CN106410082A - Battery module and electric vehicle - Google Patents

Abstract

The invention provides a battery module. The battery module comprises a plurality of cells for providing electric energy, a plurality of cell positioning parts for positioning and installing the cells, cooling plate parts for providing cold energy as well as a heat conducting film, wherein the heat conducting film comprises a plurality of heat absorption zones and a plurality of transition zones, each heat absorption zone makes contact with at least one surface of the corresponding cell and absorbs heat from the cell, and the transition zones are connected between the heat absorption zones respectively; heat of the heat conducting film is conducted to the cooling plate parts. According to the battery module, one heat conducting film is arranged between the plurality of cells and the heat absorption zones are connected in series by means of the transition zones of the heat conducting film, so that the heat absorbed by the whole heat conducting film is conducted to the cooling plate parts, the cells are well cooled, too large cooling structure arranging space is not needed, and the overall occupation space of the battery module can be saved.

Description

Battery component and electric automobile

Technical field

The present invention relates to a kind of electric automobile field, more particularly it relates to a kind of thermal diffusivity is good and takies empty Between little Vehicular battery assembly.

Background technology

In current New-energy electric vehicle field, the type of cooling of its power battery assembly mainly includes：Naturally cold But cold etc. three kinds of, air-cooled and liquid.Wherein, the cold mode of liquid is generally using the cooling to every battery core monomer surface and based on module one The cooling in individual face.The cold type of cooling of liquid for every battery core monomer surface has relatively optimal radiating effect, but it is also right Should have higher cost and poor space availability ratio in ground, and then lead to reliability relatively poor.And be based on module bottom surface or The radiating mode that one of face is adopted, it is technically easier to realize, but radiating effect can be relatively weaker.

Content of the invention

The object of the invention also resides in a kind of perfect heat-dissipating of offer and the less battery component that takes up room.

The object of the invention also resides in a kind of electric automobile with aforementioned battery component of offer.

According to an aspect of the present invention, provide a kind of battery component, it includes：Multiple battery cores, it is used for providing electric energy； Multiple battery core positioning elements, it is used for providing the location and installation of described battery core；Cooling plate member, it is used for providing cold；Heat conduction Film, it includes：Multiple heat absorption sections, each described heat absorption section is contacted and from described with least one face of each battery core respectively Battery core is absorbed heat；And multiple transition zone；Each described transition zone is connected between each described heat absorption section；Its In, the heat in described heat conducting film is conducted to described cooling plate member.

Alternatively, described battery core positioning element and described battery core arranged for interval；Described heat absorption section the first side with described Battery core contacts, and its second side is contacted with described battery core positioning element.

Alternatively, the first side of described battery core positioning element and the second side are respectively arranged a described battery core；Described heat absorption First side of section is contacted with the battery core of the first side of a described battery core positioning element, its second side and another described battery core The battery core contact of the second side of positioning element.

Alternatively, described heat conducting film is the graphite film that can bend.

Alternatively, on described graphite film, coating is improved the material of suppleness.

Alternatively, described graphite film is coated with gum.

Alternatively, described heat conducting film is in that reciprocally bending form is arranged around battery core each described and battery core positioning element, Wherein each described heat absorption section forms the reciprocated part of described heat conducting film, and each described transition zone forms described heat conducting film Bending part.

Alternatively, entirely described heat conducting film has identical width along arranged direction.

Alternatively, at least one side in described heat conducting film arranges dielectric film.

According to a further aspect in the invention, also provide a kind of electric automobile, it includes foregoing battery component.

According to the battery component of the present invention, by arranging a heat conducting film between multiple battery cores, using its section that absorbs heat Realize from battery core heat absorption, and realize the series connection to each heat absorption section using its transition zone, the most whole heat conducting film is absorbed Heat conduct to cooling plate member, and then realize the cooling effect good to battery core, and excessive radiator structure need not be taken Arrangement space, the entirety that can save battery component takes up room, or keep former take up room constant in the case of arrange more Many battery cores simultaneously obtain higher electricity.Electric automobile according to the present invention thus also there is the more preferable set of cells of radiating effect Part, possesses more preferably performance.

Brief description

Fig. 1 is the schematic diagram of an embodiment of the battery component of the present invention.

Fig. 2 is the schematic diagram of an embodiment of arrangement of the battery core of the battery component of the present invention and battery core positioning element.

Fig. 3 is showing of an embodiment of the assembly relation between the heat conducting film of the present invention and battery core and battery core positioning element It is intended to.

Fig. 4 is the another of an embodiment of the assembly relation between the heat conducting film of the present invention and battery core and battery core positioning element One schematic diagram.

