CN204538145U - A kind of reverse osmosis air cooling system electrokinetic cell - Google Patents

Abstract

The utility model relates to new forms of energy cell art, discloses a kind of reverse osmosis air cooling system electrokinetic cell.This reverse osmosis air cooling system electrokinetic cell comprises: housing, is arranged at the battery pack in housing, and is arranged at the air inlet on housing; Described battery pack comprises air intake plate, battery unit and heat-sink unit, described heat-sink unit and battery unit are all arranged between adjacent described air intake plate, described heat-sink unit and described battery unit interval are arranged, described air intake plate is communicated with described air inlet, described air intake plate is provided with the corresponding through hole arranged of multiple and described heat-sink unit.It is high that the reverse osmosis air cooling system electrokinetic cell heat-sink unit passed into by gas between battery unit that the utility model provides effectively solves battery unit heating temp, the effect of constant temperature is at once reached during storage of electrical energy, reduce electric current operation troubles factor, the fail safe of effective guarantee power supply, extend the useful life of power supply, thus cost-saving.

Description

A kind of reverse osmosis air cooling system electrokinetic cell

Technical field

The utility model relates to new forms of energy cell art, particularly relates to a kind of reverse osmosis air cooling system electrokinetic cell, particularly the reverse osmosis air cooling system electrokinetic cell of good, the long service life of a kind of thermal diffusivity.

Background technology

The battery that existing market is used to do power is mainly divided into lead-acid power accumulator and lithium battery two kinds, potential safety hazard is brought because lead-acid battery contains the health of various heavy to the mankind, simultaneously natural discharge rate high actual power utilizes and lowly causes energy waste, and the many-sided reason of the heavy large grade of volume of quality is withdrawn from the market gradually, dynamic lithium battery containing heavy metal can not harm humans healthy, naturally the utilization rate of the low effective raising electric energy of electric discharge, quality and volume are all effectively controlled, more and more be subject to the favor of country and consumer, because this utilization of new energy resources time is shorter, in practice, also there is many technical barriers fail to solve, battery is opened at engine and is converted electric energy to kinetic energy in driving process, current controller modulation power is relied on to control travel speed, it is low during height when in battery, storage battery constantly exports thus produces unnecessary heat energy by ion continuous activity, if a large amount of still can not discharging in time causes cell damage internal structure to lose function effect useful life, harm life of may blasting time serious safety.

Existing dynamic lithium battery; substantially be all use PVC plastic support that each battery unit is carried out processing and fabricating with the form of series and parallel according to required voltage and electric current; by charge and discharge protecting wiring board protection excessive risk causing cell damage or blast in charge and discharge process, finally charging circuit and discharge line are derived to pack through the pyrocondensation of PVC dielectric film and be made.

But battery effectively can not solve the temperature that heating improves in engine process, the method local heat radiation of heat trnasfer can only be relied on, thus battery is blasted, even if minor failure also can make lithium battery group progressively lose ions mobile function effect battery life because of the uneven badly damaged battery unit circuit for generating that dispels the heat.

In view of the defect of above-mentioned prior art, need to provide that a kind of thermal diffusivity is good, the reverse osmosis air cooling system electrokinetic cell of long service life.

Utility model content

(1) technical problem that will solve

The technical problems to be solved in the utility model is the temperature that existing dynamic lithium battery effectively can not solve heating raising in engine process, the method local heat radiation of heat trnasfer can only be relied on, thus battery is blasted because of the uneven badly damaged battery unit circuit for generating that dispels the heat, or lithium battery group also can be made progressively to lose the problem of ions mobile function effect battery life.

(2) technical scheme

In order to solve the problems of the technologies described above, the utility model provides a kind of reverse osmosis air cooling system electrokinetic cell.This reverse osmosis air cooling system electrokinetic cell comprises: housing, is arranged at the battery pack in housing, and is arranged at the air inlet on housing; Described battery pack comprises air intake plate, battery unit and heat-sink unit, described heat-sink unit and battery unit are all arranged between adjacent described air intake plate, described heat-sink unit and described battery unit interval are arranged, described air intake plate is communicated with described air inlet, described air intake plate is provided with the corresponding through hole arranged of multiple and described heat-sink unit.

