KR100892524B1 - Suction part for cooling of battery and high voltage accessories in unity package - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an integrated package internal battery and a cooling suction part of a high voltage component, and to a cooling structure of an integrated package for cooling a high voltage electric component applied to a hybrid vehicle.

To this end, the present invention is mounted to the air inlet formed in the package tray for the inflow of indoor air, the grill protruding upward from the air inlet; A cooling air leakage prevention duct or guide installed between the package tray trim and the package tray panel mounted on the lower part of the package tray to prevent the indoor air introduced through the grill from leaking between the package tray trim and the package tray panel; A package tray member connected to a lower end of the package tray panel; And an air inlet duct installed under the package tray member and guided to air for cooling the battery and the high voltage component by receiving indoor air through the package tray member. Integrated package to provide internal battery and cooling suction for high voltage components.

 High Voltage, Components, Package Tray, Panel, Grill, Duct, Member

Description

Suction part for cooling of battery and high voltage accessories in unity package}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an integrated package internal battery and a cooling suction part of a high voltage component, and to a cooling structure of an integrated package for cooling a high voltage electric component applied to a hybrid vehicle.

Typically, the body of a vehicle is mainly a part where a person rides. The body is equipped with external parts such as doors and fenders, or internal parts such as seats, door trims and package tray panels.

The body should have elements such as stability, space, comfort, etc. required by the driver and occupant. Here, the package tray panel is installed at the rear of the rear seat to support the rear seat, block the interior of the cabin and the trunk room, and the rider on the rear seat keeps various parts and documents.

The trunk is located at the rear end of the body and the package tray is installed in front of it. The rear seat is disposed in front of the package tray.

Meanwhile, in a hybrid vehicle driven by two power sources (internal combustion engine + storage battery) or a fuel cell vehicle using hydrogen as fuel, high voltage batteries and other electronic components for storing energy are located behind the rear seat.

Since the high voltage electrical components generate heat by themselves, it is essential to cool the heat for safety and efficiency of the vehicle system.

In addition, the high voltage electrical components are in contact with moisture due to the characteristics of the components that need to generate a high voltage, causing the failure of the components, the method for cooling the heat generated in the electrical components is called the air-cooled cooling using indoor air Can be.

In the case of the existing hybrid vehicle, there is a slight layout difference for each vehicle type, but most of them are composed of a cooling device of a battery and a motor unit, and when the blower fan is operated, air is introduced through an air inlet duct extending from an indoor package tray. The air may be introduced through the surroundings of the battery and then discharged through the air outlet ducts on one side of the battery and the motor unit.

However, since the grills of FIGS. 1A and 1B are installed flat on the trim of the package tray, when an external object such as toilet paper or a book is placed on the package tray 103, the indoor air for cooling the high-voltage electrical equipment installed inside the integrated package. As it is blocked by an external object, the indoor air is not introduced into the air inlet duct through the grills 100 and 101, resulting in deterioration of durability of the battery and high voltage component performance.

In order to prevent this, as shown in FIG. 1C, the grille has a layout structure in which the cooling inlet grille 102 is placed at the side of the seat.

In addition, in the case of the air inlet duct of FIGS. 2A and 2B, the air inlet duct 104 should be closely attached to the grille portion of the package tray trim, but the cooling air is provided between the grill 102 and the duct when the air inlet duct is installed. Has the disadvantage that it cannot be completely sealed so that it does not leak out.

1A to 3C, an air inlet is formed in the package tray 103 so as to communicate with the air inlet duct 104 to suck air in the room. This is because the air inlet duct 104 should be connected to the air inlet of the package tray 103, the size of the duct is also increased.

In addition, the shape of the air inlet duct 104 is deformed and the size is increased workability is lowered, and the vortex flow and pressure drop in the cooling flow flow of the air inlet duct 104 in terms of cooling performance Has the disadvantage of causing adverse effects.

The present invention has been made in view of the above, and when the air-cooled high-voltage electronic components inside the integrated package, the shape of the package tray grill into which the cooling air is introduced and discharged is formed in a circular or polygonal projecting structure. The purpose of the present invention is to provide an integrated package internal battery and a cooling suction part of a high voltage component to secure an air flow cross-sectional area and prevent air intake obstacles caused by external objects such as toilet paper.