Specific embodiment

Fig. 1 shows a kind of embodiment of the battery component 100 that assembling completes, and it includes multiple battery cores 120, multiple battery core Positioning element 130, cooling plate member 140 and heat conducting film 110.Wherein, heat conducting film 110 is in that the reciprocal form folding shuttle is arranged in Between battery core 120 and battery core positioning element 130, and it is ultimately connected to cool down plate member 140.In the course of the work, from battery core 120 The heat absorbing conducts to realize dissipating to cooling plate member 140 through the partial sector of whole heat conducting film 110 or heat conducting film 110 Heat, and then realize the cooling to battery core 120.The battery component 100 of the present embodiment completes entirely to radiate only with heat conducting film 110 Process, it, while realizing the cooling effect good to battery core, need not take excessive radiator structure arrangement space, Neng Goujie The entirety of about battery component takes up room, or keep former take up room constant in the case of arrange more battery cores and obtain more High electricity.

Next all parts will specifically describe with reference to Fig. 2 to Fig. 4 in battery component 100.

Referring to Fig. 2 it can be clearly seen that a reality of arrangement between battery core 120 and battery core positioning element 130 Apply example.Wherein, the first side of any one battery core positioning element 130 and the second side are respectively arranged a battery core 120.For ease of two The assembling of person, the both sides of battery core positioning element 130 are respectively provided with installation concave station 131, install concave station 131 for two and are respectively used to for two Battery core 120 is embedded wherein, realizes positioning.Two battery cores 120 are had based on the battery component 100 of this embodiment and is equipped with a battery core The arrangement of positioning element 130.And between the two can be by the way of gluing.

Now, to further appreciate that the dress between heat conducting film and battery core 120 and battery core positioning element 130 with reference to Fig. 3 and Fig. 4 Join relation.Heat conducting film 110 includes multiple heat absorption sections 111 and multiple transition zone 112.Wherein, each heat absorption section 111 difference Contact with least one face of each battery core 120 and absorb heat from battery core 120；Each transition zone 112 is connected to each suction Between hot-section 111, realize the series connection to each heat absorption section 111.And the heat absorbed in heat conducting film is ultimately conducted to Cooling plate member 140.

In the accompanying drawings, heat conducting film 110 is in reciprocally bending form around each battery core 120 and battery core positioning element 130 cloth Put, wherein each heat absorption section 111 forms the reciprocated part of heat conducting film 110, and each transition zone 112 forms heat conducting film 110 Bending part.Now, the first side of heat absorption section 111 is connect with the battery core 120 of the first side of a battery core positioning element 130 Touch, its second side is contacted with the battery core 120 of the second side of another battery core positioning element 130.Now, heat conducting film 110 is any The both sides of one heat absorption section 111 all are realized contacting with battery core 120, and therefrom draw heat, and realize via transition zone 112 Series connection to these heat absorption sections 111, and the heat transfer of whole heat conducting film is walked the most at last, efficiently realizes dissipating to battery core 120 Heat.

Alternatively, because the heat transfer efficiency of heat conducting film 110 is relevant with its width.Therefore, whole heat conducting film 110 is along arrangement side To having identical width, to enable heat equably to conduct along whole heat conducting film, thus having more preferable heat-conducting effect.

Alternatively, because heat conducting film 110 is usually easy to fracture and impaired material.Therefore, can be in battery core positioning element 130 sidepiece design cambered surface 132, this cambered surface 132 is the bending part of described heat conducting film 110 in the side of battery core positioning element 130 Gentle transition is provided at portion.And then avoid the bending part of heat conducting film 110 fracture to occur it is ensured that the reliability of heat conduction in bending place Property.

In another unshowned embodiment, also there are others in the arrangement between battery core and battery core positioning element Embodiment.Wherein, any one battery core positioning element only side arrange a battery core.For ease of both assemblings, battery core At least side of positioning element is respectively provided with installation concave station, and this installation concave station is used for being embedded wherein for a battery core, realizes positioning.Base Battery component in this embodiment has the arrangement that a battery core is equipped with a battery core positioning element.And glue can be adopted between the two The mode closed.

Similarly although not shown in figures, the heat conducting film in the present embodiment equally can enclose in reciprocally bending form Around each battery core and battery core positioning element arrangement, wherein each heat absorption section forms the reciprocated part of heat conducting film, and each transition Section forms the bending part of heat conducting film.Now, battery core positioning element and battery core arranged for interval；First side of heat absorption section and electricity Core contacts, and its second side is contacted with battery core positioning element.Now, any one heat absorption section of heat conducting film is all real with a battery core Now contact, and therefrom draw heat, and realize the series connection to these heat absorption sections via transition zone, and the most whole heat conduction The heat transfer of film is walked, and efficiently realizes the radiating to battery core.

Similarly, because the heat transfer efficiency of heat conducting film is relevant with its width.Therefore, whole heat conducting film has along arranged direction Identical width, to enable heat equably to conduct along whole heat conducting film, thus have more preferable heat-conducting effect.And it is same Ground, because heat conducting film is usually easy to fracture and impaired material.Therefore, cambered surface can be designed in the sidepiece of battery core positioning element, This cambered surface provides gentle transition for the bending part of described heat conducting film at the sidepiece of described battery core positioning element.And then avoid There is fracture in bending place it is ensured that the reliability of heat conduction in the bending part of heat conducting film.

