CN108106473B - The hot transmission module of phase stream - Google Patents

Abstract

The present invention provides a kind of hot transmission module of phase stream, includes an at least evaporator, and there is a first chamber to be filled with one first working media for inside；There is an at least evaporator tube body first end, second end and a condensation segment to be located between the first end, second end, and the first chamber that the first end, second end are connected to an at least evaporator forms the primary Ioops of first working media；An at least heat exchanger, inside has a heat exchanger chambers, and there is an at least heat exchanger first side, second side to be sticked for the condensation segment of the evaporator tube body；And an at least radiator tube body, at least heat exchanger chambers of a heat exchanger and at least a radiator are connected to, and the primary Ioops of second working media are formed for one second working media flow.

Description

The hot transmission module of phase stream

Technical field

The present invention relates to field of radiating, and heat exchange area can be reduced and shorten heat-transfer path and increase heat exchange effect by referring in particular to one kind The hot transmission module of phase stream of rate.

Background technique

General common heat dissipation technology is fan and radiating fin, however existing electronic equipment is improved with efficiency, wherein The electronic component also than before opposite as the electronic component for handling signal and operation generates higher heat.Phase stream heat It teaches skill art and starts the product for being used in high heat-flux or function of environment heat emission, since the theoretical heat flux of phase change can achieve 50W/ Cm2 or more, and it is not required to additional power, so phase stream heat teaches skill art and has heat shifting and energy-efficient characteristic.

Current phase stream heat, which teaches skill art, loop hot-pipe (Loop Heat Pipe, LHP), capillary pump cyclic system (Capillary Porous Loop, CPL) and phase Paleocoenosis fossil stratum system (Two-Phase Loop Thermosyphon, LTS) etc., the device that phase stream heat teaches skill art has generally comprised an evaporator in conjunction with a radiator and two Between person by a tube body connection form a closed circuit, by the tube body by heat from the evaporator be transferred to the radiator of distal end with Reach heat dissipation purpose.

However, current phase stream heat is taught skill the radiator of art and cooled down with a fan coolling, and fan coolling cooling removes Required heat exchange area is larger and necessarily takes up the larger space in system, and the heat-transfer path of existing tube body is also longer, Manage intracorporal working media can not quick backflow, cause heat exchange efficiency bad.Therefore, how application system space is radiated to meet The heat exchange demand of device or the heat exchange efficiency for surmounting fan are the directions to be made great efforts of this field.

Summary of the invention

A purpose of the invention is providing the one kind that can be reduced heat exchange area or shorten steam pipe and condenser pipe heat-transfer path The hot transmission module of phase stream.

Another object of the present invention is providing a kind of hot transmission module of phase stream that can increase heat exchange efficiency.

To reach above-mentioned purpose, the present invention provides a kind of hot transmission module of phase stream, it is characterized in that comprising:

An at least evaporator, inside have a first chamber, which is equipped with one first working media；

An at least evaporator tube body has a first end, a second end and one cold between the first end, second end Solidifying section, the first end, second end be connected to this at least the first chamber of an evaporator and form the primary Ioops of first working media；

An at least heat exchanger, inside has a heat exchanger chambers, and an at least heat exchanger has one first side Face and a second side, the condensation segment of the evaporator tube body are sticked the first side or the second side；And

An at least radiator tube body is connected at least heat exchanger chambers of a heat exchanger and at least a radiator, and supplies One second working media flow is to form the primary Ioops of second working media.

The hot transmission module of phase stream, in which: at least an evaporator tube body also has an adjacent first end for this The liquid segment of steam section and an adjacent second end, the condensation segment are connected between the steam section and the liquid segment, the liquid segment Equipped with a capillary structure.

The hot transmission module of phase stream, in which: an at least heat exchanger has an at least groove, and at least one is recessed for this Slot is arranged corresponding to an at least evaporator tube body, and the condensation segment of an at least evaporator tube body is embedded at an at least groove.

