KR101356182B1 - High capacity high voltage battery apparatus - Google Patents

Abstract

The present invention relates to a high-capacity high-voltage battery device, it is possible to reduce the weight and cost through the reduction of the number of parts, and to achieve a compact size of the entire size, high freedom of installation space, and various electrical equipment They are all installed in the battery case 40, which is kept airtight against moisture, and thus are not exposed to the outside, thereby providing improved safety, and cooling blowers to positions between the first and second battery packs 50 and 60. When the 70 is installed, the connection between the battery ducts 51 and 61 and the blower ducts 72 and 73 is facilitated, so that the convenience of assembly work can be improved and the productivity can be improved.

Description

HIGH CAPACITY HIGH VOLTAGE BATTERY {HIGH CAPACITY HIGH VOLTAGE BATTERY APPARATUS}

The present invention relates to a high capacity high voltage battery device, and more particularly, to a high capacity high voltage battery device in which two battery packs are installed in one battery case.

A hybrid electric vehicle, a fuel cell vehicle, and an electric vehicle are all driven by using an electric motor, and a battery pack for providing driving power to the electric motor is essentially installed.

Since the battery pack is configured to supply the necessary power while repeatedly charging and discharging while the vehicle is running, the temperature is continuously increased due to the heating phenomenon during charging and discharging. It is promoted to cause a decrease in performance and shorten the life of the battery, in order to prevent this, the battery device is essentially provided with a device for cooling the battery pack using the air.

In addition, a high capacity high voltage battery device including two or more battery packs is used in a vehicle requiring a large driving force such as a commercial vehicle.

1 illustrates a conventional high capacity high voltage battery device, which includes a first battery case 1 and a first battery case 2, and connects the first and second battery cases 1 and 2. The duct 3 is connected to each other, and the first and second battery cases 1 and 2 are each provided with a first battery pack 4 and a second battery pack 5.

In addition, a first cooling fan 6 and a second cooling fan 7 are respectively installed in the first and second battery cases 1 and 2, and any one of the first and second battery cases 1 and 2 is provided. The electronics are installed.

The electronic device includes a BMS (8; Battery Management System), a relay assembly (9), a safety plug, and the like that detects voltages, currents, and temperatures of the first and second battery packs and controls operations integrally. have.

In the conventional high-capacity high voltage battery device as described above, outside air is introduced through the connection duct 3 by driving the first and second cooling fans 6 and 7, and the outside air is provided in the first and second battery cases 1 and 2. The air is sucked into the first and second battery cases (1 and 2), and the exhaust ducts (11 and 12) are respectively cooled after cooling the first and second battery packs (4 and 5). The structure is discharged out through.

However, the conventional high-capacity high voltage battery device has two battery cases (1, 2) and two cooling fans (6, 7) and the like, the number of parts, the weight is heavy, in particular the cost increases there was.

In addition, since the wire 13 connecting the two battery packs 4 and 5 and the connectors are exposed to the outside, airtightness must be secured. There was also a downside.

In addition, the use of the connection duct (3) has a large overall package including the first and second battery case (1,2), which has a low degree of freedom for the installation space, such as to ensure a sufficient installation space.

It should be understood that the foregoing description of the background art is merely for the purpose of promoting an understanding of the background of the present invention and is not to be construed as an admission that the prior art is known to those skilled in the art.

Accordingly, the present invention has been made to solve the above disadvantages, to have a structure in which two battery packs are installed in one battery case, and to install only one cooling blower that can supply outside air to two battery packs. The purpose of the present invention is to provide a high-capacity high-voltage battery device that is improved so that the number of parts, weight and cost can be reduced, and in particular, the degree of freedom of installation can be increased by reducing the overall package. have.

A high capacity high voltage battery device of the present invention for achieving the above object, the battery case having a suction duct; A first battery pack and a second battery pack spaced apart from each other in left and right spaces in the battery case so as to be connected to the suction duct; And a cooling blower installed to be connected to the first and second battery packs in a space between the first and second battery packs and having an exhaust duct for discharging the air cooling the first and second battery packs to the outside. Characterized in that.

The suction duct is configured of a first suction duct connected to the first battery pack and a second suction duct connected to the second battery pack; The first and second suction ducts are installed to be located on a bottom surface of a lower case constituting the battery case.

Battery pack ducts are provided in the first and second battery packs, respectively; The cooling blower is provided with a pair of blower ducts and first and second blower fans respectively connected to the battery pack duct.

The electrical equipment including the BMS, the relay assembly, and the safety plug is fixed to the space between the first and second battery packs.

Sealing members are integrally coupled to the outer circumferential surface of each blower duct for the airtightness between the battery duct and the blower duct, and the sealing member is preferably made of rubber or resin.

