CN208939081U - A kind of vanadium flow battery efficient radiating apparatus - Google Patents

Abstract

The utility model discloses a kind of vanadium flow battery efficient radiating apparatus of battery technical field of heat dissipation, including shell, the inner cavity of the shell is equipped with battery, the top and bottom of the battery pass through heat conductive silica gel gasket installation heat-dissipating aluminium plate, heat-dissipating aluminium plate described in two groups uniformly installs heating column far from the side of heat conductive silica gel gasket, heat conducting pipe one is respectively mounted on heat-dissipating aluminium plate described in two groups, the left and right ends of two groups of heat conducting pipes one are respectively mounted heat conducting pipe two, the front and rear sides of the battery are uniformly installed by heat-conducting plate, heat dissipation channel is formed between the adjacent heat-conducting plate, the vanadium flow battery efficient radiating apparatus, the heat of battery surface is shed from heat release hole by radiator fan, battery bottom and the heat of bottom can be oriented to extraneous by heating column and radiating fin simultaneously, starting water pump makes the coolant flow in heat conducting pipe one and heat conducting pipe two, The rate for accelerating heat dissipation, makes to radiate more efficient, effectively makes battery surrounding that can quickly radiate, extend the service life of battery.

Description

A kind of vanadium flow battery efficient radiating apparatus

Technical field

The utility model relates to battery technical field of heat dissipation, specially a kind of vanadium flow battery efficient radiating apparatus.

Background technique

Vanadium flow battery is that a kind of active material is in the redox cell for circulating liquid, however battery is in charge and discharge Very big heat can be generated in the process, and such as radiating not in time to battery will will lead to that battery temperature is excessively high, influence battery Efficiency for charge-discharge reduces the service life of battery and destroys its safety used, and current battery heat dissipation device is only additional Fan radiates, and greatly reduces the fan thermal effect of battery pack in this way, and radiating efficiency is slower, when battery generates high temperature, dissipates Thermal effect is unobvious, seriously affects the service life of entire battery system, for this purpose, it is proposed that a kind of vanadium flow battery is with efficiently Radiator.

Utility model content

The purpose of this utility model is to provide a kind of vanadium flow battery efficient radiating apparatus, to solve above-mentioned background skill The problem of being proposed in art.

To achieve the above object, the utility model provides the following technical solutions: a kind of vanadium flow battery is filled with high efficiency and heat radiation It sets, including shell, the top of shell is equipped with capping, and the inner cavity of shell is equipped with battery, and the top and bottom of battery pass through thermally conductive Silica gel pad installs heat-dissipating aluminium plate, and the top of top heat dissipation aluminium sheet is bonded with the bottom of capping, and the bottom of bottom heat radiation aluminium sheet Portion is bonded with the bottom interior wall of shell, and two groups of heat-dissipating aluminium plates uniformly install heating column far from the side of heat conductive silica gel gasket, and lead Plume extends respectively to the outside of capping and shell far from one end of heat-dissipating aluminium plate and installs radiating fin, on two groups of heat-dissipating aluminium plates Be respectively mounted heat conducting pipe one, the left and right ends of two groups of heat conducting pipes one are respectively mounted heat conducting pipe two, and two groups of heat conducting pipes two respectively with battery The fitting of left and right sides outer wall, right side heat conducting pipe two is equipped with water pump, and water pump is fixed on the right side inner wall of shell, the front and back of battery Heat-conducting plate is uniformly installed in two sides, and side of the heat-conducting plate far from battery is bonded with the front and rear sides inner wall of shell, adjacent heat-conducting plate Between form heat dissipation channel, the inner left wall of shell uniformly installs radiator fan, is uniformly provided with heat release hole on the right side of shell.

Preferably, two groups of heat-dissipating aluminium plates offered close to the side of heat conductive silica gel gasket match with heat conducting pipe one it is recessed Slot, and the outer wall of heat conducting pipe one is coated with heat-conducting cream.

Preferably, the through-hole to match with radiating fin is uniformly provided on heating column, the inner wall of through-hole is equipped with internal screw thread, And the outer wall of radiating fin is equipped with external screw thread, and radiating fin is screwed onto through-hole.

Preferably, heat conducting pipe one and heat conducting pipe two are folding shape pipe, and roll over shape tube cavity and fill coolant liquid.

