉断面部と、前記補強部材と、前記ドア支持部材と、前記スライドレールと、を車体前後方向に略一直線上に配置したことを特徴とする車体前部構造。
A hood ridge member having a closed cross-sectional structure extending in the longitudinal direction of the vehicle body at the front of the vehicle body;
A pillar member having a closed cross-sectional structure extending in the vehicle body up-down direction by connecting the vehicle body rear end of the hood ridge member;
A front window panel support frame connected between the upper side of the middle part in the front-rear direction of the hood ridge member and the upper end part of the pillar member, and a vehicle body front structure comprising:
An inner closed cross section extending in the longitudinal direction of the vehicle body is provided inside the hood ridge member,
A reinforcing member having a closed cross-section structure is coupled and arranged at a position facing the inner closed cross-section portion across the inner side surface in the vehicle longitudinal direction inside the closed cross-section of the pillar member,
A door support member is coupled to the rear side of the vehicle body of the reinforcing member, and the front end portion of the door is supported by the door support member via a curved front end portion of a slide rail disposed in the longitudinal direction of the vehicle body.
A vehicle body front structure, wherein an inner closed cross section of the hood ridge member, the reinforcing member, the door support member, and the slide rail are arranged in a substantially straight line in the vehicle longitudinal direction.
フードリッジメンバに、車体前方からの荷重入力によりこのフードリッジメンバを車幅方向外方に変形させる脆弱部を形成したことを特徴とする請求項1に記載の車体前部構造。   2. The vehicle body front structure according to claim 1, wherein a fragile portion is formed in the hood ridge member to deform the hood ridge member outward in the vehicle width direction by a load input from the front of the vehicle body. 脆弱部は、フードリッジメンバの内側閉断面部の側面に形成したビードであることを特徴とする請求項2に記載の車体前部構造。   The vehicle body front part structure according to claim 2, wherein the fragile portion is a bead formed on a side surface of the inner closed cross section of the hood ridge member. 脆弱部は、フードリッジメンバの内側閉断面部の側面を車幅方向外方に湾曲形成した凹設湾曲部であることを特徴とする請求項2に記載の車体前部構造。   The vehicle body front part structure according to claim 2, wherein the fragile portion is a concave curved portion in which a side surface of the inner closed cross section of the hood ridge member is curved outward in the vehicle width direction. 脆弱部は、フードリッジメンバの内側閉断面部の側面の板厚を薄肉化した薄肉部分であることを特徴とする請求項2に記載の車体前部構造。   The vehicle body front part structure according to claim 2, wherein the fragile portion is a thin portion in which a plate thickness of a side surface of the inner closed cross-section portion of the hood ridge member is thinned. フードリッジメンバの内側閉断面部内に発泡部材を充填したことを特徴とする請求項1〜5のいずれか1つに記載の車体前部構造。   The vehicle body front part structure according to any one of claims 1 to 5, wherein a foam member is filled in an inner closed cross section of the hood ridge member. フードリッジメンバとフロントウインドウパネル支持フレームとは、前面衝突時の荷重入力で剥離可能に溶接したことを特徴とする請求項1〜6のいずれか1つに記載の車体前部構造。   The vehicle body front part structure according to any one of claims 1 to 6, wherein the hood ridge member and the front window panel support frame are welded so as to be peelable by a load input at the time of a frontal collision. フードリッジメンバは、2枚の板材を接合して閉断面構造に形成し、その接合部は車幅方向に対向する面で接合したことを特徴とする請求項1〜7のいずれか1つに記載の車体前部構造。   8. The hood ridge member according to claim 1, wherein two plate members are joined to form a closed cross-sectional structure, and the joining portion is joined on a surface facing the vehicle width direction. Vehicle body front structure as described. 補強部材は、内部に発泡部材を充填したことを特徴とする請求項1〜8のいずれか1つに記載の車体前部構造。   The vehicle body front part structure according to any one of claims 1 to 8, wherein the reinforcing member is filled with a foam member. スライドレールは、その内部に前後方向に沿った中空部を形成したことを特徴とする請求項1〜9のいずれか1つに記載の車体前部構造。

The vehicle body front part structure according to any one of claims 1 to 9, wherein the slide rail has a hollow portion formed in a longitudinal direction in the slide rail.