An upper end of each of the battery ducts is provided with an incision groove which is cut at a predetermined length along the longitudinal direction of the battery duct at each end of the battery duct; Each end of the blower duct is inserted into the top and bottom through the incision groove is installed.

Both end surfaces of each end of the battery duct and both end surfaces of the blower duct may be formed as an inclined surface gradually narrowing from top to bottom for ease of assembly.

The high-capacity high-voltage battery device according to the present invention can achieve weight reduction and cost reduction through the reduction of the number of parts, and the compactness of the overall size can be achieved. It is installed inside the battery case, which is kept airtight, so that it is not exposed to the outside, thereby providing more safety. When the cooling blower is installed to the position between the first and second battery packs, the battery pack and the blower As the duct is easily connected, there is an effect that can improve the convenience of assembly work and thereby the productivity.

1 is a view for explaining a conventional high capacity high voltage battery device;
2 is a view for explaining a high capacity high voltage battery device according to the present invention;
3 is a view of a state in which the upper case is removed from FIG.
4 and 5 are views for explaining a cooling blower in a high capacity high voltage battery device according to the present invention;
6 and 7 are views for explaining the assembly structure of the battery duct and the blower duct in the high-capacity high-voltage battery device according to the present invention.

Hereinafter, a high capacity high voltage battery device according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

As shown in FIGS. 2 and 7, the high-capacity high voltage battery device according to the present invention includes a battery case 40 having a suction duct 30 and the battery case 40 to be connected to the suction duct 30. The first and second battery packs 50 and 50 in the space between the first battery pack 50 and the second battery pack 60 and the first and second battery packs 50 and 60 installed spaced apart from each other in the left and right spaces. It is configured to include a cooling blower 70 is installed to be connected to the 60 and having an exhaust duct 71 for discharging the air cooled the first and second battery packs 50 and 60 to the outside.

Here, the suction duct 30 is composed of a first suction duct 31 connected to the first battery pack 50 and a second suction duct 32 connected to the second battery pack 60. , 2 suction ducts (31, 32) are installed to be located on the bottom surface of the lower case 41 constituting the battery case (40).

That is, the battery case 40 is covered with the lower case 41 and the lower case 41 to which the components of the battery device, such as the first and second battery packs 50 and 60 and the cooling blower 70 are fixed and installed. The upper case 42 is coupled to the jersey.

The first and second suction ducts 31 and 32 are installed to be positioned on the outer bottom surface of the lower case 41, one end of which passes through the lower case 41 and the first and second battery packs 50 and 60. It is installed to have a connected structure.

When the first and second suction ducts 31 and 32 are installed to be positioned on the outer bottom surface of the lower case 41, there is an advantage that the overall size of the high capacity high voltage battery device can be made compact.

The first and second battery packs 50 and 60 are provided with battery pack ducts 51 and 61, respectively, and the cooling blower 70 is a pair of blowers connected to the battery ducts 51 and 61, respectively. Ducts 72 and 73 and first and second blower fans 74 and 75 are provided, respectively.

Here, the outside air introduced through the first suction duct 31 by the operation of the first blower fan 74 cools the first battery pack 50 while passing through the first battery pack 50. , And is discharged to the outside through the exhaust duct 71 via the blower duct 72.

Then, the outside air introduced through the second suction duct 32 by the operation of the second blower fan 75 cools the second battery pack 60 while passing through the second battery pack 60. , And is discharged to the outside through the exhaust duct 71 via the blower duct 77.

In the space between the first and second battery packs 50 and 60, not only the cooling blower 70 but also a BMS 81 and a relay assembly 82 on the side of the cooling blower 70. ), Safety plugs, etc. are fixedly installed.

That is, when the cooling blower 70 is installed between the first and second battery packs 50 and 60, the space around the cooling blower 70 is an empty space, and thus the BMS 81 in the empty space. Electronic components including a relay assembly 82, a safety plug, and the like will be installed.

When the electrical equipment including the cooling blower 70 is installed between the first and second battery packs 50 and 60 as described above, there is an advantage in that the entire size of the high-capacity high-voltage battery device can be compactly configured, and in particular, the electrical components are batteries Since the case 40 is not exposed to the outside, there is an advantage in that the airtight treatment for the water does not have to be doubled.

Sealing members 83 are integrally coupled to the outer circumferential surfaces of the blower ducts 72 and 73 for airtightness between the battery ducts 51 and 61 and the blower ducts 72 and 73. The sealing member 83 is preferably formed of rubber or resin, but is not limited thereto.

