KR20170112160A - Obc module for electric vehicle - Google Patents

Abstract

To an OBC module for an electric vehicle having improved heat dissipation efficiency. The OBC module for an electric vehicle is for charging an electric vehicle battery, and includes an OBC housing, a PCB substrate, and a capacitor. The OBC housing is provided with a case having a housing space inside and opening upward, and a lid part for opening and closing the case. The PCB substrate is placed in the receiving space of the OBC housing. The capacitor is disposed in the receiving space of the OBC housing and is soldered to the PCB substrate, and the upper side is formed to abut the lid part. The lid of the OBC housing further includes a plurality of radiating fins on the opposite side of the surface contacting the capacitor.

Description

[0001] OBC MODULE FOR ELECTRIC VEHICLE [0002] OBC MODULE FOR ELECTRIC VEHICLE [

The present invention relates to an OBC module for an electric vehicle having improved heat dissipation efficiency.

Recently, as demand for environmentally friendly vehicles has increased, various environmentally friendly vehicles have been developed and used. Typical examples include a hybrid vehicle using electricity as the driving source of the vehicle or an electric motor vehicle using only the battery as the driving source.

These electric vehicles use the battery as the fuel source and the motor as the driving source. Accordingly, an on-board charger (OBC: On Board Charger) for charging a battery built in the vehicle is mounted in the electric vehicle.

The OBC is provided as a module in which various components are packed in a housing in order to reduce the volume. Accordingly, there is a problem that the heat source generated in the parts when the battery is charged concentrates in the housing, thereby raising the temperature inside the housing .

In particular, a high-voltage electrolytic capacitor having a high power density is disposed in the housing. In the case of the electrolytic capacitor, the electrolytic capacitor is susceptible to temperature, so that when the temperature in the housing rises, the electrolytic solution decreases and the life of the capacitor is reduced.

Therefore, the heat source inside the housing and the heat source generated from the electrolytic capacitor itself must be quickly released.

Patent Document 1: JP-A-10-0873821 (2008.12.11)

An object of the present invention is to provide an OBC module for an electric vehicle in which the lifetime of a capacitor is increased by improving the structure so that a heat source generated in a capacitor can be discharged more quickly.

According to an aspect of the present invention, there is provided an OBC module for an electric vehicle for charging an electric vehicle battery, the OBC module including a PCB substrate, and a capacitor. The OBC housing is provided with a case having a housing space inside and opening upward, and a lid part for opening and closing the case. The PCB substrate is placed in the receiving space of the OBC housing. The capacitor is disposed in the receiving space of the OBC housing and is soldered to the PCB substrate, and the upper side is formed to abut the lid part. The lid of the OBC housing further includes a plurality of radiating fins on the opposite side of the surface contacting the capacitor.

According to the present invention, since the capacitor, which is a heating device, is formed to abut the OBC housing, the heat source generated in the capacitor can be discharged to the outside by conduction.

In addition, since the radiating fin is formed on the lid of the OBC housing which contacts the capacitor, the heat source generated from the capacitor can be discharged more quickly, so that the lifetime of the capacitor can be increased.

In addition, since a heat-radiating pad of a thermally conductive material is mounted between the capacitor and the OBC housing, the heat source generated from the capacitor can be discharged more quickly, thereby increasing the lifetime of the capacitor.

1 is a sectional view of an OBC module for an electric vehicle according to an embodiment of the present invention;
2 is a sectional view of an OBC module for an electric vehicle according to another embodiment of the present invention;

Hereinafter, an OBC module for an electric vehicle according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. Here, the same reference numerals are used for the same components, and repeated descriptions and known functions and configurations that may obscure the gist of the present invention will not be described in detail. Embodiments of the invention are provided to more fully describe the present invention to those skilled in the art. Accordingly, the shapes and sizes of the elements in the drawings and the like can be exaggerated for clarity.

1 is a cross-sectional view of an OBC module for an electric vehicle according to an embodiment of the present invention.

1, an electric vehicle OBC (On Board Charger) module 100 is for charging an electric vehicle battery, and includes an OBC housing 110, a PCB substrate 120, and a capacitor 130 .

The OBC housing 110 includes a case 111 having a receiving space therein and having an upper opening and a lid 112 for opening and closing the case 111. Here, although the material of the OBC housing 110 is not limited, it is preferable that the OBC housing 110 is formed of a metal material having good thermal conductivity such as aluminum or copper.

The PCB substrate 120 is disposed in the receiving space of the OBC housing 110. The PCB substrate 120 may be a wiring board having a conductor pattern on one side or both sides thereof, and each element of the OBC module may be electrically connected to the PCB substrate 120.

The capacitor 130 is disposed in the housing space of the OBC housing 110 and is soldered to the PCB substrate 120 and the upper side thereof is in contact with the lid 112. Here, the capacitor 130 may be formed of a high-voltage electrolytic capacitor.

