CN103134360A - Heat pipe heat transfer device - Google Patents

Abstract

The invention discloses a heat pipe heat transfer device which comprises a top heat dissipation assembly. The top heat dissipation assembly and a bottom heat absorption assembly are respectively connected with cold ends and hot ends of heat pipes tightly and are tightened up. A middle heat transfer assembly comprises a flange base seat. Heat pipe sleeve arrays are arranged on the flange base seat in an embedded mode. Seal rings are arranged on upper end faces and lower end faces of heat pipe sleeves. The inside of the whole heat pipe sleeves are full of liquid fluids. Heat insulation devices are arranged on outer walls of the middle portion of the heat pipes and the flange base seat in a surrounding mode. Heat pipe arrays and the heat pipe sleeve arrays are arranged cooperatively. The cold ends and the hot ends of the heat pipes are respectively inserted into upper openings and lower openings of the heat pipe sleeve arrays. The top heat dissipation assembly and the bottom heat absorption assembly are made of high thermal conductivity materials. The middle heat transfer assembly utilizes the method of the flange base seat with a high melting point and low pyroconductivity being arranged on the heat pipe sleeve arrays. The heat insulation devices are tightly arranged on outer walls of heat pipe sleeves and the heat pipes. Loss in the process of heat transmission is reduced effectively. The heat pipe heat transfer device is compact in design, simple to install, and high in reliability, and has no mechanical drive disk assemblies.

Description

Heat pipe heat transfer device

Technical field

The present invention relates to heat pipe heat transfer device, provide a kind of heat transmission equipment for realizing that remote heat pipe series connection is conducted heat.

Background technology

At present domestic equipment for remote heat transmission aspect is not comprehensive, and the equipment that many dependence thermals source are power can't tightly be installed according to thermal source because of the restriction of physical condition, this makes a large amount of heats is dissipated to external environment in the transportation of long distance in, has reduced the whole work efficiency of equipment.

Summary of the invention

The purpose of this invention is to provide heat pipe heat transfer device, its solved mention in the background technology because adopting traditional heat-conducting mode long-distance transmissions heat to have the problem of heat energy loss, and can be follow-up for extensive thermo-electric generation system provides stable heat transmission,

The present invention adopts high thermal conductivity materials to make top heat dissipation assembly and bottom heat absorption assembly, has the ability with the external environment high efficient heat exchanging after its process specially treated, middle heat-exchanging component adopts the flange base of high-melting-point, low-thermal conductivity that the method for heat pipe cover array is installed, heat pipe cover and heat pipe outer wall close installation adiabatic apparatus, effectively reduced the loss of heat transmitting procedure, in the heat pipe cover, the method for filling liquid working medium makes the heat exchange environment temperature between heat pipe even in addition, and the coefficient of heat transfer has been optimized in boiling and the convection current of liquid working substance simultaneously to a great extent; And the array distribution of heat pipe cover can be good at bringing into play the heat-transfer capability of every heat pipe, reaches optimum heat transfer effect, and the present invention's installation compact to design is simple, the machinery-free drive disk assembly, and reliability is high.

The technical solution used in the present invention is: heat pipe heat transfer device, comprise top heat dissipation assembly, middle heat-exchanging component, bottom heat absorption assembly, adiabatic apparatus and heat pipe array, and it is characterized in that:

Described top heat dissipation assembly closely is connected and tightens up by reasonable connected mode with the cold and hot end of heat pipe respectively with bottom heat absorption assembly; In the middle of described, heat-exchanging component comprises flange base, heat pipe cover array, sealing ring and liquid working substance, wherein flange base is as the mounting platform of whole assembly, array is embedded is arranged on flange base for heat pipe cover, sealing ring is arranged on two end faces up and down of heat pipe cover, and it is inner that liquid working substance is filled in whole heat pipe cover; Described adiabatic apparatus is around on the outer wall that is arranged on the heat pipe mid portion and flange base, and around the outside that is adjacent to the heat pipe cover; Described heat pipe array and heat pipe cover array coordinates installation, and the upper and lower opening that heat pipe overlaps array is inserted respectively in the heat pipe cold hot junction.

Above-mentioned top heat dissipation assembly and bottom heat absorption assembly adopt the material manufacturing of high heat conductance, and spray pitch-dark or anodized.

Above-mentioned heat pipe array comprises several heavy caliber heat pipes.

Above-mentioned heavy caliber heat pipe quantity is six.

Above-mentioned heat pipe array, heat pipe face shaping can adopt circle, rectangle etc. to be beneficial to the shape of actual installation condition.

Above-mentioned flange base, heat pipe cover array and sealing ring adopt the material manufacturing of high-melting-point lower thermal conductivity, and smear thermal insulation or heat-barrier material on the surface.

Above-mentioned heat pipe cover array comprises several heat pipe covers, and its caliber size heat pipe caliber size equipped according to reality determined.

Above-mentioned heat pipe cover quantity is six.

Above-mentioned heat pipe cover array, heat pipe cover face shaping needs to adopt circle, rectangle etc. to be beneficial to the shape of actual installation condition according to the equipped heat pipe profile of reality.

Aforesaid liquid working medium should select to have according to the actual heat-exchange temperature of device the Material Filling of reasonable boiling point and high conductance.

