CN107834126A - A kind of quickly cooling device of electrokinetic cell - Google Patents

Abstract

The invention discloses a kind of quickly cooling device of electrokinetic cell, micro-channel heat exchanger（1）Battery mounting seat（5）Surface distributed have some groups of refrigerant pipes（6）, battery mounting seat（5）The left and right sides and adjacent two groups of refrigerant pipes（6）Between parting bead（9）Both ends are provided with counterbore（10）, every group of refrigerant pipe（6）Both ends respectively with two busways（7）It is connected, the busway of front side（7）On be connected with into steam outlet pipe（8）, protection board（2）Installed in micro-channel heat exchanger（1）Bottom, positioning hole（11）With counterbore（10）It is corresponding, protection board（2）By micro-channel heat exchanger（1）Bottom and battery case（4）Bottom separates, in every group of refrigerant pipe（6）On thermal conductive silicon rubber cushion is installed（13）, in each parting bead（9）On be pasted with insulating barrier（14）, entering steam outlet pipe（8）On be connected with rubber hose（15）.

Description

A kind of quickly cooling device of electrokinetic cell

Technical field

The present invention relates to a kind of quickly cooling device of electrokinetic cell.

Background technology

Since 2014, China's new-energy automobile sales volume was constantly lifted, and national New Energy Industry policy support dynamics is not Disconnected to increase, new-energy automobile has welcome vast potential for future development.The development of new-energy automobile, necessarily carry forward vigorously electrical source of power system The technological innovation of system, emphasis capture dynamic power system security, reliability consideration and lightweight modularized design, thrust power Battery and related spare and accessory parts, the standardization and seriation of sub-assembly.High-energy power battery used for electric vehicle is transported in real road Maximum current is up to 200~400 A in row application, in the process of moving frequently discharge and recharge can caused by huge heat, if The heat assembled in battery case can not distribute in time, will result in battery temperature rise, and temperature has very to battery performance Big influence, such as power and energy response, power efficiency and charge acceptance, the safety of electrochemical system and reliable, use In life-span etc., moreover, the safety of power-supply system thermal runaway, entail dangers to vehicle and passenger may be caused when serious.Therefore it is necessary Battery case is quickly cooled down.In same battery case, if it is uneven that battery is radiated, it can cause in different individual cells Between non-uniform temperature, so as to cause the long-term discharge and recharge in high temperature environments of Individual cells, its energy can be consumed rapidly, caused indivedual Battery premature failure, Individual cells failure can be caused so as to shorten the service life of whole power-supply system, when serious or even is risen Hot fried danger.Therefore, battery case is radiated, ensures the harmony of radiating as far as possible.

The content of the invention

The invention provides a kind of quickly cooling device of electrokinetic cell, and it can not only realize the fast uniform of electrokinetic cell Cooling, and it also avoid the weighting of cooled plate type of cooling weight, once coolant leakage can cause battery short circuit, or even rise Hot fried danger.

Present invention employs following technical scheme：A kind of quickly cooling device of electrokinetic cell, it is mainly changed by microchannel Hot device, protection board, electrokinetic cell and battery case composition, micro-channel heat exchanger, protection board and electrokinetic cell are all placed on battery case Interior, described micro-channel heat exchanger is by battery mounting seat, refrigerant pipe, Correspondent pipeline and enters steam outlet pipe and forms, battery installation The surface distributed of base has some groups of refrigerant pipes, in the left and right sides of battery mounting seat and adjacent two groups of refrigerant pipes Between be designed with parting bead, be provided with counterbore at the both ends of each parting bead, be designed with confluxing in the front and rear sides of battery mounting seat logical Road, the both ends of every group of refrigerant pipe are connected with two busways, are connected with the busway of front side into steam outlet pipe respectively, Protection board is arranged on micro-channel heat exchanger bottom, positioning hole is provided with protection board, positioning hole is corresponding with counterbore, and microchannel is changed Hot device with being installed with bolt assembly in counterbore in positioning hole with protection board by being connected, and protection board is by the bottom of micro-channel heat exchanger Separated with battery case bottom, thermal conductive silicon rubber cushion is installed on every group of refrigerant pipe, thermal conductive silicon rubber cushion is pasted onto refrigerant pipe Upper surface, is pasted with insulating barrier on each parting bead, and electrokinetic cell, which is placed on, is pasted with insulating barrier and thermal conductive silicon rubber cushion On micro-channel heat exchanger, insulating barrier and thermal conductive silicon rubber cushion separate electrokinetic cell and micro-channel heat exchanger, on steam outlet pipe is entered Rubber hose is connected with, one end of rubber hose is connected with entering steam outlet pipe, and the other end of rubber hose passes through battery case and battery External refrigerant pipeline outside case is connected, and temperature sensor, the signal output of temperature sensor are additionally provided with battery case End is connected with microprocessor, and the input of microprocessor and the signal output part of temperature sensor connect, the output of microprocessor End is connected with the magnetic valve on external refrigerant pipeline, when temperature sensor sends to microprocessor and needs cooling signal in battery case When, refrigerant is injected into refrigerant pipe by magnetic valve, takes away the heat of battery rapidly, makes battery fast cooling；Work as temperature When dropping to setting value, stop logical refrigerant.

