CN107734936A

CN107734936A - High protection DC charging motor based on interior circulation air conditioner heat pipe heat exchanging

Info

Publication number: CN107734936A
Application number: CN201711115999.4A
Authority: CN
Inventors: 霍锦强; 邢庆; 白海涛; 梁翔飞; 黄启荣; 王久平; 卢志平
Original assignee: Guangdong Wancheng Million Charge Electric Vehicle Operation Of Ltd By Share Ltd
Current assignee: Guangzhou Wancheng Wanchong New Energy Technology Co ltd
Priority date: 2017-11-13
Filing date: 2017-11-13
Publication date: 2018-02-23

Abstract

The present invention is a kind of high protection DC charging motor based on interior circulation air conditioner heat pipe heat exchanging.Include cabinet part, controller part, metering and direct current output part, air-conditioning heat pipe heat exchanger components, charging module part, wherein controller part is installed in the forward upper of cabinet part, metering and direct current output part are installed in the lower front of cabinet part, air-conditioning heat pipe heat exchanger components are installed in the upper back of cabinet part, charging module part is installed in the back lower of cabinet part, controller part respectively with metering and direct current output part, air-conditioning heat pipe heat exchanger components, charging module part electrically connects, and the cold wind outlet of air-conditioning heat pipe heat exchanger components is directed to the air inlet of charging module part by blower fan, form the air channel circulation of charging module components interior.Present invention process step is simple, and efficiency of assembling is high, and significantly improves the degree of protection of charger, is a kind of simple in construction, the convenient and practical high protection DC charging motor based on interior circulation air conditioner heat pipe heat exchanging.

Description

High protection DC charging motor based on interior circulation air conditioner heat pipe heat exchanging

Technical field

The present invention relates to a kind of high protection DC charging motor based on interior circulation air conditioner heat pipe heat exchanging, belong to based on interior circulation The innovative technology of the high protection DC charging motor of air-conditioning heat pipe heat exchanging.

Background technology

Existing traditional charger adds the mode of the straight-through forced heat radiation of Air Filter to radiate using blower fan, this radiating side Formula is because device interior and external environment are straight-through, and degree of protection is poor, the pollutant ratio such as device external dust and oil smoke It is easier to enter device interior by air channel, causes device interior component damage, particularly charging module to damage.In addition, Connected mostly using software line between each component of traditional charger, processing step is complicated, and technological level is not high, assembling effect Rate is low, and the degree of protection of charger is not high.

The content of the invention

A kind of high protection based on interior circulation air conditioner heat pipe heat exchanging is provided it is an object of the invention to consider above mentioned problem DC charging motor, present invention process step is simple, and efficiency of assembling is high, and significantly improves the degree of protection of charger, and the present invention is It is a kind of simple in construction, the convenient and practical high protection DC charging motor based on interior circulation air conditioner heat pipe heat exchanging.

The technical scheme is that：The high protection DC charging motor based on interior circulation air conditioner heat pipe heat exchanging of the present invention, Include cabinet part, controller part, metering and direct current output part, air-conditioning heat pipe heat exchanger components, charging module part, Wherein controller part is installed in the forward upper of cabinet part, and metering and direct current output part are installed in the front side of cabinet part Bottom, air-conditioning heat pipe heat exchanger components are installed in the upper back of cabinet part, after charging module part is installed in cabinet part Side lower part, controller part are electrically connected with metering and direct current output part, air-conditioning heat pipe heat exchanger components, charging module part respectively Connect, and the cold wind outlet of air-conditioning heat pipe heat exchanger components is directed to the air inlet of charging module part by blower fan, forms charging mould Air channel circulation inside block part.

The high protection DC charging motor based on interior circulation air conditioner heat pipe heat exchanging of the present invention is using closed heat pipe heat radiation Structure, device interior is completely separated with the external world, and heat caused by device interior is entered by closed heat pipe and device external air Row heat exchange, reach equipment inside and outside thermal balance, so as to reduce the temperature of device interior.Used between the major part of charger Busbar Joining Technology, effectively simplify complete machine wiring technique, increase substantially efficiency of assembling, and busbar technique it is succinct with Steadiness, improved a lot for the runnability of complete machine structure.The present invention is a kind of simple in construction, convenient and practical, reliable The stable high protection DC charging motor based on interior circulation air conditioner heat pipe heat exchanging.

Brief description of the drawings

Fig. 1 is the front view of the present invention；

Fig. 2 is the rearview of the present invention；

Fig. 3 is the internal structure schematic diagram of metering and direct current output part in the present invention；

Fig. 4 is the stereogram of the present invention；

Fig. 5 is the stereogram that the present invention turns over another angle；

Fig. 6 is the schematic diagram of air-conditioning heat pipe heat exchanger components of the present invention.

