CN109673129A - With can modulation radiating surface position radiator - Google Patents
With can modulation radiating surface position radiator Download PDFInfo
- Publication number
- CN109673129A CN109673129A CN201710961836.1A CN201710961836A CN109673129A CN 109673129 A CN109673129 A CN 109673129A CN 201710961836 A CN201710961836 A CN 201710961836A CN 109673129 A CN109673129 A CN 109673129A
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- Prior art keywords
- casing
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- fixing end
- modulation
- sleeve
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Classifications
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K7/00—Constructional details common to different types of electric apparatus
- H05K7/20—Modifications to facilitate cooling, ventilating, or heating
- H05K7/20218—Modifications to facilitate cooling, ventilating, or heating using a liquid coolant without phase change in electronic enclosures
- H05K7/20272—Accessories for moving fluid, for expanding fluid, for connecting fluid conduits, for distributing fluid, for removing gas or for preventing leakage, e.g. pumps, tanks or manifolds
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K7/00—Constructional details common to different types of electric apparatus
- H05K7/20—Modifications to facilitate cooling, ventilating, or heating
- H05K7/2039—Modifications to facilitate cooling, ventilating, or heating characterised by the heat transfer by conduction from the heat generating element to a dissipating body
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- Engineering & Computer Science (AREA)
- Microelectronics & Electronic Packaging (AREA)
- Physics & Mathematics (AREA)
- Thermal Sciences (AREA)
- Cooling Or The Like Of Electrical Apparatus (AREA)
Abstract
The present invention disclose it is a kind of have can modulation radiating surface position radiator.Radiator includes pedestal, slide assemblies, two first sleeve groups, runner assembly, two the second casing groups and radiating modules.The surface superordinate of pedestal is provided with electronic device.Slide assemblies are with respect to pedestal in a first axis slide displacement.Two first sleeve groups are connected to slide assemblies.First pars contractilis of two first sleeve groups assembles the distance between the first fixing end of modulation and the first curved end.Runner assembly is articulated between first curved end of two first sleeve groups.Two the second casing groups are connected to runner assembly.Second pars contractilis of two the second casing groups assembles the distance between the second fixing end of modulation and the second curved end.Radiating module is connected to the second curved end of two the second casing groups, further includes a radiating surface, assembles contraposition and conform to electronic device.
Description
Technical field
The present invention relates to a kind of radiator, in particular to it is a kind of with can modulation radiating surface position radiator.
Background technique
During electronic device running, some is, for example, the electronic devices such as central processing unit, it will usually along with
Generate a large amount of heat.If in time not removing the heat of generation, the heat accumulated will cause the temperature of central processing unit
It increases, and influences its efficiency, even damage.Therefore, using heat caused by radiator loss central processing unit, with
It avoids its temperature excessively high and influences efficiency or damage, become the important topic of relevant industry already.
However, an electronic device is usually contained, there are many electronic devices, and the installation position of each electronic device must basis
Practical application request and modulation.In other words, the electronic device of different designs, the electronic device that need to be radiated are generally disposed at
Different relative positions.When a modular radiator need to be connected to electronic device when radiating subassembly, in addition to consider dissipate
The whole structure of thermal and electronic device dress is outer, and the radiating surface for making radiator is also needed to conform to the surface to radiating subassembly.
Therefore, how to develop it is a kind of with can the radiator of modulation radiating surface position faced to solve the prior art
Problem, actually this field project urgently to be resolved.
Summary of the invention
The purpose of the present invention is to provide it is a kind of with can modulation radiating surface position radiator.Its stabilized structure, peace
Dress is easy and modulation is flexible.The radiating surface of radiator can modulation relative position according to demand, conform to radiating surface wait dissipate
The surface of hot-electron device, so that loss of the heat that generates of electronic device by the radiating surface of radiator effectively, keeps away
Exempting from electronic device influences efficiency or impaired because of accumulation of heat.
Another object of the present invention is to provide it is a kind of with can modulation radiating surface position radiator.It is stretched by multiple
The radiating surface of the modulation of Heat-Shrinkable Tubings group, radiator can modulation relative position, while radiating surface maintenance thermal coupling according to demand
To a liquid cooling loop.When modulation radiating surface position, it is completed at the same time the path of modulation liquid cooling loop, reaches and effectively integrates modulation machine
Structure and liquid cooling loop simplify overall structure and reduce cost.
