CN207006966U - Radiate external member - Google Patents
Radiate external member Download PDFInfo
- Publication number
- CN207006966U CN207006966U CN201720946502.2U CN201720946502U CN207006966U CN 207006966 U CN207006966 U CN 207006966U CN 201720946502 U CN201720946502 U CN 201720946502U CN 207006966 U CN207006966 U CN 207006966U
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- Prior art keywords
- radiating
- gusset
- heat
- installation base
- plate
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Abstract
One kind radiating external member, including the installation base plate that radiates, support radiating subassembly and radiating stiffener assembly, radiating subassembly is supported to include the first radiating gusset, second radiating gusset, heat sinking back-plate, first radiating connection plate body and the second radiating connection plate body, first radiating gusset and the second radiating gusset are respectively arranged at the both ends of radiating installation base plate, the both ends of heat sinking back-plate are connected with the first radiating gusset and the second radiating gusset respectively, angle is formed between heat sinking back-plate and radiating installation base plate, the both ends of first radiating connection plate body are connected with radiating installation base plate and heat sinking back-plate respectively, the both ends of second radiating connection plate body are connected with radiating installation base plate and heat sinking back-plate respectively, first radiating connection plate body be arranged in parallel with the second radiating connection plate body.The stiffener assembly that radiates includes radiating hog frame and connecting cylinder is strengthened in radiating.In such manner, it is possible to improve cooling surface area, and then heat dispersion is improved, and more hollow structure designs, additionally it is possible to improve portability.
Description
Technical field
Technical field of heat dissipation is the utility model is related to, more particularly to one kind radiating external member.
Background technology
At present, it is used to reduce caused heat during equipment operation when radiator (Radiator) is the operating of machinery equipment part
Amount, so that mechanical equipment component radiating is freezed to increase the equipment in mechanical action life-span.So direct shadow of the quality of radiator
Ring the life-span of operating mechanical equipment component.
It is common, when needing to improve the heat dispersion of equipment main heat sink part, it will usually in equipment main heat sink portion
The thermal component of one auxiliary, i.e. circumscribed thermal component are installed, to improve overall performance, however, existing be used to pacify on part
The thermal component heat dispersion of auxiliary type is poor on equipment main heat sink part.
It is not light enough in addition, weight to be still present larger for the thermal component of existing auxiliary type, it is more heavy the defects of.
Utility model content
Based on this, it is necessary to provide a kind of good heat dispersion performance and more light radiating external member.
One kind radiating external member, including:
Radiate installation base plate,
Support radiating subassembly, it is described support radiating subassembly include first radiating gusset, second radiating gusset, heat sinking back-plate,
First radiating connection plate body and the second radiating connection plate body, the first radiating gusset and the second radiating gusset are set respectively
In the both ends of the radiating installation base plate, the both ends of the heat sinking back-plate dissipate with the described first radiating gusset and described second respectively
Hot gusset connection, angle is formed between the heat sinking back-plate and the radiating installation base plate, the first radiating connection plate body
Both ends are connected with the radiating installation base plate and the heat sinking back-plate respectively, the both ends of the second radiating connection plate body respectively with
The radiating installation base plate and heat sinking back-plate connection, the first radiating connection plate body and the second radiating connection plate body
It is arranged in parallel;And
Radiate stiffener assembly, and the radiating stiffener assembly includes radiating hog frame and connecting cylinder, the radiating are strengthened in radiating
Hog frame is arranged on heat sinking back-plate, and it is described radiating hog frame both ends respectively with described first radiating gusset and described second
The gusset that radiates connects, and the radiating is strengthened connecting cylinder and is arranged on the radiating installation base plate, and the radiating reinforcement connecting cylinder
Both ends respectively with described first radiating gusset and it is described second radiating gusset be connected.
In one of the embodiments, the radiating installation base plate has rectangular parallelepiped structure.
In one of the embodiments, the first radiating gusset has triangular structure.
In one of the embodiments, the second radiating gusset has triangular structure.
In one of the embodiments, the first radiating gusset be arranged in parallel with the described second radiating gusset.
In one of the embodiments, connecting cylinder is strengthened in the radiating has hollow square tube shape structure.
In one of the embodiments, the radiating hog frame has " L " character form structure.
Above-mentioned radiating external member is scattered by setting radiating installation base plate, support radiating subassembly and radiating stiffener assembly to improve
Hotlist area, and then heat dispersion is improved, and more hollow structure designs, additionally it is possible to improve portability.
