JP2002286392A - Supporting structure of heat exchanger for vehicle - Google Patents
Supporting structure of heat exchanger for vehicleInfo
- Publication number
- JP2002286392A JP2002286392A JP2001086972A JP2001086972A JP2002286392A JP 2002286392 A JP2002286392 A JP 2002286392A JP 2001086972 A JP2001086972 A JP 2001086972A JP 2001086972 A JP2001086972 A JP 2001086972A JP 2002286392 A JP2002286392 A JP 2002286392A
- Authority
- JP
- Japan
- Prior art keywords
- vehicle
- heat exchanger
- pin
- air guide
- condenser
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Landscapes
- Cooling, Air Intake And Gas Exhaust, And Fuel Tank Arrangements In Propulsion Units (AREA)
- Vibration Dampers (AREA)
- Details Of Heat-Exchange And Heat-Transfer (AREA)
- Air-Conditioning For Vehicles (AREA)
Abstract
Description
【0001】[0001]
【発明の属する技術分野】本発明は、ラジエータや空調
用コンデンサ等の車両用熱交換器の支持構造に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a support structure for a heat exchanger for a vehicle such as a radiator or a condenser for an air conditioner.
【0002】[0002]
【従来の技術】一般に、ラジエータやコンデンサなどの
車両用熱交換器は、フロントバンパーの後方のエンジン
ルーム内の最前部に配置され、ブラケットなどを介して
車体から支持されている。このような支持構造におい
て、車両前方部の軽衝突によりフロントバンパーに衝撃
が作用すると、その衝撃を受けてバンパーが後退し、バ
ンパー、あるいはバンパーの後方に設けられた導風用ダ
クトが熱交換器に接触し、熱交換器が破損するおそれが
ある。そこで、従来はバンパーと熱交換器との距離を大
きくとり、軽衝突時の車体変形が熱交換器まで達しない
ようにして、熱交換器を保護していた。2. Description of the Related Art Generally, a vehicle heat exchanger such as a radiator or a condenser is disposed at the forefront in an engine room behind a front bumper, and is supported from a vehicle body via a bracket or the like. In such a support structure, when an impact acts on the front bumper due to a light collision at the front of the vehicle, the impact causes the bumper to retreat, and the bumper or a duct for wind guiding provided behind the bumper is connected to the heat exchanger. There is a risk of contact and damage to the heat exchanger. Therefore, conventionally, the distance between the bumper and the heat exchanger was increased to prevent the deformation of the vehicle body during a light collision from reaching the heat exchanger, thereby protecting the heat exchanger.
【0003】[0003]
【発明が解決しようとする課題】しかしながら、上述し
た従来の構成では、フロントバンパーとコンデンサとの
隙間を大きくとるため、車両のフロントオーバーハング
を短縮させる際の妨げになっていた。However, in the above-described conventional configuration, the clearance between the front bumper and the condenser is increased, which hinders the reduction of the front overhang of the vehicle.
【0004】本発明の目的は、車両軽衝突時の熱交換器
の損傷を防ぐとともに、車両のフロントオーバーハング
を小さくすることができる車両用熱交換器の支持構造を
提供することにある。[0004] It is an object of the present invention to provide a support structure for a vehicle heat exchanger that can prevent damage to the heat exchanger at the time of a light collision of the vehicle and reduce the front overhang of the vehicle.
