CN207625974U - Heat-sinking structure of chassis - Google Patents
Heat-sinking structure of chassis Download PDFInfo
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- CN207625974U CN207625974U CN201721267188.1U CN201721267188U CN207625974U CN 207625974 U CN207625974 U CN 207625974U CN 201721267188 U CN201721267188 U CN 201721267188U CN 207625974 U CN207625974 U CN 207625974U
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- sink unit
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Abstract
The utility model is a kind of heat-sinking structure of chassis, including:One machine case body, with a rack and a heat radiation module and an at least heat transmission unit, the rack is arranged for an at least servomechanism host, the heat radiation module has an at least heat-sink unit and plural fan unit, the heat-sink unit is set between the fan unit and the servomechanism host, the heat transmission unit has an at least first end and a second end, one fever module of first end in contact servomechanism host, and second end in contact heat-sink unit, the heat transmission unit is by the heat transfer of the fever module to the heat-sink unit, the heat-sink unit radiates through the fan unit;Through the design of the utility model, it can effectively reach the heat dissipation effect for the inner space for improving the machine case body and the effect of space uses effect.
Description
【Technical field】
The utility model is a kind of field of radiating, more particularly in a kind of heat-sinking structure of chassis.
【Background technology】
It presses, recently as the progress of science and technology, servomechanism host running speed is continuously improved, also thus in servomechanism host
The heating power of the electronic component in portion is constantly soaring.In order to prevent the electronic component overheat inside servomechanism host, and lead to electricity
Subcomponent fails, it is necessary to provide electronic component enough heat dissipations, therefore known radiator structure be arranged on servomechanism host.
It is well known, however, that the radiator structure being arranged on servomechanism host radiates to servomechanism host itself, can cause
The additional volume for increasing servomechanism host, especially servomechanism host are stacked in the cabinet inside of carrying servomechanism host, often
More than one radiator structure is respectively set on one servomechanism host, the servomechanism host number for causing known cabinet that can carry
It is less, in the case where the volume of servomechanism host and its radiator structure can not be reduced, the operation efficiency of enclosure interior and
Heat dissipation effect is poor.
Therefore how to solve the problems, such as above-mentioned commonly using and missing, the as inventor of this case and the phase for being engaged in the industry
Shutout quotient wants the direction place person of research improvement.
【Utility model content】
Therefore, be effectively solve the problems, such as it is above-mentioned, one of the utility model be designed to provide reduce heat radiation module will be hot
It is applied to the inner space of the machine case body, the case radiation knot for contributing to the heat dissipation effect of the inner space of machine case body to improve
Structure.
The another object of the utility model is to provide the cabinet for the inner space for avoiding heat radiation module from occupying machine case body
Radiator structure.
The another object of the utility model is that providing heat pipe can be horizontally or vertically arranged with respect to fever module, can be improved machine
The heat-sinking structure of chassis using elasticity of the inner space of case ontology.
In order to achieve the above object, the utility model provides a kind of heat-sinking structure of chassis, to be set for an at least servomechanism host
It sets, which includes with a fever module, the heat-sinking structure of chassis:One machine case body has a rack, a heat dissipation
Module and at least a heat transmission unit, the rack are arranged for an at least servomechanism host, which dissipates at least one
Hot cell and plural fan unit, an at least heat-sink unit be set to the fan unit and an at least servomechanism host it
Between, an at least heat transmission unit have an at least first end and a second end, at least one first end in contact this at least one watches
Take the fever module of device host, and an at least heat-sink unit for second end in contact heat radiation module, an at least heat transfer list
Member by the heat transfer of the fever module to an at least heat-sink unit, and an at least heat-sink unit through the fan unit carry out
Heat dissipation.
Implement one, the fever module has an at least pyrotoxin and an at least pedestal, and at least a pedestal is set to for this
On an at least 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 at least heat-sink unit that a fixing end is fixed on the heat radiation module.
