CN108506907A - A kind of high-efficiency heat pipe heat-exchange system - Google Patents

Abstract

The present invention relates to stage lighting technical field of heat dissipation, more particularly to a kind of high-efficiency heat pipe heat-exchange system, including multilayer heat pipe unit and an at least support construction, every layer of heat pipe unit includes several heat pipes in bending structure, and support construction is arranged close to the evaporation ends of heat pipe and is used to support heat pipe and conduction heat；Multilayer heat pipe unit is sequentially overlapped placement, and is superimposed all heat pipe dislocation when placing.When the heat pipe of support construction or outermost layer heat pipe unit evaporates end in contact heat source and absorbs heat from heat source, the setting of multilayer heat pipe unit and bending structure heat pipe, so that only need to the smaller support construction of area be set to heat pipe evaporation ends, it can guarantee smooth transmission of the heat toward every heat pipe, compared to existing heat pipe heat exchanging system, heat transmission can be reduced to the total distance of all heat pipe evaporation ends, while realization rapidly and efficiently exchanges heat, the Rapid Expansion for avoiding support construction area reduces additional heat dissipation cost, weight and structure space.

Description

A kind of high-efficiency heat pipe heat-exchange system

Technical field

The present invention relates to stage lighting technical field of heat dissipation, more particularly, to a kind of high-efficiency heat pipe heat-exchange system.

Background technology

When in use, light source will produce a large amount of heat to stage lamp, if these heats cannot be timely and effectively Transfer, can cause light-source temperature drastically to increase, and excessively high temperature can influence lamp light source using effect and service life.Therefore, such as What rapidly and efficiently exchange heat, become the important subject of stage lighting heat dissipation design.

Existing heat pipe heat exchanging system is single layer heat pipe unit layout, and several are specially arranged in support construction in straight The heat pipe of cable architecture, it is contemplated that the limitation of heat transfer efficiency and the area of support construction and heat source-contacting surface, the quantity of single layer heat pipe It is restricted.Since single heat pipe has the limitation of maximum rated heat output, with light source（Heat source）Heating power consumption design is got over Come higher, needs to be continuously increased heat pipe quantity to increase total heat transfer.Since heat pipe single layer is arranged, increase heat pipe quantity, list Layer arrangement area also constantly increases, and needs greater area of support construction as support and heat transfer, when support construction area is more than When heating source area, the heat pipe remoter apart from heat source, heat transfer efficiency is smaller, or even negligible to the contribution of heat transfer, increases Additional heat dissipation cost, weight and structure space, causes the unnecessary wasting of resources.

Invention content

It is an object of the invention to overcome deficiency in the prior art, a kind of high-efficiency heat pipe heat-exchange system is provided, it can be continuous Transfer of heat, realization avoid the Rapid Expansion of support construction area while rapidly and efficiently exchange heat, reduce additional heat dissipation at Originally, weight and structure space.

In order to achieve the above objectives, the technical solution adopted by the present invention is：

A kind of high-efficiency heat pipe heat-exchange system, including multilayer heat pipe unit and an at least support construction, every layer of heat pipe unit packet are provided Several heat pipes in bending structure are included, support construction is arranged close to the evaporation ends of heat pipe and is used to support heat pipe and conduction heat Amount；Multilayer heat pipe unit is sequentially overlapped placement, and is superimposed all heat pipe dislocation when placing.Support construction is solid there are one effect Determine heat pipe, prevents heat pipe moving influence heat dissipation effect.

In said program, when the heat pipe of support construction or outermost layer heat pipe unit evaporates end in contact heat source and is absorbed from heat source When heat, the setting of multilayer heat pipe unit and bending structure heat pipe so that only the smaller support construction of area need to be set to heat pipe Evaporation ends, you can ensure that the smooth transmission of heat toward every heat pipe can reduce heat transmission compared to existing heat pipe heat exchanging system The Rapid Expansion of support construction area is avoided, is subtracted while realization rapidly and efficiently exchanges heat to the total distance of all heat pipe evaporation ends Few additional heat dissipation cost, weight and structure space.

