CN206180062U - Heat dissipation battery - Google Patents

Abstract

The utility model relates to a battery specifically discloses heat dissipation battery. This heat dissipation battery includes casing and battery cover, the casing in distribute and to have the group battery, the group battery between be equipped with the baffle, heat dissipation battery in distribute and to have the louvre, be equipped with the heat conduction stick in the louvre, the heat conduction stick in be filled with superconductive thermal conductivity thermal, the heat conduction stick stretch out the casing and be connected with heat abstractor in the part of stretching out the casing. It is above heat dissipation battery, on the basis of current battery structure, increase heat abstractor, as early as possible transmit battery with the heat that produces in the battery use outside, reduced the operating temperature of battery.

Description

Radiating battery

Technical field

The utility model is related to a kind of battery, more particularly to radiating battery.

Background technology

The use of fossil energy causes ball ecological environment worse and worse, people limit fossil energy use while, Also new forms of energy are evolving, electric energy is increasingly welcome as a kind of clean energy resource by everybody.With power equipment not Disconnected to increase, battery becomes the required thing of many equipment.

Battery usually can generate heat during use, if can not timely radiate, the temperature of battery is raised, and can be caused The problems such as battery efficiency and service life are reduced, or even battery or other equipment can be caused because battery temperature is too high to damage.

The content of the invention

The technical problems to be solved in the utility model is to provide a kind of radiating battery, on the basis of existing accumulator structure On, increase heat abstractor, the heat produced during battery use is delivered to as soon as possible outside battery, reduce battery Operating temperature.

In order to solve above-mentioned technical problem, the technical scheme that the utility model is provided is as follows：Radiating battery, including housing And battery cover, battery pack is distributed with described housing, it is provided with dividing plate between described battery pack；In described radiating battery Louvre is distributed with, heat conductive rod is provided with louvre, filled with superconductive heat transfer material in described heat conductive rod；Described heat conductive rod is stretched Go out housing and be connected with heat abstractor in the part for stretching out housing.

Described battery pack is provided with louvre, and heat conductive rod is provided with louvre, and the heat conductive rod stretches out the part of housing Heat abstractor is connected with, the heat produced during battery use can be delivered to outside housing by heat conductive rod, then by radiating Device disperses as early as possible, and the operating temperature of battery is controlled within the specific limits.Filled with superconductive heat transfer material in described heat conductive rod, The heat transfer efficiency of superconductive heat transfer material is high, faster the heat transfer in battery can be gone out into battery pack.Described louvre is located at In radiating battery, heat conductive rod is directly protruding in battery and absorbs heat, compared with radiating on the outside of battery pack, internal battery pack The temperature difference is less, can effectively avoid battery pack center temperature too high.

Preferably, described louvre be distributed in it is on dividing plate and parallel with dividing plate；Compared with existing accumulator structure, Only need to open louvre on dividing plate, the difficulty of repacking is little.

Preferably, described louvre is through battery pack and dividing plate；Heat conductive rod is directly from the absorbed inside warm of battery pack Amount, good heat dissipation effect.

Preferably, described radiating battery is being divided equally along dividing plate direction and on the direction through battery pack with dividing plate It is furnished with louvre.

Preferably, described heat abstractor includes air cooling equipment or refrigerant module.

Preferably, described air cooling equipment includes some fin, described heat conductive rod passes through fin；Heat transfer To after fin, in being directly emitted to air, simple structure.

Preferably, described heat abstractor includes refrigerant module, described refrigerant module is hollow structure；Described leads Hot pin is stretched in refrigerant module and is connected with refrigerant module sealing；Described refrigerant module is provided with inlet and liquid outlet, described Refrigerant module in circulation have heat transfer medium；The heat of refrigerant module is delivered to, the heat transfer medium for being flow through is taken away, due to heat transfer The circulation of medium, heat distributes more timely.

Description of the drawings

Fig. 1 is the structural representation of the utility model first embodiment radiating battery；

Fig. 2 is the explosive view of the utility model first embodiment radiating battery；

Fig. 3 is the explosive view of the utility model second embodiment radiating battery；

Fig. 4 is the explosive view of the utility model 3rd embodiment radiating battery；

Fig. 5 is the explosive view of the utility model fourth embodiment radiating battery；

Fig. 6 is the explosive view of the embodiment of the utility model the 5th radiating battery；

Fig. 7 is the explosive view of the embodiment of the utility model the 5th radiating battery another kind structure；

Fig. 8 is the explosive view of the embodiment of the utility model the 5th radiating battery another kind structure；

Fig. 9 is the explosive view of the embodiment of the utility model the 5th radiating battery another kind structure；

Figure 10 is the structural representation of refrigerant module in the utility model second embodiment radiating battery.

Specific embodiment

In order that the purpose of this utility model, technical scheme and advantage become more apparent, below in conjunction with accompanying drawing and enforcement Example, is further elaborated to the utility model.It should be appreciated that specific embodiment described herein is only to explain The utility model, is not used to limit the utility model.