Since the upper surface of the capacitor 130 is formed to abut the lid portion 112, heat dissipation due to conduction can be obtained. That is, the lid part 112 serves as a heat sink, and a heat source generated from the capacitor 130 can be discharged to the outside of the OBC housing 110 through the lid part 112.

In particular, when the capacitor 130 is formed of a high-voltage electrolytic capacitor having a high power density, if the temperature rises, the electrolyte in the capacitor 130 becomes dry and the capacity is reduced and the service life is reduced. Therefore, if the heat source generated in the capacitor 130 is discharged through the lid unit 112 as described above, the life of the capacitor 130 can be increased.

The cover portion 112 of the OBC housing 110 may further include a plurality of radiating fins 112a on the opposite side of the surface contacting the capacitor 130. [ Here, the radiating fin 112a is provided to increase the cooling efficiency by widening the contact area of air, and may be formed of a metal material having good thermal conductivity such as aluminum, copper, or the like.

As the radiating fin 112a is formed on the cover 112, the cooling efficiency is increased, and the heat source generated in the capacitor 130 can be discharged more quickly.

The lid portion 112 may be formed to have a stepped portion (not shown) where the portion where the radiating fin 112a is formed is recessed in the direction in which the capacitor 130 is disposed. This is to contact the lid part 112 and the capacitor 130 with a step difference when the lid part 112 and the capacitor 130 are not in contact with each other because the height of the case 111 is high.

2 is a cross-sectional view of an OBC module for an electric vehicle according to another embodiment of the present invention.

2, the OBC module 200 for an electric vehicle may further include a heat radiating pad 140 disposed between the capacitor 130 and the lid portion 112. More specifically, the heat radiating pad 140 is disposed in the receiving space of the OBC housing 110, the lower surface thereof is formed to abut the capacitor 130, and the upper surface thereof is abutted against the lid part 112. As the heat dissipation pad 140 is mounted between the capacitor 130 and the lid 112, the heat source generated by the capacitor 130 can be discharged more quickly.

The heat radiating pad 140 may be made of a thermally conductive material and may be detachably attached to the lid 112. Here, the heat-radiating pad 140 may be any material having thermal conductivity and adhesiveness, but is preferably formed of a silicon material.

Since the heat dissipation pad 140 is formed to have adhesiveness, the heat dissipation pad 140 can be fixed to the lid 112 without additional fastening members, and can be repeatedly attached to and detached from the lid 112.

Meanwhile, a partition plate 111a disposed so as to face the bottom surface of the case 111 may be installed inside the case 111. A PCB substrate 120 and a capacitor 130 may be disposed above the partition plate 111a.

Since the PCB substrate 120 and the capacitor 130 are disposed on the upper part of the partition plate 111a, a heat source generated from a heat source such as a driving motor or the like, which is transmitted from the lower portion of the OBC housing 110, So that the capacitor 130 can be protected.

When a cooling passage for cooling the driving motor is disposed in the space below the partition plate 111a, the cooling water passing through the cooling passage penetrates into the PCB substrate 120 and the capacitor 130 .

As described above, in the OBC module 100 for an electric vehicle, the capacitor 130, which is a heating device, is formed to abut the OBC housing 110, so that the heat source generated in the capacitor 130 is discharged to the outside .

In addition, since the heat radiating fin 112a is formed on the lid portion 112 of the OBC housing 110 contacting the capacitor 130, the heat source generated in the capacitor 130 can be discharged more quickly, And the lifetime can be increased.

In addition, since the heat radiation pad 140 of a thermally conductive material is mounted between the capacitor 130 and the OBC housing 110, the heat source generated by the capacitor 130 can be discharged more quickly, so that the life of the capacitor 130 . ≪ / RTI >

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation and that those skilled in the art will recognize that various modifications and equivalent arrangements may be made therein. It will be possible. Accordingly, the true scope of protection of the present invention should be determined only by the appended claims.

110 .. OBC housing
111 .. Case
111a .. partition plate
112. Cover
112a .. heat sink fin
120 .. PCB substrate
130 .. Capacitors
140 .. Heat Pads

Claims (5)

An On Board Charger (OBC) module for charging a battery for an electric vehicle,
An OBC housing having a case having a housing space inside and having an upper opening and a lid for opening and closing the case;
A PCB substrate disposed in a receiving space of the OBC housing; And
And a capacitor disposed in the housing space of the OBC housing and soldered to the PCB substrate, the upper side of the OBC housing abutting against the cover,
Wherein the cover portion of the OBC housing further includes a plurality of heat dissipating fins opposite to a face contacting the capacitor.
The method according to claim 1,
And a heat dissipation pad disposed between the capacitor and the lid.
3. The method of claim 2,
Wherein the heat dissipation pad has adhesiveness and is detachably attached to the lid part.
The method according to claim 1,
Wherein the cover portion is formed to have a stepped portion recessed in a direction in which the capacitor is disposed.
The method according to claim 1,
Wherein a partition plate disposed to face the bottom surface of the case is disposed inside the case, and a PCB substrate and a capacitor are disposed on the partition plate.

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