CN208425107U - A kind of wind regime fluid dividing cover - Google Patents
A kind of wind regime fluid dividing cover Download PDFInfo
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- CN208425107U CN208425107U CN201821147113.4U CN201821147113U CN208425107U CN 208425107 U CN208425107 U CN 208425107U CN 201821147113 U CN201821147113 U CN 201821147113U CN 208425107 U CN208425107 U CN 208425107U
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- wind regime
- cover
- wind
- fluid dividing
- ventilation opening
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Abstract
The utility model belongs to electronic equipment dissipating heat technical field, in particular to a kind of wind regime fluid dividing cover.Including covering in the wind regime cover on the outside of wind regime, wind regime cover is equipped with one or more ventilation openings, and ventilation opening is used to completely or partially shunt the wind of wind regime and draw.Ventilation opening on wind regime cover is connect with interior ventilation duct, and interior ventilation duct is equipped with built-in radiating subassembly, the heat source part connection of built-in radiating subassembly and electronic equipment.The utility model is widely used, and is not limited by device structure, flexible for installation, meets the cooling requirements of various electronic devices structures.
Description
Technical field
The utility model belongs to electronic equipment dissipating heat technical field, in particular to a kind of wind regime fluid dividing cover.
Background technique
In electronic equipment or communication equipment, pyrogen part has heat dissipation problem.Some equipment influence to make because heat dissipation is bad
With the service life, or even because heat dissipation problem whole equipment is completed in design, the last moment of prototyping testing is abandoned.Present electronic equipment
Or the most widely used heat dissipating method of communication equipment is with air-cooled, including high wind and natural wind, existing electronic equipment will
The element of heat dissipation is welded or is mounted on corresponding circuit board, then circuit board is fixed on the metal substrate of cooling fin.Because
Cooling fin increases heat dissipation area, is dissipated by the heat that wind will pass on cooling fin.Although being used sometimes in existing structure
To elements such as heat pipe, heat-conducting silicone greases, but basic structure will not change.
There are the following problems for radiator structure in traditional electronic equipment or communication equipment: 1. electronic equipments or communication are set
Standby to require that performance is good, power is big, size is small again, is unable to satisfy requirements with conventional method, needs other methods to improve heat dissipation and imitates
Rate;2., even if seldom heat, can not also be dissipated when there is secondary heat source far from cooling fin, and again not in the path of ventilation
It goes out, rises sharply so as to cause heat sink element temperature;3. when there is multiple and different position heat sources, and again not in same direction, together
One level can not use a direction air duct radiation;4. when external fan, and especially needing for certain point (or multiple spot) heat dissipation member
Part heat dissipation, but it is unable to satisfy requirement.
Utility model content
In view of the above-mentioned problems, being set the purpose of this utility model is to provide a kind of wind regime fluid dividing cover with solving existing electronics
The problem of standby or communication equipment is unable to satisfy cooling requirements because of size, heat source part setting position difference.
To achieve the goals above, the utility model uses following technical scheme:
A kind of wind regime fluid dividing cover, including covering in the wind regime cover on the outside of wind regime, the wind regime cover is equipped with one or more
A ventilation opening, the ventilation opening are used to completely or partially shunt the wind of the wind regime and draw.
The wind regime cover is that the wind of the wind regime is all shunted to a full set of wind regime cover drawn, the full set wind regime cover
Body is equipped with multiple ventilation openings.
Ventilation opening on the full set wind regime cover is circumferentially laid;Or wherein a ventilation opening is located at center, remaining is logical
It is circumferentially laid around center in air port.
Multiple ventilation openings on the full set wind regime cover are in rods arranged in horizontal line.
The wind regime cover is that the wind part of the wind regime is shunted to the half set of wind regime cover drawn, the half set wind regime cover
Body is equipped at least one described ventilation opening.
Ventilation opening on the wind regime cover is connect with interior ventilation duct, and the interior ventilation duct is equipped with built-in radiating subassembly,
The heat source part of the built-in radiating subassembly and electronic equipment connects.
