CN101592451A - A kind of high-efficiency heat release end of heat transfer pipe - Google Patents

Abstract

A kind of high-efficiency heat release end of heat transfer pipe, the release end of heat area of dissipation that has solved heat pipe or liquid heat transfer pipe is little, the defective that radiating efficiency is low.A kind of high-efficiency heat release end of heat transfer pipe, be installed in the tube chamber top that is filled with medium, form the cavity of an integrally closed, the release end of heat of its heat-transfer pipe is made up of two heat release cavitys at least, and the heat-transfer pipe release end of heat is by glass or metal manufacturing, heat-transfer pipe release end of heat or be that the glass release end of heat is at skin, the metal release end of heat is at internal layer, mutually coincideing is sleeved on together, forms the composite double layer release end of heat, is filled with the solid conductive heat material between compound two release end of heat of suit.The present invention has increased the area of dissipation of release end of heat under the prerequisite that release end of heat length volume does not increase, the heat dispersion of heat pipe or heat-transfer pipe is improved greatly.

Description

A kind of high-efficiency heat release end of heat transfer pipe

Technical field

The present invention relates to a kind of heat transfer element, especially a kind of high-efficiency heat release end of heat transfer pipe.

Background technology

The release end of heat area of dissipation of present heat pipe or liquid heat transfer pipe is all less, and radiating efficiency is low, and wants to improve the radiating efficiency of release end of heat, it is done high surface area after, the inevitable overstriking of supporting with it pipeline, cost rises.

Summary of the invention

The objective of the invention is to improve radiating efficiency, traditional round shape is made into the big release end of heat of surface area, be used to increase area of dissipation in order to realize increasing the heat exchange area of release end of heat.

The technical solution adopted for the present invention to solve the technical problems is: a kind of high-efficiency heat release end of heat transfer pipe, be installed in the tube chamber top that is filled with medium, form the cavity of an integrally closed, the release end of heat of its heat-transfer pipe is made up of two heat release cavitys at least, the heat-transfer pipe release end of heat is by glass or metal manufacturing, heat-transfer pipe release end of heat or be that the glass release end of heat is at skin, the metal release end of heat is at internal layer, coincide mutually and be sleeved on together, form the composite double layer release end of heat, be filled with the solid conductive heat material between compound two release end of heat of suit.

By two concentric suits of tube chamber, it is the closed cavity of concentric ring that the termination is welded to each other the composition cross section at least for a kind of high-efficiency heat release end of heat transfer pipe, its heat-transfer pipe release end of heat.

A kind of high-efficiency heat release end of heat transfer pipe, its heat-transfer pipe release end of heat be the tube chamber welded and installed of at least two one ends sealing on a tube chamber, form at least two heat release tube chambers that a pipe connects.

A kind of high-efficiency heat release end of heat transfer pipe is characterized in that: the heat-transfer pipe release end of heat at least one inverted U-shaped tube chamber welded and installed on a tube chamber, form at least two heat release tube chambers that a pipe connects.

A kind of high-efficiency heat release end of heat transfer pipe, its heat-transfer pipe release end of heat are that the cross section comprises two petal chambeies at least, are connected along degree of slipping over a tube chamber, form the cross section and comprise a plurality of heat release tube chambers that two petal chambeies are connected with a pipe at least.

A kind of high-efficiency heat release end of heat transfer pipe, the glass wall inner surface of its heat-transfer pipe release end of heat is provided with conductive film layer, and conductive film layer is electrically connected with the glass sealing electrode, and the glass sealing electrode is connected with the negative electricity of dc source, and the positive pole of dc source is electrically connected with the earth.A kind of high-efficiency heat release end of heat transfer pipe, the termination of its heat-transfer pipe release end of heat are provided with filling nozzle and the sealing cap that fills liquid heat-transfer medium.

A kind of high-efficiency heat release end of heat transfer pipe, the termination of its heat-transfer pipe release end of heat is provided with sucker.

The invention has the beneficial effects as follows: the present invention has increased the area of dissipation of release end of heat under the prerequisite that release end of heat length volume does not increase, the heat dispersion of heat pipe or heat-transfer pipe is improved greatly.

Description of drawings

The invention will be further described below in conjunction with drawings and Examples.

