CN207426081U - The radiator structure of battery component - Google Patents

Abstract

The utility model is related to a kind of radiator structures of battery component, the battery component includes multiple battery core units, the conductive sheet that the battery core unit includes core, is mutually conductively connected with the core two-stage respectively, the radiator structure includes being formed in the radiating part on the conductive sheet top or lower part, the conducting-heat elements being in contact with the radiating part, the cooling-part being in contact with the conducting-heat elements, and the heat of the core is transferred to the cooling-part by the conducting-heat elements from the radiating part.The heat of core can be transferred to from radiating part by conducting-heat elements on cooling-part in the utility model, so as to reduce the heat of core, reduce the temperature of battery component, promote the security performance of battery component, and radiating part is arranged on the conductive sheet of each battery core unit, it is small to the structure improvement of battery core unit in itself, it is simple in structure, it is of low cost.

Description

The radiator structure of battery component

Technical field

The utility model is related to new energy battery technology field, more particularly to a kind of radiator structure of battery component.

Background technology

It is well known that driving automobile after oil is generated electricity with battery storage energy, the energy consumed about directly makes With the 1/4 of fuel oil.Meanwhile with the rise of environmentally friendly concept, the development more positive at present of various new energy vehicles.At present, commonly use On-vehicle battery, in order to pursue higher energy density, most of producers use lithium battery.However, lithium battery is by more A battery core unit is connected in series, and each battery core unit includes multiple cores being arranged in parallel, it is maximum the shortcomings that be that shakiness Fixed and fever is high, and after battery temperature is excessively high, is susceptible to that damage, core are on fire, and the probability of explosion is also multiplied.Cause This needs the design to radiate to battery.

The content of the invention

The purpose of this utility model is to provide a kind of radiator structure of battery component.

In order to achieve the above objectives, the technical solution adopted in the utility model is：

A kind of radiator structure of battery component, the battery component include multiple battery core units, the battery core unit The conductive sheet being mutually conductively connected with the core two-stage including core, respectively, the radiator structure include being formed in described Conductive sheet top or lower part radiating part, be in contact with the radiating part conducting-heat elements, with the conducting-heat elements phase The cooling-part of contact, the heat of the core are transferred to described cold from the radiating part by the conducting-heat elements But component.

Preferably, the conducting-heat elements use high heat conduction selenium film.

Preferably, the radiating part of the conductive sheet described in two shares the conducting-heat elements described in one.

Preferably, the cooling-part is liquid cooling plate.

Preferably, there are one the cooling-part is set, the cooling described in multiple battery core units shareds one Component.

Preferably, the radiating part is formed in the lower part of the conductive sheet.

Preferably, the conductive sheet includes piece body, and the lower part of the piece body is to the core one side bending Form the radiating part.

It is further preferred that the top of the piece body forms upper bending part to the radiating part homonymy bending.

It is further preferred that the thickness of the radiating part is more than the thickness of the upper bending part.

Preferably, the battery core unit further includes core stent, and the core is arranged in the core stent And positive pole-face, opposite side formation cathode face are formed in the one side of the core stent, the positive pole-face of the core stent is born Pole-face is connected to the conductive sheet.

Since above-mentioned technical proposal is used, the utility model has following advantages compared with prior art：

The heat of core can be transferred to from radiating part by conducting-heat elements on cooling-part in the utility model, so as to drop The heat of low core reduces the temperature of battery component, promotes the security performance of battery component, and radiating part is arranged on each electricity It is small to the structure improvement of battery core unit in itself on the conductive sheet of core unit, it is simple in structure, it is of low cost.

Description of the drawings

Attached drawing 1 is the structure diagram of the present embodiment；

Attached drawing 2 is the fractionation schematic diagram one of the present embodiment；

Attached drawing 3 is the fractionation schematic diagram two of the present embodiment.

Wherein：1a, 1b, battery core unit；10th, core stent；100th, location hole；11st, conductive sheet；110th, piece body；111、 Lower bending part, radiating part；112nd, upper bending part；2nd, conducting-heat elements；3rd, cooling-part.