When the specifically used heat-exchange system, the heat pipe of support construction or outermost layer heat pipe unit is evaporated into end in contact heat source, Heat from heat source can be transmitted to the heat pipe evaporation ends of each layer of heat pipe unit, and the volatile liquid in heat pipe absorbs heat of vaporization, Under the promotion of steam pressure, the vapor transmission of heat is carry to condensation end of heat pipe, steam, which condenses, to be become liquid and release heat Amount, liquid transmit product heat cal rod evaporation ends by the capillary structure in heat pipe again, and to complete a heat transfer cycle, thermal cycle is continuous It repeats with continuous transfer of heat, and the heat transfer is phase-change heat transfer, more heats can be carried in heat transfer, and transmission speed is more Soon.

Preferably, the support construction is bottom plate.Setting can reduce the thickness of support construction in this way, need to only be arranged relatively thin Bottom plate is i.e. sustainable to fix heat pipe, and thin bottom plate heat-conducting effect is more preferably.

There are three types of schemes altogether for the setting of multilayer heat pipe unit.

The first scheme：Heat pipe unit includes first layer heat pipe unit and second layer heat pipe unit, every layer of heat from the inside to the outside Pipe unit includes the more heat pipes circumferentially arranged, and the size of second layer heat pipe unit is more than first layer heat pipe on circumferencial direction The size of unit；A support construction is equipped between first layer heat pipe unit and second layer heat pipe unit, support construction and heat pipe Evaporate end in contact.The heat pipe evaporation ends in second layer heat pipe unit are contacted with heat source when use, partial heat is through support construction The heat pipe evaporation ends being transferred in first layer heat pipe unit, two layers of heat pipe unit are worked at the same time with for cooling heat source.

Preferably, in the first scheme, every layer of heat pipe unit includes the heat pipe of two kinds of length, and the heat of two kinds of length Pipe is alternately arranged.In this way setting be respectively provided in a kind of length compared to by the heat pipe in every layer of heat pipe unit, can increase heat pipe with The contact area of heat, and then improve heat transfer effect.

Second scheme：Heat pipe unit includes first layer heat pipe unit and second layer heat pipe unit, every layer of heat from the inside to the outside Pipe unit includes more heat pipes, and the evaporation ends alternating of more heat pipes is forward and reverse to be arranged so that corresponding condensation end is alternately located in In horizontal plane and lower horizontal plane, and condensation end is located at the same side of evaporation ends place vertical plane；The condensation of first layer heat pipe unit The condensation end with second layer heat pipe unit is held to be arranged in parallel；The size of second layer heat pipe unit is more than the in evaporation ends direction The size of one layer of heat pipe unit；A support construction, support construction are equipped between first layer heat pipe unit and second layer heat pipe unit With the evaporation end in contact of heat pipe.The heat pipe evaporation ends in second layer heat pipe unit are contacted with heat source when use, partial heat warp Support construction is transferred to the heat pipe evaporation ends in first layer heat pipe unit, and two layers of heat pipe unit is worked at the same time with for cooling heat source.

The third scheme：Heat pipe unit includes first layer heat pipe unit and second layer heat pipe unit, every layer of heat from the inside to the outside Pipe unit includes more heat pipes, and there are two condensation end and the evaporation ends between two condensation ends for every heat pipe tool；First The evaporation ends of layer heat pipe unit are arranged with the evaporation ends cross-contact of second layer heat pipe unit；With the on the inside of first layer heat pipe unit It is respectively equipped with a support construction on the outside of two layers of heat pipe unit.By the support construction and heat source on the outside of the second layer heat pipe unit when use Contact, partial heat are transmitted to the heat pipe evaporation ends in second layer heat pipe unit and first layer heat pipe unit through support construction, and two Layer heat pipe unit is worked at the same time with for cooling heat source.

Preferably, it is equipped with and the matched groove of heat pipe with the one side of heat pipe contact in support construction.Setting can will be hot in this way Pipe is more solidly fixed in support construction, prevents heat pipe moving influence heat dissipation effect.

Preferably, further include several fins being arranged around condensation end of heat pipe.Fin is overlapped mutually, and setting in this way can increase Heat dissipation area, augmentation of heat transfer.

It is further preferred that fin is equipped with first through hole, condensation end of heat pipe is arranged in first through hole.Setting makes in this way It obtains condensation end of heat pipe to be in close contact with fin, improves heat transfer rate.