Implement one, an at least first end for an at least heat transmission unit is that a fixing end is fixed on an at least base
On seat, the second end of an at least heat transmission unit is an at least heat-sink unit for the free end grafting heat radiation module.
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
The second end of an at least heat transmission unit is clamped in heat-sink unit, first and second heat-sink unit.
To implement one, the fever module is with 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 that a fixing end is fixed at least one hair
On heat source, the second end of an at least heat transmission unit is at least one heat dissipation list that a free end is plugged on the heat radiation module
Member.
Implement one, an at least heat-sink unit for the heat radiation module has one first heat-sink unit and one second heat dissipation single
The second end of an at least heat transmission unit is clamped in member, first and second heat-sink unit.
Implement one, the second end of an at least heat transmission unit is with respect to the fever module in parallel direction.
One implement, an at least heat transmission unit have 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 in the vertical direction with respect to the fever module.
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 in which arbitrary combination.
Implement one, the heat radiation module is set to 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 in which arbitrary combination.
By this design of the utility model, the heat-sinking structure of chassis of the utility model, which can reach, improves the interior of the machine case body
The heat dissipation effect in portion space and space use elastic effect.
【Description of the drawings】
The purpose of following schema is that the utility model is enable to be more easily understood, and can encyclopaedize those figures in this article
Formula, and it is made to constitute some of specific embodiment.Through specific embodiment herein and refer to corresponding schema, in order to
The specific embodiment of the utility model is explained in detail, and to illustrate the action principle of utility model.
Fig. 1 is the stereogram exploded view of the first embodiment of the utility model heat-sinking structure of chassis;
Fig. 2 is the three-dimensional combination figure of the first embodiment of the utility model heat-sinking structure of chassis;
Fig. 3 is the heat radiation module and heat transmission unit side view of the first embodiment of the utility model heat-sinking structure of chassis;
Fig. 4 is heat radiation module and the combination of heat transmission unit solid of the first embodiment of the utility model heat-sinking structure of chassis
Figure;
Fig. 5 is the alternate embodiment side view of the first embodiment of the utility model heat-sinking structure of chassis;
Fig. 6 is the three-dimensional combination figure of the second embodiment of the utility model heat-sinking structure of chassis;
Fig. 7 is the three-dimensional combination figure of the 3rd embodiment of the utility model heat-sinking structure of chassis;
Fig. 8 is heat radiation module and the combination of heat transmission unit solid of the 3rd embodiment of the utility model heat-sinking structure of chassis
Figure;
Fig. 9 is heat radiation module and the combination of heat transmission unit solid of the fourth embodiment of the utility model heat-sinking structure of chassis
Figure;
Figure 10 is the heat radiation module and heat transmission unit side view of the 5th embodiment of the utility model heat-sinking structure of chassis;
Figure 11 is the heat radiation module and heat transmission unit solid group of the 5th embodiment of the utility model heat-sinking structure of chassis
Close figure;
Figure 12 is one of the 5th embodiment of the utility model heat-sinking structure of chassis alternate embodiment side view;
Figure 13 is the heat radiation module and heat transmission unit side view of the sixth embodiment of the utility model heat-sinking structure of chassis;
Figure 14 is the heat radiation module and heat transmission unit solid group of the sixth embodiment of the utility model heat-sinking structure of chassis
Close figure.
Primary symbols explanation:
Heat-sinking structure of chassis 10
Machine case body 110
Rack 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 host 20
Generate heat module 210
Pyrotoxin 211
Pedestal 212.
【Specific implementation mode】
The above-mentioned purpose and its structure of the utility model and characteristic functionally, will be according to the preferred embodiment of institute's accompanying drawings
It is explained.
