CN206118289U - Heat transfer device and use this heat transfer device's charge rack and machine that charges - Google Patents

Abstract

The utility model provides a heat transfer device and use this heat transfer device's charge rack and machine that charges, heat transfer device includes the casing, the casing includes three above heat conduction wall along thickness direction interval parallel configuration, form the heat conduction passageway between the two arbitrary adjacent heat conduction walls, the heat conduction passageway divide into along arrange the direction passage of heat and cold passageway of setting in turn of heat conduction wall, the passage of heat have be used for with sealed complex passage of heat air intake of rack and passage of heat air outlet, cold passageway has the cold channel -inlet and cold passageway export who is independent of the passage of heat, passage of heat air intake is the antarafacial setting with cold channel -inlet. The air heat is absorbed by the heat conduction wall in the rack, consequently from passage of heat air outlet exhaust air temperature greatly reduced to cool down for rack inside. Since cold, passage of heat setting in turn, independent each other, heat transfer device compact structure, occupation space is little, and the heat can transmit cold passageway from the passage of heat fast simultaneously, and heat transfer is efficient, and the heat transfer effect is better.

Description

A kind of heat-exchanger rig and the charger rack and charger using the heat-exchanger rig

Technical field

The utility model is related to a kind of heat-exchanger rig and the charger rack and charger using the heat-exchanger rig.

Background technology

To reduce pollution of the vehicle exhaust to environment, country vigorously advocates development new-energy automobile, and electrically-charging equipment is new The basis of energy automobile development, at present to improve charge efficiency, the charging equipment of employing is mainly DC charging equipment.Charging mould Block is the core cell of DC charging equipment, and the major function of charging module is to carry out AC/DC power conversions, in power conversion mistake Portion of energy loss is had in journey, the wherein loss of energy overwhelming majority is converted to heat, and heat persistent accumulation can cause local temperature Height, the too high operational efficiency that can have a strong impact on charging module of temperature and life-span are spent, severe patient can cause module to crash, cause to fill Electric equipment cannot charge.

With charging equipment towards miniaturization, high-power direction develop, its power density will more and more higher, the heat of generation Amount is also more and more, therefore the cooling device that exchanges heat is both provided with charger, and the type of cooling of existing charger is mainly wind Cold, Authorization Notice No. is CN202281533U, and authorized announcement date discloses one for the Chinese utility model patent of 2012.06.20 The heat conducting tube type radiator for being applied to all kinds of electrical control cubicles and cooling machine cabinet field is planted, the heat conducting tube type radiator includes housing, in housing Portion is provided with heat pipe and dividing plate, and heat conducting tube type radiator is divided into heat absorption area and radiating area, partition board hole is provided with dividing plate by dividing plate, heat Conduit is through partition board hole and is partitioned into two parts, and in heat absorption area, another part is in radiating area for a part；Heat absorption area On be provided with heat absorption area's air inlet and heat absorption area's air outlet, heat absorption is provided with little blower fan inside area, air outlet and the heat absorption area of little blower fan Air outlet is connected；Radiating area air inlet and radiating area air outlet are provided with radiating area.

The radiating principle of the heat conducting tube type radiator is first to suction out the hot-air of interior of equipment cabinet and through heat pipe, and heat is empty To on heat pipe, heat, from heat absorption block transitive to radiating area, then passes through the heat transfer of gas on heat pipe in radiating area The mode of natural convection air, the heat on heat pipe is dispersed in air.

This heat conducting tube type radiator is arranged on the top of rack, because heat absorption area and radiating area are arranged parallel, causes whole The horizontal volume of radiator is huger, and the installing space of general enclosure top is limited, absorbs heat area and radiating area all Certain installing space is occupied, therefore results in the arrangement length and quantity of heat pipe and be all restricted, this is by direct shadow The radiating effect of heat conducting tube type radiator is rung, and for small-sized cabinet, its radiating effect can be worse.

In addition, housing is separated into two parts by heat absorption area and radiating area, heat is delivered to scattered by area of absorbing heat by heat pipe Hot-zone, this heat transmission distance is, than larger, the efficiency of heat transfer to be affected, so as to affect heat transfer effect.