Preferably, fin is equipped with the second through-hole, and wind turbine is equipped in the second through-hole, and condensation end of heat pipe is set to the second through-hole Around.Wind turbine can accelerate the flow velocity of ambient air outside, to strengthen heat convection.

It is further preferred that the wind turbine is centrifugal fan.Setting can inhale ambient air outside as much as possible in this way Enter in the second through-hole, to increase the amount of the cold air contacted with condensation end of heat pipe, is convenient for rapid cooling.

Another object of the present invention, is to provide another high-efficiency heat pipe heat-exchange system, including single layer heat pipe unit and One support construction, single layer heat pipe unit include several heat pipes in bending structure, and support construction is set close to the evaporation ends of heat pipe Set and be used to support heat pipe and conduction heat.Compared to existing heat pipe heat exchanging system, the heat pipe of bending structure so that only need to be by face The smaller support construction of product is set to heat pipe evaporation ends, you can ensures smooth transmission of the heat toward every heat pipe, realizes rapidly and efficiently While heat exchange, support construction area is reduced.

Compared with prior art, the beneficial effects of the invention are as follows：

A kind of high-efficiency heat pipe heat-exchange system of the present invention, when the heat pipe of support construction or outermost layer heat pipe unit evaporates end in contact heat source And when absorbing heat from heat source, the setting of multilayer heat pipe unit and bending structure heat pipe so that only need to be by the smaller support of area Structure is set to heat pipe evaporation ends, you can ensures that the smooth transmission of heat toward every heat pipe can compared to existing heat pipe heat exchanging system It reduces heat transmission and avoids support construction area while realization rapidly and efficiently exchanges heat to the total distance of all heat pipe evaporation ends Rapid Expansion, reduce additional heat dissipation cost, weight and structure space.

Description of the drawings

Fig. 1 is a kind of explosive view of high-efficiency heat pipe heat-exchange system in embodiment 1；

Fig. 2 is a kind of schematic diagram of high-efficiency heat pipe heat-exchange system in embodiment 1；

Fig. 3 is a kind of schematic diagram at another visual angle of high-efficiency heat pipe heat-exchange system in embodiment 1；

Fig. 4 is a kind of explosive view of high-efficiency heat pipe heat-exchange system in embodiment 2；

Fig. 5 is a kind of schematic diagram of high-efficiency heat pipe heat-exchange system in embodiment 2；

Fig. 6 is a kind of explosive view of high-efficiency heat pipe heat-exchange system in embodiment 3；

Fig. 7 is a kind of schematic diagram of high-efficiency heat pipe heat-exchange system in embodiment 3；

Fig. 8 is a kind of schematic diagram at another visual angle of high-efficiency heat pipe heat-exchange system in embodiment 3；

Drawing reference numeral is：1 support construction；11 grooves；2 heat pipes；21 evaporation ends；22 condensation ends；31 first layer heat pipe units；32 Two layers of heat pipe unit；4 fins；41 first through hole；42 second through-holes；5 wind turbines.

Specific implementation mode

The present invention is further illustrated With reference to embodiment.Wherein, attached drawing only for illustration, What is indicated is only schematic diagram rather than pictorial diagram, should not be understood as the limitation to this patent；Reality in order to better illustrate the present invention Example is applied, the certain components of attached drawing have omission, zoom in or out, and do not represent the size of actual product；To those skilled in the art For, the omitting of some known structures and their instructions in the attached drawings are understandable.

The same or similar label correspond to the same or similar components in the attached drawing of the embodiment of the present invention；In retouching for the present invention In stating, it is to be understood that if it is based on attached drawing to have the orientation or positional relationship of the instructions such as term "upper", "lower", "left", "right" Shown in orientation or positional relationship, be merely for convenience of description of the present invention and simplification of the description, do not indicate or imply the indicated Device or element must have a particular orientation, with specific azimuth configuration and operation, therefore position relationship described in attached drawing Term only for illustration, should not be understood as the limitation to this patent, for the ordinary skill in the art, can To understand the concrete meaning of above-mentioned term as the case may be.