Fig. 1 is the structural representation that a kind of high-efficiency heat release end of heat transfer pipe is made up of two heat release cavitys;

Fig. 2 is the cross-sectional structure schematic diagram that a kind of high-efficiency heat release end of heat transfer pipe is made up of two heat release cavitys;

Fig. 3 is the structural representation that a kind of high-efficiency heat release end of heat transfer pipe is made up of three heat release cavitys;

Fig. 4 is the cross-sectional structure schematic diagram that a kind of high-efficiency heat release end of heat transfer pipe is made up of three heat release cavitys;

Fig. 5 is the structural representation that a kind of high-efficiency heat release end of heat transfer pipe is made up of five heat release cavitys;

Fig. 6 is the cross-sectional structure schematic diagram that a kind of high-efficiency heat release end of heat transfer pipe is made up of five heat release cavitys;

Fig. 7 is that a kind of high-efficiency heat release end of heat transfer pipe is made up of five heat release cavitys, and the upper end of release end of heat cavity is contour, and the lower end of release end of heat cavity is the structural representation of non-contour connection;

Fig. 8 is that a kind of high-efficiency heat release end of heat transfer pipe is made up of five heat release cavitys, and the lower end of the upper end of release end of heat cavity, release end of heat cavity is the structural representation of non-contour connection;

A kind of high-efficiency heat release end of heat transfer pipe of Fig. 9 is made up of two heat release cavitys, and the outer tube of heat release cavity is by the structural representation of reducing and the sealing-in of heat release cavity;

A kind of high-efficiency heat release end of heat transfer pipe of Figure 10 is made up of two heat release cavitys, and the outer tube of heat release cavity is by the cross-sectional structure schematic diagram of reducing and the sealing-in of heat release cavity;

A kind of high-efficiency heat release end of heat transfer pipe of Figure 11 is made up of three heat release cavitys, and the outer tube of heat release cavity is by the structural representation of reducing and the sealing-in of heat release cavity;

A kind of high-efficiency heat release end of heat transfer pipe of Figure 12 is made up of three heat release cavitys, and the outer tube of heat release cavity is by the cross-sectional structure schematic diagram of reducing and the sealing-in of heat release cavity;

A kind of high-efficiency heat release end of heat transfer pipe of Figure 13 is made up of five heat release cavitys, and the outer tube of heat release cavity is by the structural representation of reducing and the sealing-in of heat release cavity;

A kind of high-efficiency heat release end of heat transfer pipe of Figure 14 is made up of five heat release cavitys, and the outer tube of heat release cavity is by the cross-sectional structure schematic diagram of reducing and the sealing-in of heat release cavity;

Figure 15 is that a kind of high-efficiency heat release end of heat transfer pipe is made up of five heat release cavitys, and the upper end of release end of heat cavity is non-contour, the contour connection in the lower end of release end of heat cavity, and the outer tube of heat release cavity is by the structural representation of reducing and the sealing-in of heat release cavity;

Figure 16 is that a kind of high-efficiency heat release end of heat transfer pipe is made up of five heat release cavitys, and the lower end of the upper end of release end of heat cavity, release end of heat cavity is non-contour connection, and the outer tube of heat release cavity is by the structural representation of reducing and the sealing-in of heat release cavity;

Figure 17 is the structural representation that a kind of high-efficiency heat release end of heat transfer pipe is made up of four heat release cavitys;

Figure 18 is the cross-sectional structure schematic diagram that a kind of high-efficiency heat release end of heat transfer pipe is made up of four heat release cavitys;

Figure 19 is the structural representation that a kind of high-efficiency heat release end of heat transfer pipe is made up of petal chamber;

Figure 20 is the cross-sectional structure schematic diagram that a kind of high-efficiency heat release end of heat transfer pipe is made up of petal chamber;

Figure 21, Figure 23 are the structural representations that heat release cavity that a kind of high-efficiency heat release end of heat transfer pipe is interconnected by two groups of bending closures is formed;

Figure 22 is the cross-sectional structure schematic diagram that heat release cavity that a kind of high-efficiency heat release end of heat transfer pipe is interconnected by two groups of bending closures is formed;