Utility model content

The purpose of this utility model is to provide a kind of integrated form and good effect of heat exchange heat-exchanger rig；The utility model Purpose a kind of charger rack and charger using the heat-exchanger rig of offer is be provided.

In order to solve above-mentioned technical problem, the technical scheme of heat-exchanger rig is in the utility model：

A kind of heat-exchanger rig, including housing, housing includes the heat conducting wall of more than three through-thickness spacing parallel arranging arrangements, Passage of heat is formed between two heat conducting walls of arbitrary neighborhood, passage of heat is divided into the passage of heat and cold passage, the passage of heat and cold passage Arragement direction along heat conducting wall is arranged alternately, and the passage of heat has for sealing the passage of heat air inlet and the passage of heat that coordinate with rack Air outlet, cold passage has the cold passage import and cold passage outlet independently of the passage of heat, and passage of heat air inlet and cold passage are entered Mouth is antarafacial setting.

The housing includes that by the heat conducting wall section of the heat conducting wall integrally casting shaping heat conducting wall in heat conducting wall section is Vertically arranged and number is the left and right two of even number, the intermediate thermal conductivity wall in three heat conducting walls of arbitrary neighborhood and side heat conducting wall End be that sealing connects, intermediate thermal conductivity wall and the upper and lower ends of opposite side heat conducting wall be seal it is connecting so that the passage of heat and Fluid in cold passage flows to separate and vertical.

The passage of heat air inlet and passage of heat air outlet are respectively positioned on the bottom of housing, and the housing also includes being arranged at leading The wind passage connected with heat conducting wall section above hot wall section in rack hot-air flow from bottom to top from passage of heat air inlet The wind passage is entered Jing after a part of passage of heat and passage of heat air outlet is flowed to from top to bottom from another part passage of heat.

The housing also includes being located at connecting with passage of heat air inlet and passage of heat air outlet respectively below heat conducting wall section Blast pipe and discharge pipe, blast pipe and discharge pipe have respectively positioned at lower end for the air intake that connects with interior of equipment cabinet sealing Mouthful and air outlet, air outlet is provided with the first blower fan, the inlet scoop of the first blower fan towards inside the passage of heat, the row of the first blower fan Air port is towards interior of equipment cabinet.

The heat conducting wall section, blast pipe, discharge pipe and wind passage are integrated casting.

The cold passage entrance is provided with the second blower fan, and the inlet scoop of the second blower fan is towards extraneous, the row of the second blower fan Air port is towards inside cold passage.

The technical scheme of charger rack is in the utility model：

A kind of charger rack, is provided with heat-exchanger rig at the top of charger rack, heat-exchanger rig includes housing, housing bag The heat conducting wall of more than three through-thickness spacing parallel arranging arrangements is included, between two heat conducting walls of arbitrary neighborhood passage of heat is formed, Passage of heat is divided into the passage of heat and cold passage, and arragement direction of the passage of heat with cold passage along heat conducting wall is arranged alternately, passage of heat tool Have for sealing the passage of heat air inlet and passage of heat air outlet that coordinate with rack, cold passage has independently of the cold logical of the passage of heat Road import and cold passage are exported, and passage of heat air inlet and cold passage import are antarafacial setting.

The housing includes that by the heat conducting wall section of the heat conducting wall integrally casting shaping heat conducting wall in heat conducting wall section is Vertically arranged and number is the left and right two of even number, the intermediate thermal conductivity wall in three heat conducting walls of arbitrary neighborhood and side heat conducting wall End be that sealing connects, intermediate thermal conductivity wall and the upper and lower ends of opposite side heat conducting wall be seal it is connecting so that the passage of heat and Fluid in cold passage flows to separate and vertical.

The passage of heat air inlet and passage of heat air outlet are respectively positioned on the bottom of housing, and the housing also includes being arranged at leading The wind passage connected with heat conducting wall section above hot wall section in rack hot-air flow from bottom to top from passage of heat air inlet The wind passage is entered Jing after a part of passage of heat and passage of heat air outlet is flowed to from top to bottom from another part passage of heat.

The housing also includes being located at connecting with passage of heat air inlet and passage of heat air outlet respectively below heat conducting wall section Blast pipe and discharge pipe, blast pipe and discharge pipe have respectively positioned at lower end for the air intake that connects with interior of equipment cabinet sealing Mouthful and air outlet, air outlet is provided with the first blower fan, the inlet scoop of the first blower fan towards inside the passage of heat, the row of the first blower fan Air port is towards interior of equipment cabinet.