【0005】[0005]
【課題を解決するための手段】実施の形態を示す図面に
対応づけて説明する。 (1)請求項1の発明は、連結部材22,23を介して
車両用熱交換器1を車体6に支持する構造に適用され
る。そして、車両前方からの衝撃荷重Fが熱交換器1に
作用したとき、連結部材23が破断するように、この連
結部材23を脆弱構造としたことにより上述した目的は
達成される。 (2)請求項2の発明は、請求項1に記載の車両用熱交
換器の支持構造において、連結部材22,23が、熱交
換器2の上面側および下面側にそれぞれ設けられてお
り、車両前方からの衝撃荷重Fが熱交換器1に作用した
とき、連結部材の少なくとも一方(23)が破断するよ
うに、連結部材の少なくとも一方(23)を脆弱構造と
したものである。 (3)請求項3の発明は、請求項2に記載の車両用熱交
換器の支持構造において、連結部材を、脆弱構造を有す
るピン部材23としたものである。 (4)請求項4の発明は、請求項2または3に記載の車
両用熱交換器の支持構造において、熱交換器1に、車室
外から流入した外気を熱交換器1に導く導風ダクト2を
固設し、導風ダクト2の上面および下面にそれぞれピン
部材22,23を形成したものである。 (5)請求項5の発明は、請求項4に記載の車両用熱交
換器の支持構造において、導風ダクト2が、車両前方か
らの衝撃荷重が作用する荷重作用部2aをピン部材2
2,23よりも車幅方向外側に有し、この荷重作用部2
aに車両前方からの衝撃荷重Fが作用したとき、ピン部
材23にねじり力が作用するように、ピン部材の少なく
とも一方(23)を非円形断面としたものである。An embodiment will be described with reference to the accompanying drawings. (1) The invention of claim 1 is applied to a structure in which the vehicle heat exchanger 1 is supported on the vehicle body 6 via the connecting members 22 and 23. The above-mentioned object is achieved by providing the connecting member 23 with a fragile structure so that the connecting member 23 is broken when an impact load F applied to the heat exchanger 1 from the front of the vehicle. (2) According to a second aspect of the present invention, in the vehicle heat exchanger supporting structure according to the first aspect, the connecting members 22 and 23 are provided on the upper surface side and the lower surface side of the heat exchanger 2, respectively. At least one of the connecting members (23) has a fragile structure such that when an impact load F from the front of the vehicle acts on the heat exchanger 1, at least one of the connecting members (23) is broken. (3) According to a third aspect of the present invention, in the vehicle heat exchanger support structure according to the second aspect, the connecting member is a pin member 23 having a fragile structure. (4) According to a fourth aspect of the present invention, in the vehicle heat exchanger support structure according to the second or third aspect, the wind guide duct for guiding the outside air flowing into the heat exchanger 1 from outside the vehicle compartment to the heat exchanger 1. 2 are fixed, and pin members 22 and 23 are formed on the upper surface and the lower surface of the air guide duct 2 respectively. (5) According to a fifth aspect of the present invention, in the support structure for a vehicle heat exchanger according to the fourth aspect, the wind guide duct 2 includes a load member 2a to which an impact load from the front of the vehicle is applied.
2 and 23 in the vehicle width direction outside.
At least one (23) of the pin members has a non-circular cross-section so that a torsional force acts on the pin member 23 when an impact load F from the front of the vehicle is applied to a.
【0006】なお、本発明の構成を説明する上記課題を
解決するための手段の項では、本発明を分かり易くする
ために実施の形態の図を用いたが、これにより本発明が
実施の形態に限定されるものではない。[0006] In the section of the means for solving the above-mentioned problems, which explains the configuration of the present invention, the drawings of the embodiments are used to make the present invention easier to understand. However, the present invention is not limited to this.
【0007】[0007]
【発明の効果】本発明によれば、次のような効果を奏す
る。 (1)車両用熱交換機を連結部材を介して車体に支持
し、車両前方からの衝撃果樹が作用したとき、連結部材
が破断するように連結部材を脆弱構造としたので、車両
のフロントオーバーハングを大きくすることなく、車両
軽衝突時の熱交換器の損傷を防止することができる。 (2)請求項2の発明によれば、連結部材を熱交換器の
上面側および下面側に設け、そのいずれか一方を脆弱構
造としたので、連結部材の一方が破断後も他方の連結部
材によって熱交換器が保持され、熱交換器が他の部品と
干渉して破損することを防止できる。 (3)請求項3の発明によれば、連結部材を脆弱構造を
有するピン部材として構成したので、連結部材の形成が
容易であり、コストが低減できる。 (4)請求項4の発明によれば、車室外から流入した外
気を熱交換器に導く導風ダクトを熱交換器に固設し、導
風ダクトの上面および下面にそれぞれ突起部を設けるよ
うにしたので、導風ダクトと熱交換器との隙間を小さく
することができ、導風ダクトによる導風効果が向上する
とともに、熱交換器後流側からの熱気の吹き返しを抑え
ることができる。 (5)請求項5の発明によれば、ピン部材の少なくとも
一方を非円形断面とし、車両前方からの衝撃荷重により
ピン部材にねじり力が作用するようにしたので、ピン部
