CN207622591U - A kind of heat conducting pipe accelerating heat-conducting medium evaporation - Google Patents

Abstract

The utility model discloses a kind of heat conducting pipes of acceleration heat-conducting medium evaporation, including tube body, the evaporator section set gradually along the cavity length direction of the tube body, adiabatic section, and condensation segment, the cross section of the evaporator section is circumferentially evenly equipped with multiple stomatas, the stomata is penetrated through along the tube length direction to be arranged, it is provided with conducting element in the cavity of the evaporator section, the peripheral surface of the conducting element is evenly distributed in multiple runners for heat transfer medium flows, the runner cavity penetrating with the cavity inner wall composition both ends of the evaporator section, and the runner is correspondingly arranged with the stomata, the conducting element is set as aluminium extruded type heat conductive rod.The heat conducting pipe designed using the above structure, it is fitted closely using the conducting element of aluminium extruded type heat conductive rod setting and the inner wall of evaporator section, and then by conducting element absorption come heat accelerate conducting element runner in heat-conducting medium evaporation, to further promotion heat conducting pipe heat transfer efficiency.

Description

A kind of heat conducting pipe accelerating heat-conducting medium evaporation

Technical field

The utility model is related to technical field of heat dissipation more particularly to a kind of heat conducting pipes accelerating heat-conducting medium evaporation.

Background technology

Heat conducting pipe has the advantages that the electronic building brick for being widely used in having larger calorific value compared with high heat transfer amount because of it In.When heat conducting pipe works, using under tubular body near vacuum state, the lower characteristic of hydrodynamic boiling point is made in filling, makes its work Make liquid carburation by evaporation after its evaporation part absorbs the heat that heating electronic package generates, condensation part is moved to heat, and Heat is discharged in condensation part liquefaction condensation, is radiated to electronic building brick to realize.Working media after the vaporization It is back to evaporation part under the action of heat conducting pipe capillary structure, continues to be evaporated vaporization and liquefaction condensation, working media is made to lead Inside heat pipe shuttling movement endlessly conducts the heat that electronic building brick generates.Heat conducting pipe under the prior art, by It is relatively simple in structure design, so that heat-conducting medium is slow in evaporator section evaporation, and then greatly hinder heat conducting pipe Heat transfer efficiency.

New content

The purpose of this utility model is to provide a kind of gas-liquid high conversion efficiency, the heat conducting pipes of good heat conduction effect.

For this purpose, the utility model uses following technical scheme：

A kind of heat conducting pipe accelerating heat-conducting medium evaporation, including tube body, set successively along the cavity length direction of the tube body The cross section of evaporator section, adiabatic section and the condensation segment set, the evaporator section is circumferentially evenly equipped with multiple stomatas, the stomata edge The tube length direction perforation is arranged, and conducting element, the peripheral surface circle of the conducting element are provided in the cavity of the evaporator section It is evenly equipped with multiple runners for heat transfer medium flows week, the cavity inner wall composition both ends of the runner and the evaporator section are penetrating Cavity, and the runner is correspondingly arranged with the stomata, and the conducting element is set as aluminium extruded type heat conductive rod.

Wherein, the peripheral surface of the conducting element and the cavity inner wall of the evaporator section fit closely.

Wherein, the cavity wall of the evaporator section is integrally sintered by metal powder granulates.

Wherein, the periphery of the evaporator section is arranged with copper pipe.

Wherein, the equal length of the length of the conducting element and the evaporator section.

The beneficial effects of the utility model：The utility model includes tube body, along the cavity length direction of the tube body successively The cross section of evaporator section, adiabatic section and the condensation segment of setting, the evaporator section is circumferentially evenly equipped with multiple stomatas, the stomata It penetrates through and is arranged along the tube length direction, conducting element, the peripheral surface of the conducting element are provided in the cavity of the evaporator section Multiple runners for heat transfer medium flows are evenly distributed in, the cavity inner wall composition both ends of the runner and the evaporator section are logical Saturating cavity, and the runner is correspondingly arranged with the stomata, the conducting element is set as aluminium extruded type heat conductive rod.Using above-mentioned knot The heat conducting pipe of structure design is fitted closely using the conducting element of aluminium extruded type heat conductive rod setting and the inner wall of evaporator section, and then by leading It flows part and absorbs the evaporation that the heat come accelerates heat-conducting medium in conducting element runner, to further promote the heat conduction effect of heat conducting pipe Rate.

