CN208509488U - A kind of modularization radiator structure - Google Patents
A kind of modularization radiator structure Download PDFInfo
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- CN208509488U CN208509488U CN201820967375.9U CN201820967375U CN208509488U CN 208509488 U CN208509488 U CN 208509488U CN 201820967375 U CN201820967375 U CN 201820967375U CN 208509488 U CN208509488 U CN 208509488U
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- vertical plate
- radiating fin
- radiating
- horizontal pane
- radiating module
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Abstract
The utility model relates to a kind of modularization radiator structures, including cabinet rake, front apron, lower horizontal pane, upper horizontal pane, lower horizontal arch is equipped with glidepath, upper horizontal frame bottom is equipped with upper sliding rail, and glidepath is equipped with gliding groove, and upper sliding rail is equipped with upper hopper chute, radiating module there are two being set between upper horizontal pane and lower horizontal pane, radiating module includes vertical plate, a radiating fin, and the front apron on front side of radiating module is equipped with air inlet, and the air inlet of front apron is equipped with radiator fan.The radiating module that the utility model is oppositely arranged using two, and air duct is set between two radiating modules, radiator fan can be shared, advantageously reduce power consumption, the layout of the utilization rate of heat radiation fan, module is strong to wind drainage, is less prone to sinuous flow, heat exchange efficiency is high, radiating module is installed using upper sliding rail and glidepath, easier for installation, is effectively provided separately multiple electrical components, heat more disperses in entire electrical cabinet, more easy heat radiation.
Description
Technical field
The utility model relates to technical field of electric equipment, in particular to a kind of modularization radiator structure.
Background technique
Radiating fin is as common heat dissipation element, since component each on electrical equipment can generate largely at work
Heat, it is therefore desirable to which carrying out radiating treatment for electrical component just can guarantee the stable operation of electrical component, existing electrical component
Heat dissipation generallys use radiating fin and radiator fan jointly radiates to electrical component, and high-power heat-dissipation occasion is required to
Corresponding radiating fin is customized, manufacturing cost is high, and existing radiating module volume is big, it is difficult to it arranges, the noise of radiating module is big,
Power consumption is high.
Utility model content
Insufficient for the part of the prior art, the purpose of the utility model is to provide a kind of modularization radiator structures.
The technical scheme adopted by the utility model to solve the technical problem is as follows: a kind of modularization radiator structure, including machine
Tank tower, the horizontal pane being horizontally placed in the cabinet rake, the cabinet rake on front side of the horizontal pane are equipped with vertical front apron,
The horizontal pane is arranged in pairs up and down, i.e., the described horizontal pane includes lower horizontal pane, the upper level above the lower horizontal pane
Frame, the lower horizontal arch are set there are two the parallel glidepath being extended forward, and the upper horizontal frame bottom is equipped with two
Extended upper sliding rail forward in parallel, the glidepath are equipped with the gliding groove extended forward, the upper sliding rail be equipped with to
The upper hopper chute of preceding extension is set between the upper horizontal pane and the lower horizontal pane there are two radiating module, the radiating module packet
The radiating fin for including the vertical plate being vertically arranged, being horizontally placed on the vertical plate opposite side, the opposite side of vertical plate are
The thermal conductive surface for fastening electrical component, the front apron on front side of the radiating module are equipped with air inlet, described in the air inlet face
Radiating fin front end, the air inlet of the front apron are equipped with the radiator fan of the blowing of radiating fin described in face, the vertical plate top
Portion is inserted into the upper hopper chute, the gliding groove is inserted into the vertical plate bottom, and the upper sliding rail is equipped with to be connect with the vertical plate
Fastening screw.
The radiating module being oppositely arranged in above-mentioned design using two, and air duct, energy are set between two radiating modules
Radiator fan is enough shared, power consumption is advantageously reduced, the layout of the utilization rate of heat radiation fan, module is strong to wind drainage,
It is less prone to sinuous flow, heat exchange efficiency is high, and radiating module is installed using upper sliding rail and glidepath, and it is easier for installation, it effectively will be more
A electrical component is provided separately, and heat more disperses in entire electrical cabinet, more easy heat radiation.
As the further improvement of the design, the vertical plate is equipped with the mounting groove that front and back extends, and the mounting groove is along institute
State vertical plate width direction arranged distribution, one side bottom of mounting groove is equipped with deformation slot, and the radiating fin bottom is from vertical plate one
The mounting groove is inserted at end, radiating fin bottom cross section be it is trapezoidal, i.e., the described radiating fin bottom is to radiating fin head
Portion direction thickness gradually decreases, and the vertical plate and the non-installation condition of the radiating fin, the installation groove width are less than radiating fin
Piece bottom thickness.Radiating fin is inserted into mounting groove, convenient for different size of radiating module is set as needed, without individually die sinking
Production, production cost is low, and radiating fin bottom cross section is the stabilization of trapezoidal installation and connection convenient for radiating fin and vertical plate
Property, convenient for compressing adjacent radiating fin when installation radiating fin one by one, heat radiation fin is connect steady deformation slot with vertical plate
It is qualitative.
