A kind of big data server Dustproofing radiating system
Technical field
The present invention relates to hot systems, are in particular a kind of big data server Dustproofing radiating systems.
Background technique
Such as a kind of big data memory Dustproofing radiating system of publication number CN110136755A, it is in particular a kind of big
Data storage Dustproofing radiating system, including dirt seal housing, switching door, brake portion, adjusting side, combined bay, carrying balladeur train, sealing
Rubber frame, triggering brush, Multi-function air blower, Dust-proof bag, convenient button and handle, can to carrying out dustless rapid cooling in dirt seal housing,
Dedusting mode can be changed into from radiating mode by pulling back seal rubber frame or handle, one group of flabellum multiple functions can change
Become heat dissipation air quantity or dedusting dynamics;But the shortcomings that invention be can not be automatically fast by way of pulling back seal rubber frame
Conversion between speed control radiating mode and dedusting mode can not accurately be completed to turn between radiating mode and dedusting mode
It changes.
Summary of the invention
The object of the present invention is to provide a kind of big data server Dustproofing radiating systems, can be by pulling back sealing rubber
The mode of glue frame quickly controls the conversion between radiating mode and dedusting mode automatically;Can be applicable on a large scale radiate and
Dedusting.
The purpose of the present invention is achieved through the following technical solutions:
A kind of big data server Dustproofing radiating system, including cooling stand, seal rubber frame, T shape sliding rail III, sliding branch
Frame II, power mechanism, switches shift fork, telescoping mechanism I, dedusting mechanism and telescoping mechanism II at fan mechanism, slides on cooling stand
It is connected with seal rubber frame, is fixedly connected on cooling stand there are two T shape sliding rail III, is slidably connected between two T shape sliding rails III
There is sliding support II, fan mechanism, fan mechanism and power mechanism transmission connection, engine are rotatably connected on sliding support II
Structure is connected on sliding support II, and one end vertical sliding for switching shift fork is connected on seal rubber frame, switches the another of shift fork
End is rotatably connected on power mechanism, and dedusting mechanism is slidably connected on seal rubber frame, and telescoping mechanism I and telescoping mechanism II are equal
It is fixedly connected on cooling stand, the telescopic end of telescoping mechanism I is fixedly connected on sliding support II, and telescoping mechanism II stretches
End is slidably connected on dedusting mechanism, and there are two card slot is switched, seal rubber frame, which slides backward, to be connected to for setting on cooling stand
In the switching card slot of rear end, the rotation direction of the transmission fan mechanism of power mechanism is inverted, and telescoping mechanism II starts.
As advanced optimizing for the technical program, a kind of big data server Dustproofing radiating system of the present invention is described to dissipate
Hot bracket includes support housing, T shape sliding rail I, switching snap-gauge, support plate I and T shape sliding rail II, and the upper end on rear side of support housing is solid
Surely it is connected with switching snap-gauge, switches and switches card slot on snap-gauge there are two settings, the middle part on rear side of support housing is fixedly connected with two
A T shape sliding rail I, the lower end on rear side of support housing are fixedly connected with support plate I, and the left and right sides on front side of support housing is fixed to be connected
It is connected to T shape sliding rail II.
As advanced optimizing for the technical program, a kind of big data server Dustproofing radiating system of the present invention is described close
Envelope rubber frame includes that filter plate, T-shaped slider, support plate II, dedusting sliding slot, sliding cylinder and switching buckle, upper on rear side of filter plate
End is fixedly connected with support plate II, T-shaped slider is fixedly connected at left and right sides of filter plate, two T-shaped sliders are slided respectively
It is connected on two T shape sliding rails I, dedusting sliding slot is provided on filter plate, the upper end of filter plate is fixedly connected with sliding cylinder, sliding
Switching buckle is slidably connected in cylinder, is fixedly connected with compressed spring I between switching buckle and sliding cylinder, switch card button is connected to
In the switching card slot of front end, filter plate is fastened in support housing.
As advanced optimizing for the technical program, a kind of big data server Dustproofing radiating system of the invention, described two
The rear end of a T shape sliding rail I is fixedly connected to T shape sliding rail III, slidably connects sliding support II between two T shape sliding rails III.
