JP2021160523A - Device arrangement structure in engine room - Google Patents

Abstract

To provide a device arrangement structure in an engine room that can save space and is improved in layout property.SOLUTION: A device arrangement structure 1 in an engine room 120 includes a PCU10 and a resonator 20 arranged above the PCU10. The PCU10 includes PCU cases 11, 12 and a PCU cover/resonator case 13 arranged above the PCU case 12. The resonator 20 includes a PCU cover/resonator case 13 and a resonator cover 21 arranged above the PCU cover/resonator case 13.SELECTED DRAWING: Figure 1

Description

The present invention relates to an arrangement structure of equipment in an engine room.

Conventionally, in the engine room provided in the front part of a vehicle such as a hybrid vehicle, many devices such as a power control unit (hereinafter, also referred to as PCU) and a resonator are arranged in addition to an engine and an electric motor. Since the space in the engine room is limited, various studies have been made on the arrangement of equipment.

FIG. 2 is a perspective view showing the inside of the engine room 120 in a conventional vehicle. Further, FIG. 3 is a diagram showing an arrangement structure of equipment in the engine room 120 shown in FIG. As shown in FIGS. 2 and 3, the vehicle 100 is manufactured by die-casting aluminum on the left side of the engine body 130 in the engine room 120 provided in the front portion of the vehicle body 110 and above the motor case 140. It is known that the PCU 150 and the resin resonator (intake system silencer) 160 fixed by the bolt B directly above the PCU 150 are mounted to effectively utilize the space in the engine room 120 (for example). See Patent Document 1).

Japanese Patent No. 6526741

However, in the arrangement structure of the device of Patent Document 1, it is necessary to provide a gap between the PCU 150 and the resonator 160 in order to prevent interference due to factors such as vibration and deterioration.

The present invention has been made in view of the above problems, and an object of the present invention is to provide a structure for arranging devices in an engine room, which can realize space saving and improve layout.

(1) The arrangement structure of the equipment in the engine room according to the present invention (for example, the arrangement structure 1 of the equipment described later) is arranged above the power control unit (for example, the PCU 10 described later) and the power control unit. It is an arrangement structure of a resonator (for example, a resonator 20 described later) and equipment in an engine room provided, and the power control unit is a PCU case (for example, PCU cases 11 and 12 described later) and an upper part of the PCU case. The resonator case has a PCU cover (for example, a PCU cover and a resonator case 13 described later) arranged in the PCU cover, and the resonator case is integrated with the PCU cover (for example, a PCU cover and a resonator case 13 described later). And a resonator cover (for example, a resonator cover 21 described later) arranged above the resonator case.

According to the arrangement structure of the device according to the invention of (1), since the PCU cover is integrated with the resonator case and also used, the number of parts can be reduced, space can be saved, and layout can be improved. Further, since the PCU cover is integrated with the resonator case, the mounting parts that generate heat inside the PCU can be cooled by the air flowing through the resonator, and the cooling performance of the PCU can be improved.

(2) In the arrangement structure of the equipment of (1), the resonator case integrated with the PCU cover may be made of a metal material containing aluminum.

According to the device arrangement structure of (2), since the resonator case integrated with the PCU cover is made of a metal material containing aluminum, the heat transfer coefficient between the PCU and the resonator can be increased. Therefore, the cooling performance of the PCU can be further improved. Further, since the resonator case, which is conventionally made of resin, is made of a metal material containing aluminum, high rigidity can be imparted to the resonator and deterioration due to vibration can be suppressed.

(3) In the arrangement structure of the equipment of (1) or (2), the resonator case integrated with the PCU cover has an air flow direction in the resonator (for example, an air flow described later) on the upper portion thereof. It may have a plurality of fins extending in the direction X).

According to the arrangement structure of the device of (3), since the resonator case integrated with the PCU cover has a plurality of fins extending in the air flow direction in the resonator at the upper part thereof, the fins are cooled. Due to the effect, the cooling performance of the PCU can be further improved.

(4) In the arrangement structure of the equipment of (3), the plurality of fins may be closer to each other in the air flow direction at a position where the amount of heat generated by the power control unit is larger.

According to the arrangement structure of the equipment of (4), the distance between the plurality of fins is narrower at the position where the heat generation amount of the PCU is larger in the air flow direction, so that the air flow velocity is increased at the position where the heat generation amount is large. , The PCU can be cooled more efficiently.