Embodiment 1

A kind of high-efficiency heat pipe heat-exchange system of the present embodiment, including multilayer heat pipe unit and an at least support construction 1, every layer of heat pipe list Member includes several heat pipes 2 in bending structure, and support construction 1 is arranged close to the evaporation ends 21 of heat pipe 2 and is used to support heat pipe 2 And conduction heat；Multilayer heat pipe unit is sequentially overlapped placement, and is superimposed all heat pipes 2 when placing and misplaces.Support construction 1 also has one A effect is fixed heat pipe 2, prevents 2 moving influence heat dissipation effect of heat pipe.

A kind of high-efficiency heat pipe heat-exchange system of the present invention, when 2 evaporation ends 21 of heat pipe of support construction 1 or outermost layer heat pipe unit Contact heat source and from heat source absorb heat when, the setting of multilayer heat pipe unit and bending structure heat pipe 2 so that only need to by area compared with Small support construction 1 is set to 2 evaporation ends 21 of heat pipe, you can ensures that heat is smoothly transmitted toward every heat pipe 2, compared to existing heat pipe Heat-exchange system can reduce heat transmission and be kept away while realization rapidly and efficiently exchanges heat to the total distance of 2 evaporation ends 21 of all heat pipes The Rapid Expansion for exempting from 1 area of support construction reduces additional heat dissipation cost, weight and structure space.

When the specifically used heat-exchange system, 2 evaporation ends 21 of heat pipe of support construction 1 or outermost layer heat pipe unit are contacted into heat Source, heat from heat source can be transmitted to 2 evaporation ends 21 of heat pipe of each layer of heat pipe unit, and the volatile liquid in heat pipe 2 absorbs heat Evaporation carries the vapor transmission of heat to 2 condensation end 22 of heat pipe, steam, which condenses, becomes liquid under the promotion of steam pressure And heat is released, liquid transmits 2 evaporation ends 21 of product heat cal rod by the capillary structure in heat pipe 2 again, to complete a heat transfer Cycle, thermal cycle are constantly repeated with continuous transfer of heat, and the heat transfer is phase-change heat transfer, and more heat can be carried in heat transfer Amount, and transmission speed is faster.

In the present embodiment, the support construction 1 is bottom plate.Setting can reduce the thickness of support construction 1 in this way, only need to be arranged Relatively thin bottom plate is i.e. sustainable to fix heat pipe 2, and thin bottom plate heat-conducting effect is more preferably.

In the present embodiment, the setting of multilayer heat pipe unit is as shown in Figure 1 to Figure 3, and heat pipe unit includes first from the inside to the outside Layer heat pipe unit 31 and second layer heat pipe unit 32, every layer of heat pipe unit include the more heat pipes 2 circumferentially arranged, circumference side The size of upward second layer heat pipe unit 32 is more than the size of first layer heat pipe unit 31；First layer heat pipe unit 31 and the second layer A support construction 1 is equipped between heat pipe unit 32, support construction 1 is contacted with the evaporation ends 21 of heat pipe 2.By the second layer heat when use 2 evaporation ends 21 of heat pipe in pipe unit 32 are contacted with heat source, and partial heat is transferred to first layer heat pipe unit 31 through support construction 1 In 2 evaporation ends 21 of heat pipe, two layers of heat pipe unit work at the same time with for cooling heat source.

Wherein, every layer of heat pipe unit includes the heat pipe 2 of two kinds of length, and the heat pipe 2 of two kinds of length is alternately arranged.In this way It is arranged and is respectively provided in a kind of length compared to by the heat pipe 2 in every layer of heat pipe unit, the contact surface of heat pipe 2 and heat can be increased Product, and then improve heat transfer effect.

In addition, the one side contacted with heat pipe 2 in support construction 1 is equipped with and 2 matched groove 11 of heat pipe.Setting can incite somebody to action in this way Heat pipe 2 is more solidly fixed in support construction 1, prevents 2 moving influence heat dissipation effect of heat pipe.

Wherein, further include several fins 4 being arranged around 2 condensation end of heat pipe.Fin 4 is overlapped mutually, and setting in this way can increase Add heat dissipation area, augmentation of heat transfer.

In the present embodiment, fin 4 is equipped with first through hole 41, and 2 condensation end 22 of heat pipe is arranged in first through hole 41.In this way Setting improves heat transfer rate so that 2 condensation end 22 of heat pipe and the close contact of fin 4.