To reach foregoing purpose, the present invention provide it is a kind of with can modulation radiating surface position radiator.Radiator
Including pedestal, slide assemblies, two first sleeve groups, runner assembly, two the second casing groups and a radiating modules.One pedestal
Including a first surface.First surface superordinate is provided with an at least electronic device.Slide assemblies are set to pedestal, and opposite bottom
Seat is in a first axis slide displacement.Two first sleeve groups, are connected to slide assemblies.Each first sleeve group includes one first
Fixing end, one first pars contractilis and one first curved end, the first pars contractilis be connected to the first fixing end and the first curved end it
Between, and the first fixing end of two first sleeve groups is separately connected and is fixed on slide assemblies.The first of two first sleeve groups
Pars contractilis assembles the distance between the first fixing end of modulation and the first curved end along one second axial elongation or shortening.Rotation
Component is articulated between first curved end of two first sleeve groups, and the first curved end that group is equipped with two first sleeve groups is axis
The heart rotates a special angle.Two the second casing groups are connected to runner assembly, wherein every one second casing group includes one second solid
Fixed end, one second pars contractilis and one second curved end, the second pars contractilis are connected between the second fixing end and the second curved end,
And 2 first fixing end of first sleeve group be separately connected and be fixed on runner assembly.Second pars contractilis of two the second casing groups
Along a third axial elongation or shortening, and assemble the distance between the second fixing end of modulation and the second curved end.Radiating module connects
It is connected to the second curved end of two the second casing groups, and including a radiating surface, assembles contraposition and conforms to an at least electronic device.
The beneficial effects of the present invention are, the present invention provide it is a kind of with can modulation radiating surface position radiator,
Stabilized structure, simple installation and modulation are flexible, the radiating surface of radiator can modulation relative position according to demand, make radiating surface
Conform to the surface to heat dissipating electronic devices so that the heat that generates of electronic device by the radiating surface of radiator effectively
Loss, avoid electronic device accumulation of heat and influence efficiency or impaired.
Detailed description of the invention
Fig. 1 be present pre-ferred embodiments have can modulation radiating surface position radiator three-dimensional structure diagram and its
It is applicable to heat dissipating electronic devices.
Fig. 2 be present pre-ferred embodiments have can modulation radiating surface position radiator exploded view and its be applicable in
To heat dissipating electronic devices.
Fig. 3 be present pre-ferred embodiments have can modulation radiating surface position radiator one adjustment state signal
Figure.
Fig. 4 A is the structural schematic diagram of the pars contractilis of the real preferred embodiment middle sleeve group of the present invention.
Fig. 4 B is the sectional view of the pars contractilis of present pre-ferred embodiments middle sleeve group.
Fig. 5 be present pre-ferred embodiments in have can modulation radiating surface position radiator in the solid at another visual angle
Structure chart.
Fig. 6 is the exploded view of the pedestal of present pre-ferred embodiments.
Wherein, the reference numerals are as follows:
1: radiator
10: pedestal
11: first surface
12: second surface
13: elongated opening
14: protruding rail
15a: the first flow channel for liquids
15: the first liquid entrances
16a: second liquid runner
16: second liquid entrance
20: slide assemblies
31a, 36a: communication channel
31,36: first sleeve group
32,37: the first fixing end
33,38: the first pars contractilis
34,39: the first curved end
40: runner assembly
51a, 56a: communication channel
51,56: the second casing group
52,57: the second fixing end
53,58: the second pars contractilis
54,59: the second curved end
60: radiating module
61: radiating surface
62: first fluid guide port
63: second fluid guide port
71,76: third casing group
72,77: third is bent fixing end
73,78: third pars contractilis
74,79: the four bending fixing end
80: rubber ring
81: public affairs connection casing
82: mother's connection casing
83: recessed groove
84: interior protuberance
90: substrate
91: electronic device
Specific embodiment
The some exemplary embodiments for embodying feature of present invention and advantage will describe in detail in the explanation of back segment.It should be understood that
It is that the present invention there can be various variations in different modes, neither departs from the scope of the present invention, and explanation therein
And attached drawing be in itself as be described use, and is not intended to limit the present invention.