The hot transmission module of phase stream, in which: an at least heat exchanger has a first heat exchanger and one the Two heat exchangers, an at least radiator tube body have one first radiator tube body and one second radiator tube body, this at least one Radiator has one first radiator and one second radiator, which is connected to first radiator, this second Radiator tube body is connected to second radiator, and the condensation segment of an at least evaporator tube body is embedded at the recessed of the first heat exchanger The groove of slot and the second heat exchanger.

The hot transmission module of phase stream, in which: the second side of the first heat exchanger and the second heat exchanger First side reciprocal correspondence be sticked.

The hot transmission module of phase stream, in which: an at least evaporator has one first evaporator and one second steaming Device is sent out, which has one first evaporator tube body and one second evaporator tube body, the first evaporation tube body First end, second end be connected to the first chamber of first evaporator, the first end of the second evaporator tube body, second end connection The first chamber of second evaporator, an at least heat exchanger also have a third heat exchanger, an at least radiator pipe Body also has a third radiator tube body, which also has a third radiator, which connects Lead to the third radiator and the third heat exchanger.

The hot transmission module of phase stream, in which: an at least groove for the first heat exchanger is recessed with one first Slot and one second groove, first groove, the second groove are respectively arranged on the first side of the first heat exchanger, second side, The condensation segment of the first evaporator tube body is embedded at second groove and an at least groove for the second heat exchanger, this second The condensation segment of evaporator tube body is embedded at first groove and an at least groove for the third heat exchanger.

The hot transmission module of phase stream, in which: the first side of the first heat exchanger and the third heat exchanger Second side reciprocal correspondence be sticked.

The hot transmission module of phase stream, in which: an at least radiator is that a water cooling arranges and has a second chamber And a pumping, an at least radiator tube body have a third end and one the 4th end, an at least radiator tube body be connected to this Two chambers, the pumping and the heat exchanger chambers and the circuit for forming second working media.

The hot transmission module of phase stream, in which: an at least evaporator has one first evaporator and one second steaming Device is sent out, which has one first evaporator tube body and one second evaporator tube body, the first evaporation tube body First end, second end be connected to the first chamber of first evaporator, the first end of the second evaporator tube body, second end connection The first chamber of second evaporator.

The hot transmission module of phase stream, in which: an at least groove has one first groove and one second groove, should The condensation segment of first evaporator tube body is embedded at second groove, and it is first recessed that the condensation segment of the second evaporator tube body is embedded at this Slot.

The hot transmission module of phase stream, in which: an at least heat exchanger is a water-cooling head.

The hot transmission module of phase stream, in which: the liquid segment is equipped with a capillary structure.

This is designed by virtue of this invention, by concentrating on a heat exchanger of the condensation segment of the evaporator tube body or multiple Heat exchanger stacked combination each other, and radiator is quickly transferred heat to by the radiator tube body and is radiated, it is reachable To the effect of reducing heat exchange area and shorten heat-transfer path while increasing heat exchange efficiency.

The purpose of following drawings is to enable the invention to be more easily understood, and can encyclopaedize those schemas in this article, And it is made to constitute some of specific embodiment.Pass through specific embodiment herein and refer to corresponding attached drawing, with detailed Explain specific embodiments of the present invention, and the action principle to illustrate invention.

Detailed description of the invention

Figure 1A is the stereogram exploded view of the first embodiment of the hot transmission module of phase stream of the present invention；

Figure 1B is the three-dimensional combination figure of the first embodiment of the hot transmission module of phase stream of the present invention；

Fig. 1 C is the evaporator and evaporator tube body cross-sectional view of the first embodiment of the hot transmission module of phase stream of the present invention；

Fig. 1 D is the heat exchanger and radiator tube body cross-sectional view of the first embodiment of the hot transmission module of phase stream of the present invention；

Fig. 2A is the stereogram exploded view of the second embodiment of the hot transmission module of phase stream of the present invention；

Fig. 2 B is the three-dimensional combination figure of the second embodiment of the hot transmission module of phase stream of the present invention；

Fig. 3 A is the stereogram exploded view of the 3rd embodiment of the hot transmission module of phase stream of the present invention；

Fig. 3 B is the three-dimensional combination figure of the 3rd embodiment of the hot transmission module of phase stream of the present invention；

Fig. 3 C is the top view of the 3rd embodiment of the hot transmission module of phase stream of the present invention；

Fig. 4 A is the stereogram exploded view of the fourth embodiment of the hot transmission module of phase stream of the present invention；

Fig. 4 B is the three-dimensional combination figure of the fourth embodiment of the hot transmission module of phase stream of the present invention.