Embodiment

Embodiment：

As shown in Figure 1, 2, the height of the invention based on interior circulation air conditioner heat pipe heat exchanging protects direct current to the structural representation of the present invention Charger, include cabinet part 1, controller part 2, metering and direct current output part 3, air-conditioning heat pipe heat exchanger components 4, fill Electric modular unit 5, wherein controller part 2 are installed in the forward upper of cabinet part 1, and metering and direct current output part 3 are installed In the lower front of cabinet part 1, air-conditioning heat pipe heat exchanger components 4 are installed in the upper back of cabinet part 1, charging module part 5 are installed in the back lower of cabinet part 1, controller part 2 respectively with metering and direct current output part 3, air-conditioning heat pipe heat exchanging Part 4, charging module part 5 electrically connect, and the cold wind of air-conditioning heat pipe heat exchanger components 4 exports and is directed to charging module by blower fan The air inlet of part 5, the air channel circulation formed inside charging module part 5.

In the present embodiment, above-mentioned metering and direct current output part 3 are molten including the first current divider 6, the second current divider 7, first Disconnected device 8, second fuse 9, the first DC relay 10, the second DC relay 11, the 4th DC relay 13, the first direct current Electric energy meter 14, cabinet part 1 includes molded-case switch 16 and A.C. contactor 17, between molded-case switch 16 and A.C. contactor 17 Connected by busbar 18；Connected between A.C. contactor 17 and charging module part 5 by busbar 18；Charging module part 5 is just After pole comes out, it is connected by busbar 18 with the first current divider 6 and the second current divider 7, the first current divider 6 and first fuse 8 Connection；Second current divider 7 is connected with second fuse 9；First fuse 8 is connected with the second DC relay 11；Second fusing Device 9 is connected with the first DC relay 10；The negative pole of charging module part 5 come out after, by busbar 18 respectively with the 4th direct current The direct current energy meter 14 of relay 13 and first connects.The mode of busbar connection simplifies assembly technology, attractive in appearance and improve production efficiency, It is easy to produce in batches.

In the present embodiment, above-mentioned first current divider 6 is connected by busbar 18 with first fuse 8.

In the present embodiment, above-mentioned second current divider 7 is connected by busbar 18 with second fuse 9.

In the present embodiment, above-mentioned first fuse 8 is connected by busbar 18 with the second DC relay 11.

In the present embodiment, above-mentioned second fuse 9 is connected by busbar 18 with the first DC relay 10.

In the present embodiment, the above-mentioned negative pole of charging module part 5 come out after, also by busbar 18 respectively with the 3rd direct current after The direct current energy meter 15 of electrical equipment 12 and second connects.

In the present embodiment, above-mentioned air-conditioning heat pipe heat exchanger components 4 use separated gravity hot pipe, and heat pipe includes indoor steaming Hair section heat pipe 41 and outside condensation segment heat pipe 42, inside heat pipe are full of condensing agent, the installation position of outside condensation segment heat pipe 42 Put and be higher than indoor evaporator section heat pipe 41, radiating of the indoor evaporator section heat pipe 41 directly with device interior charging module part 5 Air channel communicates, and outside condensation segment heat pipe 42 directly communicates with device external air, and the hot blast of the air outlet of charging module 5 passes through wind Machine is directed to indoor evaporator section heat pipe 41, the heated vaporization of inside heat pipe condensing agent, passes through hot pipe conducting to outside condensation segment Heat pipe 42, vaporization and condensation agent outside condensation segment heat pipe 42 run into by blower fan be directed into come device external air cool Liquefaction, under gravity, the liquefaction condensing agent to have cooled flows back to indoor evaporator section heat pipe 41, forms closed type hot Exchange cycles, hot blast caused by charging module part 5 are directed to by blower fan and filled after the cooling of indoor evaporator section heat pipe 41 The air inlet of electric modular unit 5, the air channel circulation formed inside charging module part 5.

In the present embodiment, interior circulation air conditioner heat pipe heat exchanging system is mainly entered by the state change of inside heat pipe condensing agent Row heat transfer reaches the purpose of device interior temperature and device external air themperature balance.