Embodiment one

As depicted in figs. 1 and 2, the battery that radiates includes housing 1 and battery cover 2, and battery pack is distributed with described housing 1 11, it is provided with dividing plate between described battery pack 11；Louvre is distributed with described radiating battery, heat conduction is provided with louvre Rod 4, described louvre is distributed on dividing plate and parallel with dividing plate；Filled with superconductive heat transfer material, superconduction in described heat conductive rod 4 The heat transfer efficiency of heat-transfer matcrial is high, faster the heat transfer in battery can be gone out into battery pack 11；Described heat conductive rod 4 stretches out shell Body 1；The heat conductive rod 4 stretches out the part of housing 1 and is connected with heat abstractor 3；The heat produced during battery use can pass through Heat conductive rod 4 is delivered to outside housing 1, is then dispersed as early as possible by heat abstractor 3, and the operating temperature of battery is controlled in certain limit It is interior.Described heat abstractor 3 includes air cooling equipment 31, and described air cooling equipment 31 includes some fin, described heat conductive rod 4 Through fin；To after fin, in being directly emitted to air, simple structure is easy to use for heat transfer.With existing electric power storage Pool structure is compared, and this structure only needs to open louvre on dividing plate, and the difficulty of repacking is little.

Embodiment two

As shown in figure 3, compared with embodiment one, the difference of the present embodiment is that described heat abstractor 3 includes cold Matchmaker's module 32, described refrigerant module 32 is hollow structure；Described heat conductive rod 4 stretch in refrigerant module 32 and with refrigerant module 32 are tightly connected；As shown in Figure 10, described refrigerant module 32 is provided with inlet 321 and liquid outlet 322, described refrigerant module Circulation in 32 has heat transfer medium；The heat of refrigerant module 32 is delivered to, is taken away by the heat transfer medium for flowing, due to heat transfer medium Circulation, heat distributes more timely, and radiating effect is more preferable.Described heat transfer medium is preferably water, and the specific heat capacity of water is high, passes Thermal effect is good.

Embodiment three

As shown in figure 4, compared with embodiment one, the difference of the present embodiment is that described louvre passes through battery Group 11 and dividing plate, described heat conductive rod 4 stretches out housing 1；Compared with the form in the radiating of the outside of battery pack 11, described louvre In battery pack 11, heat conductive rod 4 is directly protruding in battery pack 11 and absorbs heat, and the temperature difference inside battery pack 11 is less, can be with It is effectively prevented from the center temperature of battery pack 11 too high.

Example IV

As shown in figure 5, compared with embodiment two, the difference of the present embodiment is that described louvre passes through battery Group 11 and dividing plate, described heat conductive rod 4 stretches out housing 1；Compared with the form in the radiating of the outside of battery pack 11, described louvre In battery pack 11, heat conductive rod 4 is directly protruding in battery pack 11 and absorbs heat, and the temperature difference inside battery pack 11 is less, can be with It is effectively prevented from the center temperature of battery pack 11 too high.

Embodiment five

As described in Fig. 6, Fig. 7, Fig. 8 and Fig. 9, compared with above-described embodiment, the difference of the present embodiment is, described Radiating battery is being distributed with louvre along dividing plate direction and on the direction through battery pack 11 with dividing plate；On different directions Heat abstractor 3 can be simultaneously air cooling equipment 31, it is also possible to while be refrigerant module 32, can be being respectively provided with air-cooled dress 31 and refrigerant module 32 are put, set-up mode is flexible.

Above-described radiating battery, on the basis of existing accumulator structure, increases heat abstractor, and battery is made The heat produced with during is delivered to as soon as possible outside battery, reduces the operating temperature of battery.

In a word, preferred embodiment of the present utility model is the foregoing is only, it is all not to limit the utility model Any modification, equivalent and improvement made within spirit of the present utility model and principle etc., should be included in this practicality Within new protection domain.

Claims (7)

1. radiate battery, including housing（1）And battery cover（2）, described housing（1）Battery pack is inside distributed with（11）, it is described Battery pack（11）Between be provided with dividing plate, it is characterised in that：Louvre is distributed with described radiating battery, is set in louvre There is heat conductive rod（4）, described heat conductive rod（4）It is interior filled with superconductive heat transfer material；Described heat conductive rod（4）Stretch out housing（1）And Stretch out housing（1）Part be connected with heat abstractor（3）.

2. radiating battery according to claim 1, it is characterised in that：Described louvre be distributed on dividing plate and with every Plate is parallel.

3. radiating battery according to claim 1, it is characterised in that：Described louvre passes through battery pack（11）With every Plate.

4. radiating battery according to claim 1, it is characterised in that：Described radiating battery along dividing plate direction and Louvre is distributed with the direction through battery pack with dividing plate.

5. the radiating battery according to claim 1 or 2 or 3 or 4, it is characterised in that：Described heat abstractor（3）Including Air cooling equipment（31）Or refrigerant module（32）.

6. radiating battery according to claim 5, it is characterised in that：Described air cooling equipment（31）Including some radiatings Piece, described heat conductive rod（4）Through fin.

7. radiating battery according to claim 5, it is characterised in that：Described heat abstractor（3）Including refrigerant module （32）, described refrigerant module（32）For hollow structure；Described heat conductive rod（4）Stretch into refrigerant module（32）It is interior and with refrigerant mould Block（32）It is tightly connected；Described refrigerant module（32）It is provided with inlet（321）And liquid outlet（322）, described refrigerant module （32）Interior circulation has heat transfer medium.