Preferably, heat release hole is provided with three groups altogether, and is respectively mounted Air Filter in three groups of heat release holes.

Preferably, shell is aluminum alloy casing, covers and covers for aluminium alloy, and shell is connected with closure threads.

Compared with prior art, the utility model has the beneficial effects that the vanadium flow battery efficient radiating apparatus, passes through Radiator fan sheds the heat of battery surface from heat release hole, and heat-conducting plate radiates heat guiding shell, can be quick The heat of battery surface is distributed, while heating column and radiating fin can will battery bottom and the heat of bottom guiding it is outer Boundary, starting water pump make the coolant flow in heat conducting pipe one and heat conducting pipe two, accelerate the rate of heat dissipation, make to radiate more efficient, have Effect makes battery surrounding that can quickly radiate, and extends the service life of battery.

Detailed description of the invention

FIG. 1 is a schematic structural view of the utility model；

Fig. 2 is the utility model left side structure cross-sectional view；

Fig. 3 is the utility model radiating aluminum plate structure schematic diagram；

Fig. 4 is the utility model heating column structural schematic diagram.

In figure: 1 shell, 2 cappings, 3 heat-dissipating aluminium plates, 4 heat conductive silica gel gaskets, 5 batteries, 6 heating columns, 61 through-holes, 7 radiating fins Piece, 8 heat conducting pipes one, 9 heat conducting pipes two, 10 water pumps, 11 heat-conducting plates, 12 heat dissipation channels, 13 radiator fans, 14 heat release holes.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Fig. 1-4 is please referred to, the utility model provides a kind of technical solution: a kind of vanadium flow battery efficient radiating apparatus, Including shell 1, the top of shell 1 is equipped with capping 2, can play the role of protection to battery 5, and the inner cavity of shell 1 is equipped with battery 5, the top and bottom of battery 5 pass through heat conductive silica gel gasket 4 and install heat-dissipating aluminium plate 3, the high electric insulation of heat conductive silica gel gasket 4 There is good protective effect to battery 5 with anti-penetration performance, while the vibration friction damaging problem and short of battery 5 can be effectively reduced Road hidden danger, and the top of top heat dissipation aluminium sheet 3 is bonded with the bottom of capping 2, and the bottom of bottom heat radiation aluminium sheet 3 and shell 1 Bottom interior wall fitting, heating column 6 is uniformly installed in the two groups of sides of heat-dissipating aluminium plate 3 far from heat conductive silica gel gasket 4, and heating column 6 is remote One end of discrete heat aluminium sheet 3 extends respectively to the outside of capping 2 and shell 1 and installs radiating fin 7, improves the efficiency of heat dissipation, Heat conducting pipe 1 is respectively mounted on two groups of heat-dissipating aluminium plates 3, the left and right ends of two groups of heat conducting pipes 1 are respectively mounted heat conducting pipe 29, and two groups Heat conducting pipe 29 is bonded with 5 left and right sides outer wall of battery respectively, and right side heat conducting pipe 29 is equipped with water pump 10, and water pump 10 is fixed on Heat-conducting plate 11 is uniformly installed in the right side inner wall of shell 1, the front and rear sides of battery 5, and side of the heat-conducting plate 11 far from battery 5 and outer The front and rear sides inner wall of shell 1 is bonded, and heat dissipation channel 12 is formed between adjacent heat-conducting plate 11, and the inner left wall of shell 1 is uniformly installed Radiator fan 13, the right side of shell 1 are uniformly provided with heat release hole 14.

Wherein, two groups of heat-dissipating aluminium plates 3 are offered close to the side of heat conductive silica gel gasket 4 matches with heat conducting pipe 1 Groove facilitates installation, and the outer wall of heat conducting pipe 1 is coated with heat-conducting cream, is full of heat-conducting cream between heat conducting pipe 1 and groove Thermally conductive efficiency is improved in gap；

The through-hole 61 to match with radiating fin 7 is uniformly provided on heating column 6, the inner wall of through-hole 61 is equipped with internal screw thread, And the outer wall of radiating fin 7 is equipped with external screw thread, and radiating fin 7 is screwed onto through-hole 61, radiating fin 7 easy to disassemble, favorably In removing capping 2, it is convenient for changing battery 5；

Heat conducting pipe 1 and heat conducting pipe 29 are folding shape pipe, and roll over shape tube cavity and fill coolant liquid, improve one 8 He of heat conducting pipe The contact area of heat conducting pipe 29 and battery 5 improves heat dissipation effect；

Heat release hole 14 is provided with three groups altogether, and is respectively mounted Air Filter in three groups of heat release holes 14, while playing heat dissipation, has Effect prevents dust from entering；

Shell 1 is aluminum alloy casing, and capping 2 covers for aluminium alloy, and shell 1 and capping 2 are threadedly coupled, and improve structure Stability, at the same it is easy to disassemble.