材のみを容易に破断することができる。According to the present invention, the following effects can be obtained. (1) The vehicle heat exchanger is supported on the vehicle body via the connecting member, and when the impact fruit tree acts from the front of the vehicle, the connecting member has a fragile structure so that the connecting member is broken. The damage of the heat exchanger at the time of a light vehicle collision can be prevented without increasing the size. (2) According to the second aspect of the present invention, the connecting member is provided on the upper surface side and the lower surface side of the heat exchanger, and either one of the connecting members is made to have a fragile structure. Thus, the heat exchanger is held, and it is possible to prevent the heat exchanger from being damaged by interference with other components. (3) According to the third aspect of the present invention, since the connecting member is configured as a pin member having a fragile structure, the forming of the connecting member is easy and the cost can be reduced. (4) According to the invention of claim 4, the air guide duct for guiding the outside air flowing from outside the vehicle compartment to the heat exchanger is fixed to the heat exchanger, and the projections are provided on the upper surface and the lower surface of the air guide duct, respectively. Accordingly, the gap between the air guide duct and the heat exchanger can be reduced, the air guide effect by the air guide duct is improved, and the blowback of hot air from the downstream side of the heat exchanger can be suppressed. (5) According to the fifth aspect of the invention, at least one of the pin members has a non-circular cross section, and a torsional force is applied to the pin member by an impact load from the front of the vehicle, so that only the pin member is easily broken. can do.
【0008】[0008]
【発明の実施の形態】図1〜図7により本発明の実施の
形態を説明する。図1は、本発明の実施の形態に係わる
車両用熱交換器の支持構造を示す車両フロント部の斜視
図(斜め前方から見た図)である。エンジンルームの最
前部にはコンデンサ1が配置され、その後方にラジエー
タ(不図示)が配置される。コンデンサ1の左右端部に
は、一対のエアガイド2が取り付けられ、エアガイド2
とコンデンサ1の上部および下部はアッパパネル4およ
びロアパネル5を介して車体フレーム6(一部のみ図
示)から支持されている。この支持部の構造は後述す
る。エアガイド2の前方には、フロントバンパーの内部
に設けられるレインフォース部材3(以下、バンパーレ
インフォース)が配置されている。なお、エアガイド2
にはバンパーレインフォース3との干渉をさけるための
切り欠き部2aが形成されている。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described with reference to FIGS. FIG. 1 is a perspective view (as viewed from obliquely front) of a vehicle front portion showing a support structure for a vehicle heat exchanger according to an embodiment of the present invention. A condenser 1 is arranged at the forefront of the engine room, and a radiator (not shown) is arranged behind the condenser 1. A pair of air guides 2 is attached to left and right ends of the condenser 1.
The upper and lower portions of the condenser 1 are supported by a body frame 6 (only a part is shown) via an upper panel 4 and a lower panel 5. The structure of this support will be described later. A reinforcement member 3 (hereinafter, bumper reinforcement) provided inside the front bumper is disposed in front of the air guide 2. The air guide 2
Is formed with a notch 2a for preventing interference with the bumper reinforcement 3.
【0009】図2は、コンデンサ1とエアガイド2の要
部斜視図であり、図3(a)は図2の矢視a図(前方か
ら見た図)、図3(b)は図2のb-b線断面図、図3
(c)は図2の矢視c図(上方から見た図)である。図
2,3に示すように、エアガイド2は、コンデンサ1の
ヘッダパイプ1aを支持する支持部20と支持部20の
側端部から前方に連なる平板部21とからなる。支持部
20の上面には円形断面を有する円形ピン22が上方に
向かって突設され、支持部20の下面には矩形断面を有
する矩形ピン23が下方に向かって突設されている。FIG. 2 is a perspective view of a main part of the condenser 1 and the air guide 2. FIG. 3 (a) is a view as viewed in the direction of an arrow in FIG. 2 (a view as viewed from the front), and FIG. Bb line sectional view of FIG. 3,
(C) is an arrow c view of FIG. 2 (view from above). As shown in FIGS. 2 and 3, the air guide 2 includes a support portion 20 that supports the header pipe 1 a of the condenser 1 and a flat plate portion 21 that extends forward from a side end of the support portion 20. A circular pin 22 having a circular cross section protrudes upward from the upper surface of the support portion 20, and a rectangular pin 23 having a rectangular cross section protrudes downward from the lower surface of the support portion 20.