Fig. 1 be present pre-ferred embodiments have can modulation radiating surface position radiator three-dimensional structure diagram and its
It is applicable to heat dissipating electronic devices.Fig. 2 be present pre-ferred embodiments have can modulation radiating surface position radiator
Exploded view and its applicable to heat dissipating electronic devices.As shown, in this present embodiment, 1 system of radiator is applied to loss example
Such as, but not limited to, central processing unit to heat caused by heat dissipating electronic devices 91, electronic device 91 is set on substrate 90.
Radiator 1 includes pedestal 10,20, two first sleeve groups of slide assemblies 31,40, two 36, runner assembly the second casing groups
51,56 and radiating module 60.Pedestal 10 has first surface 11, second surface 12 and an elongated opening 13, wherein first
Opposite to each other, elongated opening 13 is through first surface 11 and second surface 12 and is adjacent to pedestal 10 for surface 11 and second surface 12
A side.Substrate 90 for example, by but be not only restricted to insulated bolt group and be set on the first surface 11 of pedestal 10 so that
91 framework of electronic device is on the specific position on the first surface 11 of pedestal 10.20 framework of slide assemblies on pedestal 10, and
It can slide with respect to pedestal 10 along a first axis, such as slide along the x axis.In this present embodiment, the inside of elongated opening 13
It is additionally provided with a pair of of protruding rail 14 on wall, is arranged along the x axis, slide assemblies 20 then for example can be slidably embedded in elongated opening 13
On the protruding rail 14 of side wall, so that slide assemblies 20 can be along elongated opening 13, i.e., aforementioned X-direction, opposite pedestal 10 is slided.It is each
First sleeve group 31,36 includes first the 32,37, first pars contractilis 33,38 of fixing end and the first curved end 34,39.Its
In the first fixing end 32 and the first fixing end 37 be all connected at least surface for being fixed on slide assemblies 20, and from slide assemblies 20
The direction for being directed away from the first surface 11 of pedestal 10 extends.It is fixed that first pars contractilis 33 of first sleeve group 31 is connected to first
Between end 32 and the first curved end 34, adjustment the distance between the first fixing end 32 and the first curved end 34 are assembled.First sleeve
First pars contractilis 38 of group 36 is connected between the first fixing end 37 and the first curved end 39, assemble the first fixing end 37 of adjustment with
The distance between first curved end 39.First curved end 34 and 39 of two first sleeve groups 31 and 36 is relative to each other.Rotating group
Part 40 includes two ends, by two ends be articulated in opposite the first curved end 34 and 39 of two first sleeves 31 and 36 it
Between, so that runner assembly 40 is axle center with the first opposite curved end 34 and 39 of two first sleeves 31 and 36, selectivity is rotated
One special angle, and the first pars contractilis 33 of two first sleeves 31 and 36 assembles adjustment runner assembly 40 relative to pedestal 10
The distance between first surface 11, such as the range difference of Z-direction.In addition, in this present embodiment, every one second casing group 51,
56 include second the 52,57, second pars contractilis 53,58 of fixing end and the second curved end 54,59.Wherein the second fixing end 52
It is connected and fixed on the one side of runner assembly 40 with 57, and the direction for being directed away from runner assembly 40 extends.Second casing group 51
The second pars contractilis 53 be connected between the second fixing end 52 and the second curved end 54, assemble adjustment the second fixing end 52 and second
The distance between curved end 54.Second pars contractilis 58 of the second casing group 56 is connected to the second fixing end 57 and the second curved end 59
Between, assemble adjustment the distance between the second fixing end 57 and the second curved end 59.The second of two the second casing groups 51 and 56
Curved end 54 and 59 is additionally coupled to radiating module 60.In this present embodiment, radiating module 60 includes an at least radiating surface 61, relatively
In the first surface 11 of pedestal 10, and assemble heat caused by the electronic device 91 on loss substrate 90.