The heat conducting wall section, blast pipe, discharge pipe and wind passage are integrated casting.

The cold passage entrance is provided with the second blower fan, and the inlet scoop of the second blower fan is towards extraneous, the row of the second blower fan Air port is towards inside cold passage.

The technical scheme of charger is in the utility model：

A kind of charger, including rack, are provided with charging module in rack, heat-exchanger rig is provided with the top of rack, change Thermal includes housing, and housing includes the heat conducting wall of more than three through-thickness spacing parallel arranging arrangements, and the two of arbitrary neighborhood leads Form passage of heat between hot wall, passage of heat is divided into the passage of heat and cold passage, the arrangement of the passage of heat and cold passage along heat conducting wall Direction is arranged alternately, and the passage of heat has for sealing the passage of heat air inlet and passage of heat air outlet that coordinate, cold passage with rack Export with the cold passage import independently of the passage of heat and cold passage, passage of heat air inlet and cold passage import are antarafacial setting.

The housing includes that by the heat conducting wall section of the heat conducting wall integrally casting shaping heat conducting wall in heat conducting wall section is Vertically arranged and number is the left and right two of even number, the intermediate thermal conductivity wall in three heat conducting walls of arbitrary neighborhood and side heat conducting wall End be that sealing connects, intermediate thermal conductivity wall and the upper and lower ends of opposite side heat conducting wall be seal it is connecting so that the passage of heat and Fluid in cold passage flows to separate and vertical.

The passage of heat air inlet and passage of heat air outlet are respectively positioned on the bottom of housing, and the housing also includes being arranged at leading The wind passage connected with heat conducting wall section above hot wall section in rack hot-air flow from bottom to top from passage of heat air inlet The wind passage is entered Jing after a part of passage of heat and passage of heat air outlet is flowed to from top to bottom from another part passage of heat.

The housing also includes being located at connecting with passage of heat air inlet and passage of heat air outlet respectively below heat conducting wall section Blast pipe and discharge pipe, blast pipe and discharge pipe have respectively positioned at lower end for the air intake that connects with interior of equipment cabinet sealing Mouthful and air outlet, air outlet is provided with the first blower fan, the inlet scoop of the first blower fan towards inside the passage of heat, the row of the first blower fan Air port is towards interior of equipment cabinet.

The heat conducting wall section, blast pipe, discharge pipe and wind passage are integrated casting.

The cold passage entrance is provided with the second blower fan, and the inlet scoop of the second blower fan is towards extraneous, the row of the second blower fan Air port is towards inside cold passage.

The beneficial effects of the utility model are：The hot-air of interior of equipment cabinet can enter the passage of heat from passage of heat air inlet In, and finally interior of equipment cabinet is back to from passage of heat air outlet, in the process, the heat of hot-air can be for delivery to heat conducting wall On, therefore be back to the air themperature of interior of equipment cabinet and substantially reduce, the charging module such that it is able to give interior of equipment cabinet is lowered the temperature.Together When, be arranged alternately due to the passage of heat and cold passage, independently of one another, be independent of each other so that the structure of whole heat-exchanger rig is very tight Gather, equivalent to heat absorption area of the prior art and radiating area are integrated together, so avoid heat-exchanger rig and occupy very Big arrangement space, saved space can just arrange more passages of heat, so as to improving radiating effect, for small-sized Rack for, the utility model disclosure satisfy that in the same old way its radiating needs.Simultaneously as the passage of heat and cold passage are arranged alternately, Cold and hot region zooms in most short distance, and heat rapidly can be delivered to cold passage from the passage of heat, and heat transfer efficiency is high, because This heat transfer effect is more preferable.

Description of the drawings

Fig. 1 is the structural representation of one embodiment of charger in the utility model；

Fig. 2 is the front view of heat-exchanger rig in Fig. 1；

Fig. 3 is the left view of heat-exchanger rig；

Fig. 4 is the upward view of heat-exchanger rig.