【0010】支持部20の上下内側面には、ヘッダパイ
プ1aと同一の幅を有する切り欠き溝24がそれぞれ車
幅方向にわたって形成されている。切り欠き溝24の入
口には上下方向に爪25が突設され、爪25の先端はコ
ンデンサ1のコア部1bの上下端面とヘッダパイプ1a
の上下端面の間に位置している。ヘッダパイプ1aは、
上下の爪25を押し広げつつ図示のように爪25を乗り
越えて切り欠き溝24に挿入され、これによりコンデン
サ1とエアガイド2が一体化される。このように一体化
することで、エアガイド2とコンデンサ1を別々に車体
6から支持する場合に比べ、エアガイド2とコンデンサ
1の隙間(図3(c)のL)を小さくすることができる
とともに、支持部の部品点数も節約される。Notched grooves 24 having the same width as the header pipe 1a are formed in the upper and lower inner surfaces of the support portion 20 in the vehicle width direction. At the entrance of the notch groove 24, a claw 25 is projected in the vertical direction.
It is located between the upper and lower end faces. The header pipe 1a
As shown in the figure, the upper and lower claws 25 are pushed and spread to get over the claws 25 and inserted into the cutout grooves 24, whereby the condenser 1 and the air guide 2 are integrated. With such integration, the gap (L in FIG. 3C) between the air guide 2 and the condenser 1 can be reduced as compared with the case where the air guide 2 and the condenser 1 are separately supported from the vehicle body 6. At the same time, the number of parts of the support portion is saved.
【0011】一体化したコンデンサ1とエアガイド2は
図4に示すようにアッパパネル4およびロアパネル5に
取り付ける。すなわち、まず、略ボックス状のマウント
ゴム27を介して、ロアブラケット5に設けられた矩形
穴5aに矩形ピン23を挿入する。次いで、略円筒状の
マウントゴム26を介し、アッパブラケット4に設けら
れた円形穴4aを円形ピン22に挿入する。最後に、図
1に示すようにアッパパネル4をボルト7によって車体
フレーム6に締結し、これによりコンデンサ1とエアガ
イド2がマウントゴム26,27を介してアッパパネル
4およびロアパネル5に挟持される。The integrated condenser 1 and air guide 2 are attached to an upper panel 4 and a lower panel 5 as shown in FIG. That is, first, the rectangular pin 23 is inserted into the rectangular hole 5 a provided in the lower bracket 5 via the substantially box-shaped mount rubber 27. Next, the circular hole 4 a provided in the upper bracket 4 is inserted into the circular pin 22 via the substantially cylindrical mount rubber 26. Finally, as shown in FIG. 1, the upper panel 4 is fastened to the vehicle body frame 6 by bolts 7, whereby the condenser 1 and the air guide 2 are sandwiched between the upper panel 4 and the lower panel 5 via the mounting rubbers 26, 27.
【0012】次に、図5〜7を用いて本実施の形態の動
作を説明する。なお、図5は衝突前および衝突後のコン
デンサ1およびエアガイド2の変形状態を示す図であ
り、図6はエアガイド2の下部の変形状態を示す図(図
4の矢視VI図)、図7はエアガイド2の上部の変形状態
を示す図(図4の矢視VII図)である。車両軽衝突前に
おいて、車室外からの空気はフロントマフラーの開口部
(不図示)を介して車両前方からエンジン室に取り込ま
れ、エアガイド2によってコンデンサ1に導かれて、さ
らにその後方のラジエータを通過する。これにより、コ
ンデンサ1で空気と冷媒が熱交換され、ラジエータで空
気と冷却水が熱交換される。この場合、前述したよう
に、コンデンサ1とエアガイド2の前後方向の隙間Lが
小さいので、エアガイド2による導風効果が高く、エン
ジン室内に導入された外気は効率よくコンデンサ1、ラ
ジエータに導かれるとともに、コンデンサ1の後流側か
らの熱気の吹き返しが抑えられ、熱交換効率が向上す
る。Next, the operation of this embodiment will be described with reference to FIGS. FIG. 5 is a view showing a deformed state of the condenser 1 and the air guide 2 before and after the collision, FIG. 6 is a view showing a deformed state of a lower portion of the air guide 2 (a VI view in FIG. 4), FIG. 7 is a view showing a deformed state of the upper portion of the air guide 2 (a view taken in the direction of arrow VII in FIG. 4). Prior to a light vehicle collision, air from outside the vehicle compartment is taken into the engine compartment from the front of the vehicle via an opening (not shown) of the front muffler, guided to the condenser 1 by the air guide 2, and further passed through the radiator behind the vehicle. pass. Thereby, the heat exchange between the air and the refrigerant is performed by the condenser 1, and the heat exchange is performed between the air and the cooling water by the radiator. In this case, as described above, since the gap L between the condenser 1 and the air guide 2 in the front-rear direction is small, the air guide effect by the air guide 2 is high, and the outside air introduced into the engine room is efficiently guided to the condenser 1 and the radiator. As a result, the backflow of hot air from the downstream side of the condenser 1 is suppressed, and the heat exchange efficiency is improved.