In this present embodiment, radiating module 60 passes through 40, two two the second casing groups 51 and 56, runner assembly first sets
Pipe group 31 and 36 and slide assemblies 20 and be connected to pedestal 10.It is worth noting that, flat in two the second casing groups 51 and 56
Row is when first surface 11, by adjusting the second pars contractilis 53 of the second casing group 51 and the second pars contractilis of the second casing group 56
58, radiating module 60 can be made along a third axial displacement, i.e., move the radiating surface 61 of adjustment radiating module 60 along the y axis.It is logical
The first pars contractilis 38 for crossing the first pars contractilis 33 and first sleeve group 36 of adjustment first sleeve group 31, can make 40 band of runner assembly
Dynamic two the second casing groups 51 and 56 and radiating module 60 move adjustment radiating mould along Z-direction along the second axial displacement
The radiating surface 61 of block 60.In addition, by adjusting slide assemblies 20, can drive two first sleeve groups 31 and 36, slide assemblies 20,
Two the second casing groups 51 and 56 and radiating module 60 are displaced along first axis, i.e., mobile along the x axis to adjust radiating module
60 radiating surface 61.In other words, the radiating surface 61 of radiating module 60 can be by adjusting two the second casing groups 51 and 56, rotating groups
40, two first sleeve groups 31 and 36 of part and slide assemblies 20 and be displaced and be affixed to the first surface 11 of pedestal 10.
It is worth noting that, in this present embodiment, it is different to heat dissipating electronic devices that radiator 1 is applicable to loss
91.Different may be set to position different on substrate 90 to heat dissipating electronic devices 91, in substrate 90 for example, by but not by
When being limited to insulated bolt group and being set on the first surface 11 of pedestal 10, the possible framework of electronic device 91 is in the first of pedestal 10
On any specific position on surface 11.Fig. 3 be present pre-ferred embodiments have can modulation radiating surface position heat dissipation dress
The adjustment status diagram set.However, as previously mentioned, radiator 1 can by adjusting two the second casing groups 51 and 56, turn
Dynamic 40, two first sleeve groups 31 and 36 of component and slide assemblies 20, so that the radiating surface 61 of radiating module 60 aligns fitting
Electronic device 91 on to substrate 90.On the other hand, it when the first surface 11 of radiator 1, radiates in by 90 framework of substrate
Module 60 and two the second casing groups 51 and 56 can also be driven two the second casing groups 51 and 56 and be dissipated by runner assembly 40
Thermal modules 60 are axle center with the first curved end 34 and 39 that two first sleeves 31 and 36 are opposite, and selectivity rotates a specific angle
Degree, the first surface 11 from pedestal 10 so that radiating module 60 and two the second casing groups 51 and 56 become, in favor of by substrate
90 frameworks are on the first surface 11 of radiator 1, as shown in Figure 3.To 90 framework of substrate in the first surface 11 of radiator 1
Afterwards, runner assembly 40 drives two the second casing groups 51 and 56 and radiating module 60, opposite with two first sleeves 31 and 36
The first curved end 34 and 39 be axis rotation so that the radiating surface 61 of radiator 60 and two the second casing groups 51 and 56
It is parallel to the first surface 11 of pedestal 10.Thereafter, by adjusting two the second casing groups 51 and 56, runner assembly 40, two
Sleeve group 31 and 36 and slide assemblies 20 then can be in the radiating surfaces 61 of three axis directions adjustment radiating module 60, so that radiating mould
The radiating surface 61 of block 60 is effectively aligned and is conformed to heat dissipating electronic devices 91.It is emphasized that aforementioned slide assemblies 20 are adjusted
Z-direction displacement that whole X-direction displacement, two first sleeve groups 31 and 36 adjust, two the second casing groups 51 with
The Y direction displacement of 56 adjustment, the rotational angle of runner assembly 40 and the adjustment visual practical application request of sequence and adjust
Become, the present invention have can the radiator variation that can be of modulation radiating surface position be not limited to aforementioned illustration.