Further, for multiple embodiments of aforementioned list, other parts therein also can obtain and further change Kind.

For example, for heat conducting film, as an example, alternatively, heat conducting film is the graphite film that can bend.Due to Graphite film has good heat-conductive characteristic, and therefore it is one of prominent scheme as heat conducting film.Simultaneously it should pass through Technological means are improveing its suppleness so as to possess bent property.Alternatively, can be improved by coating on graphite film The material of suppleness possesses bent property making it.More specifically, gum can be coated with graphite film.This gum makes Obtain graphite film originally easy to break to a certain degree can bend, thus can preferably be wound around battery core and absorbing heat to realize and lead Hot merit energy.Furthermore, for improving the insulating properties of heat conducting film, strengthen protection, also can coat dielectric film at least one side of heat conducting film, For example, coat PE film.

For another example, for cooling plate member, alternatively, the inside setting coolant flow passage of cooling plate member.? Urgency is conducted, by flowing through coolant therein and taking away, the heat coming on heat conducting film.Furthermore, cooling plate member can be closed using aluminum Golden material, this will take into account thermal conductivity and production cost simultaneously.

Following will combine accompanying drawing 1 to 4 and describe the assembling process of this battery component 100.First, no matter adopt a battery core The mode of 120 one battery core positioning element 130 of configuration, or configure a battery core positioning element 130 using two battery cores 120 Mode.Assembling so as to become an independent unit between battery core 120 and battery core positioning element 130 all should first be realized.This Afterwards, heat conducting film 110 is wound around unit successively in back and forth collapsible arrangement, and final arrangement at two ends cools down plate member 140, And fastened overall for battery component 100 by stay bolt or pull bar, to realize the installation of whole battery component 100.

The radiation processes of this battery component 100 will be further described through with reference to aforementioned figures as follows.In battery component 100 During providing electricity, battery core 120 will gradually produce heat.Now, the heat absorption section 111 of heat conducting film 110 is from battery core 120 Upper absorption heat, and by these sections 111 that absorb heat of transition zone 112 series connection, the heat in heat conducting film 110 is passed to two ends Pass, and be finally transmitted to cool down in plate member 140.Flow subsequently through cold in the coolant flow passage in cooling plate member 140 But liquid will carry out heat exchange with heat conducting film 110, by the heat absorption entrained by heat conducting film 110 and be transferred at extraneous low-temperature receiver.Thus Achieve the cooling procedure to battery core 120.

Alternatively, according to another aspect of the present invention, also provide a kind of embodiment of electric automobile, it applies aforementioned Battery component 100 in embodiment, thus correspondingly there is outstanding heat dispersion and relatively small taking up room.

Example above primarily illustrates battery component and the electric automobile of the present invention.Although only to some of them present invention's Embodiment is described, but those of ordinary skill in the art it is to be appreciated that the present invention can without departing from its spirit with In the range of implemented with many others forms.Therefore, the example shown and embodiment are considered schematic and unrestricted Property, in the case of without departing from spirit and scope of the present invention as defined in appended claims, the present invention may cover Various modifications and replacement.

Claims (10)

1. a kind of battery component is it is characterised in that include：

Multiple battery cores, it is used for providing electric energy；

Multiple battery core positioning elements, it is used for providing the location and installation of described battery core；

Cooling plate member, it is used for providing cold；

Heat conducting film, it includes：Multiple heat absorption sections, each described heat absorption section is contacted with least one face of each battery core respectively And from the heat absorption of described battery core；And multiple transition zone；Each described transition zone is connected to each described heat absorption section Between；Wherein, the heat in described heat conducting film is conducted to described cooling plate member.

2. battery component according to claim 1 it is characterised in that：Described battery core positioning element is spaced cloth with described battery core Put；First side of described heat absorption section is contacted with described battery core, and its second side is contacted with described battery core positioning element.

3. battery component according to claim 1 it is characterised in that：First side of described battery core positioning element and the second side It is respectively arranged a described battery core；First side of described heat absorption section and the battery core of the first side of a described battery core positioning element Contact, its second side is contacted with the battery core of the second side of battery core positioning element another described.

4. the battery component according to claims 1 to 3 any one it is characterised in that：Described heat conducting film is to bend Graphite film.

5. battery component according to claim 4 it is characterised in that：On described graphite film, coating is improved the material of suppleness Material.

6. battery component according to claim 4 it is characterised in that：It is coated with gum on described graphite film.

7. the battery component according to claims 1 to 3 any one it is characterised in that：Described heat conducting film is in reciprocally bending Form around battery core each described and battery core positioning element arrangement, wherein each described heat absorption section form described heat conducting film Reciprocated part, and each described transition zone forms the bending part of described heat conducting film.

8. battery component according to claim 7 it is characterised in that：Entirely described heat conducting film have along arranged direction identical Width.

9. the battery component according to claims 1 to 3 any one it is characterised in that in described heat conducting film at least one Dielectric film is arranged in face.

10. a kind of electric automobile it is characterised in that：Including the battery component as described in claim 1 to 9 any one.