Described battery mounting seat and refrigerant pipe welds together with bus dump, battery mounting seat and refrigerant Pipe uses overall punch forming.Described protection board is high-strength insulating foamed plastic.Cam is cased with outside described bolt assembly Type felt pad.Described cam type felt pad is flame-resistant insulation plastics.Some groups of described refrigerant pipes are evenly distributed on battery The surface of mounting seat.Described refrigerant pipe is comb.

The invention has the advantages that：After employing above technical scheme, the present invention can not only realize electrokinetic cell Fast uniform cooling, and it also avoid the cooled plate type of cooling weight weighting, once coolant leakage can cause battery Short circuit, or even the danger of blast on fire, and it is simple in construction, low manufacture cost, it is easy to use of large-scale production.Using microchannel Heat exchanger is quickly cooled down to electrokinetic cell, and the present invention can connect with air conditioning for automobiles, forms whole set of system, effective drop Low product cost, at the same it is in light weight, and assembly and disassembly are simple, low manufacture cost, are easy to automated production.

Brief description of the drawings

Fig. 1 is the micro-channel heat exchanger structure chart of the present invention.

Fig. 2 is combining structure schematic diagram of the micro-channel heat exchanger with other structures part of the present invention.

Fig. 3 is the use state figure of the present invention.

Embodiment

In Fig. 1, Fig. 2 and Fig. 3, the invention provides a kind of quickly cooling device of electrokinetic cell, and it is mainly by micro- logical Road heat exchanger 1, protection board 2, electrokinetic cell 3 and battery case 4 are formed, and micro-channel heat exchanger 1, protection board 2 and electrokinetic cell 3 are all put Put in battery case 4, described protection board 2 is high-strength insulating foamed plastic, and described micro-channel heat exchanger 1 is installed by battery Base 5, refrigerant pipe 6, Correspondent pipeline 7 and enter steam outlet pipe 8 and form, the surface distributed of battery mounting seat 5 there are some groups of refrigeration Agent pipe 6, the surface distributed of the battery mounting seat 5 of the present embodiment have six groups of refrigerant pipes 6, and refrigerant pipe 6 is comb, six groups of systems Refrigerant tube 6 is evenly distributed on the surface of battery mounting seat 5, in the left and right sides of battery mounting seat 5 and adjacent two groups Parting bead 9 is designed between refrigerant pipe 6, counterbore 10 is provided with the both ends of each parting bead 9, two before and after battery mounting seat 5 Side is designed with busway 7, and the both ends of every group of refrigerant pipe 6 are connected with two busways 7 respectively, described battery installation bottom Seat 5 and refrigerant pipe 6 weld together with bus dump 7, and battery mounting seat 5 and refrigerant pipe 6 use overall punch forming, It is connected with the busway 7 of front side into steam outlet pipe 8, protection board 2 is arranged on the bottom of micro-channel heat exchanger 1, on protection board 2 Provided with positioning hole 11, positioning hole 11 is corresponding with counterbore 10, and micro-channel heat exchanger 1 in positioning hole 11 with counterbore 10 by being installed with Bolt assembly 12 is connected with protection board 2, and cam type felt pad 20, cam type felt pad 20 are cased with outside described bolt assembly 12 For flame-resistant insulation plastics, play a part of insulated heat, bolt assembly 12 and micro-channel heat exchanger 1 are separated, to prevent heat It is delivered to by bolt assembly 7 on battery case 4, protection board 2 separates the bottom of micro-channel heat exchanger 1 and the bottom of battery case 4, rises To the effect of insulated heat, thermal conductive silicon rubber cushion 13 is installed on every group of refrigerant pipe 6, thermal conductive silicon rubber cushion 13 has very high lead Hot coefficient, thermal conductive silicon rubber cushion 13 are pasted onto the upper surface of refrigerant pipe 6, and electrokinetic cell 3 and micro-channel heat exchanger 1 are insulated Isolation, while heat transfer is carried out therebetween, insulating barrier 14 is pasted with each parting bead 9, electrokinetic cell 3 is placed on It is pasted with the micro-channel heat exchanger 1 of insulating barrier 14 and thermal conductive silicon rubber cushion 13, insulating barrier 14 and thermal conductive silicon rubber cushion 13 will be dynamic Power battery 3 separates with micro-channel heat exchanger 1, rubber hose 15 is connected with steam outlet pipe 8 is entered, one end of rubber hose 15 is with entering Steam outlet pipe 8 connects, and the other end of rubber hose 15 is connected through battery case 4 with the external refrigerant pipeline 16 outside battery case 4 It is logical, temperature sensor 17 is additionally provided with battery case 4, the signal output part of temperature sensor 17 is connected with microprocessor 18, micro- The input of processor 18 is connected with the signal output part of temperature sensor 17, the output end and external refrigerant of microprocessor 18 Magnetic valve 19 on pipeline 16 connects, when in battery case 4 temperature sensor 17 sent to microprocessor 18 need cooling signal when, lead to Cross magnetic valve 19 and refrigerant is injected into refrigerant pipe 6, take away the heat of battery rapidly, make battery fast cooling；When temperature drops During to setting value, stop logical refrigerant.