The built-in radiating subassembly include cooling fin metal base plate and be set on the cooling fin metal base plate one
Or multiple heat dissipation gear pieces, heat dissipation channel is equipped between the two neighboring heat dissipation gear piece.
The wind regime cover is connect by flange with the wind regime.
The wind regime is fan or air blower.
The advantages of the utility model and beneficial effect are: fan is arranged in the outside of fan or blower in the utility model
Cover, fan guard are equipped with ventilation opening, and wind is drawn to the place for branching to and needing to radiate;Or fan guard makes with the cooperation of interior ventilation duct
With, radiating subassembly is set on interior ventilation duct, radiating subassembly is attached on heat source part, with solve different location heat source part dissipate
Heat problem realizes the outlet air of different directions, reaches the heat dissipation problem of different location heat source part.The utility model is widely used, no
It is limited by device structure, it is flexible for installation, meet the cooling requirements of various electronic devices structures.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the utility model embodiment one;
Fig. 2 is the application state schematic diagram of a full set of wind regime cover in the utility model embodiment one;
Fig. 3 is the structural schematic diagram of the utility model embodiment two;
Fig. 4 is the structural schematic diagram of the utility model embodiment three;
Fig. 5 is half one of the application state schematic diagram for covering wind regime cover in the utility model embodiment three;
Fig. 6 is two of the application state schematic diagram of half set wind regime cover in the utility model embodiment three;
Fig. 7 is the structural schematic diagram of the utility model embodiment four.
In figure: 1 is interior ventilation duct, and 2 be built-in radiating subassembly, and 3 be cooling fin metal base plate, and 5 be inner tube ventilation opening, and 8 are
Shell, 9 be a full set of wind regime cover, and 10 be fan, and 11 be electronic module, and 12 be half set wind regime cover, and 13 be circuit board, and 14 be outer
Portion's ventilation opening, 15 be external heat radiation component, and 16 be air duct, and 17 be air blower, and 21 be ventilation opening.
Specific embodiment
Radiator structure in existing electronic equipment or communication equipment, good to electronic equipment or communication device calls performance,
Power is big, when size is small again or secondary heat source is far from cooling fin, and again not in the path of ventilation, or has more
When a different location heat source, it is all unable to satisfy the requirement of heat dissipation, heat sink element temperature can be caused to rise sharply, cause equipment damage
Problem.
In order to solve the problems, such as that existing electronic equipment or communication equipment have bad, the utility model design fan that radiates
Cover, and ventilation opening is set on fan guard, wind is completely or partially shunted to the place for leading to and needing to radiate;Or ventilation opening with
Interior ventilation opening cooperation, is arranged radiating subassembly on interior ventilation duct, radiating subassembly is attached on heat source part, realizes going out for different directions
Wind reaches the heat dissipation problem of different location heat source part.
In order to keep the purpose of this utility model, technical solution and advantage clearer, with reference to the accompanying drawing and it is embodied
The utility model is described in detail in example.
As shown in Figure 1, a kind of fan guard provided by the utility model, including covering in the wind regime cover on the outside of wind regime, wind regime
Cover is equipped with one or more ventilation openings 4, and ventilation opening 4 is used to completely or partially shunt the wind of wind regime and draw.
Further, wind regime cover is connect by flange with wind regime, and wind regime is fan or air blower.
Embodiment one
As shown in Figure 1, wind regime is fan 10 in the present embodiment, wind regime cover is all to shunt the wind of fan 10 to draw
A full set of wind regime cover 9, the side of a full set of wind regime cover 9 and 10 flanged joint of fan, a full set of wind regime cover 9 is by the wind of fan 10
Mouth is all comprising in it, the other side of a full set of wind regime cover 9 is equipped with multiple ventilation openings 4, and multiple ventilation openings 4 are complete by the wind of fan 10
Part stream is drawn.
Ventilation opening 4 on a full set of wind regime cover 9 is circumferentially laid;Or wherein a ventilation opening 4 is located at center, remaining ventilation
Mouth 4 is circumferentially laid around center.