As the further improvement of the design, gap is equipped between the radiating fin tip of two radiating modules, just
In the installation of radiating module.
As the further improvement of the design, the vertical plate and radiating fin are aluminum, light weight, good heat dissipation effect,
It is easy to process.
As the further improvement of the design, the downslide trench bottom is equipped with lubrication groove, and the lubrication groove is along the downslide
Slot width direction extends, and the lubrication groove is installed along the gliding groove length direction arranged distribution convenient for radiating module, prevents simultaneously
Only lubricating grease is heated overflows.
The beneficial effects of the utility model are: the radiating module that the utility model is oppositely arranged using two, and at two
Air duct is set between radiating module, radiator fan can be shared, advantageously reduces power consumption, the utilization rate of heat radiation fan, mould
The layout of block is strong to wind drainage, is less prone to sinuous flow, and heat exchange efficiency is high, and radiating module is pacified using upper sliding rail and glidepath
Dress, it is easier for installation, effectively multiple electrical components are provided separately, heat more disperses in entire electrical cabinet, more easy heat radiation.
Detailed description of the invention
The present invention will be further described with reference to the accompanying drawings and examples.
Fig. 1 is the schematic perspective view of the utility model.
Fig. 2 is the front schematic view of the utility model.
Fig. 3 is the diagrammatic cross-section of the utility model.
Fig. 4 is the radiating module stereoscopic schematic diagram of the utility model.
Fig. 5 is the radiating fin and vertical plate connection schematic diagram of the utility model.
Fig. 6 is the glidepath stereoscopic schematic diagram of the utility model.
1. cabinet rake in figure, 2. lower horizontal panes, horizontal pane on 3., 4. glidepaths, 5. gliding grooves, sliding rail on 6., 7. dissipate
Hot-air fan, 8. air inlets, 9. front aprons, 10. deformation slots, 11. vertical plates, 12. thermal conductive surfaces, 13. radiating fins, 14. upper hopper chutes,
15. fastening screw, 16. mounting grooves, 17. lubrication grooves.
Specific embodiment
Be described in detail the utility model below in conjunction with attached drawing and specific embodiment, illustrative examples therein with
And explanation is only used to explain the utility model, but is not intended to limit the scope of the present invention.
Embodiment: a kind of modularization radiator structure, including cabinet rake 1, the level being horizontally placed in the cabinet rake 1
Frame, the cabinet rake 1 on front side of the horizontal pane are equipped with vertical front apron 9, and the horizontal pane is arranged in pairs up and down, i.e., the described water
Flat frame includes lower horizontal pane 2, the upper horizontal pane 3 above the lower horizontal pane 2, set at the top of the lower horizontal pane 2 there are two
The glidepath 4 being extended forward in parallel, upper 3 bottom of horizontal pane are set there are two the parallel upper sliding rail 6 being extended forward,
The glidepath 4 is equipped with the gliding groove 5 that extends forward, and the upper sliding rail 6 is equipped with the upper hopper chute 14 extended forward, it is described on
Radiating module there are two setting between horizontal pane 3 and the lower horizontal pane 2, the radiating module includes the vertical plate being vertically arranged
11, it is horizontally placed on the radiating fin 13 of 11 opposite side of vertical plate, the opposite side of the vertical plate 11 is fastening electrical component
Thermal conductive surface 12, the front apron 9 on front side of the radiating module is equipped with air inlet 8, radiating fin described in 8 face of air inlet
13 front ends, the air inlet 8 of the front apron 9 are equipped with the radiator fan 7 that radiating fin 13 described in face is dried, and the vertical plate 11 pushes up
Portion is inserted into the upper hopper chute 14, and the gliding groove 5 is inserted into 11 bottom of vertical plate, and the upper sliding rail 6 is equipped with and the vertical plate
The fastening screw 15 of 11 connections.
The radiating module being oppositely arranged in above-mentioned design using two, and air duct, energy are set between two radiating modules
Radiator fan 7 is enough shared, advantageously reduces power consumption, the utilization rate of heat radiation fan 7, the layout of module is to wind drainage
By force, it is less prone to sinuous flow, heat exchange efficiency is high, and radiating module is installed using upper sliding rail 6 and glidepath 4, and it is easier for installation, effectively
Multiple electrical components are provided separately, heat more disperses in entire electrical cabinet, more easy heat radiation.
