CN218769741U - Novel energy storage module for graphene composite liquid cooling heat dissipation - Google Patents

Abstract

The utility model discloses a radiating novel energy storage module of compound liquid cooling of graphite alkene, all install side graphite alkene heat conduction membrane from the novel electric core left and right sides of liquid cooling, all install big face graphite alkene heat conduction membrane from both ends around the novel electric core of liquid cooling, install high heat conduction silica gel pad from the novel electric core bottom of liquid cooling, install the special liquid cooling board of module from the novel electric core bottom of liquid cooling, install the top cap from the novel electric core top of liquid cooling, install the rear end cap from the novel electric core rear end of liquid cooling, install the front end housing from the novel electric core front end of liquid cooling, all install the connecting rod from the novel electric core left and right sides of liquid cooling, the egress connection is installed on the special liquid cooling board front end right side of module, the inflow connection is installed in the special liquid cooling board front end left side of module. The utility model relates to a rationally, the inside no complicated liquid cooling pipeline of module, only outside exit, the weeping risk is extremely low, and whole module has only adopted 1 special liquid cold plate of module, and the cost reduces by a wide margin.

Description

Novel energy storage module for graphene composite liquid cooling heat dissipation

Technical Field

The utility model relates to a compound radiating novel energy storage module of liquid cooling of graphite alkene.

Background

The current module heat dissipation technology, the dominant surface is forced air cooling heat dissipation, and the air cooling heat dissipation only is fit for little energy, low magnification, the module charge and discharge demand that energy density is not high, and the fan noise is big, also gives the module vibration fatigue loss that brings simultaneously, can't stop the wind-dust pollution strictly, and later maintenance cost is also high. On the other hand, the module also adopts the traditional liquid cooling heat dissipation, and although the heat dissipation efficiency is improved, the current liquid cooling structure adopts a mode of combining a large number of liquid cooling plates, the structure is complex, the overall quality is greatly increased, and meanwhile, a large number of liquid cooling pipe joints are also arranged, so that the leakage risk is increased.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a radiating novel energy storage module of compound liquid cooling of graphite alkene to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the utility model provides a radiating novel energy storage module of compound liquid cooling of graphite alkene, includes from the novel electric core of liquid cooling, side graphite alkene heat conduction membrane, big face graphite alkene heat conduction membrane, high heat conduction silica gel pad, the special liquid cooling board of module, top cap, rear end cap, front end housing, connecting rod, egress connection, inflow connection joint, the side graphite alkene heat conduction membrane is all installed to the novel electric core left and right sides of liquid cooling, big face graphite alkene heat conduction membrane is all installed at both ends around the novel electric core of liquid cooling from the liquid cooling, install high heat conduction silica gel pad from the novel electric core bottom of liquid cooling, install the special liquid cooling board of module from the novel electric core bottom of liquid cooling, install the top cap at the novel electric core top of liquid cooling, install the rear end cap from the novel electric core rear end of liquid cooling, install the front end cap from the novel electric core front end of liquid cooling, all install the connecting rod from the novel electric core left and right sides of liquid cooling, the egress connection is installed on the special liquid cooling board front end right side of module, the special liquid cooling board front end left side of module is installed and is connected.

Preferably: the novel energy storage module for the graphene composite liquid cooling heat dissipation further comprises a liquid cooling connecting pipe, an electric core liquid cooling outlet and an electric core liquid cooling inlet, the liquid cooling connecting pipe is installed at the positive and negative positions of the top of the electric core of the novel liquid cooling system, and the front end and the rear end of the liquid cooling connecting pipe are connected with the electric core liquid cooling outlet and the electric core liquid cooling inlet respectively.

Preferably: the novel energy storage module for the graphene composite liquid cooling heat dissipation further comprises a guide groove and heat dissipation fins, the guide groove is formed in the special liquid cooling plate for the module, two ends of the guide groove are connected with an outflow port connector and an inflow port connector respectively, and the heat dissipation fins are installed in the middle of the inside of the guide groove.

The utility model has the advantages that: the novel self-liquid-cooling battery core is adopted to connect the positive electrode and the negative electrode of all the battery cores together, the flowing cooling liquid can enable the temperatures of the positive electrode and the negative electrode of all the battery cores to be consistent, the temperature uniformity is extremely good, and the temperature difference between the positive electrode and the negative electrode of all the battery cores approaches to 0 ℃; the super heat conductivity and the super temperature uniformity of the graphene heat conducting film are utilized to enable the surface temperature of the battery cell to tend to be consistent, and the temperature difference of the surfaces of all the battery cells approaches to 0 ℃; the temperature difference between the whole module battery cores is within 1 ℃; the module has simple structure, and the weight of the module is greatly reduced; the module has no complex liquid cooling pipeline inside and only has an external inlet and an external outlet, so that the leakage risk is extremely low; the whole module only adopts 1 special liquid cooling plate for the module, so that the cost is greatly reduced; the subsequent failure rate is low; the service life of the module battery core is prolonged; the module can carry out high-rate charge and discharge; the endurance time of the module operation increases.

Drawings

Fig. 1 is a schematic structural diagram of the novel graphene composite liquid-cooled heat dissipation energy storage module of the present invention;

fig. 2 is a schematic structural diagram of the novel graphene composite liquid-cooled heat dissipation energy storage module of the present invention;

fig. 3 is the utility model discloses the radiating novel energy storage module of compound liquid cooling of graphite alkene structural sketch map.