In figure：1. heat-exchanger rig；2. rack；3. charging module；4. the first blower fan；5. deep bead；6. the second blower fan；7. pacify Dress plate；8. lower clapboard；11. housings；12. wind passages；13. heat conducting walls；14. air inlets；15. baffle plates；16. air outlets；17. is hot Passage；18. cold passages.

Specific embodiment

One embodiment of charger is as shown in Fig. 1 ~ Fig. 4, including rack 2, and in rack 2 charging module 3, rack are provided with 2 top is provided with heat-exchanger rig 1, and heat-exchanger rig 1 includes housing 11, and housing 11 includes 12 through-thickness spacing parallel arranging rows The heat conducting wall 13 of cloth, heat conducting wall 13 is vertically arranged, and between two heat conducting walls 13 of arbitrary neighborhood passage of heat, heat conduction are formed Passage is divided into the passage of heat 17 and cold passage 18, and the passage of heat 17 and cold passage 18 are arranged alternately along the arragement direction of heat conducting wall 13.

12 heat conducting walls 13 constitute the heat conducting wall section of housing 11, and 12 heat conducting walls 13 are integrated casting, according to The distributing order of heat conducting wall, the left and right two ends sealing of first, second heat conducting wall connects, the left and right of the three, the 4th heat conducting walls Two ends be also sealing connect, by that analogy, the 11st, the left and right two ends of the 12nd heat conducting wall be also sealing connect, so Just constitute 6 passage of heats 17.Wherein, the upper and lower ends sealing of second, third heat conducting wall connects, the four, the 5th heat conduction The upper and lower ends of wall be also sealing connect, by that analogy, the tenth, the 11st upper and lower ends be also sealing connect, so 5 cold passages 18 are just constituted, the fluid flow direction in such passage of heat 17 is above-below direction, the fluid flow direction in cold passage 18 is Left and right directions, the fluid in two passages flows to separate and vertical.

Housing 11 also includes being located at the baffle plate 15 below heat conducting wall section, and baffle plate 15 is in " people " font, equivalent to by housing 11 Bottom be separated into two airducts, respectively blast pipe and discharge pipe, the wherein lower port of discharge pipe are air outlet 16, blast pipe Lower port be air inlet 14.The passage of heat 17 has passage of heat air inlet and passage of heat air outlet, passage of heat air inlet and air intake Pipe is connected, and passage of heat air outlet is connected with discharge pipe, and between air inlet 14 and air outlet 16 and rack 2 and charging module 3 Deep bead 5 is provided with, such passage of heat air inlet and passage of heat air outlet are connected with the inside sealing of rack 2.

Housing 11 also includes being arranged at the wind passage 12 connected with heat conducting wall section above heat conducting wall section, at air outlet 16 The first blower fan 4 is provided with, towards passage of heat air outlet, the exhaust outlet of the first blower fan 4 is towards rack 2 for the inlet scoop of the first blower fan 4 Inside, in the presence of the first blower fan 4, it is logical that the hot-air Jing air inlets 14 in rack 2 in the right side area of charging module 3 enter heat Road air inlet, and it is circulated to the wind passage of top in housing from bottom to top under the guide effect of the passage of heat 17 of right part In 12, the passage of heat 17 of the Jing left parts that then flow to the left again flows out from top to bottom passage of heat air outlet, final Jing air outlets 16 are back in rack 2 in the left field of charging module 3, then right side area are returned to after from each charging module 3, Form a circulation.In the process, heat conducting wall 13 falls the heat absorption in hot-air, therefore the sky being back in rack 2 Temperature degree is substantially reduced, such that it is able to lower the temperature to charging module 3.

The heat conducting wall section, blast pipe, discharge pipe and wind passage 12 are integrated casting, that is to say, that entirely change Thermal is exactly a housing, and the housing is integrated casting, and its material is aluminium.

Cold passage 18 has the cold passage import independently of the passage of heat 17 and cold passage outlet, cold passage import and cold passage Outlet is communicated respectively positioned at the left and right sides and directly with the external world.Whole heat-exchanger rig 1 is installed by the installing plate 7 on rack 2 At the top of rack 2, the second blower fan 6, the inlet scoop of the second blower fan 6 are provided with the left of cold passage import on installing plate 7 Towards the external world, the exhaust outlet of the second blower fan 6 is towards cold passage import.In the presence of the second blower fan 7, extraneous cold air is from cold Channel entrance is entered in cold passage 18, and Jing cold passages outlet after circulating from left to right is arranged outwardly, and in the process, cold air will Heat in cold passage 18 in both sides heat conducting wall 13 is taken away, and heat conducting wall 13 is radiated.