Please refer to Fig.1,2,3 and 4, be the stereogram exploded view, vertical of the first embodiment of the utility model heat-sinking structure of chassis
Body constitutional diagram, heat radiation module and heat transmission unit side view, heat radiation module and heat transmission unit three-dimensional combination figure, as shown,
Heat-sinking structure of chassis 10 described in the utility model include a machine case body 110, the machine case body 110 have a rack 111,
One heat radiation module 112 and at least a heat transmission unit 114a, the rack 111 are arranged for an at least servomechanism host 20.
In the present embodiment, which is expressed as being arranged for a servomechanism host 20.The servomechanism host 20 has
One fever module 210, the fever module 210 have an at least pyrotoxin 211 and an at least pedestal 212.In the present embodiment, should
Fever module 210 is expressed as that there is a pyrotoxin 211 and a pedestal 212, the pedestal 212 to be set on the pyrotoxin 211, the hair
Heat source 211 is an electronic component, and however, it is not limited to this, and the utility model does not carry out the application of the heat-sinking structure of chassis 10
Limitation.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 to
This, the machine case body 110 can also be expressed as open machine case body (namely without side wall, such as frame body) completely or
Enclosed machine case body.
The heat radiation module 112 is set to 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 will be in the machine case body 110
The Heat transmission in portion space 115 radiates to the external environment 116, and the heat radiation module 112 is set to 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, which is expressed as having a heat-sink unit 112a and plural fan unit 112b.The heat dissipation is single
First 112a is set between fan unit 112b and the servomechanism host 20, and fan unit 112b is to by the heat-sink unit
The heat of 112a carries out heat exchange heat dissipation 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.However, it is not limited to this, 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 utility model be not limited to it is described above, it is every can
Reach the function person of the heat-sink unit 112a of the heat radiation module 112 such as this case, the as spirit of the utility model.
The heat transmission unit 114a has an an at least first end 1141a and second end 1142a, in the present embodiment,
Heat transmission unit 114a is expressed as having an a first end 1141a and second end 1142a.First end 1141a contacts this and watches
The fever module 210 of device host 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 fever module 210 is set on the pyrotoxin 211, therefore enables the first end 1141a contacts of heat transmission unit 114a
The pedestal 212 of the fever module 210.And in the present embodiment, the first end 1141a of the heat transmission unit 114a is one free
The grafting pedestal 212 is held, the second end 1142a of the heat transmission unit 114a is that a fixing end is fixed on the heat radiation module 112
Heat-sink unit 112a.Heat transmission unit 114a is by the heat dissipation list of the heat transfer of the fever module 210 to the heat radiation module 112
First 112a, then the fan unit 112b Heat transmission of heat-sink unit 112a is radiated to the external environment 116.Wherein this is dissipated
The heat dissipation of hot cell 112a and fan unit 112b are specially heat transfer or thermal convection current or heat radiation or combinations thereof.
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 second end 1142a with respect to the fever module 210 in parallel direction.But implement in another replacement,
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 the second end 1142a of heat transmission unit 114a in the vertical direction with respect to the fever module 211.
And in the present embodiment, the heat transmission unit 114a is expressed as a heat pipe, and however, it is not limited to this, real substituting
It applies 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 arbitrary combination therein.In addition, the heat transmission unit 114a of the utility model be not limited to it is described above, it is every to can reach
Such as the function person of the heat transmission unit 114a of this case, the as spirit of the utility model.
By this design of the utility model, which is fixed in the rack 111, and the heat transmission unit
The second end 1142a of 114a is fixed on the heat-sink unit 112a of the heat radiation module 112.Therefore, which can be from this
In external environment setting to the rack 111 of the machine case body 110, thereby, the first end 1141a grafting of heat transmission unit 114a
To the pedestal 212 of the fever module 210 of the servomechanism host 20.When the pyrotoxin of the fever module 210 of the servomechanism host 20
211 generate heat in operation, which absorbs the heat of the pyrotoxin 211, the first end of heat transmission unit 114a
1141a absorbs the heat of the pyrotoxin 211 from the pedestal 212.
