CN207459025U - A kind of battery cupboard radiator structure - Google Patents

Abstract

The utility model discloses a kind of battery cupboard radiator structures, it includes cabinet, battery carrier, fan housing and fan, the interior cavity for being equipped with to store battery of the battery carrier, the battery carrier includes air intake surface and outlet air surface, the air intake surface is connected to form air intake passage with the fan housing, the fan is built in the air inlet duct, and the fan is located at the middle part of battery carrier；Air-out passage is collectively formed in the battery carrier, cabinet and fan housing, and the outlet air surface is connected with the air-out passage；Air inlet and air outlet are provided on the cabinet, the air inlet is connected with the fan, and the air-out passage is connected with the air outlet.Fan is mounted in the middle part of battery carrier, and only ensure that the air themperature for flowing through each module is consistent there are one air inlet.Effective the phenomenon that avoiding heat aggregation, helps to promote the service life of battery.

Description

A kind of battery cupboard radiator structure

Technical field

The utility model is related to battery cupboard fan thermal technology field more particularly to a kind of battery cupboard radiator structures.

Background technology

At present, with the development of photovoltaic industry, the application of box-type energy storage system is more and more extensive, the core of box-type energy storage system Center portion part is battery, existing a variety of energy-storage batteries on the market, but no matter which kind of battery, temperature is influence its service life important One of factor.According to battery charge and discharge multiplying power, the difference of structure type, used temperature control mode has very big difference, for example fills Natural heat dissipation can generally be used by putting the relatively low control module of multiplying power, at the same using air-conditioning to entire babinet into the adjusting of trip temperature, However this mode radiating efficiency is low, and the temperature of internal battery pack can not be adjusted, it is easy to be produced in internal battery pack Heat amount is assembled, equal two property of fail temperature, while this mode also needs to expend the substantial amounts of energy, is unfavorable for energy conservation and environmental protection.

Utility model content

In order to solve the above-mentioned technical problem, the purpose of this utility model is to provide one kind to be conducive to battery pack heat dissipation uniform Battery cupboard radiator structure.

Technical solution is used by the utility model：A kind of battery cupboard radiator structure, including cabinet, battery carrier, wind Cover and fan, the interior cavity for being equipped with to store battery of the battery carrier, the battery carrier include air intake surface and outlet air surface, institute It states air intake surface to be connected to form air intake passage with the fan housing, the fan is built in the air inlet duct, and the fan is located at battery The middle part of frame；Air-out passage is collectively formed in the battery carrier, cabinet and fan housing, and the outlet air surface and the air-out passage connect It connects；Air inlet and air outlet are provided on the cabinet, the air inlet is connected with the fan, the air-out passage and described Air outlet connects.

Further, the air inlet and the air outlet are located at the same face of the cabinet.

Further, air-conditioning is further included, the air outlet of the air-conditioning is connected with the air inlet.

Further, the air-conditioning is arranged at the back side of the cabinet.

Further, the air-conditioning is arranged at the front with the cabinet.

Further, the fan is located at the front of the cabinet.

Further, the fan is centrifugal fan.

The beneficial effects of the utility model are：Fan is mounted in the middle part of battery carrier, by from air inlet exhausting, utilizing fan Positive pressure chamber is formed inside air passage, ensures the heat dissipation needs of each module, but can guarantee flow through the air quantity difference of each module compared with It is small, and only ensure that the air themperature for flowing through each module is consistent there are one air inlet.It is effective to avoid showing for heat aggregation As helping to promote the service life of battery.

Description of the drawings

Specific embodiment of the present utility model is described further below in conjunction with the accompanying drawings：

Fig. 1 is the side sectional view of embodiment one in the utility model；

Fig. 2 is the side sectional view of embodiment two in the utility model.

Specific embodiment

It should be noted that in the case where there is no conflict, the feature in embodiment and embodiment in the application can phase Mutually combination.

