CN107613732A - Heat-sinking structure of chassis - Google Patents

Abstract

The present invention is a kind of heat-sinking structure of chassis, comprising：One machine case body, with a frame and a heat radiation module and an at least heat transmission unit, the frame is supplied to a few servomechanism main frame and set, the heat radiation module has an at least heat-sink unit and plural fan unit, the heat-sink unit is arranged between the fan unit and the servomechanism main frame, the heat transmission unit has an at least first end and one second end, one heating module of first end in contact servomechanism main frame, and second end in contact heat-sink unit, the heat transmission unit is by the heat transfer of the heating module to the heat-sink unit, the heat-sink unit is radiated through the fan unit；Through the design of the present invention, it can effectively reach radiating effect and space the effect of using effect of the inner space for improving the machine case body.

Description

Heat-sinking structure of chassis

【Technical field】

The present invention is a kind of field of radiating, more particularly in a kind of heat-sinking structure of chassis.

【Background technology】

Press, recently as the progress of science and technology, servomechanism main frame running speed improves constantly, also thus inside servomechanism main frame The heating power of electronic component is constantly soaring.In order to prevent the electronic component overheat inside servomechanism main frame, and cause electronics first Part fails, it is necessary to provides electronic component enough heat dissipations, therefore known sets radiator structure on servomechanism main frame.

It is well known, however, that the radiator structure being arranged on servomechanism main frame radiates in itself to servomechanism main frame, can cause The volume of extra increase servomechanism main frame, especially servomechanism main frame are stacked in the cabinet inside of carrying servomechanism main frame, often More than one radiator structure is set respectively on one servomechanism main frame, the servomechanism host number for causing known cabinet to carry It is less, in the case where the volume of servomechanism main frame and its radiator structure can not be reduced, the operation efficiency of enclosure interior and Radiating effect is poor.

Therefore how to solve the above-mentioned problem commonly used and missing, as phase of the inventor of this case with being engaged in the industry Shutout business is desired most ardently where the direction of research improvement.

【The content of the invention】

Therefore, it is to provide effectively to solve above-mentioned one of problem, present invention purpose and reduces heat radiation module heat effect is arrived this The inner space of machine case body, the heat-sinking structure of chassis for contributing to the radiating effect of the inner space of machine case body to improve.

Another object of the present invention is the case radiation for providing the inner space for avoiding heat radiation module from taking machine case body Structure.

Another object of the present invention is that providing heat pipe can horizontally or vertically be set with respect to heating module, can improve cabinet sheet The heat-sinking structure of chassis using elasticity of the inner space of body.

For the above-mentioned purpose, the present invention provides a kind of heat-sinking structure of chassis, is set to be supplied to a few servomechanism main frame, should Servomechanism main frame has a heating module, and the heat-sinking structure of chassis includes：One machine case body, there is a frame, a heat radiation module And an at least heat transmission unit, the frame are set for an at least servomechanism main frame, the heat radiation module has at least one radiating single Member and plural fan unit, an at least heat-sink unit are arranged between the fan unit and an at least servomechanism main frame, should An at least heat transmission unit has an at least first end and one second end, an at least one first end in contact at least servomechanism master The heating module of machine, and an at least heat-sink unit for second end in contact heat radiation module, at least a heat transmission unit should for this The heat transfer of heating module is to an at least heat-sink unit, and an at least heat-sink unit is radiated through the fan unit.

Implement one, the heating module has an at least pyrotoxin and an at least pedestal, and at least a pedestal is arranged at for this This is at least on a pyrotoxin, at least one first end in contact of an an at least heat transmission unit at least pedestal.

Implement one, an at least first end for an at least heat transmission unit is an a free end grafting at least base Seat, the second end of an at least heat transmission unit are fixed on an at least heat-sink unit for the heat radiation module for a fixing end.

Implement one, an at least first end for an at least heat transmission unit is fixed on an at least base for a fixing end On seat, the second end of an at least heat transmission unit for the free end grafting heat radiation module an at least heat-sink unit.

