KR102407865B1 - Battery case module for electric and hybrid vehicle - Google Patents

Abstract

The present invention discloses a battery base plate module for electric and hybrid vehicles. The disclosed battery base plate module for electric and hybrid vehicles includes a battery mounting unit in which a battery pack and a control box are mounted, a first cover unit coupled to the battery mounting unit to cover an open upper surface of the battery mounting unit, and the battery mounting unit a second cover part coupled to the battery mounting part from one side of the first cover part to cover the open upper surface; and a duct part provided in the battery mounting part to guide air for air cooling to the battery pack; It is characterized in that both sides of the space formed by the cover part and the second cover part are opened. Accordingly, the present invention can improve assembly and improve the heat dissipation effect of the battery pack.

Description

BATTERY CASE MODULE FOR ELECTRIC AND HYBRID VEHICLE

The present invention relates to a battery base plate module for electric and hybrid vehicles, and more particularly, to a battery base plate module for electric and hybrid vehicles that can improve assembly and heat dissipation effect of a battery pack.

Recently, interest in environmental vehicles is increasing due to environmental problems and high oil prices, and electric vehicles and hybrid vehicles that use electric energy to drive the vehicle are being developed in various ways.

Accordingly, many manufacturers have recently developed and released a PHEV (Plug-in Hybrid Electric Vehicle) system together with HEV (Hybrid Electric Vehicle). Unlike conventional HEVs, PHEVs are equipped with high-capacity/high-performance batteries and can be charged from the outside of the vehicle using electricity from homes or buildings. As electric driving using only batteries, such as electric vehicles, occupies a large proportion, high efficiency must be ensured for electric driving.

As for the battery module used in such electric vehicles and hybrid vehicles, a pouch-type battery cell unit accommodating one battery cell in a pouch is widely used. Here, a plurality of battery cell units are stacked and accommodated in one battery pack case, and the number of battery cell units is determined according to a required power level.

Recently, depending on the location of the battery pack installed in the vehicle, the battery pack is sometimes fixed using an open case rather than a closed type. problems will arise.

Therefore, there is a need to improve it.

On the other hand, domestic Patent Registration No. 10-1279416 (registration date: 2013.06.21) discloses "a battery case for a plug-in hybrid vehicle", and in Patent Publication No. 10-2018-0068379 (published on December 13, 2016), "electricity A battery case of an automobile" is disclosed.

The present invention was created by the above necessity, and it is possible to improve the bonding strength of the battery pack while improving assembly, and to provide a battery module case module for electric and hybrid vehicles that can improve the heat dissipation effect of the battery pack. There is a purpose.

In order to achieve the above object, a battery base plate module for an electric and hybrid vehicle according to an aspect of the present invention includes a battery mounting unit in which a battery and a control box are mounted, and the battery mounting unit to cover an open upper surface of the battery mounting unit A first cover unit coupled to the battery, a second cover unit coupled to the battery mounting unit from one side of the first cover unit to cover the open upper surface of the battery mounting unit, and the battery to induce air for air cooling to the battery It is characterized in that it includes a duct portion provided in the mounting portion.

In addition, in the present invention, the battery mounting part is formed in a "L" shape so that the battery is mounted, and a cover fixing pin to which the first cover part and the second cover part are slidably coupled to one upper end and the other lower end is formed to protrude. a box mounting plate fixed to the base plate member to be coupled to the control box and covered by the second cover part; 1 It characterized in that it comprises a battery cover member coupled to the cover portion for supporting the upper surface of the battery.

In addition, in the present invention, the base plate member includes a base plate provided with the cover fixing pin at one end to form a bottom of the battery mounting unit and to which the battery is fixed, and the cover fixing pin provided at the upper end of the battery mounting unit. It is joined to the base plate to form a side wall, characterized in that it comprises a base side plate having a support bracket fixed to the battery cover member.