As shown in Figure 1, it illustrates a kind of battery cupboard radiator structure, including cabinet 1, battery carrier 2, fan housing 3 and wind Fan 4, the interior cavity 5 for being equipped with to store battery of the battery carrier, the battery carrier 2 includes air intake surface 6 and outlet air surface 7, described Air intake surface 6 is connected to form air intake passage 8 with the fan housing 3, and the fan 4 is built-in and the air inlet duct 8, the fan 4 are located at The middle part of battery carrier 2；The battery carrier 2, cabinet 1 and fan housing 3 are collectively formed air-out passage 9, the outlet air surface 7 and it is described go out Wind passage 9 connects；Air inlet 11 and air outlet 10 are provided on the cabinet 1, the air inlet 11 is connected with the fan 4, The air-out passage 8 and the air outlet 10 connect.The air inlet 11 and the air outlet 10 are located at the same of the cabinet 1 On one side.The air inlet 11 and the air outlet 10 go out to be additionally provided with air-conditioning 12, air outlet and the air inlet of the air-conditioning 12 Mouth 11 connects.Preferably, the air-conditioning 12 is arranged at the back side of the cabinet 1.

Fan is mounted in the middle part of battery carrier, by from air inlet exhausting, forming positive pressure chamber inside air passage using fan, protecting The heat dissipation needs of each module are demonstrate,proved, and can guarantee that the air quantity difference for flowing through each module is smaller, and are only ensured there are one air inlet The air themperature for flowing through each module is consistent.Effective the phenomenon that avoiding heat aggregation, helps to promote the use of battery Service life.In sustained height, shortest path realizes accurate air-feeding for the air outlet of air-conditioning and the air inlet of fan；Since air-conditioning is sent Air port face battery carrier air intake passage, distance is enough between air-conditioning face and barrier, to the performance for the fan that air-conditioning carries Influence is smaller, therefore can reduce the distance between air-conditioning face and battery modules, that is, reduces the depth dimensions of whole cabinet. Air-conditioning is mounted on cabinet behind, influence when can mitigate front door installation air-conditioning to cabinet door sealing, if air-conditioning hangs over front door, machine Cabinet cabinet door is easily deformed, and sealing can be deteriorated；Centrifugal fan is selected, centrifugal fan is placed in air passage, space utilization is more reasonable, and And noise of equipment can be substantially reduced.

Embodiment 2

As shown in Fig. 2, the air-conditioning is arranged at the back side of the cabinet 1.The fan 4 is being located at the cabinet 1 just Face.Fan 4 is located at the middle part of battery carrier 2, by from reserved 13 exhausting of ventilation passageway in the middle part of battery carrier 2, ventilation national highway 13 with The air outlet connection of the air-conditioning 12, air-out passage 9, the outlet air surface is collectively formed in the battery carrier 2, cabinet 1 and fan housing 3 7 and the air-out passage 9 connect.Fan uses centrifugal fan in the present embodiment, using the big pressure head of centrifugal fan, can change The characteristics of wind direction, inside air passage formed positive pressure chamber, selected fan can meet each module heat dissipation needs and The air quantity difference for flowing through each module is smaller.

The above are implementing to be illustrated to the preferable of the utility model, but the invention is not limited to the reality Example is applied, those skilled in the art can also make a variety of equivalent changes on the premise of without prejudice to the utility model spirit Shape or replacement, these equivalent deformations or replacement are all contained in the application claim limited range.

Claims (7)

1. a kind of battery cupboard radiator structure, it is characterised in that：It includes cabinet, battery carrier, fan housing and fan, the battery carrier The interior cavity for being equipped with to store battery, the battery carrier include air intake surface and outlet air surface, and the air intake surface connects with the fan housing It connects to form air intake passage, the fan is built in the air inlet duct, and the fan is located at the middle part of battery carrier；The battery carrier, Air-out passage is collectively formed in cabinet and fan housing, and the outlet air surface is connected with the air-out passage；Be provided on the cabinet into Air port and air outlet, the air inlet are connected with the fan, and the air-out passage is connected with the air outlet.

2. battery cupboard radiator structure according to claim 1, it is characterised in that：The air inlet and the air outlet are located at The same face of the cabinet.

3. battery cupboard radiator structure according to claim 1, it is characterised in that：It further includes air-conditioning, and the air-conditioning is sent Air port is connected with the air inlet.

4. battery cupboard radiator structure according to claim 3, it is characterised in that：The air-conditioning is arranged at the back of the body of the cabinet Face.

5. battery cupboard radiator structure according to claim 3, it is characterised in that：The air-conditioning is arranged at and the cabinet Front.

6. battery cupboard radiator structure according to claim 3, it is characterised in that：The fan is being located at the cabinet just Face.

7. battery cupboard radiator structure according to any one of claims 1 to 6, it is characterised in that：The fan is centrifugation wind Fan.