Figure 24 is that a kind of high-efficiency heat release end of heat transfer pipe is made up of five heat release cavitys, the upper end of release end of heat cavity is non-contour, the contour connection in the lower end of release end of heat cavity, the termination of heat-transfer pipe release end of heat are provided with the filling nozzle of filled liquid heat-transfer medium and the structural representation of sealing cap;

Figure 25 is that a kind of high-efficiency heat release end of heat transfer pipe is made up of five heat release cavitys, the lower end of the upper end of release end of heat cavity, release end of heat cavity is non-contour connection, and the termination of heat-transfer pipe release end of heat is provided with the filling nozzle of filled liquid heat-transfer medium and the structural representation of sealing cap;

Figure 26 is that a kind of high-efficiency heat release end of heat transfer pipe is made up of five heat release cavitys, the upper end of release end of heat cavity is non-contour, the contour connection in the lower end of release end of heat cavity, the termination of heat-transfer pipe release end of heat are provided with the structural representation of the filling nozzle, sealing cap and the sucker that fill liquid heat-transfer medium;

Figure 27 is that a kind of high-efficiency heat release end of heat transfer pipe is made up of five heat release cavitys, the lower end of the upper end of release end of heat cavity, release end of heat cavity is non-contour connection, and the termination of heat-transfer pipe release end of heat is provided with the structural representation of the filling nozzle, sealing cap and the sucker that fill liquid heat-transfer medium;

Figure 28 is that a kind of high-efficiency heat release end of heat transfer pipe is made up of five heat release cavitys, the upper end of release end of heat cavity is non-contour, the contour connection in the lower end of release end of heat cavity, the termination of heat-transfer pipe release end of heat are provided with filling nozzle, sealing cap that fills liquid heat-transfer medium and the structural representation that has the sucker of support bar;

Figure 29 is that a kind of high-efficiency heat release end of heat transfer pipe is made up of five heat release cavitys, the lower end of the upper end of release end of heat cavity, release end of heat cavity is non-contour connection, and the termination of heat-transfer pipe release end of heat is provided with filling nozzle, sealing cap that fills liquid heat-transfer medium and the structural representation that has the sucker of support bar;

Figure 30 is that a kind of high-efficiency heat release end of heat transfer pipe is made up of five heat release cavitys, and the upper end of release end of heat cavity is non-contour, the contour connection in the lower end of release end of heat cavity, and the termination of heat-transfer pipe release end of heat is provided with the structural representation of sucker;

Figure 31 is that a kind of high-efficiency heat release end of heat transfer pipe is made up of five heat release cavitys, and the lower end of the upper end of release end of heat cavity, release end of heat cavity is non-contour connection, and the termination of heat-transfer pipe release end of heat is provided with the structural representation of sucker;

Figure 32 is that a kind of high-efficiency heat release end of heat transfer pipe is made up of petal chamber, and the termination of heat-transfer pipe release end of heat is provided with the filling nozzle of filled liquid heat-transfer medium and the structural representation of sealing cap;

Figure 33 is that a kind of high-efficiency heat release end of heat transfer pipe is made up of the heat release cavity that two groups of bending closures interconnect, and the termination of heat-transfer pipe release end of heat is provided with the filling nozzle of filled liquid heat-transfer medium and the structural representation of sealing cap;

Figure 34 is that a kind of high-efficiency heat release end of heat transfer pipe is made up of petal chamber, and the termination of heat-transfer pipe release end of heat is provided with the structural representation of the filling nozzle, sealing cap and the sucker that fill liquid heat-transfer medium;

Figure 35 is that a kind of high-efficiency heat release end of heat transfer pipe is made up of the heat release cavity that two groups of bending closures interconnect, and the termination of heat-transfer pipe release end of heat is provided with the structural representation of the filling nozzle, sealing cap and the sucker that fill liquid heat-transfer medium;

Figure 36 is that a kind of high-efficiency heat release end of heat transfer pipe is made up of petal chamber, and the termination of heat-transfer pipe release end of heat is provided with filling nozzle, sealing cap that fills liquid heat-transfer medium and the structural representation that has the sucker of support bar;