As shown in Fig. 2, multiple ventilation openings 4 on a full set of wind regime cover 9 are connect with multiple interior ventilation ducts 1 respectively, it is each interior logical
Built-in radiating subassembly 2 is equipped on air hose 1, built-in radiating subassembly 2 is connect with the heat source part of electronic equipment, realizes different directions
Outlet air reaches the heat dissipation problem of different location heat source part.
Built-in radiating subassembly 2 includes cooling fin metal base plate and the one or more for being connected to cooling fin metal base plate side
Radiate gear piece, and cooling fin metal base plate is located at the outside of interior ventilation duct 1, and one or more heat dissipation gear piece is placed in interior ventilation duct 1
Interior and parallel with the axis of interior ventilation duct 1, the end of one or more cooling fins is bonded with heat source part.
Further, also settable built-in fans in interior ventilation duct 1.
Embodiment two
As shown in figure 3, wind regime is air blower 17, the side of a full set of wind regime cover 9 and 17 flange of air blower in the present embodiment
The air port of air blower 17 is all included in it by connection, a full set of wind regime cover 9, and the other side of a full set of wind regime cover 9 is equipped with multiple
In the ventilation opening 4 of rods arranged in horizontal line, the wind of air blower 17 is all shunted and is drawn by multiple ventilation openings 4.
Embodiment three
As shown in figure 4, wind regime is fan 10 in the present embodiment, wind regime cover is to shunt the wind part of fan 10 to draw
Half set of wind regime cover 12, half covers the side of wind regime cover 12 and 10 flanged joint of fan, and half covers wind regime cover 12 for fan 10
Air port part include in it, half other side for covering wind regime cover 12 is equipped at least one ventilation opening 4.Because of half set wind regime cover 12
Only the air port part of fan 10 is covered, so ventilation opening 4 draws the wind part of fan 10.
As shown in figure 5, being equipped with external heat radiation component 15 in the shell 8 of electronic equipment, external heat radiation component 15 is equipped with electricity
Submodule 11 is equipped with air duct 16 between 15 one end of external heat radiation component and fan 10, opposite with 15 other end of external heat radiation component
The shell 8 answered is equipped with external ventilation mouth 14, and the inner wall of the shell 8 far from air duct 16 is equipped with circuit board 13.
Ventilation opening 4 on half set wind regime cover 12 is connect with interior ventilation duct 1, and interior ventilation duct 1 is equipped with built-in radiating subassembly
2, built-in radiating subassembly 2 is connect with circuit board 13, realizes the outlet air of different directions, and the heat dissipation for reaching different location heat source part is asked
Topic.
As shown in fig. 6, interior ventilation duct 1 runs through electronic module 11, built-in radiating subassembly 2 and the heat source inside electronic module 11
Part connection.
When there is individual heat source part temperature anomalies high, it is necessary to it is special to radiate for heat source part, with half set fan guard 12 and Nei Tong
Air hose 1, which combines, draws wind, and the built-in radiating subassembly 2 of interior ventilation duct 1 contacts individual heat source parts, radiates to individual heat source parts, solves
The problem of individual heat source part temperature anomalies.
Example IV
As shown in fig. 7, wind regime is air blower 17 in the present embodiment, half covers the side of wind regime cover 12 and 17 method of air blower
Orchid connection, half covers wind regime cover 12 for the air port part of air blower 17 comprising in it, half other side for covering wind regime cover 12 is equipped with
At least one ventilation opening 4.Because half set wind regime cover 12 covers the air port part of air blower 17, so ventilation opening 4 is by air blower
It draws 17 wind part.
It is hose when the interior ventilation duct 1 of the utility model is installed, is easily installed, is cured as hard tube when using.Interior ventilation
The inlet and outlet at 1 both ends of pipe, can be made into the waterproof case being made of pipe thread, nuts and washers.Since interior ventilation duct 1 can be made envelope
Waterproof is closed, then can be by compressed air in interior ventilation duct 1, it can also be by liquid medium (water or oil etc.), use is very clever
It is living.