When heat transmission unit 114a is the heat pipe or another temperature-uniforming plate and loop hot-pipe, the heat transmission unit
114a is internally provided with a chamber and is used as the flow path of working fluid, and is contained in the indoor working fluid of the chamber, via evaporation, it is cold
The phase change waited and movement etc. are coagulated, and carries out the transfer of heat.Using the heat pipe or the member of another temperature-uniforming plate as distal end heat conduction
Part is evaporated in first end 1141a heat absorptions using the low boiling point working fluid of filling inside the heat pipe or another temperature-uniforming plate, is in
The working fluid of steam is moved to second end 1142a, is transferred to the heat that the pyrotoxin 211 generates in second end 1142a
The heat-sink unit 112a of the heat radiation module 112 recycles fan unit 112b 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 heat dissipation effect of the inner space 115 of ontology 110.Meanwhile it can avoid the heat radiation module 112 and occupying the interior of the machine case body 110
Portion space 115, and heat transmission unit 114a can be horizontally or vertically arranged with respect to the fever module 210, greatly improve the cabinet
The inner space 115 of ontology 110 uses elasticity.
Referring to Fig. 6, for the utility model heat-sinking structure of chassis second embodiment three-dimensional combination figure, and be aided with refering to
Fig. 1 ~ 5 as shown, the present embodiment part-structure and function are identical as aforementioned first embodiment, therefore will not be described in great detail, only herein
The present embodiment does not exist together with aforementioned first embodiment for the rack 111 is expressed as stacking to be spaced for two servomechanism hosts 20 setting
It sets, and the heat radiation module 112 has two heat-sink unit 112a of the corresponding servomechanism host 20, while the machine case body 110 has
There are two heat transmission unit 114a to be separately positioned between the servomechanism host 20 and heat-sink unit 112a, and the heat transmission unit
The first end 1141a of 114a contacts the fever module 210 of the servomechanism host 20, and the second of heat transmission unit 114a respectively
End 1142a contacts heat-sink unit 112a respectively.In addition, the servomechanism host 20 of the utility model is not limited to one or two
It is a, in other embodiments, it is possible to have more than two servomechanism hosts 20, and the heat-sink unit with corresponding number
112a and heat transmission unit 114a;
In addition can also have multiple fever modules 210 among a servomechanism host 20 certainly, utilize single heat transmission unit
114a carries out series connection thermal contact conductance to each fever module 210 and/or is directed to each fever mould by plural heat transmission unit 114a
210 contact of group carries out heat conduction to heat-sink unit and carries out heat exchange heat dissipation.
Fig. 7,8 are please referred to, are three-dimensional combination figure, the heat radiation module of the 3rd embodiment of the utility model heat-sinking structure of chassis
And heat transmission unit three-dimensional combination figure, and be aided with refering to fig. 1 ~ 6, as shown, the present embodiment part-structure and function with it is aforementioned
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 radiating mould
Group 112 has a heat-sink unit 112a of the corresponding servomechanism host 20, while the machine case body 110 only has a heat transfer list
Between first 114a is arranged between the servomechanism host 20 and heat-sink unit 112a, and heat transmission unit 114a has in stacking
Every ground two first end 1141a and a second end 1142a, and first end 1141a contacts the fever mould respectively in compartment of terrain is stacked
The pedestal 212 of group 210.