【0013】フロントバンパーが車両前方部の障害物と
軽衝突すると、バンパーレインフォース3が後退し、エ
アガイド2の切り欠き部2aには後方への衝撃荷重Fが
作用する。ここで、切り欠き部2aは、エアガイド支持
用の円形ピン22および矩形ピン23よりも車幅方向左
右外側に設けられているため、衝撃荷重Fはピン22,
23を支点にした水平方向曲げ荷重となる。この場合、
円形ピン22はアッパパネル4に対して水平方向に回転
可能であるため、図5に示すように、エアガイド2はピ
ン22を支点にして相対回転する。一方、矩形ピン23
はロアパネル5に対して水平方向に回転不能であるた
め、曲げ荷重によってピン23には水平方向のねじり力
が作用し、ねじり力が矩形ピン23の破断強度を上回る
と、図6に示すように矩形ピン23が破断する。この場
合、矩形ピン23の取り付け部周辺にはスリット2sが
設けられ、ピン23の強度が下げられている。その結
果、衝撃荷重Fによってコンデンサ1が破損する前に矩
形ピン23が破断する。When the front bumper collides lightly with an obstacle in the front of the vehicle, the bumper reinforce 3 retreats and a rearward impact load F acts on the notch 2a of the air guide 2. Here, since the notch 2a is provided on the left and right sides in the vehicle width direction with respect to the circular pin 22 and the rectangular pin 23 for supporting the air guide, the impact load F is
A horizontal bending load with 23 as a fulcrum. in this case,
Since the circular pin 22 is rotatable in the horizontal direction with respect to the upper panel 4, as shown in FIG. 5, the air guide 2 rotates relative to the pin 22 as a fulcrum. On the other hand, the rectangular pin 23
Cannot rotate in the horizontal direction with respect to the lower panel 5, a horizontal torsional force acts on the pin 23 due to the bending load, and when the torsional force exceeds the breaking strength of the rectangular pin 23, as shown in FIG. The rectangular pin 23 breaks. In this case, a slit 2s is provided around the mounting portion of the rectangular pin 23, and the strength of the pin 23 is reduced. As a result, the rectangular pin 23 is broken before the capacitor 1 is damaged by the impact load F.
【0014】矩形ピン23の破断後は、図7に示すよう
に、バンパーレインフォース3によってエアガイド2の
下部が車両後方に押され、コンデンサ1およびエアガイ
ド2は円形ピン26を介してアッパパネル4から保持さ
れる。これにより、軽衝突後にコンデンサ1が他の部品
と接触することを防止でき、コンデンサ1を保護するこ
とができる。その後、エアガイド2を修理する場合に
は、矩形ピン23を新たに取り付けるだけでよく、修理
費も安価である。After the rectangular pin 23 is broken, as shown in FIG. 7, the lower portion of the air guide 2 is pushed to the rear of the vehicle by the bumper reinforcement 3, and the condenser 1 and the air guide 2 are connected to the upper panel 4 via the circular pin 26. Held from. As a result, the capacitor 1 can be prevented from coming into contact with other components after a light collision, and the capacitor 1 can be protected. Thereafter, when the air guide 2 is repaired, it is only necessary to newly attach the rectangular pin 23, and the repair cost is low.