Figure 37 is that a kind of high-efficiency heat release end of heat transfer pipe is made up of the heat release cavity that two groups of bending closures interconnect, and the termination of heat-transfer pipe release end of heat is provided with filling nozzle, sealing cap that fills liquid heat-transfer medium and the structural representation that has the sucker of support bar;

Figure 38 is that a kind of high-efficiency heat release end of heat transfer pipe is made up of petal chamber, and the termination of heat-transfer pipe release end of heat is provided with the structural representation of sucker;

Figure 39 is that a kind of high-efficiency heat release end of heat transfer pipe is made up of the heat release cavity that two groups of bending closures interconnect, and the termination of heat-transfer pipe release end of heat is provided with the structural representation of sucker;

Figure 40 is that a kind of high-efficiency heat release end of heat transfer pipe is made up of five heat release cavitys, and the upper end of release end of heat cavity is non-contour, the contour connection in the lower end of release end of heat cavity, and the glass wall inner surface of heat-transfer pipe release end of heat is provided with the structural representation of conductive film layer;

Figure 41 is that a kind of high-efficiency heat release end of heat transfer pipe is made up of five heat release cavitys, and the lower end of the upper end of release end of heat cavity, release end of heat cavity is non-contour connection, and the glass wall inner surface of heat-transfer pipe release end of heat is provided with the structural representation of conductive film layer;

Figure 42 is that a kind of high-efficiency heat release end of heat transfer pipe is made up of petal chamber, and the glass wall inner surface of heat-transfer pipe release end of heat is provided with the structural representation of conductive film layer;

Figure 43 is that a kind of high-efficiency heat release end of heat transfer pipe is made up of the heat release cavity that two groups of bending closures interconnect, and the glass wall inner surface of heat-transfer pipe release end of heat is provided with the structural representation of conductive film layer;

Figure 44 be a kind of high-efficiency heat release end of heat transfer pipe be the glass release end of heat at skin, the metal release end of heat is at internal layer, coincideing mutually is sleeved on together, forms the composite double layer release end of heat, is filled with the structural representation of solid conductive heat material between compound two release end of heat of suit;

Figure 45 is that a kind of high-efficiency heat release end of heat transfer pipe is that the glass release end of heat is at skin, the metal release end of heat is at internal layer, mutually coincideing is sleeved on together, forms the composite double layer release end of heat, is filled with the cross-sectional structure schematic diagram of solid conductive heat material between compound two release end of heat of suit.

Among the figure: 1 filled medium exhaust nozzle, 2 release end of heat outer tube walls, 3 release end of heat cavitys, 4 release end of heat inner tubal walls, 5 inner bag heat exchange cavitys, 6 the 3rd layers of release end of heat cavity, 7 the 4th layers of release end of heat cavity, 8 layer 5 release end of heat cavitys, 9 glass outer tubes, 10 vacuum chambers, 11 heat-transfer pipe release end of heat are connected throat, 12 and inhale caps, 13 suckers, 14 support bars, 15 conductive film layers, 16 glass sealing electrodes, 17 solid conductive heat materials, 18 positioning baffles with condensation end

The specific embodiment

As shown in Figure 1 and Figure 2: a kind of high-efficiency heat release end of heat transfer pipe is that release end of heat outer tube wall 2 and release end of heat inner tubal wall 4 pass through to fill 1 sealing-in of medium exhaust nozzle, and two heat release cavitys of formation are formed.

As shown in Figure 3, Figure 4: a kind of high-efficiency heat release end of heat transfer pipe is that release end of heat outer tube wall 2, release end of heat inner tubal wall 4 and the 3rd layer of release end of heat cavity 6 are by filling 1 sealing-in of medium exhaust nozzle, three heat release cavitys compositions of formation.

As Fig. 5, shown in Figure 6: a kind of high-efficiency heat release end of heat transfer pipe be release end of heat outer tube wall 2, release end of heat inner tubal wall 4, the 3rd layer of release end of heat cavity 6, the 4th layer of release end of heat cavity 7 and layer 5 release end of heat cavity 8 by filling 1 sealing-in of medium exhaust nozzle, five heat release cavitys of formation are formed.