Referring to Fig. 9, the heat radiation module and heat transmission unit of the fourth embodiment for the utility model heat-sinking structure of chassis
Three-dimensional combination figure, and be aided with refering to fig. 1 ~ 5, as shown, the present embodiment part-structure and function and aforementioned first embodiment phase
Together, it therefore will not be described in great detail herein, only the present embodiment and aforementioned first embodiment do not exist together for the fever of the servomechanism host 20
Module 210 is expressed as the plural pedestal 212 with plural pyrotoxin 211 and the corresponding pyrotoxin 211, and the pyrotoxin 211 is each other
It is arranged in parallel, and the pedestal 212 is separately positioned on the pyrotoxin 211, and it is in parallel interval that heat transmission unit 114a, which has,
Ground two first end 1141a and a second end 1142a, and first end 1141a parallel intervals contact the fever module 210 respectively
The pedestal 212.In addition, the pyrotoxin 211 and pedestal 212 of the fever module 210 of the utility model be not limited to one or
Two, in other embodiments, it is possible to have more than two pyrotoxins 211 and pedestal 212, and the heat with corresponding number
The first end 1141a of conduction unit 114a.
0,11 are please referred to Fig.1, is the heat radiation module and heat transfer of the 5th embodiment of the utility model heat-sinking structure of chassis
Unit side view, heat radiation module and heat transmission unit three-dimensional combination figure, and be aided with refering to fig. 1 ~ 5, as shown, the present embodiment portion
Separation structure and function are identical as aforementioned first embodiment, therefore will not be described in great detail herein, only the present embodiment and aforementioned first embodiment
Do not exist together in the present embodiment, the first end 1141b of the heat transmission unit 114b is that a fixing end is fixed on the pedestal
On 212, the second end 1142 of the heat transmission unit 114b is the heat-sink unit of the free end grafting heat radiation module 112
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
The second end 1142b of heat transmission unit 114b is clamped in 112a2, first and second heat-sink unit 112a1,112a2.
In addition, in an alternative em bodiment, as shown in figure 12, the fever module 210 of the servomechanism host 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 the first end 1141b of heat transmission unit 114b be fixed on the servomechanism host 20 the pedestal 212 or
On 211 on pyrotoxin, and then enable the servomechanism host 20 that the rack 111 to the machine case body 110 can be set from the external environment
On, by the second end 1142b of heat transmission unit 114b be plugged into the heat-sink unit 112a of the heat radiation module 112 by this
One, clamped by two heat-sink unit 112a1,112a2, to reach effect identical as aforementioned first embodiment.
3,14 are please referred to Fig.1, is the heat radiation module and heat transfer of the sixth embodiment of the utility model heat-sinking structure of chassis
Unit side view, heat radiation module and heat transmission unit three-dimensional combination figure, and it is aided with refering to fig. 1 ~ 4 and 10 ~ 12, as shown, this
Embodiment part-structure and function are identical as aforementioned 5th embodiment, therefore will not be described in great detail herein, only the present embodiment and aforementioned the
Five embodiments do not exist together for the first end 1141c of the heat transmission unit 114c is the free end grafting pedestal 212, institute
The second end 1142c for stating heat transmission unit 114c is the heat-sink unit 112a of another free end grafting heat radiation module 112.
Implement one, the first end 1141c of heat transmission unit 114c is plugged to the servomechanism host 20, then again will
The servomechanism host 20 is set in the rack 111, and the second end 1142c of heat transmission unit 114c is made to be plugged to the radiating mould
The heat-sink unit 112a of group 112.In another implementation, the second end 1142c of heat transmission unit 114c is plugged to the radiating mould
The servomechanism host 20, is then set in the rack 111, makes the heat transmission unit by the heat-sink unit 112a of group 112 again
The first end 1141c of 114c is plugged to the servomechanism host 20.Thereby reach effect identical as aforementioned 5th embodiment.
