CN206313088U - Heat dissipation battery module - Google Patents

Abstract

A kind of heat dissipation battery module, including cell, lower carriage, upper bracket, cooling tube and cooler bin；Lower carriage and upper bracket interval are staggered relatively and all include multiple accepting units；The two ends that each cell is received are contained in a lower carriage accepting unit corresponding with upper bracket respectively；Multiple accepting units are arranged in matrix-style and main part is provided with installing zone between four adjacent accepting units；Mounting hole is offered in installing zone；The first mounting hole that installing zone of the mounting hole including lower carriage is opened up and the second mounting hole that the installing zone of upper bracket is opened up；Cooling tube includes opposite first end and the second end, first end closing and the second end opening；Cooler bin is arranged on upper bracket；First end is fixed in the first mounting hole；Second end is fixed in the second mounting hole and is connected with cooler bin.Compared with prior art, the heat dissipation battery module that the utility model is provided, evenly, security performance is higher, and service life is longer for radiating.

Description

Heat dissipation battery module

【Technical field】

The utility model is related to field of batteries, more particularly to a kind of heat dissipation battery module.

【Background technology】

Battery modules as electric automobile power source, its heat dispersion is relation electric automobile security and service life Key component, therefore, using the appropriate type of cooling to battery modules carry out cooling it is most important.At present, battery modules are adopted The type of cooling typically has three kinds：Air cooling, phase-change material cooling and liquid cooling.It is difficult to ensure that when being cooled down using air The uniformity of cooling effect, while the thermal Finite that air is taken away, cooling effect is poor；When being cooled down using phase-change material, structure ratio It is more complicated, at the same it is relatively costly, it is unfavorable for commercial introduction.Liquid cooling is divided into directly contact cooling and mediate contact cooling, directly Contact cooling energy loss is big and technical requirements are high；Mediate contact cooling is that pipeline is set outside battery modules, it is difficult to protected The samming soaking of battery is demonstrate,proved, battery life is had a strong impact on.

In consideration of it, a kind of real weak point for being necessary to provide heat dissipation battery module to overcome prior art to exist.

【Utility model content】

The purpose of this utility model is to provide a kind of heat dissipation battery module, and cooling tube is set in its inner homogeneous, and radiating is more Uniformly, security is higher, and service life is longer.

To achieve these goals, the utility model provides a kind of heat dissipation battery module, including multiple cells, lower branch Frame, upper bracket, cooling tube and cooler bin；It is identical including master that the lower carriage is spaced staggered relatively and structure with the upper bracket Body portion, it is single that the lower carriage is respectively formed multiple collectings towards the direction depression away from other side mutually with the main part of the upper bracket Unit；The two ends that each cell is received are contained in a lower carriage accepting unit corresponding with upper bracket respectively；It is multiple The accepting unit is arranged in matrix-style and the main part is provided with installing zone between four adjacent accepting units；It is described Mounting hole is offered in installing zone；The first mounting hole that the installing zone of the mounting hole including the lower carriage is opened up and it is described on The second mounting hole that the installing zone of support is opened up；The cooling tube includes opposite first end and the second end, first end seal Close and second end opening；The cooler bin is arranged on the upper bracket；The first end is fixed on described first to be installed In hole；Second end is fixed in second mounting hole and is connected with the cooler bin.

In a preferred embodiment, first mounting hole is blind hole, and second mounting hole is through hole；It is described cold But the first end of pipe and the second end use interference fit with first mounting hole and second mounting hole respectively.

In a preferred embodiment, the first end of the cooling tube is contained in first mounting hole, and described Two ends are piercing in outside second mounting hole and are connected with the cooler bin.

In a preferred embodiment, the cooler bin is in rectangular-shape and including base plate；The base plate with it is described on The main part of support is abutted against away from the one side of the cell；The second end with the cooling tube is offered on the base plate Corresponding perforation；Second end is piercing in outside second mounting hole and is bonded together with the corresponding aperture seal.

In a preferred embodiment, the cooler bin also includes being extended to away from the base plate direction from the base plate The side wall of formation；The side wall includes a pair of parallel short side wall, and inlet is provided with one of short side wall.

In a preferred embodiment, the cooler bin also includes lid；The lid is placed on the upper of the cooler bin Abut against just and with the side wall.

In a preferred embodiment, the main part one side opposite with the accepting unit is provided with busbar.