Brief description of the drawings
Fig. 1 is the structural representation of the radiating external member of the embodiment of the utility model one.
Embodiment
For the ease of understanding the utility model, the utility model is more fully retouched below with reference to relevant drawings
State.Better embodiment of the present utility model is given in accompanying drawing.But the utility model can come in many different forms
Realize, however it is not limited to embodiments described herein.On the contrary, the purpose for providing these embodiments is to make to this practicality newly
The more thorough and comprehensive that the disclosure of type understands.
It should be noted that when element is referred to as " being fixed on " another element, it can be directly on another element
Or there may also be element placed in the middle.When an element is considered as " connection " another element, it can be directly connected to
To another element or it may be simultaneously present centering elements.Term as used herein " vertical ", " horizontal ", " left side ",
For illustrative purposes only, it is unique embodiment to be not offered as " right side " and similar statement.
Unless otherwise defined, all of technologies and scientific terms used here by the article is led with belonging to technology of the present utility model
The implication that the technical staff in domain is generally understood that is identical.It is simply in term used in the description of the present utility model herein
The purpose of description specific embodiment, it is not intended that in limitation the utility model.Term as used herein " and/or " bag
Include the arbitrary and all combination of the Listed Items of one or more correlations.
In one embodiment, one kind radiating external member, including:Radiate installation base plate, support radiating subassembly and radiating reinforcement group
Part, it is described support radiating subassembly include first radiating gusset, second radiating gusset, heat sinking back-plate, the first radiating connection plate body and
Second radiating connection plate body, the first radiating gusset and the second radiating gusset are respectively arranged at the radiating installation base plate
Both ends, the both ends of the heat sinking back-plate be connecteds with the described first radiating gusset and the second radiating gusset respectively, described scattered
Form angle between hot backboard and the radiating installation base plate, the both ends of the first radiating connection plate body respectively with the radiating
Installation base plate and heat sinking back-plate connection, the both ends of the second radiating connection plate body respectively with the radiating installation base plate and
The heat sinking back-plate connection, the first radiating connection plate body be arranged in parallel with the second radiating connection plate body;The radiating
Stiffener assembly includes radiating hog frame and connecting cylinder is strengthened in radiating, and the radiating hog frame is arranged on heat sinking back-plate, and described
The both ends of radiating hog frame are connected with the described first radiating gusset and the second radiating gusset respectively, and the radiating is strengthened connecting
Cylinder be arranged at it is described radiating installation base plate on, and it is described radiating strengthen connecting cylinder both ends respectively with described first radiating gusset and
The second radiating gusset connection, so, above-mentioned radiating external member is by setting radiating installation base plate, support radiating subassembly and radiating
Stiffener assembly can improve cooling surface area, and then improve heat dispersion, and more hollow structure designs, additionally it is possible to improve light
Just property.
The radiating external member is illustrated with reference to specific embodiment, to further understand the structure of the radiating external member
Think, referring to Fig. 1, radiating external member 10 includes:Radiate installation base plate 100, support radiating subassembly 200 and radiating stiffener assembly 300,
Support radiating subassembly 200 and radiating stiffener assembly 300 are respectively arranged on radiating installation base plate 100, radiating installation base plate 100,
Support radiating subassembly 200 and radiating stiffener assembly 300 are collectively forming a radiating overall structure, for equipment mounted externally
On main heat sink part, to play collaboration thermolysis, with the heat dispersion of the equipment main heat sink part outside raising.Example
Such as, the radiating installation base plate 100 passes through welding, clamping or equipment main heat sink part mounted externally by way of being spirally connected
On, realize the effect of circumscribed.
Referring to Fig. 1, support radiating subassembly 200 includes the first radiating radiating of gusset 210, second gusset 220, heat sinking back-plate
230th, the first radiating connection plate body 240 and the second radiating connection plate body 250, the first radiating gusset and the second radiating angle
Plate is respectively arranged at the both ends of the radiating installation base plate, the both ends of the heat sinking back-plate respectively with the described first radiating gusset and
The second radiating gusset connection, angle, first radiating are formed between the heat sinking back-plate and the radiating installation base plate
The both ends for connecting plate body are connected with the radiating installation base plate and the heat sinking back-plate respectively, the second radiating connection plate body
Both ends are connected with the radiating installation base plate and the heat sinking back-plate respectively, and the first radiating connection plate body dissipates with described second
Thermally coupled plate body be arranged in parallel, and so, support radiating subassembly 200 is by setting the first radiating radiating gusset of gusset 210, second
220th, heat sinking back-plate 230, the first radiating connection plate body 240 and the second radiating connection plate body 250, integrally-built branch can be used as
Support bone frame, it is possible to increase cooling surface area, and then heat dispersion is improved, and more hollow structure designs, additionally it is possible to improve light
Just property.