It therefore, should by the heat transmission unit 114a, 114b, 114c of the heat-sinking structure of chassis 10 of the utility model
The heat transfer of fever module 210 is to the heat radiation module 112, and the heat radiation module 112 radiates through fan unit 112b,
And then the effect of can reach the heat dissipation effect for the inner space 115 for improving the machine case body 110.Simultaneously because can be by plural servo
Device host 20 corresponds to plural heat transmission unit 114a, 114b, 114c and plural heat-sink unit 112a settings, or by plural servomechanism
Host 20 corresponds to heat transmission unit 114a, 114b, a 114c and a heat-sink unit 112a settings, or by a servomechanism host 20
Plural number fever module 210 correspond to heat transmission unit 114a, 114b, a 114c and heat-sink unit 112a settings, and the heat dissipation
Module 112 is not required to be arranged the inner space 115 for avoiding occupying the machine case body 110 on the servomechanism host 20, while the heat
Conduction unit 114a, 114b, 114c can be horizontally or vertically arranged with respect to the fever module 210, therefore improve the machine case body
110 inner space 115 uses elasticity.
The utility model is described in detail above, only as described above, only the utility model it is preferable implementation
Example, when the range that cannot limit the utility model implementation.I.e. all equivalent changes made according to application scope of the utility model
With modification etc., all should still belong to the patent covering scope of the utility model.
Claims (14)
1. a kind of heat-sinking structure of chassis, which is characterized in that be arranged for an at least servomechanism host, an at least servomechanism master
Machine has a fever module, which includes:
There is one machine case body a rack, a heat radiation module and an at least heat transmission unit, the rack to supply an at least servomechanism
Host is arranged, which has an at least heat-sink unit and plural fan unit, and at least a heat-sink unit is set to this for this
Between fan unit and an at least servomechanism host, which has an at least first end and one second
End, the fever module of an at least one first end in contact at least servomechanism host, 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 fever module to an at least heat-sink unit, and should
An at least heat-sink unit radiates through the fan unit.
2. heat-sinking structure of chassis according to claim 1, which is characterized in that the fever module has an at least pyrotoxin
And an at least pedestal, an at least pedestal are set on an at least 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, which is characterized 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 that a fixing end is fixed on
An at least heat-sink unit for the heat radiation module.
4. heat-sinking structure of chassis according to claim 2, which is characterized in that at least the one of an at least heat transmission unit
First end is that a fixing end is fixed on an at least 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, which is characterized 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. heat-sinking structure of chassis according to claim 4 or 5, which is characterized in that an at least heat radiation module is at least
There is one heat-sink unit one first heat-sink unit and one second heat-sink unit, first and second heat-sink unit at least one heat is clamped
The second end of conduction unit.
7. heat-sinking structure of chassis according to claim 1, which is characterized in that the fever module is at least one fever
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, which is characterized in that at least the one of an at least heat transmission unit
First end is that a fixing end is fixed on an at least 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, which is characterized 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 be clamped an at least heat transmission unit it
Second end.
10. heat-sinking structure of chassis according to claim 1, which is characterized in that the second of an at least heat transmission unit
The opposite fever module in end is in parallel direction.
11. according to 3,4,5 any one of them heat-sinking structure of chassis of claim, which is characterized in that an at least heat transfer
There is unit a bending segment, the bending segment to be located between first and second end, and the second end of an at least heat transmission unit is opposite should
Module generate heat in the vertical direction.
12. according to 3,4,5 any one of them heat-sinking structure of chassis of claim, which is characterized in that the heat radiation module is extremely
A few heat-sink unit be a radiating fin group, a water-cooled module and a temperature-uniforming plate any of which or in which arbitrary combination.
13. heat-sinking structure of chassis according to claim 1, which is characterized in that the heat radiation module is set to 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, which is characterized 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 in which arbitrary combination.
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CN201721267188.1U CN207625974U (en) | 2017-09-28 | 2017-09-28 | Heat-sinking structure of chassis |
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CN201721267188.1U CN207625974U (en) | 2017-09-28 | 2017-09-28 | Heat-sinking structure of chassis |
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CN107613732A (en) * | 2017-09-28 | 2018-01-19 | 深圳兴奇宏科技有限公司 | Heat-sinking structure of chassis |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN107613732A (en) * | 2017-09-28 | 2018-01-19 | 深圳兴奇宏科技有限公司 | Heat-sinking structure of chassis |
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