Wherein, described heat-sink unit comprises radiator and end cap, is provided with air intake passage in described radiator, and the sidewall of described air intake passage is provided with multiple louvre, described air intake passage one end is corresponding with the through hole of described air intake plate to be arranged, and the other end is connected with described end cap.

Wherein, also comprise the blast pipe be communicated with described air intake plate, described blast pipe is communicated with described air inlet.

Wherein, described air inlet is communicated with air-cooling system.

Wherein, described battery pack also comprises the spaced air draft plate with described air intake plate, described heat-sink unit and battery unit are arranged between described air draft plate and described air intake plate, described housing is provided with exhaust outlet, described air draft plate is communicated with described exhaust outlet, and described air draft plate is provided with the through hole that arrange corresponding to described heat-sink unit.

Wherein, also comprise the ventilating fan arranged corresponding to described battery unit, in described radiator, be provided with air exhaust passage, the sidewall of described air exhaust passage is provided with multiple louvre, described air exhaust passage one end is corresponding with the through hole of described air draft plate to be arranged, and the other end is connected with described end cap.

Wherein, also comprise the exhaust duct be communicated with described air draft plate, described exhaust duct is communicated with described exhaust outlet.

Wherein, described exhaust outlet is communicated with exhaust equipment.

Wherein, the charging inlet be connected with described battery unit is also comprised.

Wherein, the cross section of described heat-sink unit assumes diamond in shape.

(3) beneficial effect

Technique scheme tool of the present utility model has the following advantages: in the reverse osmosis air cooling system electrokinetic cell that the utility model provides, battery pack comprises air intake plate, battery unit and heat-sink unit, heat-sink unit and battery unit are all arranged between adjacent air intake plate, heat-sink unit and battery unit interval are arranged, air intake plate is communicated with air inlet, air intake plate is provided with multiple through hole of arranging corresponding to heat-sink unit.It is high that the reverse osmosis air cooling system electrokinetic cell heat-sink unit passed into by gas between battery unit that the utility model provides effectively solves battery unit heating temp, the effect of constant temperature is at once reached during storage of electrical energy, reduce electric current operation troubles factor, the fail safe of effective guarantee power supply, extend the useful life of power supply, thus cost-saving.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model embodiment reverse osmosis air cooling system electrokinetic cell;

Fig. 2 is the schematic diagram of the battery pack of the utility model embodiment reverse osmosis air cooling system electrokinetic cell;

Fig. 3 is the enlarged diagram of the battery pack of the utility model embodiment reverse osmosis air cooling system electrokinetic cell;

Fig. 4 is the structural representation of the heat-sink unit of the utility model embodiment reverse osmosis air cooling system electrokinetic cell.

In figure: 1: housing; 2: exhaust outlet; 3: air inlet; 4: battery pack; 5: charging inlet; 6: air draft plate; 7: heat radiation group; 8: air intake plate; 9: exhaust duct; 10: blast pipe; 11: through hole; 12: battery unit; 13: heat-sink unit; 14: end cap; 15: louvre.

Embodiment

In description of the present utility model, except as otherwise noted, the implication of " multiple " is two or more; Term " on ", D score, "left", "right", " interior ", the orientation of the instruction such as " outward " or position relationship be based on orientation shown in the drawings or position relationship, only the utility model and simplified characterization for convenience of description, instead of the machine of instruction or hint indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as restriction of the present utility model.

In description of the present utility model, it should be noted that, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or connect integratedly; Can be mechanical connection, also can be electrical connection; Can be directly be connected, also indirectly can be connected by intermediary.For the ordinary skill in the art, concrete condition the concrete meaning of above-mentioned term in the utility model can be understood.

Below in conjunction with drawings and Examples, embodiment of the present utility model is described in further detail.Following examples for illustration of the utility model, but are not used for limiting scope of the present utility model.