Claims (7)

1. A kind of 1. quickly cooling device of electrokinetic cell, it is characterized in that it is mainly by micro-channel heat exchanger（1）, protection board（2）, it is dynamic Power battery（3）And battery case（4）Composition, micro-channel heat exchanger（1）, protection board（2）And electrokinetic cell（3）All it is placed on battery case （4）Interior, described micro-channel heat exchanger（1）By battery mounting seat（5）, refrigerant pipe（6）, Correspondent pipeline（7）With disengaging vapour Pipe（8）Composition, battery mounting seat（5）Surface distributed have some groups of refrigerant pipes（6）, in battery mounting seat（5）A left side Right both sides and adjacent two groups of refrigerant pipes（6）Between be designed with parting bead（9）, in each parting bead（9）Both ends be provided with counterbore （10）, in battery mounting seat（5）Front and rear sides be designed with busway（7）, every group of refrigerant pipe（6）Both ends respectively with Two busways（7）It is connected, in the busway of front side（7）On be connected with into steam outlet pipe（8）, protection board（2）Installed in micro- Channel heat exchanger（1）Bottom, in protection board（2）It is provided with positioning hole（11）, positioning hole（11）With counterbore（10）It is corresponding, it is micro- logical Road heat exchanger（1）By in positioning hole（11）With counterbore（10）Inside it is installed with bolt assembly（12）With protection board（2）It is connected, protects Plate（2）By micro-channel heat exchanger（1）Bottom and battery case（4）Bottom separates, in every group of refrigerant pipe（6）On heat conduction is installed Silicagel pad（13）, thermal conductive silicon rubber cushion（13）It is pasted onto refrigerant pipe（6）Upper surface, in each parting bead（9）On be pasted with insulation Dividing plate（14）, electrokinetic cell（3）It is placed on and is pasted with insulating barrier（14）With thermal conductive silicon rubber cushion（13）Micro-channel heat exchanger（1） On, insulating barrier（14）With thermal conductive silicon rubber cushion（13）By electrokinetic cell（3）With micro-channel heat exchanger（1）Separate, entering steam outlet pipe （8）On be connected with rubber hose（15）, rubber hose（15）One end and enter steam outlet pipe（8）Connection, rubber hose（15）It is another One end passes through battery case（4）With battery case（4）Outside external refrigerant pipeline（16）It is connected, in battery case（4）Inside also set There is temperature sensor（17）, temperature sensor（17）Signal output part be connected with microprocessor（18）, microprocessor（18）'s Input and temperature sensor（17）Signal output part connection, microprocessor（18）Output end and external refrigerant pipeline （16）On magnetic valve（19）Connection, works as battery case（4）Interior temperature sensor（17）To microprocessor（18）Letter need to be cooled down by sending Number when, pass through magnetic valve（19）To refrigerant pipe（6）Interior injection refrigerant, the heat of battery is taken away rapidly, make the fast prompt drop of battery Temperature；When temperature drops to setting value, stop logical refrigerant.
2. 2. the quickly cooling device of electrokinetic cell according to claim 1, it is characterized in that described battery mounting seat（5） And refrigerant pipe（6）With bus dump（7）Weld together, battery mounting seat（5）And refrigerant pipe（6）Using overall punching press Shaping.
3. 3. the quickly cooling device of electrokinetic cell according to claim 1, it is characterized in that described protection board（2）To be high-strength Spend insulation foaming plastics.
4. 4. the quickly cooling device of electrokinetic cell according to claim 1, it is characterized in that described bolt assembly（12）Outside It is cased with cam type felt pad（20）.
5. 5. the quickly cooling device of electrokinetic cell according to claim 4, it is characterized in that described cam type felt pad （20）For flame-resistant insulation plastics.
6. 6. the quickly cooling device of electrokinetic cell according to claim 1, it is characterized in that some groups of described refrigerant pipes （6）It is evenly distributed on battery mounting seat（5）Surface.
7. 7. the quickly cooling device of the electrokinetic cell according to claim 1 or 6, it is characterized in that described refrigerant pipe（6） For comb.