The heat dissipation battery module that the utility model is provided, due to setting cooling tube in its inner homogeneous, makes radiating evenly, Security performance is higher, and service life is longer.

【Brief description of the drawings】

The three-dimensional structure diagram of the heat dissipation battery module that Fig. 1 is provided for the utility model.

Fig. 2 is the part isometric structure chart of heat dissipation battery module shown in Fig. 1.

Fig. 3 is the side view of the heat dissipation battery module structure shown in Fig. 2.

Fig. 4 is the structure chart of the lower carriage of heat dissipation battery module shown in Fig. 1.

Fig. 5 is the partial enlarged drawing of the region A shown in Fig. 4.

Fig. 6 is the structure chart of the cooling tube of heat dissipation battery module shown in Fig. 1.

【Specific embodiment】

In order that the purpose of this utility model, technical scheme and Advantageous Effects become apparent from understanding, below in conjunction with attached Figure and specific embodiment, are further elaborated to the utility model.It should be appreciated that described in this specification Specific embodiment is not intended to limit the utility model just for the sake of explaining the utility model.

As shown in Figure 1 to Figure 2, a kind of heat dissipation battery module 100 that the utility model is provided, including multiple cells 10th, lower carriage 21, upper bracket 22, cooling tube 30 and cooler bin 40.

In the present embodiment, the cell 10 is in cylindrical shape.The lower carriage 21 and the phase of the upper bracket 22 Two ends to being positioned over multiple cells 10, the lower carriage 21 is identical with the structure of the upper bracket 22 and all includes master Body portion 201；The lower carriage 21 is respectively formed mutually many with the main part 201 of the upper bracket 22 towards the direction depression away from other side The individual accepting unit 23 for housing the cell 10.Specifically, the accepting unit 23 is in cylindrical shape.Each monomer The two ends of battery 10 are contained in the accepting unit corresponding with the main part 201 of upper bracket 22 of the lower carriage 21 respectively In 23.As shown in Figures 4 and 5, the one side opposite with the accepting unit 23 of the main part 201 is provided with busbar 24, is used for The cell 10 to being contained in the accepting unit 23 carries out both positive and negative polarity and confluxes；Specifically, the accepting unit 23 Offer the through hole (not shown) being connected with the busbar 24 for the cell 10.

As depicted in figs. 3 and 5, the accepting unit 23 is arranged in matrix-style, and the main part 201 is at adjacent four Installing zone 25 is provided between accepting unit 23.In the present embodiment, the installing zone 25 is in multiple and each installing zone 25 Offer mounting hole 26.The first mounting hole 261 and institute that installing zone 25 of the mounting hole 26 including the lower carriage 21 is opened up State the second mounting hole 262 that the installing zone 25 of upper bracket 22 is opened up；First mounting hole 261 is not for through the main part 201 blind hole, second mounting hole 262 is the through hole through the main part 201.

As shown in Figures 4 to 6, the cooling tube 30 is in hollow cylindrical and including the opposite end of first end 31 and second 32；The first end 31 is closed, and second end 32 is open.The first end 31 is fixed in first mounting hole 261；Institute The second end 32 is stated to be fixed in second mounting hole 262 and be connected with the cooler bin 40.Specifically, the cooling tube 30 First end 31 be contained in first mounting hole 261, second end 32 be piercing in second mounting hole 262 it is outer and with The cooler bin 40 on the upper bracket 22 is connected.In the present embodiment, the first end 31 of the cooling tube 30 And second end 32 use interference fit with first mounting hole 261 and second mounting hole 262 respectively.

Referring again to Fig. 1 to Fig. 3, the cooler bin 40 is arranged on the upper bracket 22 and in rectangular-shape, including lid Body 41, base plate 42 and extend the side wall 43 for being formed to away from the direction of the base plate 42 from the base plate 42.The lid 41 is placed on The top of the cooler bin 40 and abutted against with the side wall 43, for sealing the cooler bin 40.The base plate 42 with it is described The main part 201 of upper bracket 22 is abutted against away from the one side of the cell 10, and offered on the base plate 42 with it is described The corresponding perforation 44 in second end 32 of cooling tube 30.In the present embodiment, the second end 32 of the cooling tube 30 is piercing in institute The sealing of perforation 44 outer and corresponding with the base plate 42 of the second mounting hole 262 stated on upper bracket 22 bonds together.It is described Side wall 43 includes a pair of parallel short side wall 45, and inlet 451 is provided with one of short side wall 45.Coolant from it is described enter Liquid mouthful 451 is flowed into the cooler bin 40, under gravity, further flows into each described cooling tube through the perforation 44 In 30.Due to the distribution uniform of the cooling tube 30, the heat produced when each described cell 10 works can be absorbed, no It is only capable of effectively reducing the temperature inside battery modules, moreover it is possible to ensure that the temperature of each cell 10 is more balanced.