In addition, fin 4 is equipped with the second through-hole 42, it is equipped with wind turbine 5 in the second through-hole 42,2 condensation end 22 of heat pipe is set to the Around two through-holes 42.Wind turbine 5 can accelerate the flow velocity of ambient air outside, to strengthen heat convection.

In the present embodiment, the wind turbine 5 is centrifugal fan.Setting can suck ambient air outside as much as possible in this way In second through-hole 42, to increase the amount of the cold air contacted with 2 condensation end 22 of heat pipe, it is convenient for rapid cooling.

Embodiment 2

Embodiment 2 and embodiment 1 difference lies in：The set-up mode of multilayer heat pipe unit is different；As shown in Fig. 4 to Fig. 5, heat pipe Unit includes first layer heat pipe unit 31 and second layer heat pipe unit 32 from the inside to the outside, and every layer of heat pipe unit includes more heat pipes 2, the evaporation ends 21 of more heat pipes 2 replace forward and reverse be arranged so that corresponding condensation end 22 is alternately located in upper horizontal plane and lower level In face, and condensation end 22 is located at the same side of evaporation ends place vertical plane；The condensation end 22 and second of first layer heat pipe unit 31 The condensation end 22 of layer heat pipe unit 32 is arranged in parallel；The size of second layer heat pipe unit 32 is more than the in 21 direction of evaporation ends The size of one layer of heat pipe unit 31；A support construction 1, branch are equipped between first layer heat pipe unit 31 and second layer heat pipe unit 32 Support structure 1 is contacted with the evaporation ends 21 of heat pipe 2.By 2 evaporation ends 21 of heat pipe and heat source in second layer heat pipe unit 32 when use Contact, partial heat are transferred to 2 evaporation ends 21 of heat pipe in first layer heat pipe unit 31, two layers of heat pipe unit through support construction 1 It works at the same time with for cooling heat source.

Embodiment 3

Embodiment 3 and embodiment 1 difference lies in：The set-up mode of multilayer heat pipe unit is different；As shown in Figure 6 to 8, heat pipe Unit includes first layer heat pipe unit 31 and second layer heat pipe unit 32 from the inside to the outside, and every layer of heat pipe unit includes more heat pipes 2, there are two condensation end 22 and the evaporation ends 21 between two condensation ends 22 for the every tool of heat pipe 2；First layer heat pipe unit 31 21 cross-contact of evaporation ends of evaporation ends 21 and second layer heat pipe unit 32 be arranged；31 inside of first layer heat pipe unit and second 32 outside of layer heat pipe unit is respectively equipped with a support construction 1.When use by the support construction 1 in the outside of second layer heat pipe unit 32 with Heat source contacts, and partial heat is transmitted to the heat pipe 2 in second layer heat pipe unit 32 and first layer heat pipe unit 31 through support construction 1 Evaporation ends 21, two layers of heat pipe unit are worked at the same time with for cooling heat source.

Embodiment 4

Present embodiments provide a kind of high-efficiency heat pipe heat-exchange system, including single layer heat pipe unit and one piece of support construction 1, single layer heat Pipe unit includes several heat pipes 2 in bending structure, and support construction 1 is arranged close to the evaporation ends of heat pipe 2 and is used to support heat Pipe 2 and conduction heat.

Compared to existing heat pipe heat exchanging system, the heat pipe 2 of bending structure so that only need to be by the smaller support construction 1 of area Set on 2 evaporation ends of heat pipe, you can ensure smooth transmission of the heat toward every heat pipe 2, while realization rapidly and efficiently exchanges heat, reduce 1 area of support construction.

Obviously, the above embodiment of the present invention be only to clearly illustrate example of the present invention, and not be pair The restriction of embodiments of the present invention.For those of ordinary skill in the art, may be used also on the basis of the above description To make other variations or changes in different ways.There is no necessity and possibility to exhaust all the enbodiments.It is all this All any modification, equivalent and improvement etc., should be included in the claims in the present invention made by within the spirit and principle of invention Protection domain within.