As the further improvement of the design, the vertical plate 11 is equipped with the mounting groove 16 that front and back extends, the mounting groove
16 along the 11 width direction arranged distribution of vertical plate, and 16 1 side bottom of mounting groove is equipped with deformation slot 10, the radiating fin
The mounting groove 16 is inserted into from 11 one end of vertical plate in 13 bottoms, and the 13 bottom cross section of radiating fin is trapezoidal, i.e., the described heat dissipation
13 bottom of fin is gradually decreased to 13 cephalad direction thickness of radiating fin, and the vertical plate 11 does not install shape with the radiating fin 13
State, 16 width of mounting groove are less than 13 bottom thickness of radiating fin.Radiating fin 13 is inserted into mounting groove 16, convenient for as needed
Different size of radiating module is set, and without individually die sinking production, production cost is low, and 13 bottom cross section of radiating fin is trapezoidal
Convenient for the stability of radiating fin 13 and installation and the connection of vertical plate 11, deforms slot 10 and pressed when radiating fin 13 convenient for installing one by one
Tight adjacent radiating fin 13, the stability that heat radiation fin 13 is connect with vertical plate 11.
As the further improvement of the design, gap is equipped between 13 tip of radiating fin of two radiating modules,
Convenient for the installation of radiating module.
As the further improvement of the design, the vertical plate 11 and radiating fin 13 are aluminum, light weight, heat dissipation effect
It is good, it is easy to process.
As the further improvement of the design, 5 bottom of gliding groove is equipped with lubrication groove 17, and the lubrication groove 17 is along described
5 width direction of gliding groove extends, and the lubrication groove 17 is pacified along the 5 length direction arranged distribution of gliding groove convenient for radiating module
Dress, while preventing lubricating grease is heated from overflowing.
The above description is only the embodiments of the present invention, and therefore it does not limit the scope of the patent of the utility model, all
Equivalent structure or equivalent flow shift made based on the specification and figures of the utility model, is applied directly or indirectly in
Other related technical areas are also included in the patent protection scope of the utility model.
Claims (5)
1. a kind of modularization radiator structure, including cabinet rake, the horizontal pane being horizontally placed in the cabinet rake, feature exists
In the cabinet rake on front side of the horizontal pane is equipped with vertical front apron, and the horizontal pane is arranged in pairs up and down, i.e., the described level
Frame includes lower horizontal pane, the upper horizontal pane above the lower horizontal pane, the lower horizontal arch set there are two in parallel to
Preceding extended glidepath, the upper horizontal frame bottom are equipped with two parallel upper sliding rails being extended forward, the downslide
Rail is equipped with the gliding groove that extends forward, and the upper sliding rail is equipped with the upper hopper chute extended forward, the upper horizontal pane with it is described
It is set between lower horizontal pane there are two radiating module, the radiating module includes the vertical plate being vertically arranged, is horizontally placed on institute
The radiating fin of vertical plate opposite side is stated, the opposite side of vertical plate is the thermal conductive surface for fastening electrical component, the radiating module
The front apron of front side is equipped with air inlet, radiating fin front end described in the air inlet face, and the air inlet of the front apron is set
The upper hopper chute, the vertical plate bottom insertion are inserted into the radiator fan for having radiating fin described in face to dry, the vertical plate top
The gliding groove, the upper sliding rail are equipped with the fastening screw connecting with the vertical plate.
2. a kind of modularization radiator structure according to claim 1, characterized in that the vertical plate is equipped with what front and back extended
Mounting groove, for the mounting groove along the vertical plate width direction arranged distribution, one side bottom of mounting groove is equipped with deformation slot, described
The mounting groove is inserted into from vertical plate one end in radiating fin bottom, and radiating fin bottom cross section is trapezoidal, i.e., the described heat dissipation
Fin bottom portion is gradually decreased to radiating fin cephalad direction thickness, the vertical plate and the non-installation condition of the radiating fin, described
Groove width is installed and is less than radiating fin bottom thickness.
3. a kind of modularization radiator structure according to claim 1, characterized in that the radiating fin of two radiating modules
Gap is equipped between piece tip.
4. a kind of modularization radiator structure according to claim 1, characterized in that the vertical plate and radiating fin are aluminium
Matter.
5. a kind of modularization radiator structure according to claim 1, characterized in that the downslide trench bottom is equipped with lubrication
Slot, the lubrication groove extend along the downslide slot width direction, and the lubrication groove is along the gliding groove length direction arranged distribution.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820967375.9U CN208509488U (en) | 2018-06-22 | 2018-06-22 | A kind of modularization radiator structure |
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CN201820967375.9U CN208509488U (en) | 2018-06-22 | 2018-06-22 | A kind of modularization radiator structure |
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Publication Number | Publication Date |
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CN208509488U true CN208509488U (en) | 2019-02-15 |
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CN201820967375.9U Active CN208509488U (en) | 2018-06-22 | 2018-06-22 | A kind of modularization radiator structure |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112804849A (en) * | 2021-03-18 | 2021-05-14 | 陶保伟 | Microwave communication equipment with automatic heat dissipation function |
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2018
- 2018-06-22 CN CN201820967375.9U patent/CN208509488U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112804849A (en) * | 2021-03-18 | 2021-05-14 | 陶保伟 | Microwave communication equipment with automatic heat dissipation function |
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