JP2006219020A - Motor room component mounting structure and motor room shock absorption structure - Google Patents

Abstract

PROBLEM TO BE SOLVED: To suppress a rearward movement of a hard part component installed in a motor room at the time of a frontal collision of the vehicle.
A vehicle driving motor 17 accommodated in a motor room 3 is attached to a suspension member 19 connected at least at the rear end side of the vehicle to a front side member 11, and an air compressor 25 is connected to the front of the motor 17 and the vehicle. Install so that it is integrated upward. A power conversion device 15 is installed on the component mounting frame 13 that connects both ends to the side member 11. When the air compressor 25 moves rearward of the vehicle and interferes with the component mounting frame 13 and absorbs the impact when the vehicle collides with the front of the vehicle, the motor 17 and the air compressor 25 move downward. The rear connecting portion 21 to the front side member 11 on the rear end side of the vehicle rotates around the fulcrum.
[Selection] Figure 1

Description

  The present invention relates to a component mounting structure in a motor room and a shock absorbing structure in a motor room at the front of the vehicle.

  As a high-strength hard part mounted on a vehicle, for example, an electric air-conditioning compressor is attached to an engine in a so-called hybrid vehicle using both a gasoline engine and an electric motor as drive sources, as in a conventional gasoline vehicle.

On the other hand, in an electric vehicle, for example, as described in Patent Document 1 below, a component mounting frame in which an air conditioner compressor that is a high-strength hard component is connected to a side member that is a vehicle body structural member in a motor room. It is mounted on the top.
JP-A-8-310252

  However, in the conventional motor room component mounting structure described above, high strength hard parts such as an air conditioner compressor are mounted on the component mounting frame. There is a risk of increasing the amount of deformation of the body panel components behind the motor room.

  In view of the above, an object of the present invention is to suppress the movement of hard parts installed in the motor room to the rear of the vehicle at the time of a frontal collision of the vehicle.

  The present invention mounts a hard part having a strength higher than that of a vehicle body structural member on a vehicle driving motor housed in a motor room in a front part of the vehicle and supports a part disposed above the motor. The main feature is that both ends of the frame in the vehicle width direction are connected to side members, and at least a part of the hard part is arranged in front of the part mounting frame.

  According to the present invention, a hard part having a strength higher than that of the vehicle body structural member is attached to the motor for driving the vehicle, and is disposed in front of the vehicle body from the component mounting frame, so that the hard part can be hardened at the time of a frontal collision of the vehicle. While the physical component interferes with the component mounting frame located behind the vehicle and absorbs the impact, the impact is efficiently transmitted to the side member, and the movement of the hard component installed in the motor room to the rear of the vehicle is suppressed. It is possible to prevent an increase in the amount of deformation of the vehicle body panel component behind the motor room.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 is a side cross-sectional view of a front part of a vehicle showing a component mounting structure in a motor room according to an embodiment of the present invention, and FIG. 2 is a plan view in the motor room. In addition, the direction shown by the arrow FR in FIGS.

  The motor room 3 in the front part of the vehicle 1 is formed between a front radiator 5 (not shown in FIG. 2) shown in FIG. 1, a rear dash panel 7, and hood ridge panels 9 on both sides in the vehicle width direction. Yes.

  A front side member 11 that is a side member extending in the vehicle front-rear direction is provided at the lower part of the hood ridge panel 9 on both sides in the vehicle width direction of the vehicle 1. As shown in FIG. 1, the front side member 11 bends downward at a bent portion 11 a as it goes from the motor room 3 toward the rear of the vehicle. It extends to.

  End portions of two component mounting frames 13 extending in the vehicle width direction are connected to the pair of left and right front side members 11 in the motor room 3, and a power conversion device 15 such as an inverter is provided on the component mounting frame 13. Install. The power conversion device 15 has a function of, for example, converting electric power generated by a fuel cell (not shown) mounted on the vehicle 1 from direct current to alternating current and supplying it to a vehicle driving motor 17 described later.