Description of symbols: evaporator, the first evaporator 1；First chamber 11；Second evaporator 11a；Evaporator tube body, First evaporator tube body 2；First end 21,21a；Second end 22,22a；Condensation segment 23,23a；Steam section 24,24a；Liquid segment 25, 25a；Capillary structure 26；Second evaporator tube body 2a；Heat exchanger, first heat exchanger 3；Heat exchanger chambers 31；First side 32,32a,32b；Second side 33,33a, 33b；Groove 34,34a, 34b；First groove 341；Second groove 342；Water inlet 35；Water outlet 36；Second heat exchanger 3a；Third heat exchanger 3b；Radiator tube body, the first radiator tube body 4,4a；Third End 41；4th end 42；Second radiator tube body 4b；Radiator, the first radiator 5；Second chamber 51；Pumping 52.

Specific embodiment

Above-mentioned purpose and its structure of the invention and characteristic functionally, the preferred embodiment according to institute's accompanying drawings is given Explanation.

Figure 1A, Figure 1B, Fig. 1 C and Fig. 1 D are please referred to, is the solid of the first embodiment of the hot transmission module of phase stream of the present invention Exploded view and three-dimensional combination figure and evaporator and evaporator tube body cross-sectional view and heat exchanger and radiator tube body cross-sectional view, such as scheme Shown, the hot transmission module of phase stream of the present invention includes an at least evaporator, at least an evaporator tube body, at least a heat exchange Device, at least a radiator tube body and an at least radiator.It is in the present embodiment to be expressed as 1, evaporator of an evaporator The radiator tube body 4 of heat exchanger 3, one of tube body 2, one and a radiator 5, but not limited to this, other some changes Different implementation is as described later.

There is a first chamber 11, which is equipped with one first working media, first work inside the evaporator 1 Make the liquid that medium is high specific heat coefficient.1 system of evaporator (is not painted) to the pyrotoxin that is sticked, and absorbs from the pyrotoxin Heat.In the present embodiment, which is expressed as a square plate body, and however, it is not limited to this, in other embodiments, should Evaporator 1 can also be expressed as the tubular evaporator that caliber is greater than the evaporator tube body 2, and the present invention does not limit to the evaporator 1 Shape or aspect.

The evaporator tube body 2 has a first end 21 and a second end 22 and a condensation segment 23, the first end, second end 21,22 opposite end for being respectively arranged on the evaporator tube body 2, the first end, second end 21,22 are connected to the first chamber 11 formation The circuit of first working media, and the condensation segment 23 is located between the first end, second end 21,22.The evaporator tube body 2 is also Have a steam section 24 and a liquid segment 25, the adjacent first end 21 of the steam section 24, the adjacent second end 22 of the liquid segment 25 should Condensation segment 23 is connected between the steam section 24 and the liquid segment 25.It and in the present embodiment, is to indicate inside the liquid segment 25 Equipped with a capillary structure 26, however, it is not limited to this, in other embodiments, can also be expressed as omitting inside the liquid segment 25 The capillary structure 26.In the present embodiment, which is expressed as round tube, but not limited to this, in other embodiments In, which can also be expressed as flat tube.