As shown in Figure 1 to Figure 3, the reverse osmosis air cooling system electrokinetic cell that the utility model embodiment provides comprises: housing 1, is arranged at the battery pack 4 in housing 1, and is arranged at the air inlet 3 on housing 1; Described battery pack 4 comprises air intake plate 8, battery unit 12 and heat-sink unit 13, described heat-sink unit 13 and battery unit 12 are all arranged between adjacent described air intake plate 8, described heat-sink unit 13 and battery unit 12 form heat radiation group 7, and heat radiation group 7 is arranged between adjacent described air intake plate 8.In the present embodiment, heat-sink unit 13 and battery unit 12 are arranged at the top of air intake plate 8.Described heat-sink unit 13 and described battery unit 12 interval are arranged, and described air intake plate 8 is communicated with described air inlet 3, described air intake plate 8 are provided with the corresponding through hole 11 arranged of multiple and described heat-sink unit 13.Gas can enter in heat-sink unit 13 from the through hole 11 of air intake plate 8 and dispel the heat to battery unit 12.Described air inlet 3 is communicated with gas, and in the present embodiment, air inlet 3 is communicated with the air-cooling system of Intelligent refrigeration.Air cooling compression is delivered in heat-sink unit 13 from bottom to top by heat energy penetration air on whole battery unit 12 by pipeline by air-cooling system by air.It is high that the reverse osmosis air cooling system electrokinetic cell that the utility model the provides heat-sink unit 13 passed into by gas between battery unit 12 effectively solves battery unit 12 heating temp, the effect of constant temperature is at once reached during storage of electrical energy, reduce electric current operation troubles factor, the fail safe of effective guarantee power supply, extend the useful life of power supply, thus cost-saving.

Described heat-sink unit 13 comprises radiator and end cap 14 as shown in Figure 4, is provided with air intake passage in described radiator, the sidewall of described air intake passage is provided with multiple louvre 15, and described air intake passage one end is corresponding with the through hole 11 of described air intake plate 8 to be arranged.In the present embodiment, the openend of air intake passage is arranged at directly over the through hole 11 of air intake plate 8, and the other end is connected with described end cap 14.Also comprise the blast pipe 10 be communicated with described air intake plate 8, described blast pipe 10 is communicated with described air inlet 3.The cross section of heat-sink unit 13 described in the present embodiment assumes diamond in shape, and heat radiation group 7 comprises four battery units 12 and a heat-sink unit 13, and four faces that battery unit 12 corresponds to heat-sink unit 13 are arranged.

Battery pack 4 described in the present embodiment also comprises air draft plate 6 spaced with described air intake plate 8, described heat-sink unit 13 and battery unit 12 are arranged between described air draft plate 6 and described air intake plate 8, described housing 1 is provided with exhaust outlet 2, described air draft plate 6 is communicated with described exhaust outlet 2, described air draft plate 6 is provided with the through hole 11 that arrange corresponding to described heat-sink unit 13.

The present embodiment also comprises the ventilating fan arranged corresponding to described battery unit 12, air exhaust passage is provided with in described radiator, the sidewall of described air exhaust passage is provided with multiple louvre 15, described air exhaust passage one end is corresponding with the through hole 11 of described air draft plate 6 to be arranged, and the other end is connected with described end cap 14.Wind is discharged to heat-sink unit 13 from the left side of battery unit 12 by air draft plate 6, and the air draft plate 6 then from bottom to top above battery unit 12 is discharged.Exhaust outlet 2 described in the present embodiment can be communicated with exhaust equipment.Siphon away hot-air by exhaust equipment thus make whole battery pack 4 better realize the effect of cooling.

Also comprise the exhaust duct 9 be communicated with described air draft plate 6 in the present embodiment, described exhaust duct 9 is communicated with described exhaust outlet 2.Also comprise the charging inlet 5 be connected with described battery unit 12, charging inlet 5 can carry out discharge and recharge to battery unit 12 by route protection plate.

The utility model reverse osmosis air cooling system electrokinetic cell is in use procedure: cold air enters air intake plate 8 from air inlet 3 through blast pipe 10 from air-cooling system, enter in the air intake passage of heat-sink unit 13 from the bottom to top from air intake plate 8, the battery unit 12 on the right side of heat-sink unit 13 is blown from the louvre 15 of air intake passage, open ventilating fan, gas blows the battery unit 12 on the left of heat-sink unit 13, louvre 15 through heat-sink unit 13 blows in air exhaust passage, air draft plate 6 again through heat-sink unit 13 top enters in exhaust duct 9, is finally discharged by exhaust outlet 2.