JP2003366463A 2003-10-27 2003-10-27 Front part structure for vehicle body Pending JP2005126018A (en)

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JP2007055340A (en) * 2005-08-23 2007-03-08 Daihatsu Motor Co Ltd Impact force absorbing structure of body front part of automobile
JP2009161086A (en) * 2008-01-09 2009-07-23 Honda Motor Co Ltd Sliding door structure of vehicle
WO2009125528A1 (en) 2008-04-08 2009-10-15 本田技研工業株式会社 Vehicle door structure and method of producing the same
FR2932146A1 (en) * 2008-06-05 2009-12-11 Peugeot Citroen Automobiles Sa Metallic rigidifying insert for body shell of motor vehicle, has reinforcement semi-shell for rigidifying main semi-shell, where insert is fixed inside main semi-shell and mounted in cavity delimited by two sheets of body shell of vehicle
FR2934233A1 (en) * 2008-07-28 2010-01-29 Peugeot Citroen Automobiles Sa SIDE REINFORCING ELEMENT FRONT OF A MOTOR VEHICLE BODY.
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WO2010092737A1 (en) 2009-02-11 2010-08-19 本田技研工業株式会社 Vehiclar door structure
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JP2011219033A (en) * 2010-04-13 2011-11-04 Honda Motor Co Ltd Vehicle body side part structure
JP2013159219A (en) * 2012-02-03 2013-08-19 Toyota Motor Corp Front pillar structure
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JP2007055340A (en) * 2005-08-23 2007-03-08 Daihatsu Motor Co Ltd Impact force absorbing structure of body front part of automobile
JP2009161086A (en) * 2008-01-09 2009-07-23 Honda Motor Co Ltd Sliding door structure of vehicle
WO2009125528A1 (en) 2008-04-08 2009-10-15 本田技研工業株式会社 Vehicle door structure and method of producing the same
JP2009269591A (en) * 2008-04-08 2009-11-19 Honda Motor Co Ltd Vehicle door structure and method of manufacturing the same
US8418408B2 (en) 2008-04-08 2013-04-16 Honda Motor Co., Ltd. Vehicle door structure and method for fabricating the same
FR2932146A1 (en) * 2008-06-05 2009-12-11 Peugeot Citroen Automobiles Sa Metallic rigidifying insert for body shell of motor vehicle, has reinforcement semi-shell for rigidifying main semi-shell, where insert is fixed inside main semi-shell and mounted in cavity delimited by two sheets of body shell of vehicle
CN102076551A (en) * 2008-07-28 2011-05-25 标致·雪铁龙汽车公司 Side reinforcement member for the front of an automobile body
FR2934233A1 (en) * 2008-07-28 2010-01-29 Peugeot Citroen Automobiles Sa SIDE REINFORCING ELEMENT FRONT OF A MOTOR VEHICLE BODY.
WO2010012916A1 (en) * 2008-07-28 2010-02-04 Peugeot Citroën Automobiles SA Side reinforcement member for the front of an automobile body
JP2010047188A (en) * 2008-08-22 2010-03-04 Daihatsu Motor Co Ltd Belt line part structure of automobile
WO2010092737A1 (en) 2009-02-11 2010-08-19 本田技研工業株式会社 Vehiclar door structure
US8727420B2 (en) 2009-02-11 2014-05-20 Honda Motor Co., Ltd. Vehicle door structure
US9102218B2 (en) 2009-02-11 2015-08-11 Honda Motor Co., Ltd. Vehicle door structure
FR2943302A1 (en) * 2009-03-17 2010-09-24 Peugeot Citroen Automobiles Sa CAISSE DE VEHICULE AUTOMOBILE
EP2230158A1 (en) 2009-03-17 2010-09-22 Peugeot Citroën Automobiles SA Motor vehicle body
JP2011219033A (en) * 2010-04-13 2011-11-04 Honda Motor Co Ltd Vehicle body side part structure
JP2013159219A (en) * 2012-02-03 2013-08-19 Toyota Motor Corp Front pillar structure
JP2016190598A (en) * 2015-03-31 2016-11-10 富士重工業株式会社 Vehicle body front part structure
FR3081424A1 (en) * 2018-05-24 2019-11-29 Psa Automobiles Sa VEHICLE WITH AT LEAST ONE LATERAL DOOR SIDING SUPPORT AND AN ELASTIC RETRACTOR

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