In this present embodiment, as shown in Fig. 2, radiating module 60 is also, for example, but is not only restricted to a liquid cooling head, including first
Fluid guide port 62 and second fluid guide port 63 by liquid cooling runner connection (not shown), and are thermally coupled to heat dissipation
Face 61.Two first sleeve groups 31 and 36 and two the second casing groups 51 and 56 be one it is flexible be connected to casing group, all have
One communication channel 31a, 36a, 51a, 56a, to provide the function of trandfer fluid.Wherein first fluid guide port 62 and the second casing group
51 curved end 54 is connected for example, by being but being not only restricted to the mode of screw thread, and is connected with the communication channel 51a of the second casing group 51
It is logical.The fixing end 52 of second casing group 51 and the curved end 34 of first sleeve group 31 are also for example, by being but being not only restricted to screw thread
Mode is respectively connected to runner assembly 40, and is communicated with each other by the embedded channel of runner assembly 40 1 (non-icon), so that first
The communication channel 31a of casing group 31 is connected to the communication channel 51a of the second casing group 51.Similarly, second fluid guide port 63 and
The curved end 59 of two casing groups 56 is connected for example, by being but being not only restricted to the mode of screw thread, and the connection with the second casing group 56
Road 56a connection.The curved end 39 of the fixing end 57 of second casing group 56 and first sleeve group 36 is also for example, by being but unrestricted
It is respectively connected to runner assembly 40 in the mode of screw thread, and is connected each other by another embedded channel (non-icon) of runner assembly 40
It is logical, so that the communication channel 36a of first sleeve group 36 is connected to the communication channel 56a of the second casing group 56.The present invention takes off in 4A figure system
The structural schematic diagram of the pars contractilis of real preferred embodiment middle sleeve group.4B figure is stretching for present pre-ferred embodiments middle sleeve group
The sectional view in contracting portion.In this present embodiment, two the first pars contractilis 33 and 38 and two the second pars contractilis 53 and 58 can also be by
The one female connection casing 82 of male connection casing 81, one and a rubber ring 80 are constituted.Rubber ring 80 can be for example an o-ring, and ring is set
The recessed groove 83 being fixed on the outer peripheral edge of public connection casing 81.The internal diameter of mother's connection casing 82 is slightly larger than male connection casing 81
Outer diameter, and front end have an interior protuberance 84.Mother's connection 82 part of casing is sheathed on outside male connection casing 81, and rubber ring 80 is pressed
The outer peripheral edge that contracting is located in male connection casing 81 is connected between the inner peripheral of casing 82 with mother, so that male connection casing 81 and mother are even
Logical casing 82 can be displaced opposite to each other, and flow path is wherein without leaking.It should be stressed, however, that the first pars contractilis 33 with
38 and second pars contractilis 53 and 58 the unrestricted essential features of the invention of composition pattern, just repeated no more in this.
Fig. 5 be present pre-ferred embodiments in have can modulation radiating surface position radiator in the solid at another visual angle
Structure chart.Fig. 6 is the exploded view of the pedestal of present pre-ferred embodiments.In this present embodiment, radiator 1 further includes two
Three casing groups 71 and 76, framework are connected to slide assemblies 20 in the second surface 12 of pedestal 10.In this present embodiment, each
Third casing group 71,76 is a flexible connection casing group, and includes third bending fixing end 72,77, third pars contractilis
73,78 and the 4th bending fixing end 74,79.Wherein the structure of third pars contractilis 73 and 78 can be with aforementioned pars contractilis structure phase
Together, it is just repeated no more in this.In this present embodiment, two third bending fixing ends 72 and 77 are for example, by being but being not only restricted to spiral shell
The mode of line is connected and fixed on slide assemblies 20, and the third bending fixing end 72 of third casing group 71 also passes through slide assemblies 20
An embedded channel (non-icon) be connected to the first fixing end 32 of first sleeve group 31, and third casing group 76 third bending
Fixing end 77 is also connected to by another embedded channel of slide assemblies 20 with the first fixing end 37 of first sleeve group 36.In addition,
4th bending fixing end 74 of third casing group 71 is also connected to one first by at least one first flow channel for liquids 15a of pedestal 10
Liquid entrance 15, and the 4th bending fixing end 79 of third casing group 76 also passes through an at least second liquid runner for pedestal 10
16a is connected to a second liquid entrance 16, wherein the first liquid entrance 15 and 16 system of second liquid entrance are set to