So far, also just complete heat from interior of equipment cabinet to the passage of heat, again from the passage of heat to cold passage, it is last from cold passage To an extraneous transmittance process, here, the second blower fan 6 is arranged on into the left side of heat-exchanger rig 1, the first blower fan 4 is arranged It is so not high through the air themperature of the first blower fan 4 and the second blower fan 6 at air outlet 16, it is to avoid the first blower fan 4 and Two blower fans 6 longtime running at high temperature, so as to extend service life.

Because the passage of heat 17 and cold passage 18 are arranged alternately, the air flow in it does not interfere with each other, in order to ensure to charging The good radiating effect of module 3, is provided with lower clapboard 8, thus charging mould between the bottom of charging module 3 and rack 2 The space that block 3 is located is separated into a less sealing space, it is to avoid radiating effect is undesirable when space is excessive, simultaneously as Outside air will not be entered in the passage of heat 17, such that it is able to prevent external dust and corrosive gas from entering in charging module 3 The service life of charging module 3 is caused to be affected in portion.

The passage of heat 17 and cold passage 18 in the utility model independently of one another, be independent of each other, the passage of heat 17 and cold passage 18 Be arranged alternately cause whole heat-exchanger rig structure closely, it is integrated equivalent to by heat absorption area of the prior art and radiating area Very big arrangement space is occupied heat-exchanger rig together, is so avoided, saved space just can be arranged more Passage of heat, so as to improving radiating effect, for small-sized rack, the utility model disclosure satisfy that in the same old way its radiating need Will.Simultaneously as the passage of heat 17 and cold passage 18 are arranged alternately, cold and hot region zooms in most short distance, and heat can be quick Ground is delivered to cold passage from the passage of heat, and heat transfer efficiency is high, therefore heat transfer effect is more preferable.

In the other embodiment of charger：Heat conducting wall section, blast pipe, discharge pipe and wind passage can not be one Casting, such as only heat conducting wall section is integrally casting shaping, subsequently again by the weldering of blast pipe, discharge pipe and wind passage Connect and be fixed in heat conducting wall section；The quantity of heat conducting wall can be according to the size of enclosure top installing space and required heat exchange effect Fruit is adjusted；Heat conducting wall section can not be integrally casting shaping, such as be split between heat conducting wall, passage of heat be by What adjacent heat conducting wall split was surrounded；The entrance of cold passage can also be not provided with blower fan, now can by air flow naturally into Row radiating；The inlet and outlet of cold passage also can respectively on the front-back of housing；Fluid stream in cold passage and the passage of heat Vertical to can not be, such as the passage of heat is above-below direction, and cold passage is oblique；Circulation can not be gas in cold passage Body, or liquid.

For example shown in Fig. 1 ~ Fig. 4, the concrete structure of charger rack is implemented with above-mentioned charger for the enforcement of charger rack Rack described in example is identical, will not be described in detail herein.

The enforcement of heat-exchanger rig is for example shown in Fig. 1 ~ Fig. 4, in the concrete structure of heat-exchanger rig and above-mentioned charger embodiment Described heat-exchanger rig is identical, will not be described in detail herein.

Claims (10)

1. a kind of heat-exchanger rig, including housing, it is characterised in that：Housing includes more than three through-thickness spacing parallel arranging arrangements Heat conducting wall, passage of heat is formed between two heat conducting walls of arbitrary neighborhood, passage of heat is divided into the passage of heat and cold passage, the passage of heat It is arranged alternately with arragement direction of the cold passage along heat conducting wall, the passage of heat has for sealing the passage of heat air inlet for coordinating with rack With passage of heat air outlet, cold passage have independently of the passage of heat cold passage import and cold passage export, passage of heat air inlet and Cold passage import is antarafacial setting.