Description of the drawings

Fig. 1 is a kind of cross section structure schematic diagram of the evaporator section for the heat conducting pipe for accelerating heat-conducting medium to evaporate of the utility model.

Specific implementation mode

Further illustrate the technical solution of the utility model below with reference to the accompanying drawings and specific embodiments.

As shown in Figure 1, provided in the present embodiment it is a kind of acceleration heat-conducting medium evaporation heat conducting pipe, including tube body 1, along institute State evaporator section 2, adiabatic section and condensation segment that the cavity length direction of tube body 1 is set gradually, the cross section of the evaporator section 2 Multiple stomatas 21 are circumferentially evenly equipped with, the stomata 21 is penetrated through along 1 length direction of the tube body to be arranged, the cavity of the evaporator section 2 It is inside provided with conducting element 3, the peripheral surface of the conducting element 3 is evenly distributed in multiple runners 31 for heat transfer medium flows, institute The cavity penetrating with the cavity inner wall composition both ends of the evaporator section 2 of runner 31 is stated, and the runner 31 and the stomata 21 are right It should be arranged, the conducting element 3 is set as aluminium extruded type heat conductive rod.

Specifically, in the present embodiment, the peripheral surface of the conducting element 3 and the cavity inner wall of the evaporator section 2 fit closely, The cavity wall of the evaporator section 2 is integrally sintered by metal powder granulates, and the periphery of the evaporator section 2 is arranged with copper pipe, institute State the equal length of the length and the evaporator section 2 of conducting element 3.

The heat conducting pipe designed using the above structure is tight using the conducting element of aluminium extruded type heat conductive rod setting and the inner wall of evaporator section Closely connected conjunction, so by conducting element absorption come heat accelerate the evaporation of heat-conducting medium in conducting element runner, to further carrying Rise the heat transfer efficiency of heat conducting pipe.

The technical principle of the utility model is described above in association with specific embodiment.These descriptions are intended merely to explain this reality With novel principle, and it cannot be construed to the limitation to scope of protection of the utility model in any way.Based on the explanation herein, Those skilled in the art would not require any inventive effort the other specific implementation modes that can associate the utility model, These modes are fallen within the scope of protection of the utility model.

Claims (5)

1. a kind of heat conducting pipe accelerating heat-conducting medium evaporation, it is characterised in that：Including tube body, along the cavity length side of the tube body To evaporator section, adiabatic section and the condensation segment set gradually, the cross section of the evaporator section is circumferentially evenly equipped with multiple stomatas, institute It states stomata and is penetrated through along the tube length direction and is arranged, conducting element is provided in the cavity of the evaporator section, the conducting element Peripheral surface is evenly distributed in multiple runners for heat transfer medium flows, and the cavity inner wall of the runner and the evaporator section forms The penetrating cavity in both ends, and the runner is correspondingly arranged with the stomata, the conducting element is set as aluminium extruded type heat conductive rod.

2. a kind of heat conducting pipe accelerating heat-conducting medium evaporation according to claim 1, it is characterised in that：The conducting element The cavity inner wall of peripheral surface and the evaporator section fits closely.

3. a kind of heat conducting pipe accelerating heat-conducting medium evaporation according to claim 2, it is characterised in that：The evaporator section Cavity wall is integrally sintered by metal powder granulates.

4. a kind of heat conducting pipe accelerating heat-conducting medium evaporation according to claim 3, it is characterised in that：The evaporator section Periphery is arranged with copper pipe.

5. a kind of heat conducting pipe accelerating heat-conducting medium evaporation according to claim 4, it is characterised in that：The conducting element The equal length of length and the evaporator section.