In sum, the utility model has the following advantages: in the reverse osmosis air cooling system electrokinetic cell that the utility model provides, battery pack comprises air intake plate, battery unit and heat-sink unit, heat-sink unit and battery unit are all arranged between adjacent air intake plate, heat-sink unit and battery unit interval are arranged, air intake plate is communicated with air inlet, air intake plate is provided with multiple through hole of arranging corresponding to heat-sink unit.It is high that the reverse osmosis air cooling system electrokinetic cell heat-sink unit passed into by gas between battery unit that the utility model provides effectively solves battery unit heating temp, the effect of constant temperature is at once reached during storage of electrical energy, reduce electric current operation troubles factor, the fail safe of effective guarantee power supply, extend the useful life of power supply, thus cost-saving.

Further, wind is discharged in heat-sink unit by air draft plate, and the air draft plate then from bottom to top above battery unit is discharged.Whole battery pack is made better to realize the effect of lowering the temperature.

Above embodiment only in order to the technical solution of the utility model to be described, is not intended to limit; Although be described in detail the utility model with reference to previous embodiment, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein portion of techniques feature; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the spirit and scope of each embodiment technical scheme of the utility model.

Claims (10)

1. a reverse osmosis air cooling system electrokinetic cell, comprising: housing (1), is arranged at the battery pack (4) in housing (1), and is arranged at the air inlet (3) on housing (1); Described battery pack (4) comprises air intake plate (8), battery unit (12) and heat-sink unit (13), described heat-sink unit (13) and battery unit (12) are all arranged between adjacent described air intake plate (8), described heat-sink unit (13) and described battery unit (12) interval are arranged, described air intake plate (8) is communicated with described air inlet (3), described air intake plate (8) is provided with the corresponding through hole (11) arranged of multiple and described heat-sink unit (13).

2. reverse osmosis air cooling system electrokinetic cell according to claim 1, it is characterized in that: described heat-sink unit (13) comprises radiator and end cap (14), air intake passage is provided with in described radiator, the sidewall of described air intake passage is provided with multiple louvre (15), described air intake passage one end is corresponding with the through hole (11) of described air intake plate (8) to be arranged, and the other end is connected with described end cap (14).

3. reverse osmosis air cooling system electrokinetic cell according to claim 1, it is characterized in that: also comprise the blast pipe (10) be communicated with described air intake plate (8), described blast pipe (10) is communicated with described air inlet (3).

4. reverse osmosis air cooling system electrokinetic cell according to claim 1, is characterized in that: described air inlet (3) is communicated with air-cooling system.

5. reverse osmosis air cooling system electrokinetic cell according to claim 2, it is characterized in that: described battery pack (4) also comprises the spaced air draft plate (6) with described air intake plate (8), described heat-sink unit (13) and battery unit (12) are arranged between described air draft plate (6) and described air intake plate (8), described housing (1) is provided with exhaust outlet (2), described air draft plate (6) is communicated with described exhaust outlet (2), described air draft plate (6) is provided with the through hole (11) that arrange corresponding to described heat-sink unit (13).

6. reverse osmosis air cooling system electrokinetic cell according to claim 5, it is characterized in that: also comprise the ventilating fan arranged corresponding to described battery unit (12), air exhaust passage is provided with in described radiator, the sidewall of described air exhaust passage is provided with multiple louvre (15), described air exhaust passage one end is corresponding with the through hole (11) of described air draft plate (6) to be arranged, and the other end is connected with described end cap (14).

7. reverse osmosis air cooling system electrokinetic cell according to claim 5, it is characterized in that: also comprise the exhaust duct (9) be communicated with described air draft plate (6), described exhaust duct (9) is communicated with described exhaust outlet (2).

8. reverse osmosis air cooling system electrokinetic cell according to claim 5, is characterized in that: described exhaust outlet (2) is communicated with exhaust equipment.

9. reverse osmosis air cooling system electrokinetic cell according to claim 1, is characterized in that: also comprise the charging inlet (5) be connected with described battery unit (12).

10. reverse osmosis air cooling system electrokinetic cell according to claim 1, is characterized in that: the cross section of described heat-sink unit (13) assumes diamond in shape.