As shown in Figure 7: a kind of high-efficiency heat release end of heat transfer pipe is that release end of heat outer tube wall 2, release end of heat inner tubal wall 4, the 3rd layer of release end of heat cavity 6, the 4th layer of release end of heat cavity 7 and layer 5 release end of heat cavity 8 are by filling 1 sealing-in of medium exhaust nozzle, five heat release cavitys that form are formed, the upper end equal altitudes of release end of heat arranges that the lower end of release end of heat is protruded and arranged.

As shown in Figure 8: a kind of high-efficiency heat release end of heat transfer pipe is that release end of heat outer tube wall 2, release end of heat inner tubal wall 4, the 3rd layer of release end of heat cavity 6, the 4th layer of release end of heat cavity 7 and layer 5 release end of heat cavity 8 are by filling 1 sealing-in of medium exhaust nozzle, five heat release cavitys that form are formed, and the top and bottom of release end of heat are protruded and arranged.

As Fig. 9, shown in Figure 10: a kind of high-efficiency heat release end of heat transfer pipe is that release end of heat outer tube wall 2 and release end of heat inner tubal wall 4 are by filling 1 sealing-in of medium exhaust nozzle, two heat release cavitys that form are formed, glass outer tube 9 is by undergauge and 2 sealing-ins of release end of heat outer tube wall, by glass outer tube 9 and the interlayer that release end of heat outer tube wall 2 forms are vacuumized, form vacuum chamber 10.

As Figure 11, shown in Figure 12: a kind of high-efficiency heat release end of heat transfer pipe be release end of heat outer tube wall 2, release end of heat inner tubal wall 4 and the 3rd layer of release end of heat cavity 6 by filling 1 sealing-in of medium exhaust nozzle, three heat release cavitys of formation are formed.Glass outer tube 9 by glass outer tube 9 and the interlayer that release end of heat outer tube wall 2 forms are vacuumized, forms vacuum chamber 10 by undergauge and 2 sealing-ins of release end of heat outer tube wall.

As Figure 13, shown in Figure 14: a kind of high-efficiency heat release end of heat transfer pipe be release end of heat outer tube wall 2, release end of heat inner tubal wall 4, the 3rd layer of release end of heat cavity 6, the 4th layer of release end of heat cavity 7 and layer 5 release end of heat cavity 8 by filling 1 sealing-in of medium exhaust nozzle, five heat release cavitys of formation are formed.Glass outer tube 9 by glass outer tube 9 and the interlayer that release end of heat outer tube wall 2 forms are vacuumized, forms vacuum chamber 10 by undergauge and 2 sealing-ins of release end of heat outer tube wall.

As shown in figure 15: a kind of high-efficiency heat release end of heat transfer pipe is that release end of heat outer tube wall 2, release end of heat inner tubal wall 4, the 3rd layer of release end of heat cavity 6, the 4th layer of release end of heat cavity 7 and layer 5 release end of heat cavity 8 are by filling 1 sealing-in of medium exhaust nozzle, five heat release cavitys that form are formed, the upper end of release end of heat is protruded and is arranged, the lower end equal altitudes of release end of heat is arranged.Glass outer tube 9 by glass outer tube 9 and the interlayer that release end of heat outer tube wall 2 forms are vacuumized, forms vacuum chamber 10 by undergauge and 2 sealing-ins of release end of heat outer tube wall.

As shown in figure 16: a kind of high-efficiency heat release end of heat transfer pipe is that release end of heat outer tube wall 2, release end of heat inner tubal wall 4, the 3rd layer of release end of heat cavity 6, the 4th layer of release end of heat cavity 7 and layer 5 release end of heat cavity 8 are by filling 1 sealing-in of medium exhaust nozzle, five heat release cavitys that form are formed, and the top and bottom of release end of heat are protruded and arranged.Glass outer tube 9 by glass outer tube 9 and the interlayer that release end of heat outer tube wall 2 forms are vacuumized, forms vacuum chamber 10 by undergauge and 2 sealing-ins of release end of heat outer tube wall.

As Figure 17, shown in Figure 180: a kind of high-efficiency heat release end of heat transfer pipe be release end of heat outer tube wall 2 and release end of heat inner tubal wall 4 by filling 1 sealing-in of medium exhaust nozzle, four heat release cavitys of formation are formed.