The heat exchanger 3 have a heat exchanger chambers 31, a first side 32, a second side 33, a water inlet 35 and One water outlet 36, the first side, second side 32,33 are respectively arranged on the two opposite sides of the heat exchanger 3, for the evaporator tube The condensation segment 23 of body 2 is sticked, and 23 system of the condensation segment selection of the evaporator tube body 2 is attached at the first side 32 and the second side 33 is any.In the present embodiment, 23 system of condensation segment of the evaporator tube body 2 is expressed as be attached at the heat exchanger 3 Two side faces 33, but not limited to this, the condensation segment 23 of the evaporator tube body 2 is attached at the first side 32, can also.

The radiator tube body 4 has a third end 41 and one the 4th end 42, which is respectively arranged on this and dissipates The opposite end of hot device tube body 4, and the radiator tube body 4 is connected to the heat exchanger chambers 31 and the radiator 5 of the heat exchanger 3, And primary Ioops of the radiator tube body 4 for one second working media flow to form second working media, second work are situated between Matter is the liquid of high specific heat coefficient.In the present embodiment, which is expressed as round tube, but not limited to this, at it In his embodiment, which can also be expressed as flat tube.

There is the radiator 5 second chamber 51 and a pumping 52,4 system of radiator tube body to pass through the heat exchanger 3 Water inlet 35 is connected to the heat exchanger chambers 31 of the heat exchanger 3 with water outlet 36, and should by third and fourth end 41,42 connection The second chamber 51 of radiator 5 forms the circuit of second working media with pumping 52.The radiator 5 is in the present embodiment System is expressed as water cooling row, and is to be indicated with part section in 1A, Figure 1B.In the present embodiment, the radiator tube body 4 System is expressed as a water cooling tube, which is expressed as being disposed adjacent in the third end 41 of the radiator tube body 4, but does not limit to In this, in other embodiments, which can also be expressed as being disposed adjacent in the 4th end 42 of the radiator tube body 4.

And in the present embodiment, which has an at least groove 34, the corresponding evaporator of an at least groove 34 Tube body 2, the condensation segment 23 of the evaporator tube body 2 are embedded in an at least groove 34, but not limited to this, in other embodiments In, which is expressed as with flat surfaces, and the condensation segment 23 of the evaporator tube body 2 is attached at the heat exchanger 3 Flat surfaces.In other embodiments, the condensation segment 23 of the evaporator tube body 2 be embedded in the groove 34 of the heat exchanger 3 with The outer surface of the heat exchanger 3 flushes.And in the present embodiment, which is a water-cooling head.

In one embodiment, first working media heated boiling point that reaches in the first chamber 11 evaporates to form vapour First working media of phase, and first working media of vapour phase enters the steam section 24 by the first end 21, and passes through The steam section 24 is circulated to the condensation segment 23, the condensation segment 23 absorb vapour phase first working media heat and with the heat exchange 3 heat exchange of device, first working media of vapour phase form first working media of liquid phase, and liquid phase in the condensation segment 23 condensation First working media absorbed by the capillary structure 26 of the liquid segment 25 and enter the evaporator 1 back up through the second end 22 First chamber 11.In other embodiments, which, which omits, is arranged the capillary structure 26, first working media of liquid phase The first chamber 11 for entering the evaporator 1 back up through the second end 22 is pushed by air pressure.

The heat exchanger 3 absorbs the heat of the condensation segment 23 of the evaporator tube body 2, and the second working media system is by the pumping 52 drivings are circulated to by the third end 41 of the radiator tube body 4 and from the second chamber 51 of the radiator 5 from the water inlet 35 The heat exchanger chamber 31, and second working media absorbs the heat of the heat exchanger 3 by the water outlet 36 from the 4th end 42 are back to the second chamber 51, and the heat which absorbs second working media carries out heat loss through radiation.

This is designed by virtue of this invention, and the heat of the evaporator 1 can be made to be passed and focus on the heat exchanger 3, and then relying on should The heat of the heat exchanger 3 is transmitted to the radiator 5 and is radiated by radiator tube body 4, so can not only reduce heat exchange area, also Heat-transfer path can be shortened, make the first and second working media can be with quick backflow, and then can achieve preferable heat exchange efficiency.