In addition, in the present invention, in the first cover portion, a first sliding assembly groove portion slidingly coupled to the cover fixing pin of the base plate is formed at one lower end portion, and a first assembly hole into which the cover fixing pin of the base side plate is inserted. It is characterized in that it is formed in a "L" shape so that the part is formed at the upper end of the other side.

In addition, in the present invention, in the second cover part, a second sliding assembly groove portion slidably coupled to the cover fixing pin of the base plate is formed at one lower end portion, and a second assembly hole into which the cover fixing pin of the base side plate is inserted. It is characterized in that it is formed in a "L" shape so that the part is formed at the upper end of the other side.

In addition, in the present invention, the battery cover member is coupled to both sides of the upper end of the battery, the battery support beam is fixed to the support bracket through a bracket fixing plate, is fixed to the battery support beam to cover the upper surface of the battery, It is characterized in that it comprises a battery cover having a cover fixing bracket coupled to the second cover portion, the connector connection opening is formed.

As described above, in the battery base plate module for electric and hybrid vehicles according to an aspect of the present invention, unlike the prior art, since the first cover part and the second cover part are separated, the assemblability can be improved, and the bonding force of the battery pack This is improved, and has the effect of improving the heat dissipation effect of the battery pack.

1 is an exploded perspective view illustrating a battery case for an electric vehicle and a hybrid vehicle according to an embodiment of the present invention.
2 is a perspective view illustrating a battery case for an electric vehicle and a hybrid vehicle according to an embodiment of the present invention.
3 is a cross-sectional view illustrating a battery case for an electric vehicle and a hybrid vehicle according to an embodiment of the present invention.
4 is a perspective view for explaining a battery mounting unit according to an embodiment of the present invention.
5 is an exploded perspective view illustrating a battery mounting unit according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the battery base plate module for electric and hybrid vehicles according to the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

In addition, the terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of the user or operator. Therefore, definitions of these terms should be made based on the content throughout this specification.

1 is an exploded perspective view illustrating a battery case for an electric vehicle and a hybrid vehicle according to an embodiment of the present invention, and FIG. 2 is a perspective view illustrating a battery case for an electric vehicle and a hybrid vehicle according to an embodiment of the present invention, FIG. 3 is a cross-sectional view for explaining a battery case for an electric vehicle and a hybrid vehicle according to an embodiment of the present invention.

In addition, FIG. 4 is a perspective view illustrating a battery mounting unit according to an embodiment of the present invention, and FIG. 5 is an exploded perspective view illustrating a battery mounting unit according to an embodiment of the present invention.

1 to 5 , in the battery case module 100 for an electric vehicle and hybrid vehicle according to an embodiment of the present invention, a battery pack for supplying power for driving an electric vehicle or a hybrid vehicle is mounted and installed on a vehicle body and is charged with electricity to drive the vehicle.

The battery case module 100 for trains and hybrid vehicles according to this embodiment is largely a battery mounting unit 110 , a first cover unit 120 , a second cover unit 130 , and a duct unit 140 . Including, the assembly of the first cover part 120 and the second cover part 130 and the duct part 140 assembled to the battery mounting part 110 is improved.

The battery mounting unit 110 is provided with an open upper surface, and a battery pack (not shown) and a control box (not shown) are mounted therein, and a first cover unit 120 and a second cover unit 130 and After the duct unit 140 is coupled, it is coupled to the vehicle body. The battery mounting unit 110 includes a base plate member 111 fixed to the vehicle body, a box mounting plate 113 provided on the base plate member 111 for fixing the control box, and supporting and fixing the battery pack. A battery cover member 115 positioned inside the first cover part 120 is included.

The base plate member 111 according to the present embodiment is formed in a "L" shape, and the first cover part 120 and the second cover part 130 are slidably coupled to the upper end of one side and the lower end of the other side. (111a) is formed to protrude.