As Figure 19, shown in Figure 20: a kind of high-efficiency heat release end of heat transfer pipe is that the heat release cavity that petal chamber forms is formed.

As Figure 21, Figure 22, shown in Figure 23: a kind of high-efficiency heat release end of heat transfer pipe is made up of the heat release cavity that two groups of bending closures interconnect.

As shown in figure 24: a kind of high-efficiency heat release end of heat transfer pipe is that release end of heat outer tube wall 2, release end of heat inner tubal wall 4, the 3rd layer of release end of heat cavity 6, the 4th layer of release end of heat cavity 7 and layer 5 release end of heat cavity 8 are by filling 1 sealing-in of medium exhaust nozzle, five heat release cavitys that form are formed, the upper end of release end of heat is protruded and is arranged, the lower end equal altitudes of release end of heat is arranged.The termination of release end of heat is provided with filling nozzle 1 and the sealing cap 12 that fills liquid heat-transfer medium.

As shown in figure 25: a kind of high-efficiency heat release end of heat transfer pipe is that release end of heat outer tube wall 2, release end of heat inner tubal wall 4, the 3rd layer of release end of heat cavity 6, the 4th layer of release end of heat cavity 7 and layer 5 release end of heat cavity 8 are by filling 1 sealing-in of medium exhaust nozzle, five heat release cavitys that form are formed, and the top and bottom of release end of heat are protruded and arranged.The termination of release end of heat is provided with filling nozzle 1 and the sealing cap 12 that fills liquid heat-transfer medium.

As shown in figure 26: the termination of release end of heat is provided with filling nozzle 1, sealing cap 12 and the sucker 13 that fills liquid heat-transfer medium.Other is equal to Figure 24.

As shown in figure 27: the termination of release end of heat is provided with filling nozzle 1, sealing cap 12 and the sucker 13 that fills liquid heat-transfer medium.Other is equal to Figure 25.

As shown in figure 28: the termination of release end of heat is provided with filling nozzle 1, sealing cap 12 that fills liquid heat-transfer medium and the sucker 13 that has support bar 14.Other is equal to Figure 24.

As shown in figure 29: the termination of release end of heat is provided with filling nozzle 1, sealing cap 12 that fills liquid heat-transfer medium and the sucker 13 that has support bar 14.Other is equal to Figure 25.

As shown in figure 30: the termination of release end of heat is provided with sucker 13.Other is equal to Figure 24.

As shown in figure 31: the termination of release end of heat is provided with sucker 13.Other is equal to Figure 25.

Shown in figure 32: the termination of release end of heat is provided with filling nozzle 1 and the sealing cap 12 that fills liquid heat-transfer medium.Other is equal to Figure 19.

As shown in figure 33: the termination of release end of heat is provided with filling nozzle 1 and the sealing cap 12 that fills liquid heat-transfer medium.Other is equal to Figure 23.

As shown in figure 34: the termination of release end of heat is provided with filling nozzle 1, sealing cap 12 and the sucker 13 that fills liquid heat-transfer medium.Other is equal to Figure 19.

As shown in figure 35: the termination of release end of heat is provided with filling nozzle 1, sealing cap 12 and the sucker 13 that fills liquid heat-transfer medium.Other is equal to Figure 23.

As shown in figure 36: the termination of release end of heat is provided with filling nozzle 1, sealing cap 12 that fills liquid heat-transfer medium and the sucker 13 that has support bar 14.Other is equal to Figure 19.

As shown in figure 37: the termination of release end of heat is provided with filling nozzle 1, sealing cap 12 that fills liquid heat-transfer medium and the sucker 13 that has support bar 14.Other is equal to Figure 23.

As shown in figure 38: the termination of release end of heat is provided with sucker 13.Other is equal to Figure 19.

As shown in figure 39: the termination of release end of heat is provided with sucker 13.Other is equal to Figure 23.