Above-mentioned adiabatic apparatus can adopt low thermal conductivity material to be processed into insulation casing, also can use suitable material to be processed into hollow bushing according to actual conditions, and its inside vacuumizes or filling heat insulator.

Description of drawings

Accompanying drawing is vertical section structure schematic diagram of the present invention.

Description of reference numerals:

1-top heat dissipation assembly; The 2-adiabatic apparatus; The 3-flange base;

The 4-liquid working substance; The 5-sealing ring; The 6-heat pipe array;

7-bottom heat absorption assembly; 8-heat pipe cover array;

The specific embodiment

As shown in drawings, the present invention includes top heat dissipation assembly 1, middle heat-exchanging component, bottom heat absorption assembly 7, adiabatic apparatus 2 and heat pipe array 6.

Its specific works process is: as the case may be, and the quantity of selected required heat pipe cover array 8; Heat pipe is overlapped array 8 to be connected and fixed with flange base 3; Then coordinate adiabatic apparatus 2 is installed; The hot junction that the middle heat-exchanging component end face that assembles is connected one group of heat pipe array 6, bottom surface connect the cold junction of another group heat pipe array 6; After filling appropriate liquid working substance 4, sealing ring 5 is arranged on respectively end face and the bottom surface of heat pipe cover array 6, then top heat dissipation assembly 1 is connected with two groups of corresponding end faces of heat pipe array 6 respectively with bottom heat absorption assembly 7.

The bottom heat absorption assembly 7 that connects is put into underground abundant immersion geothermal environment, this moment, underground heat was transmitted in heat pipe array 6 by radiating fin, heat-exchanging component heat pipe array 6 is delivered to the heat that absorbs by the adiabatic section that is coated by adiabatic apparatus 2 in the middle of, liquid working substance 4 is heated boiling, the coefficient of heat transfer of heat pipe cover array 8 inside increases, heat exchange begins, and heat is conducted to the hot junction of another group heat pipe array 6 by liquid working substance 4, then conducts to top heat dissipation assembly 1 through this group heat pipe array 6.

The above; only embodiments of the invention; be not that the present invention is imposed any restrictions, every any simple modification, change and equivalent structure of above embodiment being done according to the technology of the present invention essence changes, and all still belongs in the protection domain of technical solution of the present invention.

Claims (10)

1. heat pipe heat transfer device, comprise top heat dissipation assembly, middle heat-exchanging component, bottom heat absorption assembly, adiabatic apparatus and heat pipe array, it is characterized in that: described top heat dissipation assembly closely is connected and tightens up with the cold and hot end of heat pipe respectively with bottom heat absorption assembly; In the middle of described, heat-exchanging component comprises flange base, heat pipe cover array, sealing ring and liquid working substance, wherein flange base is as the mounting platform of whole assembly, array is embedded is arranged on flange base for heat pipe cover, sealing ring is arranged on two end faces up and down of heat pipe cover, and it is inner that liquid working substance is filled in whole heat pipe cover; Described adiabatic apparatus is around on the outer wall that is arranged on the heat pipe mid portion and flange base, and around the outside that is adjacent to the heat pipe cover; Described heat pipe array and heat pipe cover array coordinates installation, and the upper and lower opening that heat pipe overlaps array is inserted respectively in the heat pipe cold hot junction.

2. length according to claim 1 apart from the adopting heat pipes for heat transfer system, is characterized in that: described top heat dissipation assembly and bottom heat absorption assembly adopt the material of high heat conductance, and spray pitch-dark or anodized.

3. length according to claim 1 apart from the adopting heat pipes for heat transfer system, is characterized in that: described heat pipe array comprises at least one heavy caliber heat pipe.

4. according to claim 1 or 3 described length apart from the adopting heat pipes for heat transfer system, is characterized in that: described heavy caliber heat pipe quantity is six.

5. according to claim 1 or 3 described length apart from the adopting heat pipes for heat transfer system, is characterized in that: described heat pipe array, heat pipe face shaping are circle or rectangle.

6. length according to claim 1 apart from the adopting heat pipes for heat transfer system, is characterized in that: described flange base, heat pipe cover array and sealing ring adopt the material of high-melting-point lower thermal conductivity, and thermal insulation or heat-barrier material are smeared in the surface.

7. length according to claim 1 apart from the adopting heat pipes for heat transfer system, is characterized in that: described heat pipe cover array comprises several heat pipe covers, and its caliber size is complementary with the heat pipe that is equipped with.

8. according to claim 1 or 7 described length apart from the adopting heat pipes for heat transfer system, is characterized in that: described heat pipe cover quantity is six.

9. according to claim 1 or 7 described length apart from the adopting heat pipes for heat transfer system, is characterized in that: described heat pipe cover array, heat pipe cover face shaping is complementary with the heat pipe profile that is equipped with.

10. length according to claim 1 is apart from the adopting heat pipes for heat transfer system, it is characterized in that: described liquid working substance adopts the Material Filling of high conductance, described adiabatic apparatus adopts low thermal conductivity material to be processed into insulation casing, or be processed into hollow bushing, hollow bushing inside vacuumizes or filling heat insulator.

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