In addition, the upper end of each of the battery ducts (51, 61) in each of the end of the battery ducts (51, 61) cut grooves (51a, cut in a predetermined section along the longitudinal direction of the battery ducts (51, 61), 61a).

Therefore, when the cooling blower 70 is fixedly installed to be positioned between the first and second battery packs 50 and 60, each end of the blower ducts 72 and 73 is moved from top to bottom through the cutout grooves 51a and 61a. It is installed to be inserted into the blower duct (72, 73) while descending.

At this time, both end surfaces 51b and 61b of each end of the battery ducts 51 and 61 and both end surfaces 72a and 73a of each end of the blower ducts 72 and 73 are gradually widened from top to bottom for ease of assembly. It is characterized by being formed into a narrowing inclined surface.

As described above, the high-capacity high voltage battery device according to the present invention includes the first and second battery packs 50 and 60, the cooling blower 70, the BMS 81 and the relay assembly 82 in one battery case 40. As electrical devices including safety plugs are installed together, there is an advantage that the overall size of the high capacity high voltage battery device can be made compact.

In addition, the present invention has a structure in which two battery packs 50 and 60 are installed in one battery case 40, and in particular, two battery packs 50 and 60 are cooled using one cooling blower 70. As a structure to make a bar, there is an advantage that can significantly reduce the number of parts, weight reduction and cost compared to the conventional structure having two cases and two cooling fans.

In addition, the electrical components including the BMS 81, the relay assembly 82, and the safety plug, various wires and connectors, etc. are all installed in the battery case 40, which is kept airtight, so that the structure is not exposed to the outside. In addition, there is an advantage of not having to double the confidentiality treatment for moisture, which has the advantage that can significantly reduce the cost.

In addition, as the sealing member 83 for airtightness is applied to a portion where the battery ducts 51 and 61 and the blower ducts 72 and 73 are connected, the cooling air can be prevented from leaking to the outside of the duct. As a result, the cooling performance of the first and second touch packs 50 and 60 using the cooling blower 70 may be greatly improved.

In addition, when the cooling blower 70 is fixedly installed to be positioned between the first and second battery packs 50 and 60, each end of the blower ducts 72 and 73 descends from the top to the bottom of the battery pack ducts 51 and 61. By being inserted into the shell), it is possible to greatly improve the convenience of the assembling work, which also has the advantage of improving productivity.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the following claims It will be apparent to those of ordinary skill in the art.

30-Suction duct 40-Battery case
50-First Battery Pack 60-Second Battery Pack
70-Cooling Blower 81-BMS
82-relay assembly 83-sealing member

Claims (8)

A battery case 40 having a suction duct 30;
A first battery pack 50 and a second battery pack 60 spaced apart from each other in left and right spaces in the battery case 40 so as to be connected to the suction duct 30; And
The air is installed to be connected to the first and second battery packs 50 and 60 in the space between the first and second battery packs 50 and 60 and cools the first and second battery packs 50 and 60. Including a cooling blower 70 having an exhaust duct 71 for discharging to the outside;
Battery pack ducts (51, 61) are respectively provided in the first and second battery packs (50, 60);
The cooling blower 70 includes a pair of blower ducts 72 and 73 and first and second blower fans 74 and 75 respectively connected to the battery pack ducts 51 and 61, respectively;
Incision grooves 51a and 61a cut in a predetermined section along the longitudinal direction of the battery ducts 51 and 61 at respective ends of the battery ducts 51 and 61 on the upper surfaces of the end portions of the battery ducts 51 and 61. Is provided;
Each end of the blower ducts (72,73) is inserted from the top through the incision grooves (51a, 61a);
Both ends 51b and 61b of each end of the battery ducts 51 and 61 and both sides 72a and 73a of each end of the blower ducts 72 and 73 are gradually narrowed from top to bottom for ease of assembly. The high capacity high voltage battery device, characterized in that formed by the inclined surface. The method according to claim 1,
The suction duct 30 includes a first suction duct 31 connected to the first battery pack 50 and a second suction duct 32 connected to the second battery pack 60;
The first and second suction ducts 31 and 32 are installed to be located on the bottom surface of the lower case 41 constituting the battery case (40). delete The method according to claim 1,
High-capacity high voltage battery device, characterized in that the electrical equipment including a BMS (81), a relay assembly (82), a safety plug is installed in the space between the first and second battery packs (50, 60). The method according to claim 1,
Sealing member 83 is integrally coupled to the outer circumferential surface of each blower duct 72, 73 for airtightness between the battery ducts 51, 61 and the blower duct 72, 73. A high capacity high voltage battery device. delete The method according to claim 5,
The sealing member 83 is a high capacity high voltage battery device, characterized in that formed of rubber or resin. delete

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