During assembling, first, the lower carriage 21 and the upper bracket 22 are spaced it is staggered relatively, then by each monomer The two ends of battery 10 are contained in the accepting unit 23 corresponding with the upper bracket 22 of the lower carriage 21 respectively.Connect , the first end 31 of the cooling tube 30 is contained in first mounting hole 261, second end 32 is piercing in described Outside two mounting holes 262.Finally, the main part 201 of the base plate 42 of the cooler bin 40 and the upper bracket 22 is made away from the list The one side of body battery 10 is abutted against, and second end 32 sealing of perforation 44 corresponding with the base plate 42 is bonded in one Rise, then the lid 41 is placed on the top of the cooler bin 40 and is abutted against with the side wall 43.

When using, coolant is flowed into the cooler bin 40 from the inlet 451, under gravity, further Flow into each described cooling tube 30, absorb the heat produced when each described cell 10 works, battery mould is reduced with this Temperature inside group.

The heat dissipation battery module that the utility model is provided, due to setting cooling tube in its inner homogeneous, makes radiating evenly, Security performance is higher, and service life is longer.

The utility model is not restricted to described in specification and implementation method, therefore for the personnel of familiar field For be easily achieved additional advantage and modification, therefore in the universal limited without departing substantially from claim and equivalency range Spirit and scope in the case of, the utility model be not limited to specific details, representational equipment and shown here as with retouch The examples shown stated.

Claims (7)

1. a kind of heat dissipation battery module, including multiple cells, lower carriage, upper bracket, cooling tube and cooler bin；Its feature exists In：The lower carriage and the upper bracket are spaced that staggered relatively and structure is identical to include main part, the lower carriage with it is described The main part of upper bracket is respectively formed multiple accepting units towards the direction depression away from other side mutually；The two ends that each cell is received It is contained in respectively in a lower carriage accepting unit corresponding with upper bracket；Multiple accepting units are arranged in matrix-style Arrange and the main part is provided with installing zone between four adjacent accepting units；Mounting hole is offered in the installing zone；Institute State the installing zone of the first mounting hole that the installing zone of mounting hole including the lower carriage opens up and the upper bracket is opened up second Mounting hole；The cooling tube includes opposite first end and the second end, the first end closing and second end opening；It is described Cooler bin is arranged on the upper bracket；The first end is fixed in first mounting hole；Institute is fixed at second end State in the second mounting hole and be connected with the cooler bin.

2. heat dissipation battery module as claimed in claim 1, it is characterised in that：First mounting hole is blind hole, described second Mounting hole is through hole；The first end of the cooling tube and the second end are adopted with first mounting hole and second mounting hole respectively Use interference fit.

3. heat dissipation battery module as claimed in claim 2, it is characterised in that：The first end of the cooling tube is contained in described In one mounting hole, second end is piercing in outside second mounting hole and is connected with the cooler bin.

4. heat dissipation battery module as claimed in claim 3, it is characterised in that：The cooler bin is in rectangular-shape and the bottom of including Plate；The base plate is abutted against with the main part of the upper bracket away from the one side of the cell；Offered on the base plate Perforation corresponding with the second end of the cooling tube；Second end is piercing in that second mounting hole is outer described to be worn with corresponding Hole sealing bonds together.

5. heat dissipation battery module as claimed in claim 4, it is characterised in that：The cooler bin also includes from the base plate to remote Extend the side wall to be formed from the base plate direction；The side wall includes a pair of parallel short side wall, is set on one of short side wall It is equipped with inlet.

6. heat dissipation battery module as claimed in claim 5, it is characterised in that：The cooler bin also includes lid；The lid It is placed on the top of the cooler bin and is abutted against with the side wall.

7. heat dissipation battery module as claimed in claim 1, it is characterised in that：The main part is opposite with the accepting unit Simultaneously it is provided with busbar.