Implement one, an at least first end for an at least heat transmission unit is an a free end grafting at least base Seat, the second end of an at least heat transmission unit are an at least heat-sink unit for another free end grafting heat radiation module.

Implement one, an at least heat-sink unit for an at least heat radiation module has one first heat-sink unit and one second Heat-sink unit, first and second heat-sink unit clamp the second end of an at least heat transmission unit.

To implement one, the heating module has an at least pyrotoxin, and at least the one first of an at least heat transmission unit An end in contact at least pyrotoxin.

Implement one, an at least first end for an at least heat transmission unit is fixed at least one hair for a fixing end On thermal source, the second end of an at least heat transmission unit is plugged at least one radiating list of the heat radiation module for a free end Member.

Implement one, an at least heat-sink unit for the heat radiation module has one first heat-sink unit and one second radiating single Member, first and second heat-sink unit clamp the second end of an at least heat transmission unit.

Implement one, the second end of an at least heat transmission unit is with respect to the heating module in parallel direction.

Implement one, an at least heat transmission unit has a bending segment, the bending segment be located at first and second end it Between, the second end of an at least heat transmission unit is with respect to the heating module in vertical direction.

Implement one, an at least heat-sink unit for the heat radiation module is that a radiating fin group, a water-cooled module and one are equal Warm plate any of which or any combination therein.

Implement one, the heat radiation module is arranged at the side abutment surface of the machine case body in one in the machine case body An external environment outside portion space and the machine case body.

Implement one, an at least heat transmission unit is that a heat pipe, primary Ioops formula heat pipe and another temperature-uniforming plate are wherein appointed One or therein any combination.

By this design of the present invention, heat-sinking structure of chassis of the invention can reach the inner space for improving the machine case body Radiating effect and space use the effect of elastic.

【Brief description of the drawings】

The purpose of following schema is to enable the invention to be more easily understood, and can encyclopaedize those schemas in this article, and make It forms some of specific embodiment.Through specific embodiment herein and corresponding schema is referred to, in order to solve in detail The specific embodiment of the present invention is said, and to illustrate the action principle of invention.

Fig. 1 is the three-dimensional exploded view of the first embodiment of heat-sinking structure of chassis of the present invention；

Fig. 2 is the three-dimensional combination figure of the first embodiment of heat-sinking structure of chassis of the present invention；

Fig. 3 is the heat radiation module and heat transmission unit side view of the first embodiment of heat-sinking structure of chassis of the present invention；

Fig. 4 is the heat radiation module and heat transmission unit three-dimensional combination figure of the first embodiment of heat-sinking structure of chassis of the present invention；

Fig. 5 is the alternate embodiment side view of the first embodiment of heat-sinking structure of chassis of the present invention；

Fig. 6 is the three-dimensional combination figure of the second embodiment of heat-sinking structure of chassis of the present invention；

Fig. 7 is the three-dimensional combination figure of the 3rd embodiment of heat-sinking structure of chassis of the present invention；

Fig. 8 is the heat radiation module and heat transmission unit three-dimensional combination figure of the 3rd embodiment of heat-sinking structure of chassis of the present invention；

Fig. 9 is the heat radiation module and heat transmission unit three-dimensional combination figure of the fourth embodiment of heat-sinking structure of chassis of the present invention；

Figure 10 is the heat radiation module and heat transmission unit side view of the 5th embodiment of heat-sinking structure of chassis of the present invention；

Figure 11 is the heat radiation module and heat transmission unit three-dimensional combination figure of the 5th embodiment of heat-sinking structure of chassis of the present invention；

Figure 12 is one of the 5th embodiment of heat-sinking structure of chassis of the present invention alternate embodiment side view；

Figure 13 is the heat radiation module and heat transmission unit side view of the sixth embodiment of heat-sinking structure of chassis of the present invention；

Figure 14 is the heat radiation module and heat transmission unit three-dimensional combination figure of the sixth embodiment of heat-sinking structure of chassis of the present invention.