(5) In the arrangement structure of the equipment of (3) or (4), the height of the plurality of fins may be higher in the air flow direction at a position where the amount of heat generated by the power control unit is larger.

According to the arrangement structure of the equipment of (5), the height of the plurality of fins is higher at the position where the amount of heat generated by the PCU is larger in the air flow direction. The PCU can be cooled more efficiently while suppressing it.

(6) In the arrangement structure of any of the devices (3) to (5), the resonator case integrated with the PCU cover may have a heat radiation fin at the lower portion thereof.

According to the device arrangement structure of (6), the resonator case integrated with the PCU cover has a plurality of fins extending in the air flow direction in the resonator at the upper part thereof, and at the lower part thereof. Since it has heat radiation fins, the cooling effect of the PCU is further enhanced, and the degree of freedom in designing the shape on the resonator side can be increased.

According to the present invention, it is possible to realize space saving and provide an arrangement structure of devices in an engine room with improved layout.

It is a figure which shows the arrangement structure of the apparatus in the engine room which concerns on one Embodiment of this invention. It is a perspective view which shows the inside of the engine room in a conventional vehicle. It is a figure which shows the arrangement structure of the apparatus in the engine room shown in FIG.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings.

First, the configuration of the equipment arrangement structure 1 in the engine room will be described with reference to FIG. FIG. 1 is a diagram showing an arrangement structure 1 of equipment in an engine room according to an embodiment of the present invention.

As shown in FIG. 1, the arrangement structure 1 of the equipment in the engine room in the vehicle includes a PCU 10, a resonator 20, and the like. That is, the device in this embodiment means a PCU, a resonator, or the like.

The PCU 10 is arranged directly above the motor case 140 as shown in FIG. The PCU 10 has PCU cases 11 and 12 and a PCU cover / resonator case 13. More specifically, the PCU case 12 is arranged above the PCU case 11, and the PCU cover / resonator case 13 is arranged above the PCU case 12.

The PCU 10 includes electrical components such as an inverter for driving a motor, a boost converter for controlling voltage, and a DCDC converter for stepping down a high voltage, which are not shown, and these electrical components also serve as the PCU cases 11 and 12 and the PCI cover. It is housed in a housing formed by the resonator case 13.

The resonator 20 is arranged directly above the PCU 10 as shown in FIG. The resonator 20 has a PCU cover / resonator case 13 and a resonator cover 21. The resonator cover 21 is arranged above the PCU cover / resonator case 13. As described above, in the resonator 20 of the present embodiment, the resonator case is integrated with the PCU cover of the PCU 10 and is also used.

The resonator 20 silences noise in the high frequency band generated during intake, and a resonance chamber is formed inside the resonator 20 by a plurality of partitions. Therefore, there is a flow of intake air inside the resonator 20. For example, in the example shown in FIG. 1, the air flow direction X in the resonator 20 is a direction from the front to the rear of the vehicle.

Here, the PCU cover / resonator case 13 according to the present embodiment is made of a metal material containing aluminum, and is manufactured by, for example, aluminum die casting. The conventional resonator case is made of resin, but in the present embodiment, it is made of a metal material containing aluminum, so that the rigidity is higher than that of the conventional case. The PCU cover / resonator case 13 preferably has a plurality of fins (not shown) and a plurality of heat radiation fins (not shown).

The plurality of fins are provided on the upper portion of the PCU cover / resonator case 13 so as to extend in the air flow direction X in the resonator 20. By providing these a plurality of fins on the upper part of the PCU cover / resonator case 13, that is, on the resonator 20 side, the PCU 10 is efficiently cooled by the cooling effect of the air flowing through the resonator 20 and the fins.

It is preferable that these plurality of fins are formed so that the distance between the plurality of fins is narrower as the amount of heat generated by the PCU 10 is larger and the distance between the plurality of fins is wider as the amount of heat generated by the PCU 10 is smaller in the air flow direction X. As a result, the cooling performance of the PCU 10 is further enhanced.

Further, it is preferable that these plurality of fins are formed so that the height of the plurality of fins is higher at a position where the calorific value of the PCU 10 is larger and the height is lower at a position where the calorific value of the PCU 10 is smaller in the air flow direction X. As a result, the cooling performance of the PCU 10 is further enhanced.