First surface 11 or second surface 12, and the first flow channel for liquids 15 is embedded at the first surface of pedestal 10 with second liquid runner 16
Between 11 and second surface 12.First flow channel for liquids 15a and second liquid runner 16a for example but can be not only restricted to be embedded in pedestal
Between 10 first surface 11 and second surface 12.The third pars contractilis 73 and 78 of two of them third casing group 71 and 76 also edge
The first axial direction that slide assemblies 20 slide extends arrangement, in slide assemblies 20 along elongated opening 13, i.e., aforementioned X-direction,
When opposite pedestal 10 slides, the third pars contractilis 73 of two third casing groups 71 and 76 elongates or shortens respectively with 78, so that the
The maintenance of three casing groups 71 is connected to the first flow channel for liquids 15a and the maintenance of third casing group 76 is connected to second liquid runner 16a.By
This, the first liquid entrance 15, the first flow channel for liquids 15a, first sleeve group 31, the second casing group 51, first fluid guide port
62, the inner flow passage (not shown) of radiating module 60, second fluid guide port 63, the second casing group 56, first sleeve group 36,
Two flow channel for liquids 16a form a liquid cooling loop to second liquid entrance 16, and maintenance is thermally coupled to radiating surface 61, can enhance scattered
The heat radiation function in hot face 61, heat caused by effective runaway electron device 91, avoids electronic device 91 from dropping because of accumulation of heat
It is inefficient or to damage.Certainly, the direction of liquid reflux is not limited in liquid cooling loop, and does not influence the heat dissipation of radiating surface 61
Effect.It is worth noting that, two first sleeve groups 31 and 36 of radiator 1, two the second casing groups 51 and 56 and two
A third casing group 71 and 76 also assembles framework radiating surface in addition to assembling framework and being thermally coupled to the liquid cooling loop of radiating surface 61 simultaneously
61 position modulation mechanism.When wherein the slide assemblies 20 slide along the x axis, the third of two third casing groups 71 and 76
Pars contractilis 73 and 78 extends arrangement along the x axis, and in X-direction specific elongation or shortens same distance, so that slide assemblies
20 are more securely displaced along the x axis, and do not influence the connection of liquid cooling loop.On the other hand, two first sleeve groups 31 and 36
When adjusting length along the y axis along Z-direction adjustment length or two the second casing groups 51 and 56, the length of liquid cooling loop can
It adjusts together, and does not influence the connection of liquid cooling loop.Further, since two ends of runner assembly 40 are articulated in two first sets
Between the first opposite curved end 34 and 39 of pipe 31 and 36, therefore when runner assembly 40 rotates any angle, liquid cooling is not also influenced
The connection in circuit.Accordingly, the present invention have can the radiator 1 of modulation radiating surface position to be applicable to loss different wait radiate
Electronic device 91.Even if different be set to position different on substrate 90 to heat dissipating electronic devices 91, it is set in substrate 90
After on the first surface 11 of pedestal 10, radiator 1 can by adjusting two the second casing groups 51 and 56, runner assembly 40,
Two first sleeve groups 31 and 36 and slide assemblies 20, make radiating module 60 radiating surface 61 effectively align and conform to
Heat dissipating electronic devices 91, and make the liquid cooling loop for being thermally coupled to radiating surface 61 firmly maintain to be connected to, and then effectively loss is different
Heat caused by electronic device 91.
In conclusion the present invention provide it is a kind of with can modulation radiating surface position radiator.Its stabilized structure, installation
Easy and modulation is flexible, the radiating surface of radiator can modulation relative position according to demand, conform to radiating surface wait radiate
The surface of electronic device, so that loss of the heat that generates of electronic device by the radiating surface of radiator effectively, avoids
Electronic device accumulation of heat and influence efficiency or impaired.In addition, by the modulation of multiple telescopic sleeve groups, the heat dissipation of radiator
Face can modulation relative position according to demand, while radiating surface maintenance is thermally coupled to a liquid cooling loop.In modulation radiating surface position
When, it is completed at the same time the path of modulation liquid cooling loop, is reached and is effectively integrated modulation mechanism and liquid cooling loop, simplifies overall structure and drop
Low cost.
The present invention appointed as those skilled in the art apply craftsman think and be it is all as modify, it is so neither de- as attached right is wanted
Seek the range that book to be protected.