In the figure: 1. from the novel electric core of liquid cooling, 2, side graphite alkene heat conduction membrane, 3, big face graphite alkene heat conduction membrane, 4, high heat conduction silica gel pad, 5, the special liquid cooling board of module, 6, top cap, 7, rear end cap, 8, front end housing, 9, the connecting rod, 10, the egress connection, 11, the inflow connection, 12, liquid cooling connecting pipe, 13, electric core liquid cooling export, 14, electric core liquid cooling entry, 15, guiding gutter, 16, radiating fin.

Detailed Description

The invention will be further elucidated with reference to the following figures and specific embodiments:

as shown in fig. 1-3, a radiating novel energy storage module of compound liquid cooling of graphite alkene, include from the novel electric core 1 of liquid cooling, side graphite alkene heat conduction membrane 2, big face graphite alkene heat conduction membrane 3, high heat conduction silica gel pad 4, the special liquid cold plate 5 of module, top cap 6, rear end cap 7, front end housing 8, connecting rod 9, egress opening joint 10, inflow opening joint 11, side graphite alkene heat conduction membrane 2 is all installed to the novel electric core 1 left and right sides of liquid cooling, big face graphite alkene heat conduction membrane 3 is all installed at both ends around the novel electric core 1 of liquid cooling, high heat conduction silica gel pad 4 is installed to the novel electric core 1 bottom of liquid cooling, the special liquid cold plate 5 of module is installed to the novel electric core 1 bottom of liquid cooling, top cap 6 is installed at the novel electric core 1 top of liquid cooling, rear end cap 7 is installed to the novel electric core 1 rear end of liquid cooling, front end housing 8 is installed to the novel electric core 1 front end of liquid cooling, connecting rod 9 is all installed to the novel electric core 1 left and right sides of liquid cooling, the special liquid cold plate 5 front end right sides of module is installed the liquid cold plate 10, the special liquid cold plate of liquid cooling is installed to the front end left side of module 11. The novel energy storage module for the graphene composite liquid cooling heat dissipation further comprises a liquid cooling connecting pipe 12, an electric core liquid cooling outlet 13 and an electric core liquid cooling inlet 14, the liquid cooling connecting pipe 12 is installed at the positive and negative positions of the top of the novel electric core 1 of the liquid cooling, and the front end and the rear end of the liquid cooling connecting pipe 12 are connected with the electric core liquid cooling outlet 13 and the electric core liquid cooling inlet 14 respectively. The novel energy storage module for the graphene composite liquid cooling heat dissipation further comprises a guide groove 15 and heat dissipation fins 16, the guide groove 15 is formed inside the special liquid cooling plate 5 for the module, two ends of the guide groove 15 are connected with the outflow port connector 10 and the inflow port connector 11 respectively, and the heat dissipation fins 16 are installed in the middle of the inside of the guide groove 15.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The embodiments are therefore to be considered in all respects as illustrative and all changes which come within the meaning and range of equivalency are therefore intended to be embraced therein.

Claims (3)

1. The utility model provides a radiating novel energy storage module of compound liquid cooling of graphite alkene, includes from the novel electric core of liquid cooling (1), side graphite alkene heat conduction membrane (2), large-face graphite alkene heat conduction membrane (3), high heat conduction silica gel pad (4), special liquid cooling board of module (5), top cap (6), rear end cap (7), front end housing (8), connecting rod (9), egress connection head (10), inflow connection head (11), its characterized in that: all install side graphite alkene heat conduction membrane (2) from the novel electric core of liquid cooling (1) the left and right sides, big face graphite alkene heat conduction membrane (3) are all installed at both ends around the novel electric core of liquid cooling (1), install high heat conduction silica gel pad (4) from the novel electric core of liquid cooling (1) bottom, install special liquid cold plate of module (5) from the novel electric core of liquid cooling (1) bottom, install top cap (6) from the novel electric core of liquid cooling (1) top, install rear end cap (7) from the novel electric core of liquid cooling (1) rear end, install front end cap (8) from the novel electric core of liquid cooling (1) front end, connecting rod (9) are all installed from the novel electric core of liquid cooling (1) the left and right sides, egress connection (10) are installed on the special liquid cold plate of module (5) front end right side, ingress connection (11) are installed in the special liquid cold plate of module (5) front end left side.

2. The novel graphene composite liquid-cooled heat dissipation energy storage module according to claim 1, characterized in that: the novel energy storage module for the graphene composite liquid cooling heat dissipation further comprises a liquid cooling connecting pipe (12), an electric core liquid cooling outlet (13) and an electric core liquid cooling inlet (14), the liquid cooling connecting pipe (12) is installed at the positive and negative positions of the top of the novel electric core (1) of the liquid cooling, and the front end and the rear end of the liquid cooling connecting pipe (12) are connected with the electric core liquid cooling outlet (13) and the electric core liquid cooling inlet (14) respectively.

3. The novel graphene composite liquid-cooled heat dissipation energy storage module according to claim 1, characterized in that: the novel energy storage module with the graphene composite liquid cooling heat dissipation function further comprises a guide groove (15) and heat dissipation fins (16), the guide groove (15) is formed in the special liquid cooling plate (5) for the module, two ends of the guide groove (15) are connected with an outflow port connector (10) and an inflow port connector (11) respectively, and the heat dissipation fins (16) are installed in the middle of the inner portion of the guide groove (15).

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