Referring to Fig. 1, radiating stiffener assembly 300 includes radiating hog frame 310 and connecting cylinder 320 is strengthened in radiating, it is described to dissipate
Hot hog frame is arranged on heat sinking back-plate, and the both ends of the radiating hog frame respectively with the described first radiating gusset and described the
Two radiating gusset connections, the radiating is strengthened connecting cylinder and is arranged on the radiating installation base plate, and connection is strengthened in the radiating
The both ends of cylinder are connected with the described first radiating gusset and the second radiating gusset respectively, and so, radiating stiffener assembly 300 passes through
Set radiating hog frame 310 and radiating to strengthen connecting cylinder 320, overall mechanical strength can be improved as further, and can also
Cooling surface area is enough improved, and then improves heat dispersion, in addition, more hollow structure designs, additionally it is possible to improve portability.
In one embodiment, the radiating installation base plate has rectangular parallelepiped structure;And for example, the first radiating gusset has
Triangular structure;And for example, the second radiating gusset has triangular structure;And for example, the first radiating gusset and the institute
The second radiating gusset is stated to be arranged in parallel;And for example, connecting cylinder is strengthened in the radiating has hollow square tube shape structure;And for example, it is described to dissipate
Hot hog frame has " L " character form structure, in such manner, it is possible to improve integrally-built stability.
Above-mentioned radiating external member 10 is by setting radiating installation base plate 100, support radiating subassembly 200 and radiating stiffener assembly
300 can improve cooling surface area, and then improve heat dispersion, and more hollow structure designs, additionally it is possible to improve portability.
It should be noted that the radiating installation base plate of the radiating external member undertakes main radiating load, i.e., it is described
The installation base plate heat dissipation capacity that radiates is maximum, i.e., the true heat gain value that described radiating installation base plate undertakes is maximum, if outside equipment
The heat increase that main heat sink part passes over, then will certainly cause the radiating load of radiating external member to increase, and prior art
Auxiliary type thermal component, that is, radiate external member radiating load be fixed, it is more difficult to be adjusted, in this way, outside can be made
Equipment main heat sink part and radiating external member are in radiating running overload, so, can influence the normal operation of the equipment of outside,
Therefore, in order to realize that the radiating load of the radiating external member can adjust function, for example, the radiating external member also includes grafting
Heat radiation module, the grafting heat radiation module is used to directly be plugged in the radiating installation base plate, to aid in the radiating external member
Collaboration thermolysis is played jointly, and according to the heat dissipation capacity actually increased, corresponding adjustment is plugged on the radiating installation base plate
Grafting heat radiation module quantity, with realize it is described radiating external member radiating load can adjust function, however, the grafting
The field erected mode of mounting means generally use of heat radiation module, it is overall if the weight of the grafting heat radiation module is excessive
Structure is more heavy, is unfavorable for transport and installation operation, it is thus desirable to which so that the grafting heat radiation module is with more light
Advantage, further, the grafting heat radiation module need to be adjusted according to the radiating load of the equipment main heat sink part of outside
Section, i.e., when the radiating load increase of the equipment main heat sink part of outside, then correspond to and be arranged on the radiating installation base plate
The grafting heat radiation module quantity can also increase, and when outside equipment main heat sink part radiating load reduce when, then
The corresponding grafting heat radiation module quantity being arranged on the radiating installation base plate can also be reduced, if or even in the radiating sleeve
When part and outside equipment main heat sink part can meet radiating requirements, then the grafting radiating mould need not be additionally installed
Group, that is to say, that the grafting heat radiation module is frequently necessary to remove and install, it is thus desirable to which so that the grafting heat radiation module has
The advantages of being easily installed dismounting, and in unloading process, operating personnel need single-handedly to go to extract the grafting heat radiation module, if
The temperature on surface of the grafting heat radiation module in radiation processes is higher, then easily scalds operating personnel, so, it is also necessary to make
The grafting heat radiation module is obtained in radiation processes, the temperature on the grafting heat radiation module surface is relatively low.In order to realize
The radiating load for stating radiating external member can adjust function, enable to the grafting heat radiation module to have the advantages of more light, with