Specific embodiment

The utility model is further described with reference to the accompanying drawings and embodiments：

A kind of radiator structure of battery component as shown in Figs. 1-3, battery component include multiple battery core unit 1a, 1b（In figure Show two）, battery core unit 1a, 1b include core stent 10, the core being arranged in core stent 10（It is not shown in figure）, even The conductive sheet 11 being mutually conductively connected with core two-stage respectively on core stent 10 is connected on, location hole is offered on core stent 10 100, core is fixed in location hole 100, and positive pole-face, opposite side formation cathode face, core are formed in the one side of core stent 10 The positive pole-face of body support frame 10, cathode face are connected to conductive sheet 11, i.e. battery core unit 1a, a 1b set two conductive sheets 11。

Conductive sheet 11 includes piece body 110, and the lower part of piece body 110 forms lower bending part 111, piece to the bending of core one side The 111 homonymy bending of top downward bending portion of body 110 forms bending part 112, wherein lower bending part 111, upper bending part 112 The 110 vertical bending of opposite panel body, the i.e. section of conductive sheet 11 are in close to c-type, and two conductive sheets 11 is made to wrap core stent 10 In centre.Conductive sheet 11 can be not only connected on core stent 10 by wherein upper bending part 112, but also can be by connecting in addition Conductive plate realizes the conduction between battery core unit.

Radiator structure includes being formed in the radiating part 111 on 11 top of conductive sheet or lower part, the heat conduction being in contact with radiating part Component 2, the cooling-part 3 being in contact with conducting-heat elements 2, in the present embodiment：Lower bending part 111 as radiating part 111, core The heat of generation is transferred to cooling-part 3 from radiating part 111 by conducting-heat elements 2.In order to realize abundantization of heat dissipation, radiating part 111st, face is bonded with face between conducting-heat elements 2, cooling-part 3.

In the present embodiment：The thickness of radiating part 111 is more than the thickness of upper bending part 112.Conducting-heat elements 2 may be employed as High heat conduction selenium film, the radiating parts 111 of two conductive sheets 11 share a conducting-heat elements 2, two battery core units in the present embodiment The radiating part 111 of the one of conductive sheet 11 of 1a, 1b shares a conducting-heat elements 2.Cooling-part 3 uses liquid cooling plate, cooling There are one component 3 is set, all battery core units can share a cooling-part.

Above-described embodiment is only the technical concepts and features for illustrating the utility model, and its object is to allow be familiar with technique Personage can understand the content of the utility model and implement according to this, can not the scope of protection of the utility model be limited with this. All equivalent change or modifications made according to the utility model Spirit Essence, should all cover the scope of protection of the utility model it It is interior.

Claims (10)

1. a kind of radiator structure of battery component, the battery component includes multiple battery core units, the battery core unit bag Include core, the conductive sheet being mutually conductively connected with the core two-stage respectively, it is characterised in that：The radiator structure includes shape Into the conductive sheet top or lower part radiating part, be in contact with the radiating part conducting-heat elements, lead with described The cooling-part that thermal part is in contact, the heat of the core are transferred to from the radiating part by the conducting-heat elements The cooling-part.

2. the radiator structure of battery component according to claim 1, it is characterised in that：The conducting-heat elements are led using height Hot selenium film.

3. the radiator structure of battery component according to claim 1, it is characterised in that：The heat dissipation of conductive sheet described in two Portion shares the conducting-heat elements described in one.

4. the radiator structure of battery component according to claim 1, it is characterised in that：The cooling-part is cold for liquid Plate.

5. the radiator structure of the battery component according to claim 1 or 4, it is characterised in that：The cooling-part is set There are one, the cooling-part described in multiple battery core units shareds one.

6. the radiator structure of battery component according to claim 1, it is characterised in that：The radiating part is formed in described Conductive sheet lower part.

7. the radiator structure of the battery component according to claim 1 or 6, it is characterised in that：The conductive sheet includes piece The radiating part is formed to the core one side bending at body, the lower part of the piece body.

8. the radiator structure of battery component according to claim 7, it is characterised in that：The top of the piece body is to institute The radiating part homonymy bending stated forms bending part.

9. the radiator structure of battery component according to claim 8, it is characterised in that：The thickness of the radiating part is more than The thickness of the upper bending part.

10. the radiator structure of battery component according to claim 1, it is characterised in that：The battery core unit further includes Core stent, the core is arranged in the core stent and positive pole-face is formed in the one side of the core stent, Opposite side forms cathode face, and the positive pole-face of the core stent, cathode face are connected to the conductive sheet.