Fig. 2A, Fig. 2 B are please referred to, is the stereogram exploded view of the second embodiment of the hot transmission module of phase stream of the present invention and vertical Body constitutional diagram, and be aided with A, Figure 1B, Fig. 1 C and Fig. 1 D refering to fig. 1, as shown, the present embodiment part-structure and function with it is above-mentioned First embodiment is identical, therefore will not be described in great detail herein, and only the present embodiment is with not existing together for above-mentioned first embodiment, this at least one Heat exchanger has a first heat exchanger 3 and a second heat exchanger 3a, which has one first to dissipate Hot device tube body 4 and one second radiator tube body 4a, an at least radiator have one first radiator 5 and one second radiator (not being painted), the first radiator tube body 4 are connected to first radiator 5, and the second radiator tube body 4a is connected to second heat dissipation The structure and syntagmatic of device, the second radiator tube body 4a and second radiator please refer to the radiator tube body 4 of Figure 1B And the structure and syntagmatic of the radiator 5.

In the present embodiment, 23 system of condensation segment of the first evaporator tube body 2 is expressed as being attached at the first heat exchanger 3 Second side 33 and second heat exchanger 3a first side 32a, however, it is not limited to this, the first evaporator tube body 2 Condensation segment 23 be attached at the first side 32 of the first heat exchanger 3 and the second side 33a of second heat exchanger 3a, or Person, the condensation segment 23 of the first evaporator tube body 2 are attached at the first side 32 and second heat exchange of the first heat exchanger 3 The first side 32a of device 3a, alternatively, the condensation segment 23 of the first evaporator tube body 2 is attached at the second of the first heat exchanger 3 The second side 33a of side 33 and second heat exchanger 3a, can also.

And the condensation segment 23 of the evaporator tube body 2 is embedded at groove 34 and second heat exchange of the first heat exchanger 3 The groove 34a of device 3a.In this way, enabling the second side 33 of the first heat exchanger 3 and the first side of second heat exchanger 3a 32a reciprocal correspondence is sticked.

By above-mentioned, the condensation segment 23 of the evaporator tube body 2 can carry out hot friendship with first and second heat exchanger 3,3a simultaneously Change, first and second heat exchanger 3,3a absorb the heat of the condensation segment 23, the first and second radiator tube body 4,4a by this second First and second radiator is walked to be back in the torrid zone by working media, to reach diminution heat exchange area and shortening heat-transfer path and increase The effect of heat exchange efficiency.

Fig. 3 A, Fig. 3 B and Fig. 3 C are please referred to, is the stereo decomposing of the 3rd embodiment of the hot transmission module of phase stream of the present invention Figure and three-dimensional combination figure and top view, and be aided with refering to 2A and Fig. 2 B, as shown, the present embodiment part-structure and function with Above-mentioned second embodiment is identical, therefore will not be described in great detail herein, and only the present embodiment is that this is extremely with not existing together for above-mentioned second embodiment A few evaporator has one first evaporator 1 and one second evaporator 1a, which has one first evaporation Device tube body 2 and one second evaporator tube body 2a, an at least heat exchanger also have a third heat exchanger 3b, this at least one dissipate Hot device tube body also has a third radiator tube body 4b, which also has a third radiator (not being painted).

The first evaporation first end of tube body 2, second end 21,22 are connected to the first chamber 11 of first evaporator 1, this First end, second end 21a, 22a of two evaporator tube body 2a is connected to the first chamber (not being painted) of second evaporator 1a, this Three radiator tube body 4b connect the third radiator, and the structure and combination of third radiator tube body 4b and the third radiator are closed System please refers to the radiator tube body 4 of Figure 1B and the structure and syntagmatic of the radiator 5.

In the present embodiment, the condensation segment 23a system of the second evaporator tube body 2a is expressed as being attached at first heat exchange The second side 33b of the first side 32 of device 3 and third heat exchanger 3b.And in the present embodiment, the first heat exchanger 3 An at least groove have one first groove 341 and one second groove 342, first groove, the second groove 341,342 difference First side, second side 32,33 set on the first heat exchanger 3, the condensation segment 23 of the first evaporator tube body 2 are embedded at This of second groove 342 and second heat exchanger 3a at least groove 34a, the condensation segment of the second evaporator tube body 2a 23a is embedded at first groove 341 and an at least groove 34b of third heat exchanger 3b.