The wind regime fluid dividing cover of the utility model may be designed as a full set of wind regime cover 9 and half set wind regime cover 12, can be by wind regime
Wind completely or partially shunt to lead to and need the place radiated.Wind regime fluid dividing cover can be used in combination with interior ventilation duct, lead to inside
Radiating subassembly is set on air hose, radiating subassembly is attached on heat source part, realizes the outlet air of different directions, reaches different location heat source
The heat dissipation problem of part.The utility model is widely used, and is not limited by device structure, flexible for installation, meets various electronic equipment knots
The cooling requirements of structure.
The foregoing is merely the embodiments of the present invention, are not intended to limit the protection scope of the utility model.It is all
Any modification, equivalent substitution and improvement made within spirit of the present utility model and principle, extension etc., are all contained in this reality
With in novel protection scope.
Claims (9)
1. a kind of wind regime fluid dividing cover, which is characterized in that including covering in the wind regime cover on the outside of wind regime, the wind regime cover is equipped with
One or more ventilation openings (4), the ventilation opening (4) are used to completely or partially shunt the wind of the wind regime and draw.
2. wind regime fluid dividing cover according to claim 1, which is characterized in that the wind regime cover is that the wind of the wind regime is complete
The a full set of wind regime cover (9) that part stream is drawn, the full set wind regime cover (9) are equipped with multiple ventilation openings (4).
3. wind regime fluid dividing cover according to claim 2, which is characterized in that the ventilation opening on the full set wind regime cover (9)
(4) it circumferentially lays;Or wherein a ventilation opening (4) is located at center, remaining ventilation opening (4) is circumferentially laid around center.
4. wind regime fluid dividing cover according to claim 2, which is characterized in that multiple logical on the full set wind regime cover (9)
Air port (4) is in rods arranged in horizontal line.
5. wind regime fluid dividing cover according to claim 1, which is characterized in that the wind regime cover is by the wind portion of the wind regime
The half set of wind regime cover (12) drawn is shunted, half set wind regime cover (12) is equipped at least one described ventilation opening (4).
6. wind regime fluid dividing cover according to claim 1, which is characterized in that ventilation opening (4) on the wind regime cover with it is interior
Ventilation duct (1) connection, the interior ventilation duct (1) are equipped with built-in radiating subassembly (2), the built-in radiating subassembly (2) and electronics
The heat source part of equipment connects.
7. wind regime fluid dividing cover according to claim 6, which is characterized in that the built-in radiating subassembly (2) includes cooling fin
Metal base plate and the one or more heat dissipation gear pieces being set on the cooling fin metal base plate, the two neighboring heat dissipation gear piece
Between be equipped with heat dissipation channel.
8. wind regime fluid dividing cover according to claim 1, which is characterized in that the wind regime cover passes through flange and the wind regime
Connection.
9. wind regime fluid dividing cover according to claim 1, which is characterized in that the wind regime is fan or air blower.
Priority Applications (1)
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CN201821147113.4U CN208425107U (en) | 2018-07-19 | 2018-07-19 | A kind of wind regime fluid dividing cover |
Applications Claiming Priority (1)
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CN201821147113.4U CN208425107U (en) | 2018-07-19 | 2018-07-19 | A kind of wind regime fluid dividing cover |
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CN208425107U true CN208425107U (en) | 2019-01-22 |
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CN201821147113.4U Active CN208425107U (en) | 2018-07-19 | 2018-07-19 | A kind of wind regime fluid dividing cover |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114375147A (en) * | 2022-03-22 | 2022-04-19 | 西安中科西光航天科技有限公司 | Remote sensing image fusion device |
-
2018
- 2018-07-19 CN CN201821147113.4U patent/CN208425107U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114375147A (en) * | 2022-03-22 | 2022-04-19 | 西安中科西光航天科技有限公司 | Remote sensing image fusion device |
CN114375147B (en) * | 2022-03-22 | 2022-06-21 | 西安中科西光航天科技有限公司 | Remote sensing image fusion device |
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