Primary symbols explanation：

Heat-sinking structure of chassis 10

Machine case body 110

Frame 111

Heat radiation module 112

Heat-sink unit 112a

First heat-sink unit 112a1

Second heat-sink unit 112a2

Fan unit 112b

Heat transmission unit 114a, 114b, 114c

First end 1141a, 1141b, 1141c

Second end 1142a, 1142b, 1142c

Bending segment 1143a, 1143b, 1143c

Inner space 115

External environment 116

Servomechanism main frame 20

Generate heat module 210

Pyrotoxin 211

Pedestal 212.

【Embodiment】

The above-mentioned purpose and its structure of the present invention and characteristic functionally, will be said according to the preferred embodiment of institute's accompanying drawings It is bright.

Refer to Fig. 1,2,3 and 4, be heat-sinking structure of chassis of the present invention first embodiment three-dimensional exploded view, three-dimensional group Figure, heat radiation module and heat transmission unit side view, heat radiation module and heat transmission unit three-dimensional combination figure are closed, as illustrated, this hair Bright described heat-sinking structure of chassis 10 includes a machine case body 110, and the machine case body 110 has a frame 111, a radiating mould The heat transmission unit 114a of group 112 and at least one, the frame 111 are supplied to a few servomechanism main frame 20 and set.

In the present embodiment, the frame 111 is expressed as setting for a servomechanism main frame 20.The servomechanism main frame 20 has One heating module 210, the heating module 210 have an at least pyrotoxin 211 and an at least pedestal 212.In the present embodiment, should Heating module 210 is expressed as having a pyrotoxin 211 and a pedestal 212, and the pedestal 212 is arranged on the pyrotoxin 211, the hair Thermal source 211 is an electronic component, but is not limited thereto, and application of the present invention not to the heat-sinking structure of chassis 10 limits System.Furthermore in the present embodiment, the machine case body 110 is expressed as the machine case body of semi open model, but is not limited thereto, The machine case body 110 can also be expressed as completely open machine case body (namely without side wall, such as support body) or envelope The machine case body of enclosed.

The heat radiation module 112 is arranged at the relatively extraneous side of the machine case body 110, and abutment surface is to the machine case body The external environment 116 outside an inner space 115 and the machine case body 110 in 110, to by the machine case body 110 The Heat transmission in portion space 115 is radiated to the external environment 116, and the heat radiation module 112 is arranged at this in the present embodiment The rear side of machine case body 110.And the heat radiation module 112 has an at least heat-sink unit 112a and plural fan unit 112b, In the present embodiment, the heat radiation module 112 is expressed as having a heat-sink unit 112a and plural fan unit 112b.The radiating is single First 112a is arranged between fan unit 112b and the servomechanism main frame 20, and fan unit 112b is to by the heat-sink unit 112a heat carries out heat exchange radiating to the external environment 116.In the present embodiment, the heat-sink unit of the heat radiation module 112 112a is a radiating fin group, a water-cooled module and a temperature-uniforming plate any of which.But it is not limited thereto, in an alternate embodiment In, the heat-sink unit 112a of the heat radiation module 112 can also be expressed as the radiating fin group and the water-cooled module and the samming The combination of plate.In addition, the heat-sink unit 112a of the heat radiation module 112 of the present invention be not limited to it is described above, it is every to can reach Such as the spirit of the heat-sink unit 112a of the heat radiation module 112 of this case function person, the as present invention.