Claims (9)
1. it is a kind of with can modulation radiating surface position radiator, comprising:
One pedestal, including a first surface, wherein the first surface superordinate is provided with an at least electronic device;
One slide assemblies are set to the pedestal, and the opposite pedestal is in a first axis slide displacement;
Two first sleeve groups, are connected to the slide assemblies, wherein each first sleeve group includes one first fixing end, one the
One pars contractilis and one first curved end, first pars contractilis are connected between first fixing end and first curved end, and
First fixing end of two first sleeve groups, which is separately connected, to be fixed on the slide assemblies, the two of them first sleeve group
First pars contractilis along one second axial elongation or shortening, and assemble between modulation first fixing end and first curved end
Distance;
One runner assembly is articulated between first curved end of two first sleeve groups, and group is equipped with two first sleeves
First curved end of group is one special angle of axis rotation;
Two the second casing groups, are connected to the runner assembly, wherein each second casing group includes one second fixing end, one the
Two pars contractilis and one second curved end, second pars contractilis are connected between second fixing end and second curved end, and
First fixing end of two first sleeve groups, which is separately connected, to be fixed on the runner assembly, two of them the second casing group
Second pars contractilis along a third axial elongation or shortening, and assemble between modulation second fixing end and second curved end
Distance;And
One radiating module is connected to second curved end of two the second casing groups, and including a radiating surface, assembles contraposition patch
It is bonded to an at least electronic device.
2. it is as described in claim 1 have can modulation radiating surface position radiator, wherein the pedestal includes one elongated opening
Mouthful and a pair of of protruding rail, the elongated opening and this protruding rail is extended along the first axis, and this is set to this to protruding rail
The interior side-wall surface of elongated opening, wherein the slide assemblies can be slidably embedded in the elongated opening, engage with this to protruding rail,
So that the slide assemblies are along the first axis slide displacement.
3. it is as described in claim 1 have can modulation radiating surface position radiator, wherein the radiating module is a liquid cooling
Head, and including a first fluid guide port and a second fluid guide port.
4. it is as claimed in claim 3 have can modulation radiating surface position radiator, two of them the second casing component
Not Bao Kuo a communication channel, and the communication channel of two the second casing groups be respectively communicated to the first fluid guide port and this second
Fluid guide port.
5. it is as claimed in claim 4 have can modulation radiating surface position radiator, two of them the second casing component
Two first sleeve groups are not connected to by the runner assembly, the two of them first sleeve group respectively includes a communication channel,
And the communication channel of two first sleeve groups is respectively communicated to the communication channel of two the second casing groups.
6. it is as claimed in claim 5 have can modulation radiating surface position radiator, further include two third casing groups, frame
Structure is connected to the slide assemblies on a second surface of the pedestal and relative to two first sleeve groups, wherein often
The one second casing group includes that third bending fixing end, a third pars contractilis and one the 4th bending fixing end, the third are stretched
Contracting portion is connected between third bending fixing end and the 4th bending fixing end, the third of the two of them third casing group
Bending fixing end is separately connected and is fixed on the slide assemblies, the third pars contractilis of the two of them third casing group along this
4th bending fixing end point of one axially extending arrangement, two third casing groups is connected and fixed on the second surface, and divides
It is not adjacent to two opposite ends of the elongated opening.
7. it is as claimed in claim 6 have can modulation radiating surface position radiator, the two of them third casing component
Not Bao Kuo a communication channel, and the communication channel of two third casing groups pass through respectively the slide assemblies be connected to two this first
The communication channel of casing group.
8. it is as claimed in claim 7 have can modulation radiating surface position radiator, wherein the pedestal further includes one first
Flow channel for liquids, a second liquid runner, one first liquid entrance and a second liquid entrance, wherein first liquid discharge
Entrance and the second liquid entrance are set to the first surface or the second surface, and first flow channel for liquids and this second
Flow channel for liquids is embedded between the first surface of the pedestal and the second surface, wherein the first liquid entrance by this
One flow channel for liquids is connected to the communication channel of one of two third casing groups, and the second liquid entrance passes through second liquid
Body runner is connected to another communication channel of two third casing groups.