Claims (10)

1. a kind of high-efficiency heat pipe heat-exchange system, which is characterized in that including multilayer heat pipe unit and an at least support construction（1）, often Layer heat pipe unit includes several heat pipes in bending structure（2）, support construction（1）Close to heat pipe（2）Evaporation ends（21）If It sets and is used to support heat pipe（2）And conduction heat；Multilayer heat pipe unit is sequentially overlapped placement, and is superimposed all heat pipes when placing （2）Dislocation.

2. a kind of high-efficiency heat pipe heat-exchange system according to claim 1, which is characterized in that the support construction（1）The bottom of for Plate.

3. a kind of high-efficiency heat pipe heat-exchange system according to claim 1, which is characterized in that heat pipe unit includes from the inside to the outside First layer heat pipe unit（31）And second layer heat pipe unit（32）, every layer of heat pipe unit includes the more heat pipes circumferentially arranged （2）, second layer heat pipe unit on circumferencial direction（32）Size be more than first layer heat pipe unit（31）Size；First layer heat pipe Unit（31）With second layer heat pipe unit（32）Between be equipped with a support construction（1）, support construction（1）With heat pipe（2）Evaporation End（21）Contact.

4. a kind of high-efficiency heat pipe heat-exchange system according to claim 3, which is characterized in that every layer of heat pipe unit includes two The heat pipe of kind length（2）, and the heat pipe of two kinds of length（2）It is alternately arranged.

5. a kind of high-efficiency heat pipe heat-exchange system according to claim 1, which is characterized in that heat pipe unit includes from the inside to the outside First layer heat pipe unit（31）And second layer heat pipe unit（32）, every layer of heat pipe unit includes more heat pipes（2）, more heat pipes （2）Evaporation ends（21）It is alternately forward and reverse to be arranged so that corresponding condensation end（22）It is alternately located in upper horizontal plane and lower horizontal plane It is interior, and condensation end（22）Positioned at evaporation ends（21）The same side of place vertical plane；First layer heat pipe unit（31）Condensation end （22）With second layer heat pipe unit（32）Condensation end（22）It is arranged in parallel；Evaporation ends（21）Second layer heat pipe list in direction Member（32）Size be more than first layer heat pipe unit（31）Size；First layer heat pipe unit（31）With second layer heat pipe unit （32）Between be equipped with a support construction（1）, support construction（1）With heat pipe（2）Evaporation ends（21）Contact.

6. a kind of high-efficiency heat pipe heat-exchange system according to claim 1, which is characterized in that heat pipe unit includes from the inside to the outside First layer heat pipe unit（31）And second layer heat pipe unit（32）, every layer of heat pipe unit includes more heat pipes（2）, every heat pipe （2）There are two condensation ends for tool（22）And it is set to two condensation ends（22）Between evaporation ends（21）；First layer heat pipe unit（31） Evaporation ends（21）With second layer heat pipe unit（32）Evaporation ends（21）Cross-contact is arranged；First layer heat pipe unit（31）It is interior Side and second layer heat pipe unit（32）Outside is respectively equipped with a support construction（1）.

7. a kind of high-efficiency heat pipe heat-exchange system according to claim 1, which is characterized in that support construction（1）Upper and heat pipe （2）The one side of contact is equipped with and heat pipe（2）Matched groove（11）.

8. a kind of high-efficiency heat pipe heat-exchange system according to claim 1, which is characterized in that further include surrounding heat pipe（2）It is cold Solidifying end（22）Several fins being arranged（4）.

9. a kind of high-efficiency heat pipe heat-exchange system according to claim 8, which is characterized in that fin（4）It is logical to be equipped with first Hole（41）, heat pipe（2）Condensation end（22）It is arranged in first through hole（41）It is interior；Or/and fin（4）It is equipped with the second through-hole（42）, Second through-hole（42）It is interior to be equipped with wind turbine（5）, heat pipe（2）Condensation end（22）Set on the second through-hole（42）Around.

10. a kind of high-efficiency heat pipe heat-exchange system, which is characterized in that including single layer heat pipe unit and a support construction（1）, single layer heat Pipe unit includes several heat pipes in bending structure（2）, support construction（1）Close to heat pipe（2）Evaporation ends（21）Setting is simultaneously It is used to support heat pipe（2）And conduction heat.