And enable to the grafting heat radiation module temperature on the grafting heat radiation module surface is relatively low, preferably in radiation processes
Operating personnel are protected, for example, the radiating external member also includes grafting heat radiation module, the grafting heat radiation module is plugged in described dissipate
On hot installation base plate, the auxiliary heat dissipation module extends tongue, radiating alloy plug pin including heat-insulation scald-proof shell, heat-insulation scald-proof, dissipated
Thermalloy radiating supports nail, the first radiating alloy mounting bar, the second radiating alloy mounting bar and the alloy heat-sink piece that radiates, it is described every
The anti-scald shell of heat has a hollow structure, and the heat-insulation scald-proof shell is internally formed radiating installation cavity, outside the heat-insulation scald-proof
One end of shell offers heat dissipation ventilation mouth, for example, the heat-insulation scald-proof shell has the hollow rectangular parallelepiped structure of one end open, institute
State heat dissipation ventilation mouth to connect with the radiating installation cavity, the heat-insulation scald-proof extension tongue is arranged at the radiating installation cavity
It is interior, for example, the first end of heat-insulation scald-proof extension tongue is connected with the madial wall of the radiating installation cavity, the heat-insulation scald-proof
Second end of extension tongue is concordant with the heat dissipation ventilation mouth to be set, and the radiating alloy heat-sink piece is arranged at the heat-insulation scald-proof and prolonged
On lolling, first end that the first end of the radiating alloy plug pin and the radiating alloy heat-sink support nail is respectively arranged at described
On the lateral wall of heat-insulation scald-proof shell, the first radiating alloy mounting bar wears the heat-insulation scald-proof shell, and described the
The first end of one radiating alloy mounting bar is connected with the radiating alloy plug pin first end, and the second radiating alloy mounting bar is worn
If the heat-insulation scald-proof shell, and the first end of the second radiating alloy mounting bar supports nail with the radiating alloy heat-sink
First end connects, the second end difference of the second end of the first radiating alloy mounting bar and the second radiating alloy mounting bar
It is connected with the radiating alloy heat-sink piece, so, the heat absorbed on the radiating alloy plug pin is closed by the described first radiating
Golden mounting bar is rapidly transferred on the radiating alloy heat-sink piece, and the radiating alloy heat-sink supports the heat for nailing on absorption
Amount is rapidly transferred on the radiating alloy heat-sink piece by the described second radiating alloy mounting bar, so, it is possible so that heat
Amount is gathered on the radiating alloy heat-sink piece, and the enough heat dissipation ventilation mouths of the heat and can on alloy heat-sink piece that radiates scatter and disappear to outer
In boundary's air, and the radiating alloy heat-sink piece is placed in the radiating installation cavity body, it is possible to increase the cladding radiating is closed
The effect of golden fin, operating personnel are avoided directly to be contacted with the radiating alloy heat-sink piece, further, since first radiating
Alloy mounting bar and the second radiating alloy mounting bar are installed in the heat-insulation scald-proof shell, can also avoid operating personnel straight
Connect and contacted with the radiating alloy heat-sink piece, be so, it is possible so that the grafting heat radiation module is in radiation processes, the grafting
The temperature on heat radiation module surface is relatively low, preferably protects operating personnel.Radiating is offered on the surface of the radiating installation base plate
Spliced eye, the second end of the radiating alloy plug pin are plugged in the radiating spliced eye, and the radiating alloy heat-sink supports nail
The second end with it is described radiating installation base plate surface be bonded, i.e., using the mounting means of plug-in type, installing/dismounting is more convenient,
It can realize that the radiating load of the radiating external member can adjust function.It so, it is possible so that the alloy heat-sink that radiates supports nail and institute
State radiating alloy plug pin and absorb the heat on the radiating installation base plate, to play collaboration thermolysis.So, it is described to insert
Heat radiation module is connect by setting heat-insulation scald-proof shell and heat-insulation scald-proof to extend tongue and be used as body supports skeleton, i.e., as supporting construction
For heat-insulation scald-proof material, for example, the heat-insulation scald-proof material is organic polymer material, i.e. plastic material, so as to possess
The advantages of light quality, it is scattered that nail, the first radiating alloy mounting bar and second are supported by the alloy plug pin that radiates, radiating alloy heat-sink
The heat to radiate on installation base plate can be rapidly transferred on radiating alloy heat-sink piece by thermalloy mounting bar, by radiating alloy
Fin scatters and disappears heat into outside air by heat dissipation ventilation mouth, and radiating effect is preferable, can play the work of collaboration radiating
With.For example, radiating alloy is aluminium alloy or copper alloy.