【0015】このように本実施の形態によると、コンデ
ンサ1とエアガイド2を一体化するとともに、エアガイ
ド2の上下面にそれぞれ円形ピン22および矩形ピン2
3を突設し、エアガイド2の前側の切り欠き部2aでフ
ロントバンパーからの衝撃荷重を受けるようにした。こ
れにより、軽衝突時に、ピン22,23を支点にしてエ
アガイド2に水平方向の曲げ荷重が作用し、矩形ピン2
3が破断してコンデンサ1が後方に退避される。その結
果、コンデンサ1の破損が防止されるので、フロントバ
ンパーとコンデンサ1との距離を狭めることができ、フ
ロントオーバーハングを小さくすることができる。この
場合、ピン23を矩形断面としたので、ねじり力によっ
てピン23を容易に破断することができる。As described above, according to the present embodiment, the condenser 1 and the air guide 2 are integrated, and the circular pin 22 and the rectangular pin
3 is provided so as to receive an impact load from the front bumper in the notch 2a on the front side of the air guide 2. Thereby, at the time of a light collision, a horizontal bending load acts on the air guide 2 with the pins 22 and 23 as fulcrums,
3 breaks and the capacitor 1 is retracted rearward. As a result, the capacitor 1 is prevented from being damaged, so that the distance between the front bumper and the capacitor 1 can be reduced, and the front overhang can be reduced. In this case, since the pin 23 has a rectangular cross section, the pin 23 can be easily broken by the torsional force.
【0016】また、円形ピン22は破損しないので、コ
ンデンサ1とエアガイド2は円形ピン22で仮保持さ
れ、コンデンサ1が他の部品と干渉して破損することを
防止できる。さらに、コンデンサ1とエアガイド2を一
体化したので、コンデンサ1とエアガイド2の隙間Lを
小さくすることができ、エアガイド2による導風効果が
高められるとともに、コンデンサ後流側からの熱気の吹
き返しが抑えられ、コンデンサ1およびラジエータの熱
交換効率が向上する。さらにまた、ピン22,23によ
りコンデンサ1およびエアガイド2と車体とを連結した
ので、脆弱構造を有する連結部材を容易に形成すること
ができ、コストが低減できる。Further, since the circular pin 22 is not damaged, the capacitor 1 and the air guide 2 are temporarily held by the circular pin 22, so that the capacitor 1 can be prevented from being damaged by interference with other parts. Further, since the condenser 1 and the air guide 2 are integrated, the gap L between the condenser 1 and the air guide 2 can be reduced, the air guide effect by the air guide 2 is enhanced, and the hot air from the wake side of the condenser is reduced. Blowback is suppressed, and the heat exchange efficiency of the condenser 1 and the radiator is improved. Furthermore, since the capacitor 1 and the air guide 2 are connected to the vehicle body by the pins 22 and 23, a connecting member having a fragile structure can be easily formed, and the cost can be reduced.
【0017】以上のように本発明は、コンデンサ1など
の熱交換器をピン22,23を介して車体に連結すると
ともに、少なくともピンの一方(矩形ピン23)を脆弱
構造とし、車両前側の軽衝突時に、ピン23を破断させ
ることでコンデンサ1などに衝撃荷重が作用することを
回避したことを特徴とするものであり、これは上述した
実施の形態に限定されず種々の形態で実施することがで
きる。例えば、上記実施の形態では、コンデンサ1とエ
アガイド2を一体化し、エアガイド2にピン22,23
を設けたが、コンデンサ1にピン22,23を設けるよ
うにしてもよい。また、上記実施の形態ではコンデンサ
1の支持構造について主に説明したが、ラジエータも同
様に支持してもよい。As described above, according to the present invention, the heat exchanger such as the condenser 1 is connected to the vehicle body via the pins 22 and 23, and at least one of the pins (the rectangular pin 23) has a fragile structure, and the light weight on the front side of the vehicle is reduced. It is characterized in that an impact load is prevented from acting on the capacitor 1 or the like by breaking the pin 23 at the time of collision, and this is not limited to the above-described embodiment, and may be implemented in various forms. Can be. For example, in the above embodiment, the condenser 1 and the air guide 2 are integrated, and the pins 22 and 23 are
However, pins 22 and 23 may be provided on the capacitor 1. In the above embodiment, the structure for supporting the capacitor 1 has been mainly described. However, the radiator may be similarly supported.