The heat transmission unit 114a has an at least first end 1141a and one second end 1142a, in the present embodiment, Heat transmission unit 114a is expressed as having a first end 1141a and one second end 1142a.First end 1141a contacts this and watched The heating module 210 of device main frame 20 is taken, and second end 1142a contacts the heat-sink unit 112a of the heat radiation module 112, due to this The pedestal 212 of heating module 210 is arranged on the pyrotoxin 211, therefore makes heat transmission unit 114a first end 1141a contact The pedestal 212 of the heating module 210.And in the present embodiment, the first end 1141a of the heat transmission unit 114a is free for one The grafting pedestal 212 is held, the second end 1142a of the heat transmission unit 114a is fixed on the heat radiation module 112 for a fixing end Heat-sink unit 112a.Heat transmission unit 114a is by the radiating list of the heat transfer of the heating module 210 to the heat radiation module 112 First 112a, then the fan unit 112b heat-sink unit 112a Heat transmission is radiated to the external environment 116.Wherein this dissipates Hot cell 112a and the fan unit 112b heat dissipation are specially heat transfer or thermal convection current or heat radiation or its combination.

In the present embodiment, the first end 1141a of the heat transmission unit 114a extends lengthwise into this along a horizontal direction Second end 1142a, and the second end 1142a with respect to the heating module 210 in parallel direction.But implement in another substitute, As shown in figure 5, there is the heat transmission unit 114a bending segment 1143a, bending segment 1143a to be located at first and second end Between 1141a, 1142a, make heat transmission unit 114a the second end 1142a with respect to the heating module 211 in vertical direction.

It is real substituting and in the present embodiment, the heat transmission unit 114a is expressed as a heat pipe, but is not limited thereto Apply in example, the heat transmission unit 114a can also be expressed as a temperature-uniforming plate or primary Ioops formula heat pipe.In another alternate embodiment In, the heat transmission unit 114 can also be expressed as the heat pipe and the temperature-uniforming plate or loop hot-pipe or the gold of any tool heat conduction Belong to any combination therein.In addition, the heat transmission unit 114a of the present invention be not limited to it is described above, it is every can reach as The heat transmission unit 114a of this case function person, it is the spirit of the present invention.

By this design of the present invention, the heat radiation module 112 is fixed in the frame 111, and heat transmission unit 114a it Second end 1142a is fixed on the heat-sink unit 112a of the heat radiation module 112.Therefore, the servomechanism main frame 20 can be from the external ring Border is set onto the frame 111 of the machine case body 110, and thereby, heat transmission unit 114a first end 1141a is plugged into this and watched Take the pedestal 212 of the heating module 210 of device main frame 20.When the pyrotoxin 211 of the heating module 210 of the servomechanism main frame 20 is being transported Produce heat during work, the pedestal 212 absorbs the heat of the pyrotoxin 211, heat transmission unit 114a first end 1141a from this Pedestal 212 absorbs the heat of the pyrotoxin 211.

When heat transmission unit 114a is the heat pipe or another temperature-uniforming plate and loop hot-pipe, the heat transmission unit Be used as the stream of working fluid provided with a chamber inside 114a, and the working fluid being contained in the chamber, via evaporate, it is cold The solidifying phase change waited and movement etc., and carry out the transfer of heat.Using the heat pipe or the member of another temperature-uniforming plate as distal end heat conduction Part, absorbed heat and evaporated in first end 1141a using the low boiling working fluid of filling inside the heat pipe or another temperature-uniforming plate, be in The working fluid of steam moves to second end 1142a, in the heat transfer that the second end 1142a produces the pyrotoxin 211 extremely The heat-sink unit 112a of the heat radiation module 112, fan unit 112b is recycled to arrive the Heat transmission on heat-sink unit 112a The external environment 116 radiates.

Thereby, heat radiation module 112 is reduced by the inner space 115 of heat effect to the machine case body 110, to improve the cabinet The radiating effect of the inner space 115 of body 110.Meanwhile the heat radiation module 112 can be avoided to take the interior of the machine case body 110 Portion space 115, and heat transmission unit 114a can horizontally or vertically be set with respect to the heating module 210, greatly improve the cabinet The inner space 115 of body 110 uses elasticity.