Working principle: when battery 5 generates heat in charge and discharge process, start radiator fan 13, wind is in heat dissipation channel Flowing, the heat on 5 surface of battery is shed from heat release hole 14 in 12, and heat-conducting plate 11 radiates heat guiding shell 1, electricity The heat that the bottom and top in pond 5 generate is more difficult to be shed by radiator fan 13, can be incited somebody to action by heating column 6 and radiating fin 61 Heat guiding is extraneous, while starting water pump 10, makes the coolant flow in heat conducting pipe 1 and heat conducting pipe 29, accelerates the speed of heat dissipation Rate makes to radiate more efficient.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (6)

1. a kind of vanadium flow battery efficient radiating apparatus, including shell (1), it is characterised in that: set at the top of the shell (1) Have capping (2), the inner cavity of the shell (1) is equipped with battery (5), and the top and bottom of the battery (5) pass through heat conductive silica gel Gasket (4) installs heat-dissipating aluminium plate (3), and the top of top heat dissipation aluminium sheet (3) is bonded with the bottom of capping (2), and bottom heat radiation The bottom of aluminium sheet (3) is bonded with the bottom interior wall of shell (1), and heat-dissipating aluminium plate described in two groups (3) is far from heat conductive silica gel gasket (4) Side is uniformly installed heating column (6), and heating column (6) extends respectively to capping (2) and shell far from the one end of heat-dissipating aluminium plate (3) (1) outside is simultaneously installed radiating fin (7), and heat conducting pipe one (8), two groups of heat conducting pipes are respectively mounted on heat-dissipating aluminium plate described in two groups (3) The left and right ends of one (8) are respectively mounted heat conducting pipe two (9), and two groups of heat conducting pipes two (9) are pasted with outer wall at left and right sides of battery (5) respectively It closes, the right side heat conducting pipe two (9) is equipped with water pump (10), and water pump (10) is fixed on the right side inner wall of shell (1), the electricity The front and rear sides in pond (5) are uniformly installed heat-conducting plate (11), and before side and shell (1) of the heat-conducting plate (11) far from battery (5) Two sides inner wall is bonded afterwards, forms heat dissipation channel (12) between the adjacent heat-conducting plate (11), and the inner left wall of the shell (1) is equal Even installation radiator fan (13) is uniformly provided with heat release hole (14) on the right side of the shell (1).

2. a kind of vanadium flow battery efficient radiating apparatus according to claim 1, it is characterised in that: radiate described in two groups Aluminium sheet (3) offers the groove to match with heat conducting pipe one (8), and heat conducting pipe one close to the side of heat conductive silica gel gasket (4) (8) outer wall is coated with heat-conducting cream.

3. a kind of vanadium flow battery efficient radiating apparatus according to claim 1, it is characterised in that: the heating column (6) through-hole (61) to match with radiating fin (7) is uniformly provided on, the inner wall of the through-hole (61) is equipped with internal screw thread, institute It states and the outer wall of radiating fin (7) is equipped with external screw thread, and radiating fin (7) is screwed onto through-hole (61).

4. a kind of vanadium flow battery efficient radiating apparatus according to claim 1, it is characterised in that: the heat conducting pipe one (8) and heat conducting pipe two (9) is folding shape pipe, and rolls over shape tube cavity and fill coolant liquid.

5. a kind of vanadium flow battery efficient radiating apparatus according to claim 1, it is characterised in that: the heat release hole (14) it is provided with three groups altogether, and is respectively mounted Air Filter in three groups of heat release holes (14).

6. a kind of vanadium flow battery efficient radiating apparatus according to claim 1, it is characterised in that: the shell (1) For aluminum alloy casing, the capping (2) is aluminium alloy capping, and shell (1) and capping (2) are threadedly coupled.