【0018】さらに、エアガイド2の上面のピン23を
矩形断面としたが、矩形以外の非円形断面(例えば楕円
断面)であってもよい。さらにまた、矩形ピン23の周
囲にスリット2sを設けたが、ピン23の断面形状(断
面積など)を適宜設定したり、材質を変更することでピ
ン23の強度を調整するようにしてもよい。また、エア
ガイド2の下面に矩形ピン23を設けたが、上面に設け
てもよく、上下両面に設けてもよい。さらに、コンデン
サ1およびエアガイド2を支持する際に、アッパパネル
4の円形穴4aを円形ピン22に挿入するようにしたが
(図4)、アッパパネル4とは別体のブラケットを設
け、このブラケットを介してピン22とアッパパネル4
を結合するようにしてもよい。Furthermore, although the pin 23 on the upper surface of the air guide 2 has a rectangular cross section, it may have a non-circular cross section other than a rectangle (for example, an elliptical cross section). Furthermore, although the slit 2s is provided around the rectangular pin 23, the strength of the pin 23 may be adjusted by appropriately setting the cross-sectional shape (such as the cross-sectional area) of the pin 23 or changing the material. . Further, although the rectangular pins 23 are provided on the lower surface of the air guide 2, they may be provided on the upper surface or on both upper and lower surfaces. Furthermore, when supporting the condenser 1 and the air guide 2, the circular hole 4a of the upper panel 4 is inserted into the circular pin 22 (FIG. 4), but a bracket separate from the upper panel 4 is provided, and this bracket is used. Via pin 22 and upper panel 4
May be combined.
【0019】また、上記実施の形態では、熱交換器側
(エアガイド2)にピン22,23を設けるようにした
が、車体側(アッパパネル4,ロアパネル5)にピン2
2,23を設け、熱交換器側にピン22,23の嵌合穴を
設けるようにしてもよい。さらに、ピン22,23を介
してコンデンサ1と車体とを連結するようにしたが、ピ
ン以外の他の部品を介して連結し、この連結部材を脆弱
構造としてもよい。In the above embodiment, the pins 22 and 23 are provided on the heat exchanger side (air guide 2). However, the pins 2 and 23 are provided on the vehicle body side (upper panel 4 and lower panel 5).
2, 23 may be provided, and a fitting hole for the pins 22, 23 may be provided on the heat exchanger side. Further, although the capacitor 1 and the vehicle body are connected via the pins 22 and 23, the connection member may be connected via other components other than the pins and the connecting member may have a weak structure.
【0020】以上の実施の形態と請求項との対応におい
て、ピン22,23が連結部材およびピン部材を、コン
デンサ1とラジエータが熱交換器を、エアガイド2が導
風ダクトを、切り欠き部2aが荷重作用部を、それぞれ
構成する。In the correspondence between the above embodiment and the claims, the pins 22 and 23 serve as connecting members and pin members, the condenser 1 and the radiator serve as heat exchangers, the air guide 2 serves as a wind guide duct, and the cutout portions. 2a constitutes a load application part, respectively.
【図1】本発明の実施の形態に係る車両用熱交換器の支
持構造を示す車両フロント部の斜視図。FIG. 1 is a perspective view of a vehicle front portion showing a support structure of a vehicle heat exchanger according to an embodiment of the present invention.
【図2】本実施の形態に係わるコンデンサとエアガイド
の要部斜視図。FIG. 2 is a perspective view of a main part of a condenser and an air guide according to the embodiment.
【図3】(a)は図2の矢視a図、(b)は図2のb-
b線断面図、(c)は図2の矢視c図。3 (a) is a view as viewed from an arrow in FIG. 2, and FIG. 3 (b) is a view in FIG.
FIG. 3B is a sectional view taken along line b, and FIG.
【図4】本実施の形態に係わる車両用熱交換器の支持構
造を説明する図。FIG. 4 is a diagram illustrating a support structure of the vehicle heat exchanger according to the embodiment.
【図5】本実施の形態に係わる車両用熱交換器の衝突前
および衝突後の変形状態を示す図。FIG. 5 is a diagram showing a deformed state of the vehicle heat exchanger according to the present embodiment before and after the collision.
【図6】エアガイドの下部の変形状態を示す図(図4の
矢視VI図)。6 is a view showing a deformed state of a lower portion of the air guide (a VI view in FIG. 4).
【図7】エアガイドの上部の変形状態を示す図(図4の
矢視VII図)。FIG. 7 is a diagram showing a deformed state of an upper portion of the air guide (a view taken along arrow VII in FIG. 4).