Referring to Fig. 6, for heat-sinking structure of chassis of the present invention second embodiment three-dimensional combination figure, and be aided with refering to Fig. 1 ~ 5, as illustrated, the present embodiment part-structure and function are identical with aforementioned first embodiment, therefore it will not be described in great detail herein, only this reality Apply example and aforementioned first embodiment do not exist together for, the frame 111 is expressed as stacking for two servomechanism main frames 20 and is arranged at intervals, and The heat radiation module 112 have to should servomechanism main frame 20 two heat-sink unit 112a, while the machine case body 110 have two heat Conduction unit 114a is separately positioned between the servomechanism main frame 20 and heat-sink unit 112a, and heat transmission unit 114a First end 1141a contacts the heating module 210 of the servomechanism main frame 20, and heat transmission unit 114a the second end respectively 1142a contacts heat-sink unit 112a respectively.In addition, the servomechanism main frame 20 of the present invention is not limited to one or two, In other embodiment, it is possible to have more than two servomechanism main frames 20, and with respective amount heat-sink unit 112a and Heat transmission unit 114a；

In addition can also have multiple heating modules 210 among a servomechanism main frame 20 certainly, utilize single heat transmission unit 114a Series connection thermal contact conductance is carried out to each heating module 210 and/or by plural heat transmission unit 114a for each heating module 210 Contact carries out heat conduction to heat-sink unit and carries out heat exchange radiating.

Fig. 7,8 are referred to, are three-dimensional combination figure, heat radiation module and the heat of the 3rd embodiment of heat-sinking structure of chassis of the present invention Conduction unit three-dimensional combination figure, and be aided with refering to Fig. 1 ~ 6, as illustrated, the present embodiment part-structure and function and foregoing second Embodiment is identical, therefore will not be described in great detail herein, and only the present embodiment and aforementioned first embodiment do not exist together for the heat radiation module 112 have to should servomechanism main frame 20 a heat-sink unit 112a, while the machine case body 110 only has a heat transmission unit 114a is arranged between the servomechanism main frame 20 and heat-sink unit 112a, and heat transmission unit 114a has in stacking interval The first end 1141a of ground two and one second end 1142a, and first end 1141a contacts the heating module respectively in compartment of terrain is stacked 210 pedestal 212.

Referring to Fig. 9, the heat radiation module and heat transmission unit for the fourth embodiment of heat-sinking structure of chassis of the present invention are three-dimensional Constitutional diagram, and be aided with refering to Fig. 1 ~ 5, as illustrated, the present embodiment part-structure and function are identical with aforementioned first embodiment, therefore It will not be described in great detail herein, only the present embodiment and aforementioned first embodiment do not exist together for the heating module of the servomechanism main frame 20 210 be expressed as having plural pyrotoxin 211 and to should pyrotoxin 211 plural pedestal 212, the pyrotoxin 211 is parallel to each other Set, and the pedestal 212 is separately positioned on the pyrotoxin 211, and heat transmission unit 114a is with parallel interval two First end 1141a and one second end 1142a, and first end 1141a parallel intervals contact respectively the heating module 210 should Pedestal 212.In addition, the pyrotoxin 211 and pedestal 212 of the heating module 210 of the present invention are not limited to one or two, at it In his embodiment, it is possible to have more than two pyrotoxins 211 and pedestal 212, and the heat transmission unit with respective amount 114a first end 1141a.

Figure 10,11 are referred to, are the heat radiation module and heat transmission unit of the 5th embodiment of heat-sinking structure of chassis of the present invention Side view, heat radiation module and heat transmission unit three-dimensional combination figure, and be aided with refering to Fig. 1 ~ 5, as illustrated, the present embodiment part is tied Structure and function are identical with aforementioned first embodiment, therefore will not be described in great detail herein, only the present embodiment and aforementioned first embodiment no Exist together in the present embodiment, the first end 1141b of the heat transmission unit 114b is fixed on the pedestal 212 for a fixing end On, the second end 1142 of the heat transmission unit 114b for the free end grafting heat radiation module 112 heat-sink unit 112a.And The heat-sink unit 112a of the heat radiation module 112 has one first heat-sink unit 112a1 and one second heat-sink unit 112a2, should First and second heat-sink unit 112a1,112a2 clamps heat transmission unit 114b the second end 1142b.