  The motor 17 for driving the vehicle is located below the power conversion device 15 and fixes the lower rear side thereof on the suspension member 19 while fixing the upper portion thereof to the front side member 11 via a bracket (not shown). 3 is a plan view in which the component mounting frame 13, the power conversion device 15, and the dash panel 7 in FIG. 2 are omitted.

  The suspension member 19 is connected and fixed to the left and right front side members 11 by a rear connecting portion 21 as shown in a plan view in FIG. 4 and a side view in FIG. The upper part in the vicinity of the part is fixed by the front connecting part 23.

  Then, an air compressor 25 as a hard part is integrally attached at the front and upper position of the motor 17 described above. At this time, at least a part of the air compressor 25 is arranged in front of the vehicle with respect to the component mounting frame 13. The air compressor 25 compresses air supplied to a fuel cell (not shown).

  The front side member 11, the suspension member 19, and the component mounting frame 13 described above constitute a vehicle body structural member.

  According to the component mounting structure in the motor room according to the above-described embodiment, when the air compressor 25 receives an impact toward the rear of the vehicle at the time of a frontal collision of the vehicle 1, the impact is caused by the interference with the component mounting frame 13 at the rear. This impact is further efficiently transmitted to the side member 11 connecting the component mounting frame 13.

  In addition, after interfering with the component mounting frame 13, the air compressor 25 acts to move the motor 17 located behind the lower part thereof downward, and at this time, the side member 11 is connected to the rear connecting part 21 which is a connecting part. The connected suspension member 19 rotates about the rear connecting portion 21 in the counterclockwise direction indicated by the arrow A in FIG. 1, and the motor 17 and the air compressor 25 move downward accordingly.

  As a result, the movement of the air compressor 25, which is a hard part installed in the motor room 3, to the rear of the vehicle can be suppressed, and an increase in the amount of deformation of the dash panel 7, which is the body panel part behind the motor room 3, can be prevented. be able to.

It is side surface sectional drawing of the vehicle front part which shows the components mounting structure in a motor room concerning one Embodiment of this invention. It is a top view in the motor room of FIG. It is the top view which abbreviate | omitted the component mounting frame, power converter, and dash panel in FIG. It is a top view which shows a suspension member with a front side member. It is a side view which shows a suspension member with a front side member.

Explanation of symbols

1 vehicle 3 motor room 11 front side member (body structure member)
13 Component mounting frame 17 Motor for driving vehicle 19 Suspension member 21 Rear connecting portion 25 Air compressor (hard parts)

Claims (5)

  A vehicle body width of a component mounting frame for mounting a hard component having a strength higher than that of a vehicle body structural member to a vehicle driving motor housed in a motor room in a front portion of the vehicle and supporting a component disposed above the motor. A component mounting structure in a motor room, wherein both ends in the direction are connected to side members, and at least a part of the hard component is disposed in front of the component mounting frame.   2. The motor according to claim 1, wherein the motor is attached to a suspension member having at least a rear end side of the vehicle connected to the side member, and the hard parts are arranged in front of and above the motor of the motor. In-room component mounting structure.   The motor room component mounting structure according to claim 1 or 2, wherein the hard component is an air compressor.   When mounting a hard part with a strength higher than that of the vehicle body structure member to the motor for driving the vehicle housed in the motor room in the front part of the vehicle, and when the hard part moves to the rear of the vehicle at the time of a frontal collision of the vehicle, The motor room is characterized in that an impact is absorbed by interfering with a component mounting frame that is located above the motor and on which a component is mounted, and a side member connected to both ends of the component mounting frame absorbs the impact. Shock absorbing structure.   The motor is attached to a suspension member at least on the rear end side of the vehicle connected to the side member, and the hard part is disposed in front of and above the motor, so that the hard part moves to the rear of the vehicle. When the suspension member interferes with the component mounting frame and absorbs the impact, the suspension member rotates with the connecting portion to the side member on the vehicle rear end side as a fulcrum, so that the hard component and the motor The shock absorbing structure in the motor room according to claim 4, wherein the motor moves downward.

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