The plurality of heat radiation fins are provided in the lower part of the PCU cover / resonator case 13. By providing these a plurality of heat radiation fins at the lower portion of the PCU cover / resonator case 13, the cooling performance of the PCU 10 is further enhanced.

According to the arrangement structure 1 of the equipment in the engine room according to the present embodiment having the above configuration, the following effects are achieved.
According to the arrangement structure 1 of the equipment in the engine room according to the present embodiment, since the PCU cover includes the PCU cover and the resonator case 13 integrated with the resonator case, the number of parts can be reduced and the space can be saved. Can be realized and the layout can be improved. Further, since the PCU cover and the resonator case 13 are provided, the mounting parts that generate heat inside the PCU 10 can be cooled by the air flowing through the resonator 20, and the cooling performance of the PCU 10 can be improved.

Further, according to the device arrangement structure 1 according to the present embodiment, since the PCU cover / resonator case 13 is made of a metal material containing aluminum, the heat transfer coefficient of the PCU 10 and the resonator 20 can be increased. Therefore, the cooling performance of the PCU 10 can be further improved. Further, since the resonator case, which is conventionally made of resin, is made of a metal material containing aluminum, high rigidity can be imparted to the resonator 20 and deterioration due to vibration can be suppressed.

Further, according to the device arrangement structure 1 according to the present embodiment, the PCU cover / resonator case 13 has a plurality of fins (not shown) extending in the air flow direction X in the resonator 20 above the PCU cover / resonator case 13. Therefore, the cooling performance of the PCU 10 can be further improved by the cooling effect of the fins.

Further, according to the arrangement structure 1 of the device according to the present embodiment, the distance between the plurality of fins (not shown) is narrower as the heat generation amount of the PCU 10 is larger in the air flow direction X, so that the heat generation amount is smaller. At many positions, the flow velocity of air increases, and the PCU 10 can be cooled more efficiently.

Further, according to the arrangement structure 1 of the device according to the present embodiment, the height of the plurality of fins (not shown) is higher in the air flow direction X as the heat generation amount of the PCU 10 is larger, so that the heat generation amount is larger. At the position, the PCU 10 can be cooled more efficiently while suppressing turbulent air flow and the like.

Further, according to the device arrangement structure 1 according to the present embodiment, the PCU cover / resonator case 13 has a plurality of fins (not shown) extending in the air flow direction X in the resonator 20 above the PCU cover / resonator case 13. In addition, since the heat radiation fins (not shown) are provided in the lower portion thereof, the cooling effect of the PCU 10 is further enhanced, and the degree of freedom in designing the shape of the resonator 20 side can be increased.

The present invention is not limited to the above-described embodiment, and modifications, improvements, and the like within the range in which the object of the present invention can be achieved are included in the present invention.

1 Equipment layout structure 10 PCU (power control unit)
11, 12 PCU case 13 PCU cover and resonator case 20 Resonator 21 Resonator cover 100 Vehicle 110 Body 120 Engine room 130 Engine body 140 Motor case 150 PCU (power control unit)
160 resonator (intake system silencer)
B bolt X Air flow direction

Claims (6)

It is an arrangement structure of equipment in an engine room including a power control unit and a resonator arranged above the power control unit.
The power control unit has a PCU case and a PCU cover arranged above the PCU case.
The resonator has a device arrangement structure including a resonator case integrated with the PCU cover and a resonator cover arranged above the resonator case. The device arrangement structure according to claim 1, wherein the resonator case integrated with the PCU cover is made of a metal material containing aluminum. The arrangement structure of the device according to claim 1 or 2, wherein the resonator case integrated with the PCU cover has a plurality of fins extending in the air flow direction in the resonator on the upper portion thereof. The device arrangement structure according to claim 3, wherein the plurality of fins are closer to each other in the air flow direction at positions where the amount of heat generated by the power control unit is larger. The device arrangement structure according to claim 3 or 4, wherein the plurality of fins have a higher height in the air flow direction at a position where the amount of heat generated by the power control unit is larger. The device arrangement structure according to any one of claims 3 to 5, wherein the resonator case integrated with the PCU cover has heat radiation fins under the resonator case.

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