In addition, in an alternative em bodiment, as shown in figure 12, the heating module 210 of the servomechanism main frame 20 has should Pyrotoxin 211 simultaneously omits the pedestal 212, and the first end 1141b of the heat transmission unit 114b is fixed on the pyrotoxin 211, The second end 1142b of the heat transmission unit 114b is plugged on the heat-sink unit 112a of the heat radiation module 112.

Thereby, make heat transmission unit 114b first end 1141b be fixed on the servomechanism main frame 20 the pedestal 212 or On 211 on pyrotoxin, and then make the servomechanism main frame 20 that the frame 111 to the machine case body 110 can be set from the external environment On, by heat transmission unit 114b the second end 1142b be plugged into the heat-sink unit 112a of the heat radiation module 112 by this First, clamped by two heat-sink unit 112a1,112a2, to reach the effect of identical with aforementioned first embodiment.

Figure 13,14 are referred to, are the heat radiation module and heat transmission unit of the sixth embodiment of heat-sinking structure of chassis of the present invention Side view, heat radiation module and heat transmission unit three-dimensional combination figure, and be aided with refering to Fig. 1 ~ 4 and 10 ~ 12, as illustrated, this implementation Example part-structure and function are identical with foregoing 5th embodiment, therefore will not be described in great detail herein, only the present embodiment and the foregoing 5th reality It is the free end grafting pedestal 212, the heat to apply not existing together for, heat transmission unit 114c first end 1141c for example Conduction unit 114c the second end 1142c is the heat-sink unit 112a of another free end grafting heat radiation module 112.

Implement one, heat transmission unit 114c first end 1141c is plugged to the servomechanism main frame 20, then again will The servomechanism main frame 20 is arranged in the frame 111, heat transmission unit 114c the second end 1142c is plugged to the radiating mould The heat-sink unit 112a of group 112.In another implementation, heat transmission unit 114c the second end 1142c is plugged to the radiating mould The servomechanism main frame 20, is then arranged in the frame 111, makes the heat transmission unit by the heat-sink unit 112a of group 112 again 114c first end 1141c is plugged to the servomechanism main frame 20.Thereby reach the effect of identical with foregoing 5th embodiment.

Therefore, this is generated heat by the heat transmission unit 114a, 114b, 114c of the heat-sinking structure of chassis 10 of the present invention The heat transfer of module 210 is to the heat radiation module 112, and the heat radiation module 112 is radiated through fan unit 112b, and then The effect of can reach the radiating effect for the inner space 115 for improving the machine case body 110.Simultaneously because can be by plural servomechanism master Corresponding plural heat transmission unit 114a, 114b, the 114c and plural heat-sink unit 112a of machine 20 is set, or by plural servomechanism main frame A 20 corresponding heat transmission unit 114a, 114b, 114c and heat-sink unit 112a are set, or by answering in a servomechanism main frame 20 A corresponding heat transmission unit 114a, 114b, the 114c and heat-sink unit 112a of number heating module 210 is set, and the heat radiation module 112 are not required to be arranged on the inner space 115 for avoiding taking the machine case body 110 on the servomechanism main frame 20, while the heat transfer Unit 114a, 114b, 114c can horizontally or vertically be set with respect to the heating module 210, therefore improve the machine case body 110 Inner space 115 uses elasticity.

The present invention is described in detail above, only as described above, only the preferred embodiments of the invention, when The scope of implementation of the invention can not be limited.I.e. all equivalent changes and modifications made according to the present patent application scope etc., all should still belong to The patent covering scope of the present invention.