Specifically, the base plate member 111 includes a base plate 117 forming a lower plate of the battery mounting unit 110 and a base side plate 119 bonded to the base plate 117 to form one side wall of the battery mounting unit 110 . be prepared

Both sides of the base plate 117 are bent upward, a cover fixing pin 111a is formed to protrude from one bent side, and the base side plate 119 is bonded to the other bent side. The base plate 117 has a battery pack, a duct unit 140 and a box mounting plate 113 fixed to an inner bottom surface, and a vehicle body fixing bracket 117a is coupled to one lower surface of the base plate 117 .

In addition, the base plate 117 is coupled to the reinforcing bracket 117b for fixing the box mounting plate 113 and supporting the base side plate 119 . One end of the reinforcing bracket 117b is coupled to the base plate 117 , and the other end is coupled to the base side plate 119 .

The base side plate 119 has a lower end joined to the base plate 117 by a coupling method such as welding, a vehicle body fixing plate 119a is bent at an upper end portion, and a cover fixing pin 111a is formed on the vehicle body fixing plate 119a. do.

In addition, the base side plate 119 is coupled to a support bracket 119b for fixing the battery cover member 115 and wiring the wire harness on the inner surface.

The box mounting plate 113 is covered by the second cover part 130 , and the control box is fixed thereto. This box mounting plate 113, one end is coupled to the reinforcing bracket (117b), the other end is coupled to be spaced apart from the base plate (117) by the auxiliary bracket (113a).

The battery cover member 115 according to the present embodiment is coupled to the support bracket 119b and the first cover part 120 of the base side plate 119 so as to be located inside the first cover part 120 to provide the battery pack. Supports and protects the upper surface.

To this end, the battery cover member 115 includes a battery support beam 115a coupled to both sides of the upper end of the battery pack, respectively, and a battery cover 115b coupled to the battery support beam 115a to cover the upper surface of the battery pack. do.

Two battery support beams 115a are provided to be spaced apart, and a bracket fixing plate 115a' coupled to the support bracket 119b is bonded to either one. The bracket fixing plate 115a' has an upper end coupled to the battery support beam 115a, and a lower end coupled to the support bracket 119b. These spaced battery support beams 115a are respectively coupled to both sides of the battery cover 115b.

The battery cover 115b has both ends fixed to the battery support beam 115a to cover the upper surface of the battery pack, and has cover fixing brackets 115b ′ on the upper surface to be fixed to the second cover unit 130 . In this case, a plurality of cover fixing brackets 115b ′ may be provided.

In addition, the battery cover 115b is formed with a connector connection opening 115b'' so that an external connector can be connected to the battery pack. The battery cover 115b is coupled to the first cover part 120 .

One end and the other end of the first cover unit 120 according to the present embodiment are respectively coupled to the base plate 117 and the base side plate 119 so as to cover the open upper surface of the battery mounting unit 110 . Specifically, the first cover part 120 is formed in a "L" shape, so that one lower end is slidingly coupled to the cover fixing pin 111a of the base plate 117 , and the other upper end is the cover fixing pin of the base side plate 119 . bound to (111a).

To this end, the first cover part 120 is formed with a first sliding assembly groove 121 to which the cover fixing pin 111a is slidably coupled to the lower end of one side, and the cover fixing pin 111a is inserted into the other upper end of the first assembly. A hole 123 is formed. At this time, a screw thread is formed on the outer surface of the cover fixing pin 111a for fastening the nut.

In addition, the first cover part 120 is fixed to the cover fixing bracket 115b' through fastening the bolts of the battery cover 115b to protect the battery cover 115b.

The second cover unit 130 according to the present embodiment is coupled to the battery base plate member 111 to cover the open upper surface of the battery mounting unit 110 , for example, the control box. The second cover portion 130 is also formed in a “L” shape, and a second sliding assembly groove 131 to which the cover fixing pins 111a are coupled, respectively, and a second assembly hole portion 133 are formed.