9. it is as claimed in claim 7 have can modulation radiating surface position radiator, wherein first pars contractilis, this second
Pars contractilis and the third pars contractilis are made of a flexible connection casing, and wherein the flexible connection casing includes a public connection set
Pipe, a female connection casing and a rubber ring, wherein the rubber ring is fixed on the outer peripheral edge of public affairs connection casing, which is connected to set
Pipe sleeve is set to the outer peripheral edge of public affairs connection casing and the rubber ring, and the rubber ring compression clip is made to be set to the outer of public affairs connection casing
Periphery is connected between the inner peripheral of casing with the mother.
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201710961836.1A CN109673129A (en) | 2017-10-16 | 2017-10-16 | With can modulation radiating surface position radiator |
TW106138642A TWI647996B (en) | 2017-10-16 | 2017-11-08 | Heat sink with adjustable heat sink position |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201710961836.1A CN109673129A (en) | 2017-10-16 | 2017-10-16 | With can modulation radiating surface position radiator |
Publications (1)
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CN109673129A true CN109673129A (en) | 2019-04-23 |
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CN201710961836.1A Pending CN109673129A (en) | 2017-10-16 | 2017-10-16 | With can modulation radiating surface position radiator |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112825010A (en) * | 2019-11-21 | 2021-05-21 | 宇瞻科技股份有限公司 | Liquid cooling heat dissipation structure capable of moving and adjusting |
CN113271749A (en) * | 2021-04-01 | 2021-08-17 | 王启腾 | Composite heat-conducting PCB |
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CN2884803Y (en) * | 2005-10-10 | 2007-03-28 | 威盛电子股份有限公司 | Radiation module |
CN201876796U (en) * | 2010-12-14 | 2011-06-22 | 成都购得福科技有限公司 | Heat-dissipation frame of laptop |
TW201400782A (en) * | 2012-06-25 | 2014-01-01 | Adlink Technology Inc | Adjustable heat dissipation device |
CN205179586U (en) * | 2015-12-11 | 2016-04-20 | 江苏城市职业学院 | A self -adaptation support plate seat for surface mounting technique |
CN106803851A (en) * | 2016-12-30 | 2017-06-06 | 重庆新派新智能科技有限公司 | A kind of method of mobile phone shell radiating |
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US6989990B2 (en) * | 2004-04-29 | 2006-01-24 | Hewlett-Packard Development Company, Lp. | High serviceability liquid cooling loop using tubing hinge |
TW200701871A (en) * | 2005-06-24 | 2007-01-01 | Micro Star Int Co Ltd | Heat dissipation device |
CN102037426B (en) * | 2008-04-21 | 2014-08-06 | 固核电脑公司 | A case and rack system for liquid submersion cooling of electronic devices connected in an array |
US8922998B2 (en) * | 2011-10-26 | 2014-12-30 | International Business Machines Corporation | Coolant manifold with separately rotatable manifold section(s) |
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2017
- 2017-10-16 CN CN201710961836.1A patent/CN109673129A/en active Pending
- 2017-11-08 TW TW106138642A patent/TWI647996B/en not_active IP Right Cessation
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN2884803Y (en) * | 2005-10-10 | 2007-03-28 | 威盛电子股份有限公司 | Radiation module |
CN201876796U (en) * | 2010-12-14 | 2011-06-22 | 成都购得福科技有限公司 | Heat-dissipation frame of laptop |
TW201400782A (en) * | 2012-06-25 | 2014-01-01 | Adlink Technology Inc | Adjustable heat dissipation device |
CN205179586U (en) * | 2015-12-11 | 2016-04-20 | 江苏城市职业学院 | A self -adaptation support plate seat for surface mounting technique |
CN106803851A (en) * | 2016-12-30 | 2017-06-06 | 重庆新派新智能科技有限公司 | A kind of method of mobile phone shell radiating |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN112825010A (en) * | 2019-11-21 | 2021-05-21 | 宇瞻科技股份有限公司 | Liquid cooling heat dissipation structure capable of moving and adjusting |
CN113271749A (en) * | 2021-04-01 | 2021-08-17 | 王启腾 | Composite heat-conducting PCB |
Also Published As
Publication number | Publication date |
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TWI647996B (en) | 2019-01-11 |
TW201918152A (en) | 2019-05-01 |
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