Claims (14)

1. a kind of heat-sinking structure of chassis, it is characterised in that set to be supplied to a few servomechanism main frame, an at least servomechanism master Machine has a heating module, and the heat-sinking structure of chassis includes：

One machine case body, has a frame, a heat radiation module and an at least heat transmission unit, and the frame supplies an at least servomechanism Main frame is set, and the heat radiation module has an at least heat-sink unit and plural fan unit, and at least a heat-sink unit is arranged at this for this Between fan unit and an at least servomechanism main frame, an at least heat transmission unit has an at least first end and one second End, the heating module of an at least one first end in contact at least servomechanism main frame, and second end in contact heat radiation module An at least heat-sink unit, an at least heat transmission unit by the heat transfer of the heating module to an at least heat-sink unit, and should An at least heat-sink unit is radiated through the fan unit.

2. heat-sinking structure of chassis according to claim 1, it is characterised in that the heating module has an at least pyrotoxin And an at least pedestal, an at least pedestal are arranged at this at least on a pyrotoxin, at least the 1 of an at least heat transmission unit An end thereof contacts at least pedestal.

3. heat-sinking structure of chassis according to claim 2, it is characterised in that at least the one of an at least heat transmission unit First end is an a free end grafting at least pedestal, and the second end of an at least heat transmission unit is fixed on for a fixing end An at least heat-sink unit for the heat radiation module.

4. heat-sinking structure of chassis according to claim 2, it is characterised in that at least the one of an at least heat transmission unit First end is that a fixing end is fixed on this at least on a pedestal, and the second end of an at least heat transmission unit is inserted for a free end Connect an at least heat-sink unit for the heat radiation module.

5. heat-sinking structure of chassis according to claim 2, it is characterised in that at least the one of an at least heat transmission unit First end is an a free end grafting at least pedestal, and the second end of an at least heat transmission unit is another free end grafting An at least heat-sink unit for the heat radiation module.

6. according to the heat-sinking structure of chassis described in claim 4,5, it is characterised in that at least the one of an at least heat radiation module Heat-sink unit has one first heat-sink unit and one second heat-sink unit, and first and second heat-sink unit clamps at least one heat and passed Lead the second end of unit.

7. heat-sinking structure of chassis according to claim 1, it is characterised in that the heating module is with least one heating Source, at least one first end in contact of an an at least heat transmission unit at least pyrotoxin.

8. heat-sinking structure of chassis according to claim 7, it is characterised in that at least the one of an at least heat transmission unit First end is that a fixing end is fixed on this at least on a pyrotoxin, and the second end of an at least heat transmission unit is a free end It is plugged on an at least heat-sink unit for the heat radiation module.

9. heat-sinking structure of chassis according to claim 8, it is characterised in that an at least heat-sink unit for the heat radiation module With one first heat-sink unit and one second heat-sink unit, first and second heat-sink unit clamp an at least heat transmission unit it Second end.

10. heat-sinking structure of chassis according to claim 1, it is characterised in that the second of an at least heat transmission unit The relative heating module in end is in parallel direction.

11. according to the heat-sinking structure of chassis described in claim 3,4,5, it is characterised in that at least heat transmission unit tool There is a bending segment, the bending segment is located between first and second end, and the second end of an at least heat transmission unit is with respect to the heating mould Group is in vertical direction.

12. according to the heat-sinking structure of chassis described in claim 3,4,5, it is characterised in that at least the one of the heat radiation module dissipates Hot cell is a radiating fin group, a water-cooled module and a temperature-uniforming plate any of which or any combination therein.

13. heat-sinking structure of chassis according to claim 1, it is characterised in that the heat radiation module is arranged at the cabinet sheet The side abutment surface of body is to the inner space in the machine case body and the external environment outside the machine case body.

14. heat-sinking structure of chassis according to claim 1, it is characterised in that an at least heat transmission unit is a heat Pipe, primary Ioops formula heat pipe and another temperature-uniforming plate any of which or any combination therein.