Specifically, the second cover unit 130 is a second sliding assembly groove 131 formed at one lower end is slidingly coupled to the cover fixing pin 111a of the base plate 117, and the second assembly is formed at the upper end of the other side. The cover fixing pin 111a of the base side plate 119 is inserted into the hole 133 . At this time, a screw thread for fastening the nut is formed in the cover fixing pin 111a.

The duct unit 140 is coupled to the battery mounting unit 110 to induce air for air cooling of the battery pack. An air intake pipe (not shown) is connected to one end of the duct unit 140 , and the other end is coupled to the base plate 117 so that the other end is located in the battery pack.

In the battery base plate module 100 for electric and hybrid vehicles according to an embodiment of the present invention configured as described above, the battery pack is mounted on the base plate member 111 whose upper surface is completely open, and the battery cover member ( 115), the first cover part 120 and the second cover part 130 are sequentially assembled to cover and fix the battery pack, so that assembly can be performed quickly and quickly, thereby improving assembling property.

In addition, in the battery base plate module 100 for electric and hybrid vehicles according to the present invention, the duct unit 140 is coupled to the battery mounting unit 110 to transmit external air to the battery pack, so the heat generated in the battery pack The heat dissipation effect of the battery pack can be improved by rapidly dissipating heat through the air cooling method.

Although the present invention has been described with reference to the embodiment shown in the drawings, this is merely an example, and those skilled in the art to which various modifications and equivalent other embodiments are possible. will understand

Accordingly, the true technical protection scope of the present invention should be defined by the claims.

100: battery case module 110: battery mounting part
111: base plate member 113: box mounting bracket
115: battery cover member 117: base plate
119: base side plate 120: first cover part
121: first assembly hole 123: first assembly hole
130: second cover part 131: second sliding assembly hole part
133: second assembly hole 140: duct part

Claims (6)

a battery mounting unit in which the battery pack and the control box are mounted; a first cover unit coupled to the battery mounting unit to cover the open upper surface of the battery mounting unit; a second cover unit coupled to the battery mounting unit from one side of the first cover unit to cover the open upper surface of the battery mounting unit; and a duct part provided in the battery mounting part to guide air for air cooling to the battery pack.
both sides of the space formed by the first cover part and the second cover part are formed in an open structure;
The battery mounting part is formed in an "L" shape so that the battery pack is mounted, and a cover fixing pin to which the first cover part and the second cover part are slidably coupled to one upper end and the other lower end is formed in a protruding base plate member. ; a box mounting plate fixed to the base plate member so that the control box is coupled and covered by the second cover part; and a battery cover member coupled to the base plate member and the first cover part to be positioned inside the first cover part to support an upper surface of the battery pack;
The base plate member may include: a base plate provided with the cover fixing pin at one end to form a bottom of the battery mounting unit and to which the battery pack is fixed; and a base side plate provided with the cover fixing pin at the upper end and joined to the base plate to form a side wall of the battery mounting unit, and having a support bracket fixed to the battery cover member;
The battery cover member may include: a battery support beam coupled to both sides of an upper end of the battery pack and fixed to the support bracket through a bracket fixing plate; and
a battery cover fixed to the battery support beam to cover an upper surface of the battery pack, a cover fixing bracket coupled to the second cover part, and having a connector connection opening;
Battery base plate module for electric and hybrid vehicles comprising a.
delete delete The method of claim 1,
The first cover portion, a first sliding assembly groove portion slidingly coupled to the cover fixing pin of the base plate is formed at one lower end portion, and a first assembly hole portion into which the cover fixing pin of the base side plate is inserted is formed at the other upper end portion. Battery base plate module for electric and hybrid vehicles, characterized in that it is formed in a "L" shape as much as possible.
The method of claim 1,
The second cover portion, a second sliding assembly groove portion slidingly coupled to the cover fixing pin of the base plate is formed at one lower end portion, and a second assembly hole portion into which the cover fixing pin of the base side plate is inserted is formed at the other upper end portion. Battery base plate module for electric and hybrid vehicles, characterized in that it is formed in a "L" shape as much as possible. delete

Images