In this way, enabling the first side 32 of the first heat exchanger 3 and the second side 33b of third heat exchanger 3b mutual Correspondence is sticked.

By above-mentioned, the condensation segment 23 of the first evaporator tube body 2 and first and second heat exchanger 3, the hot friendship of 3a progress It changes, which also carries out heat exchange, the condensation segment of the second evaporator tube body 2a with second heat exchanger 3a 23a and first and third heat exchanger 3,3b carry out heat exchange, which also carries out with the third heat exchanger 3b Heat exchange, first and second heat exchanger 3,3a absorb the heat of the condensation segment 23 of the first evaporator tube body 2, which hands over Parallel operation 3,3b absorb the heat of the condensation segment 23a of the second evaporator tube body 2a, and the first, second and third radiator tube body 4,4a, 4b are logical It crosses second working media and first, second and third radiator is walked to be back in the torrid zone, conducted heat with reaching to reduce heat exchange area and shorten Path and the effect of increase heat exchange efficiency.

Fig. 4 A, Fig. 4 B are please referred to, is the stereogram exploded view of the fourth embodiment of the hot transmission module of phase stream of the present invention and vertical Body constitutional diagram, and it is aided with A refering to fig. 1 and Figure 1B, as shown, the present embodiment part-structure and function and above-mentioned first embodiment It is identical, therefore will not be described in great detail herein, only the present embodiment is with not existing together for above-mentioned first embodiment, and at least an evaporator has for this One first evaporator 1 and one second evaporator 1a, an at least evaporator tube body have one first evaporator tube body 2 and one second Evaporator tube body 2a, first end, the second end 21,22 of the first evaporator tube body 2 are connected to the first chamber of first evaporator 1 11, the first chamber that first end, second end 21a, 22a of the second evaporator tube body 2a is connected to second evaporator 1a (is not drawn Show).

In the present embodiment, which is expressed as being attached at the second side 33 of the heat exchanger 3, Second evaporator tube body 2a system is expressed as being attached at the first side 32 of the heat exchanger 3, and however, it is not limited to this, this first Evaporator tube body 2 is attached at the first side 32 of the heat exchanger 3, alternatively, the first and second evaporator tube body 2,2a are sticked simultaneously It, can also in the first side 32 or the second side 33.

And in the present embodiment, which has one first groove 341 and one second groove 342, first evaporation The condensation segment 23 of device tube body 2 is embedded at second groove 342, the condensation segment 23a of the second evaporator tube body 2a be embedded at this One groove 341, but not limited to this, in other embodiments, which is expressed as with flat surfaces, this first, Two evaporator tube bodies 2,2a condensation segment 23,23a be attached at the flat surfaces of the heat exchanger 3.In other embodiments, this One, two evaporator tube bodies 2,2a condensation segment 23,23a be embedded at the first groove of the heat exchanger 3, the second groove 341,342 In flushed with the outer surface of the heat exchanger 3.

By above-mentioned, which all carries out heat exchange, the heat exchanger 3 with the heat exchanger 3 Absorb the heat of the condensation segment 23,23a, the radiator tube body 4 by second working media by the torrid zone walk to be back to this first and second Radiator, to reach the effect of reducing heat exchange area and shortening heat-transfer path and increase heat exchange efficiency.

Described above to be merely exemplary for the purpose of the present invention, and not restrictive, those of ordinary skill in the art understand, Without departing from the spirit and scope defined by the claims, can many modifications may be made, variation or equivalent, but will all fall Enter within protection scope of the present invention.