In addition, the present invention by installing a flow duct or a guide between the package tray trim and the package tray panel, it is possible to prevent the leakage of cooling flow, can suck only indoor air to improve the cooling performance of the integrated package internal battery And another purpose is to provide a suction part for cooling the high voltage component.

In addition, the present invention forms a cooling suction hole between the package panel and the member to simplify the distance from the integrated package inlet hole to the vehicle body cooling hole, thereby simplifying the shape of the suction duct, thereby improving workability and cooling flow rate. Another aim is to provide a cooling inlet for the integrated package internal battery and high voltage components to minimize losses.

The present invention for achieving the above object is in the intake unit for cooling the integrated package internal battery and high voltage components,

A grill mounted to an air inlet formed in the package tray for inflow of indoor air and protruding upward from the air inlet; A cooling air leakage prevention duct or guide installed between the package tray trim and the package tray panel mounted on the lower part of the package tray to prevent the indoor air introduced through the grill from leaking between the package tray trim and the package tray panel; A package tray member connected to a lower end of the package tray panel; And an air inlet duct installed under the package tray member and receiving indoor air through the package tray member to guide the air to cool the battery and the high voltage component.

In a preferred embodiment, the upper surface of the grill is characterized in that formed in the domed curved surface or polygonal angled plane.

In a more preferred embodiment, the side surface of the grill is characterized in that the air intake long hole is formed.

In particular, the cooling air leakage prevention duct or guide is integrated with the package tray trim, characterized in that the intake unit for cooling the internal battery and high-voltage components integrated package.

In addition, the indoor air induced by the cooling air leakage prevention duct or guide is delivered to the air inlet duct through the first air inlet hole formed in the package tray panel and the second air inlet hole formed in the package tray member. It is done.

As described above, according to the intake unit for cooling the integrated package internal battery and the high voltage component according to the present invention, there are advantages as follows.

1. The package tray grille has a structure that protrudes in a circular or polygonal shape, so that the flow area of the air can be secured compared to the existing shape, and it is introduced through the package tray grille in advance to prevent intake obstacles caused by inadvertent passengers. By improving the cooling performance of the battery cooled by using the indoor air, it is possible to improve the durability of the battery and the performance of high-voltage electrical components.

2. By installing the cooling flow duct or guide between the package tray trim and the package tray panel, it is possible to prevent the cooling flow of the package tray grille and the inlet duct in advance and to suck only indoor air.

3. Unified ducts or guides for cooling flow in the package tray can reduce labor during inline work.

4. Since the cooling suction hole is not applied to the upper part of the package tray, the existing package tray can be used as it is, and the cooling suction hole can be additionally processed in the package tray panel and the member, so there is no need to make a new mold. And material cost can be reduced.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

4 to 10 are views for explaining an integrated package internal battery and a cooling suction part of a high voltage component according to an embodiment of the present invention.

As described above, since the shape of the conventional package tray grille (hereinafter, the grill 100) is a flat plate shape, when an external object such as a book or a box tissue is placed on the package tray 103 inadvertently, an external object is placed on the package tray 103. The amount of indoor air flowing into the air inlet duct 104 is reduced by the area of the grille covered by the.

In order to prevent this, the grill 10 according to an embodiment of the present invention has a structure in which the upper surface protrudes in a domed or polygonal shape in the package tray 11, as shown in Figs. One problem can be solved.

That is, when the upper surface of the grill 10 is domed or polygonal, even if an external object is placed on the upper surface of the grill 10, the upper surface of the grill which contacts the lower surface of the external object is part of the total area 50. Less than%), it is possible to ensure a flow cross-sectional area for the cooling air through which the indoor air flows through the grill (10).

Because the lower end surface of the external object such as a book or a box-type tissue is generally flat, even if placed on the upper surface of the grill 10 of a circular or angled shape, the outer object is slid down or inclined.

In addition, even if the external object is placed on the upper surface of the grill accurately horizontally, if the upper surface is dome-shaped line contact, if the upper surface is a polygon is only one third of the horizontal plane formed.

The shape of the grill 10 is a protruding structure, and by forming the slit-shaped long hole 12 in the side surface of the grill, it is possible to maximize the flow cross-sectional area of the cooling air flowing through the grill 10.