As shown in figure 40: a kind of high-efficiency heat release end of heat transfer pipe is that release end of heat outer tube wall 2, release end of heat inner tubal wall 4, the 3rd layer of release end of heat cavity 6, the 4th layer of release end of heat cavity 7 and layer 5 release end of heat cavity 8 are by filling 1 sealing-in of medium exhaust nozzle, five heat release cavitys that form are formed, the upper end of release end of heat is protruded and is arranged, the lower end equal altitudes of release end of heat is arranged.The glass wall inner surface of release end of heat is provided with conductive film layer 15, and conductive film layer 15 is electrically connected with the glass sealing electrode, and the glass sealing electrode is connected with the negative electricity of dc source, and the positive pole of dc source is electrically connected with the earth.

As shown in figure 41: the glass wall inner surface of release end of heat is provided with conductive film layer 15, and conductive film layer 15 is electrically connected with the glass sealing electrode, and the glass sealing electrode is connected with the negative electricity of dc source, and the positive pole of dc source is electrically connected with the earth.Other is equal to Fig. 8.

As shown in figure 42: the glass wall inner surface of release end of heat is provided with conductive film layer 15, and conductive film layer 15 is electrically connected with the glass sealing electrode, and the glass sealing electrode is connected with the negative electricity of dc source, and the positive pole of dc source is electrically connected with the earth.Other is equal to Figure 19.

As shown in figure 43: the glass wall inner surface of release end of heat is provided with conductive film layer 15, and conductive film layer 15 is electrically connected with the glass sealing electrode, and the glass sealing electrode is connected with the negative electricity of dc source, and the positive pole of dc source is electrically connected with the earth.Other is equal to Figure 23.

As Figure 44, shown in Figure 45: a kind of high-efficiency heat release end of heat transfer pipe is that the glass release end of heat is at skin, the metal release end of heat is at internal layer, coincide mutually and be sleeved on together, form the composite double layer release end of heat, be filled with solid conductive heat material 17 between compound two release end of heat of suit, solid conductive heat material 17 is fixing by positioning baffle 18.

Claims (8)

1. high-efficiency heat release end of heat transfer pipe, be installed in the tube chamber top that is filled with medium, form the cavity of an integrally closed, it is characterized in that: the release end of heat of heat-transfer pipe is made up of two heat release cavitys at least, and the heat-transfer pipe release end of heat is by glass or metal manufacturing, heat-transfer pipe release end of heat or be that the glass release end of heat is at skin, the metal release end of heat is at internal layer, mutually coincideing is sleeved on together, forms the composite double layer release end of heat, is filled with the solid conductive heat material between compound two release end of heat of suit.

2. a kind of high-efficiency heat release end of heat transfer pipe according to claim 1 is characterized in that: by two concentric suits of tube chamber, it is the closed cavity of concentric ring that the termination is welded to each other the composition cross section to the heat-transfer pipe release end of heat at least.

3. a kind of high-efficiency heat release end of heat transfer pipe according to claim 1 is characterized in that: the heat-transfer pipe release end of heat for the tube chamber welded and installed of at least two one ends sealing on a tube chamber, form at least two heat release tube chambers that a pipe connects.

4. a kind of high-efficiency heat release end of heat transfer pipe according to claim 1 is characterized in that: the heat-transfer pipe release end of heat at least one inverted U-shaped tube chamber welded and installed on a tube chamber, form at least two heat release tube chambers that a pipe connects.

5. a kind of high-efficiency heat release end of heat transfer pipe according to claim 1, it is characterized in that: the heat-transfer pipe release end of heat is that the cross section comprises two petal chambeies at least, be connected along degree of slipping over a tube chamber, form the cross section and comprise a plurality of heat release tube chambers that two petal chambeies are connected with a pipe at least.

6. a kind of high-efficiency heat release end of heat transfer pipe according to claim 1, it is characterized in that: the glass wall inner surface of heat-transfer pipe release end of heat is provided with conductive film layer, conductive film layer is electrically connected with the glass sealing electrode, the glass sealing electrode is connected with the negative electricity of dc source, and the positive pole of dc source is electrically connected with the earth.

7. a kind of high-efficiency heat release end of heat transfer pipe according to claim 1 is characterized in that: the termination of heat-transfer pipe release end of heat is provided with filling nozzle and the sealing cap that fills liquid heat-transfer medium.

8. a kind of high-efficiency heat release end of heat transfer pipe according to claim 1 is characterized in that: the termination of heat-transfer pipe release end of heat is provided with sucker.

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