Claims (13)

1. a kind of hot transmission module of phase stream, it is characterized in that comprising:

An at least evaporator, inside have a first chamber, which is equipped with one first working media；

An at least evaporator tube body has a first end, a second end and a condensation between the first end, second end Section, the first end, second end be connected to this at least the first chamber of an evaporator and form the primary Ioops of first working media；

An at least heat exchanger, inside have a heat exchanger chambers, and an at least heat exchanger have a first side and One second side, the condensation segment of the evaporator tube body are sticked the first side or the second side；And

An at least radiator tube body, is connected at least heat exchanger chambers of a heat exchanger and at least a radiator, and for one the Two working media flows are to form the primary Ioops of second working media.

2. the hot transmission module of phase stream according to claim 1, it is characterised in that: at least an evaporator tube body also has for this The liquid segment of the steam section of the one adjacent first end and an adjacent second end, the condensation segment are connected to the steam section and the liquid Between section.

3. the hot transmission module of phase stream according to claim 1, it is characterised in that: an at least heat exchanger has at least One groove, an at least groove are arranged corresponding to an at least evaporator tube body, and the condensation segment of an at least evaporator tube body is embedding Set on an at least groove.

4. the hot transmission module of phase stream according to claim 3, it is characterised in that: an at least heat exchanger has one the One heat exchanger and a second heat exchanger, an at least radiator tube body have one first radiator tube body and one second heat dissipation Device tube body, an at least radiator have one first radiator and one second radiator, the first radiator tube body be connected to this One radiator, the second radiator tube body are connected to second radiator, and the condensation segment of an at least evaporator tube body is embedded at this The groove of the groove of first heat exchanger and the second heat exchanger.

5. the hot transmission module of phase stream according to claim 4, it is characterised in that: the second side of the first heat exchanger It corresponds to each other and is sticked with the first side of the second heat exchanger.

6. the hot transmission module of phase stream according to claim 5, it is characterised in that: an at least evaporator has one first Evaporator and one second evaporator, an at least evaporator tube body have one first evaporator tube body and one second evaporator tube Body, first end, the second end of the first evaporation tube body are connected to the first chamber of first evaporator, the second evaporator tube body First end, second end are connected to the first chamber of second evaporator, which also has a third heat exchanger, An at least radiator tube body also has a third radiator tube body, which also has a third radiator, should Third radiator tube body is connected to the third radiator and the third heat exchanger.

7. the hot transmission module of phase stream according to claim 6, it is characterised in that: the first heat exchanger this at least one Groove has one first groove and one second groove, and first groove, the second groove are respectively arranged on the of the first heat exchanger One side, second side, what the condensation segment of the first evaporator tube body was embedded at second groove and the second heat exchanger should An at least groove, the condensation segment of the second evaporator tube body be embedded at first groove and the third heat exchanger this at least one Groove.

8. the hot transmission module of phase stream according to claim 7, it is characterised in that: the first side of the first heat exchanger It corresponds to each other and is sticked with the second side of the third heat exchanger.

9. the hot transmission module of phase stream according to claim 3, it is characterised in that: an at least radiator is water cooling row And have a second chamber and one pumping, an at least radiator tube body have a third end and one the 4th end, this at least one dissipate Hot device tube body is connected to the second chamber, the pumping and the heat exchanger chambers and forms the circuit of second working media.

10. the hot transmission module of phase stream according to claim 9, it is characterised in that: an at least evaporator has one the One evaporator and one second evaporator, an at least evaporator tube body have one first evaporator tube body and one second evaporator tube Body, first end, the second end of the first evaporation tube body are connected to the first chamber of first evaporator, the second evaporator tube body First end, second end are connected to the first chamber of second evaporator.

11. the hot transmission module of phase stream according to claim 10, it is characterised in that: an at least groove has one first Groove and one second groove, the condensation segment of the first evaporator tube body are embedded at second groove, the second evaporator tube body Condensation segment is embedded at first groove.

12. the hot transmission module of phase stream according to claim 1, it is characterised in that: an at least heat exchanger is a water Cold head.

13. the hot transmission module of phase stream according to claim 2, it is characterised in that: the liquid segment is equipped with a capillary structure.