Meanwhile, in the existing vehicle, the air inlet duct 13 for introducing cooling air into the high voltage electric component under the package tray through the grille is not tightly sealed because it is in close contact with the grille 10 and is not completely sealed. Cooling flow rate may flow between the upper end of the duct (13).

In order to prevent this, according to an exemplary embodiment of the present invention, as shown in FIGS. 7 to 9, the package tray panel 15 and the member 16 may be formed from the bottom surface of the package tray 11 having the air inlet for grill installation. By installing the cooling air leakage preventing duct or guide 17, only indoor air can be introduced to block the trunk or outside air, and to maintain the high-voltage electrical components at an appropriate temperature.

Therefore, it is possible to solve the problem of sealing resulting in leakage of the cooling flow rate of the grill and the air inlet duct.

In addition, an air inlet for introducing air in the room is formed in the package tray 11, and in the past, the air inlet duct 13 has a structure connected to the air inlet of the package tray 10. There is a problem that the shape is deformed design is increased in size.

In order to improve this, an embodiment of the present invention is a cooling air leakage prevention duct or guide 17 is formed integrally with the package tray trim 14, the indoor air in the package tray panel 15 in the duct or guide 17 ) To flow into the air inlet duct through the first air inlet hole 18 formed in the first air inlet and the second air inlet hole 19 formed in the package tray member 16, thereby simplifying the air inlet duct of the integrated package. It can minimize the loss of workability and cooling flow rate.

While the invention has been shown and described with respect to certain preferred embodiments thereof, the invention is not limited to these embodiments, and has been claimed by those of ordinary skill in the art to which the invention pertains. It includes all the various forms of embodiments that can be carried out without departing from the spirit.

1a to 1c is a view showing a package tray and a grill in the interior of a conventional vehicle,

2A and 2B are views for explaining a close contact state of a conventional package tray trim and air inlet duct,

3a to 3c is a view showing a state in which a conventional air inlet duct is connected to the package tray,

4 is a view showing a package tray according to an embodiment of the present invention,

5 is a perspective view illustrating an embodiment of a package tray grille in FIG. 4;

6 is a perspective view illustrating another embodiment of the package tray grille in FIG. 4;

7 is a view showing the internal structure of the integrated package according to an embodiment of the present invention,

8 is a view showing an A-A cross section in FIG.

9 is a block diagram showing the flow of indoor air for cooling of the high-voltage component according to an embodiment of the present invention in Figure 7,

10 is a view showing a cooling air leakage prevention duct or guide, air inlet duct according to an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

10,10a, 10b: Grill 11: Package Tray

12: long hole 13: air inlet duct

14: package tray trim 15: package tray panel

16: package tray panel 17: cooling air leakage prevention duct or guide

18: 1st air inlet hole 19: 2nd air inlet hole

20: air discharge duct 21: integrated battery

22: cooling motor

Claims (5)

In the intake unit for cooling the internal battery and the high voltage component of the integrated package, A grill mounted to an air inlet formed in the package tray for inflow of indoor air and protruding upward from the air inlet; A cooling air leakage prevention duct or guide installed between the package tray trim and the package tray panel mounted on the lower part of the package tray to prevent the indoor air introduced through the grill from leaking between the package tray trim and the package tray panel; A package tray member connected to a lower end of the package tray panel; And An air inlet duct installed under the package tray member and receiving indoor air through the package tray member to guide the air to cool the battery and the high voltage component; Integrating package internal battery and the suction portion for cooling the high voltage component, characterized in that configured to include. The method according to claim 1, The upper surface of the grill is intake unit for cooling the internal battery and the high-voltage component of the integrated package, characterized in that formed in a domed curved surface or polygonal angled plane. The method according to claim 1, The grille has a suction hole for cooling the internal battery and the high-voltage component of the integrated package, characterized in that the side surface is formed in the air intake long hole. The method according to claim 1, The cooling air leakage prevention duct or guide is integrated with the package tray trim, characterized in that the intake unit for cooling the internal battery and high-voltage components integrated package. The method according to claim 1, In order to deliver the indoor air induced by the cooling air leakage prevention duct or guide to the air inlet duct, a first air inlet hole is formed in the package tray panel, the second air inlet hole is formed in the package tray member Inlet for cooling of the integrated package internal battery and high voltage components.

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