As advanced optimizing for the technical program, a kind of big data server Dustproofing radiating system of the present invention, the wind
Fanning mechanism includes fan, transmission gear and drive pulley, and fan is rotatably connected on sliding support II, is fixedly connected on fan
Transmission gear and drive pulley, fan, transmission gear and drive pulley are coaxially disposed.
As advanced optimizing for the technical program, a kind of big data server Dustproofing radiating system of the present invention is described dynamic
Force mechanisms include that power motor, connecting key, power gear, power belt wheel and sliding friction wheel, power motor are fixedly connected on cunning
On dynamic bracket II, it is fixedly connected with connecting key on the output shaft of power motor, sliding friction wheel is slidably connected on connecting key, moves
Power gear and power belt wheel, transmission gear and power gear engaged transmission, power are rotatably connected on the output shaft of force motor
Belt wheel is connected with drive pulley by V belt translation, switch card buckle connect be located at front end switching card slot in, sliding friction wheel and
Power gear frictional drive, switch card buckle connect in the switching card slot for being located at rear end, sliding friction wheel and power belt wheel friction
Transmission.
As advanced optimizing for the technical program, a kind of big data server Dustproofing radiating system of the present invention is described to cut
The one end for changing shift fork is slidably connected in support plate II, and the other end for switching shift fork is rotatably connected on sliding friction wheel, is stretched
Mechanism I is fixedly connected in support plate I.
As advanced optimizing for the technical program, a kind of big data server Dustproofing radiating system of the present invention is described to remove
Dirt mechanism includes dedusting cleaner plate, dedusting slot and sliding groove, is provided with dedusting slot in dedusting cleaner plate, filter plate is slidably connected at
In dedusting slot, dedusting cleaner plate is slidably connected in dedusting sliding slot, and sliding groove is provided in dedusting cleaner plate, and telescoping mechanism II is solid
Surely it is connected in support plate I, the telescopic end of telescoping mechanism II is slidably connected in sliding groove, and starting switch for telescoping mechanism II is put
It sets in the switching card slot for being located at rear end.
As advanced optimizing for the technical program, a kind of big data server Dustproofing radiating system of the present invention is described big
Data server Dustproofing radiating system further includes mounting bracket, mounting bracket include sliding support I, sliding side plate, stripper plate and
Snap-gauge is installed, the left and right sides of sliding support I is fixedly connected to sliding side plate, and being slidably connected on sliding support I, there are two squeeze
Pressing plate is fixedly connected to compressed spring II between two stripper plates and two sliding side plates, sliding connects on two stripper plates
It is connected to installation snap-gauge, is fixedly connected to compressed spring III between two installation snap-gauges and two stripper plates, the two of sliding support I
End is slidably connected at respectively on two T shape sliding rails II, and there are two mounting bracket settings, the outside of two sliding supports I and bracket
Compressed spring IV is fixedly connected between outline border.
A kind of big data server Dustproofing radiating system of the invention has the beneficial effect that
A kind of big data server Dustproofing radiating system of the present invention, can be connect with switch card buckle in the switch card for being located at front end
In slot, filter plate is fastened in support housing, and fan mechanism is passed through cold air into cooling stand, on cooling stand there are two settings
Switch card slot, starting switch for telescoping mechanism II is placed in the switching card slot of rear end, and seal rubber frame slides backward
It is connected in the switching card slot of rear end, the rotation direction of the transmission fan mechanism of power mechanism inverts, and telescoping mechanism II opens
Dynamic, dedusting mechanism, which moves up and down, carries out reciprocal dedusting, and the rotation direction of fan mechanism changes cooperation and outward siphons away dust.
Detailed description of the invention
The present invention will be further described in detail with specific implementation method with reference to the accompanying drawing.
In the description of the present invention, it should be noted that term " center ", " longitudinal direction ", " transverse direction ", "upper", "lower",
The orientation or positional relationship of the instructions such as "front", "rear", "left", "right", "top", "bottom", "inner", "outside" and " endways " is based on attached
Orientation or positional relationship shown in figure, is merely for convenience of description of the present invention and simplification of the description, rather than indication or suggestion is signified
Device or element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as to the present invention
Limitation.