2. heat-exchanger rig according to claim 1, it is characterised in that：The housing is included by the heat conducting wall integrally casting The heat conducting wall section of shaping, it is even number that the heat conducting wall in heat conducting wall section is vertically arranged and number, and three of arbitrary neighborhood lead Intermediate thermal conductivity wall in hot wall is sealing connects, intermediate thermal conductivity wall and opposite side heat conducting wall with the left and right two ends of side heat conducting wall Upper and lower ends be sealing connect so that the passage of heat and the fluid in cold passage flow to it is separate and vertical.

3. heat-exchanger rig according to claim 2, it is characterised in that：The passage of heat air inlet and passage of heat air outlet are equal Positioned at the bottom of housing, the housing also include being arranged at the wind passage connected with heat conducting wall section above heat conducting wall section for Hot-air is flowed through from bottom to top from passage of heat air inlet and enter after a part of passage of heat the wind passage and from another portion in rack Point passage of heat flows to from top to bottom passage of heat air outlet.

4. heat-exchanger rig according to claim 3, it is characterised in that：The housing also includes being located at below heat conducting wall section The blast pipe for connecting with passage of heat air inlet and passage of heat air outlet respectively and discharge pipe, blast pipe and discharge pipe have respectively position In lower end for the air inlet that connects with interior of equipment cabinet sealing and air outlet, air outlet is provided with the first blower fan, the first wind Towards inside the passage of heat, the exhaust outlet of the first blower fan is towards interior of equipment cabinet for the inlet scoop of machine.

5. heat-exchanger rig according to claim 4, it is characterised in that：The heat conducting wall section, blast pipe, discharge pipe and mistake Wind passage is integrated casting.

6. the heat-exchanger rig according to claim 1 ~ 5 any one, it is characterised in that：The cold passage entrance is provided with Second blower fan, towards the external world, the exhaust outlet of the second blower fan is towards inside cold passage for the inlet scoop of the second blower fan.

7. a kind of charger rack, is provided with heat-exchanger rig at the top of charger rack, and heat-exchanger rig includes housing, and its feature exists In：Housing includes the heat conducting wall of more than three through-thickness spacing parallel arranging arrangements, is formed between two heat conducting walls of arbitrary neighborhood Passage of heat, passage of heat is divided into the passage of heat and cold passage, and arragement direction of the passage of heat with cold passage along heat conducting wall is arranged alternately, The passage of heat has for sealing the passage of heat air inlet and passage of heat air outlet that coordinate with rack, and cold passage has logical independently of heat The cold passage import in road and cold passage are exported, and passage of heat air inlet and cold passage import are antarafacial setting.

8. charger rack according to claim 7, it is characterised in that：The housing includes being cast by heat conducting wall one Cause the heat conducting wall section of type, the heat conducting wall in heat conducting wall section is vertically arranged and number for even number, three of arbitrary neighborhood Intermediate thermal conductivity wall in heat conducting wall is sealing connects, intermediate thermal conductivity wall and opposite side heat conduction with the left and right two ends of side heat conducting wall The upper and lower ends of wall be sealing connect so that the passage of heat and the fluid in cold passage flow to it is separate and vertical.

9. a kind of charger, including rack, is provided with charging module in rack, heat-exchanger rig is provided with the top of rack, heat exchange Device includes housing, it is characterised in that：Housing includes the heat conducting wall of more than three through-thickness spacing parallel arranging arrangements, any phase Passage of heat is formed between two adjacent heat conducting walls, passage of heat is divided into the passage of heat and cold passage, and the passage of heat is with cold passage along heat conduction The arragement direction of wall is arranged alternately, and the passage of heat has for sealing the passage of heat air inlet and passage of heat air-out that coordinate with rack Mouthful, cold passage has the cold passage import and cold passage outlet independently of the passage of heat, and passage of heat air inlet and cold passage import are Antarafacial is arranged.

10. charger according to claim 9, it is characterised in that：The housing is included by the heat conducting wall integrally casting The heat conducting wall section of shaping, it is even number that the heat conducting wall in heat conducting wall section is vertically arranged and number, and three of arbitrary neighborhood lead Intermediate thermal conductivity wall in hot wall is sealing connects, intermediate thermal conductivity wall and opposite side heat conducting wall with the left and right two ends of side heat conducting wall Upper and lower ends be sealing connect so that the passage of heat and the fluid in cold passage flow to it is separate and vertical.