1 コンデンサ 2 エアガイド 2a 切り欠き部 4 アッパパ
ネル 5 ロアパネル 6 車体フレー
ム 22 円形ピン 23 矩形ピンDESCRIPTION OF SYMBOLS 1 Condenser 2 Air guide 2a Notch 4 Upper panel 5 Lower panel 6 Body frame 22 Round pin 23 Rectangular pin
フロントページの続き Fターム(参考) 3D038 AA10 AB01 AC01 AC07 AC11 AC13 AC20 3J066 AA01 AA23 BA03 BB04 BC03 BF12 BG04 3L065 AA03 AA04 AA05 AA09 Continued on front page F term (reference) 3D038 AA10 AB01 AC01 AC07 AC11 AC13 AC20 3J066 AA01 AA23 BA03 BB04 BC03 BF12 BG04 3L065 AA03 AA04 AA05 AA09
Claims (5)
に支持する構造において、 車両前方からの衝撃荷重が前記熱交換器に作用したと
き、前記連結部材が破断するように、この連結部材を脆
弱構造としたことを特徴とする車両用熱交換器の支持構
造。1. A structure for supporting a heat exchanger for a vehicle on a vehicle body via a connecting member, wherein the connecting member is broken such that when an impact load from the front of the vehicle acts on the heat exchanger. A support structure for a vehicle heat exchanger, wherein the member has a fragile structure.
構造において、 前記連結部材は、前記熱交換器の上面側および下面側に
それぞれ設けられており、 車両前方からの衝撃荷重が前記熱交換器に作用したと
き、前記連結部材の少なくとも一方が破断するように、
前記連結部材の少なくとも一方を脆弱構造としたことを
特徴とする車両用熱交換器の支持構造。2. The support structure for a vehicle heat exchanger according to claim 1, wherein the connecting members are provided on an upper surface side and a lower surface side of the heat exchanger, respectively, and an impact load from the front of the vehicle is provided. When acting on the heat exchanger, so that at least one of the connecting members breaks,
A support structure for a vehicle heat exchanger, wherein at least one of the connecting members has a fragile structure.
構造において、 前記連結部材は、脆弱構造を有するピン部材であること
を特徴とする車両用熱交換器の支持構造。3. The support structure for a vehicle heat exchanger according to claim 2, wherein the connecting member is a pin member having a fragile structure.
器の支持構造において、 前記熱交換器に、車室外から流入した外気を前記熱交換
器に導く導風ダクトを固設し、前記導風ダクトの上面お
よび下面にそれぞれ前記ピン部材を形成したことを特徴
とする車両用熱交換器の支持構造。4. The support structure for a vehicle heat exchanger according to claim 2, wherein a wind guide duct for guiding outside air flowing from outside the vehicle compartment to the heat exchanger is fixed to the heat exchanger. A support structure for a vehicle heat exchanger, wherein the pin members are formed on upper and lower surfaces of the wind guide duct, respectively.
構造において、 前記導風ダクトは、車両前方からの衝撃荷重が作用する
荷重作用部を前記ピン部材よりも車幅方向外側に有し、 この荷重作用部に車両前方からの衝撃荷重が作用したと
き、前記ピン部材にねじり力が作用するように、前記ピ
ン部材の少なくとも一方を非円形断面としたことを特徴
とする車両用熱交換器の支持構造。5. The support structure for a heat exchanger for a vehicle according to claim 4, wherein the air guide duct is configured such that a load acting portion to which an impact load from the front of the vehicle is applied is located outside the pin member in the vehicle width direction. For a vehicle, at least one of the pin members has a non-circular cross-section so that when an impact load from the front of the vehicle is applied to the load acting portion, a torsional force acts on the pin members. Support structure for heat exchanger.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2001086972A JP2002286392A (en) | 2001-03-26 | 2001-03-26 | Supporting structure of heat exchanger for vehicle |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2001086972A JP2002286392A (en) | 2001-03-26 | 2001-03-26 | Supporting structure of heat exchanger for vehicle |
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Publication Number | Publication Date |
---|---|
JP2002286392A true JP2002286392A (en) | 2002-10-03 |
Family
ID=18942269
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP2001086972A Pending JP2002286392A (en) | 2001-03-26 | 2001-03-26 | Supporting structure of heat exchanger for vehicle |
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