And for example, the grafting heat radiation module also includes heat-insulation scald-proof lid and radiating alloy elastic helical member, the radiating
The first end of alloy elastic helical member is connected with the radiating alloy heat-sink piece, the first end of the radiating alloy elastic helical member
The radiating installation inside cavity is placed in, the radiating alloy elastic helical member passes the heat dissipation ventilation mouth, the radiating
Alloy elastic helical member is used to improve area of dissipation, and to improve heat dispersion, the heat-insulation scald-proof lid rotation is arranged at described
On the edge of heat dissipation ventilation mouth, the heat-insulation scald-proof lid is used to close the heat dissipation ventilation mouth, in this way, working as the radiating alloy
When fin and the radiating alloy elastic helical member need radiating, then the heat-insulation scald-proof lid is opened, make the radiating logical
Air port is opened wide, and is in communication with the outside, and when the grafting heat radiation module need not radiate, then closes the heat-insulation scald-proof lid,
Second end of the radiating alloy elastic helical member supports with the heat-insulation scald-proof lid, at the radiating alloy elastic helical member
In contraction state, so, it is possible preferably to house the radiating alloy elastic helical member.For example, the radiating alloy elastic spiral shell
Rotating part has spring-like structures.
Each technical characteristic of embodiment described above can be combined arbitrarily, to make description succinct, not to above-mentioned reality
Apply all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited
In contradiction, the scope that this specification is recorded all is considered to be.
Embodiment described above only expresses several embodiments of the present utility model, and it describes more specific and detailed
Carefully, but the limitation to the utility model patent scope therefore can not be interpreted as.It should be pointed out that for the general of this area
For logical technical staff, without departing from the concept of the premise utility, various modifications and improvements can be made, these are all
Belong to the scope of protection of the utility model.Therefore, the protection domain of the utility model patent should be determined by the appended claims.
Claims (7)
1. one kind radiating external member, it is characterised in that including:
Radiate installation base plate,
Radiating subassembly is supported, the support radiating subassembly includes the first radiating gusset, the second radiating gusset, heat sinking back-plate, first
Radiating connection plate body and the second radiating connection plate body, the first radiating gusset and the second radiating gusset are respectively arranged at institute
State the both ends of radiating installation base plate, the both ends of the heat sinking back-plate respectively with the described first radiating gusset and the second radiating angle
Plate is connected, and angle, the both ends of the first radiating connection plate body are formed between the heat sinking back-plate and the radiating installation base plate
Be connected respectively with the radiating installation base plate and the heat sinking back-plate, the both ends of the second radiating connection plate body respectively with it is described
Radiating installation base plate and heat sinking back-plate connection, the first radiating connection plate body are parallel with the second radiating connection plate body
Set;And
Radiate stiffener assembly, and the radiating stiffener assembly includes radiating hog frame and connecting cylinder is strengthened in radiating, and the radiating is strengthened
Erection is placed on heat sinking back-plate, and the both ends of the radiating hog frame are radiated with the described first radiating gusset and described second respectively
Gusset connects, and the radiating is strengthened connecting cylinder and is arranged on the radiating installation base plate, and the radiating strengthens the two of connecting cylinder
End is connected with the described first radiating gusset and the second radiating gusset respectively.
2. radiating external member according to claim 1, it is characterised in that the radiating installation base plate has rectangular parallelepiped structure.
3. radiating external member according to claim 1, it is characterised in that the first radiating gusset has triangular structure.
4. radiating external member according to claim 1, it is characterised in that the second radiating gusset has triangular structure.
5. radiating external member according to claim 1, it is characterised in that the first radiating gusset and the described second radiating angle
Plate be arranged in parallel.
6. radiating external member according to claim 1, it is characterised in that connecting cylinder is strengthened in the radiating has hollow square tube shape
Structure.
7. radiating external member according to claim 1, it is characterised in that the radiating hog frame has " L " character form structure.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720946502.2U CN207006966U (en) | 2017-07-31 | 2017-07-31 | Radiate external member |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720946502.2U CN207006966U (en) | 2017-07-31 | 2017-07-31 | Radiate external member |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207006966U true CN207006966U (en) | 2018-02-13 |
Family
ID=61456981
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201720946502.2U Expired - Fee Related CN207006966U (en) | 2017-07-31 | 2017-07-31 | Radiate external member |
Country Status (1)
Country | Link |
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CN (1) | CN207006966U (en) |
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2017
- 2017-07-31 CN CN201720946502.2U patent/CN207006966U/en not_active Expired - Fee Related
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Granted publication date: 20180213 Termination date: 20180731 |