The present invention operation principle be：Each part rational deployment, under being uniformly controlled of controller part 2, output charging Power.Controller part 2 is the control core of charger, is responsible for the electric quantity acquisition and direct current of metering and direct current output part 3 Output monitoring；Controller part 2 is also responsible for parameter acquisition and the adjustment of air-conditioning heat pipe heat exchanger components 4；Controller part 2 is also responsible for The control of charging module part 5.Metering and direct current output part 3 are responsible for the switching and charging safeguard protection in direct current output loop； Air-conditioning heat pipe heat exchanger components 4 are the transmission of charger internal heat and distribute part, and its effect is by charging module and charging Heat caused by machine internal work transmits cooling by heat exchange.Charging module part 5 is pressed under the control of controller part 2 As requested exports DC voltage.Charging module part is arranged on sealing space by the present invention, when charger works, is followed using interior Annular space adjusts heat pipe heat exchanging principle to radiate charger inside, so as to realize the high protection of charger overall performance with it is highly reliable Property.Charger carries out the physical connection between each part using the technology mode of busbar connection, simplifies assembly technology, attractive in appearance and carry High efficiency, it is easy to produce in batches.

Claims

A kind of 1. high protection DC charging motor based on interior circulation air conditioner heat pipe heat exchanging, it is characterised in that include cabinet part, Controller part, metering and direct current output part, air-conditioning heat pipe heat exchanger components, charging module part, wherein controller part fill The forward upper of cabinet part is located at, metering and direct current output part are installed in the lower front of cabinet part, and air-conditioning heat pipe changes Thermal part is installed in the upper back of cabinet part, and charging module part is installed in the back lower of cabinet part, controller portion Part electrically connects with metering and direct current output part, air-conditioning heat pipe heat exchanger components, charging module part respectively, and air-conditioning heat pipe heat exchanging The cold wind outlet of part is directed to the air inlet of charging module part by blower fan, and the air channel for forming charging module components interior is followed Ring.
2. the high protection DC charging motor according to claim 1 based on interior circulation air conditioner heat pipe heat exchanging, it is characterised in that Above-mentioned metering and direct current output part include the first current divider, the second current divider, first fuse, second fuse, first straight Current relay, the second DC relay, the 4th DC relay, the first direct current energy meter, cabinet part include molded-case switch And A.C. contactor, connected between molded-case switch and A.C. contactor by busbar；A.C. contactor and charging module part it Between connected by busbar；After charging module part positive pole comes out, it is connected by busbar with the first current divider and the second current divider, First current divider is connected with first fuse；Second current divider is connected with second fuse；First fuse and the second direct current after Electrical equipment connects；Second fuse is connected with the first DC relay；After charging module part negative pole comes out, distinguished by busbar It is connected with the 4th DC relay and the first direct current energy meter.
3. the high protection DC charging motor according to claim 2 based on interior circulation air conditioner heat pipe heat exchanging, it is characterised in that Above-mentioned first current divider is connected by busbar with first fuse.
4. the high protection DC charging motor according to claim 2 based on interior circulation air conditioner heat pipe heat exchanging, it is characterised in that Above-mentioned second current divider is connected by busbar with second fuse.
5. the high protection DC charging motor according to claim 2 based on interior circulation air conditioner heat pipe heat exchanging, it is characterised in that Above-mentioned first fuse is connected by busbar with the second DC relay.
6. the high protection DC charging motor according to claim 2 based on interior circulation air conditioner heat pipe heat exchanging, it is characterised in that Above-mentioned second fuse is connected by busbar with the first DC relay.
7. the high protection DC charging motor according to claim 2 based on interior circulation air conditioner heat pipe heat exchanging, it is characterised in that After above-mentioned charging module part negative pole comes out, also connected respectively with the 3rd DC relay and the second direct current energy meter by busbar Connect.
8. the high protection DC charging motor based on interior circulation air conditioner heat pipe heat exchanging according to any one of claim 1 to 7, its It is characterised by that above-mentioned air-conditioning heat pipe heat exchanger components use separated gravity hot pipe, heat pipe includes indoor evaporator section heat pipe and room Outside condensation segment heat pipe, inside heat pipe are full of condensing agent, and the installation site of outside condensation segment heat pipe is higher than indoor evaporator section Heat pipe, heat dissipation wind channel of the indoor evaporator section heat pipe directly with device interior charging module part communicate, outside condensation segment heat Pipe directly communicates with device external air, and the hot blast of charging module part air outlet is directed to indoor evaporator section heat by blower fan Pipe, the heated vaporization of inside heat pipe condensing agent are cold in outside to outside condensation segment heat pipe, vaporization and condensation agent by hot pipe conducting Solidifying section heat pipe, which runs into, to be directed into the device external air come by blower fan and is liquefied to cool, and under gravity, has been cooled Liquefaction condensing agent flow back to indoor evaporator section heat pipe, form closed type hot exchange cycles, heat caused by charging module part Wind is directed to the air inlet of charging module part by blower fan after the evaporator section hot pipe cooling of indoor, forms charging module The air channel circulation of components interior.