In the description of the present invention, it should be noted that unless otherwise expressly provided and limit, term " installation ", " phase
Even ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or being integrally connected can
To be to be directly connected to, can also be indirectly connected with by intermediary, can be the connection of two components interiors.For this field
Those of ordinary skill for, the concrete meaning of above-mentioned term in the present invention can be understood with concrete condition.
In addition, in the description of the present invention, unless otherwise indicated, " multiple ", " multiple groups ", " more " be meant that two or
It is more than two.
Fig. 1 is big data server Dustproofing radiating system overall structure diagram of the invention;
Fig. 2 is big data server Dustproofing radiating system section view figure structure schematic representation of the invention;
Fig. 3 is heat radiation support structure schematic diagram one of the invention;
Fig. 4 is heat radiation support structure schematic diagram two of the invention;
Fig. 5 is mounting support structure schematic diagram of the invention;
Fig. 6 is seal rubber mount structure schematic diagram of the invention;
Fig. 7 is II structural schematic diagram of sliding support of the invention;
Fig. 8 is fan mechanism structural schematic diagram of the invention;
Fig. 9 is power mechanism structural schematic diagram of the invention;
Figure 10 is power mechanism section view figure structure schematic representation of the invention;
Figure 11 is switching shifting fork structure schematic diagram of the invention;
Figure 12 is dedusting mechanism structural schematic diagram of the invention.
In figure: cooling stand 1;Support housing 1-1;I 1-2 of T shape sliding rail;Switch snap-gauge 1-3;I 1-4 of support plate;T shape sliding rail
Ⅱ1-5;Switch card slot 1-6;Mounting bracket 2;I 2-1 of sliding support;Slide side plate 2-2;Stripper plate 2-3;Snap-gauge 2-4 is installed;It is close
Seal rubber frame 3;Filter plate 3-1;T-shaped slider 3-2;II 3-3 of support plate;Dedusting sliding slot 3-4;Sliding cylinder 3-5;Switching buckle 3-6;
T shape sliding rail III 4;Sliding support II 5;Fan mechanism 6;Fan 6-1;Transmission gear 6-2;Drive pulley 6-3;Power mechanism 7;It is dynamic
Force motor 7-1;Connecting key 7-2;Power gear 7-3;Power belt wheel 7-4;Sliding friction wheel 7-5;Switch shift fork 8;Telescoping mechanism I
9;Dedusting mechanism 10;Dedusting cleaner plate 10-1;Dedusting slot 10-2;Sliding groove 10-3;Telescoping mechanism II 11.
Specific embodiment
The present invention is described in further detail below in conjunction with the accompanying drawings.
Specific embodiment 1:
Illustrate present embodiment, a kind of big data server Dustproofing radiating system, including heat dissipation branch below with reference to Fig. 1-12
Frame 1, seal rubber frame 3, T shape sliding rail III 4, sliding support II 5, fan mechanism 6, power mechanism 7, switching shift fork 8, telescoping mechanism
I 9, dedusting mechanism 10 and telescoping mechanism II 11, slidably connect seal rubber frame 3 on cooling stand 1, fixed on cooling stand 1
Connection slidably connects sliding support II 5, turns on sliding support II 5 there are two T shape sliding rail III 4 between two T shape sliding rails III 4
Dynamic to be connected with fan mechanism 6, fan mechanism 6 and power mechanism 7 are sequentially connected, and power mechanism 7 is connected on sliding support II 5,
One end vertical sliding of switching shift fork 8 is connected on seal rubber frame 3, and the other end of switching shift fork 8 is rotatably connected on engine
On structure 7, dedusting mechanism 10 is slidably connected on seal rubber frame 3, and telescoping mechanism I 9 and telescoping mechanism II 11 are fixedly connected with
On cooling stand 1, the telescopic end of telescoping mechanism I 9 is fixedly connected on sliding support II 5, and the telescopic end of telescoping mechanism II 11 is sliding
Dynamic to be connected on dedusting mechanism 10, setting slides backward clamping there are two card slot 1-6, seal rubber frame 3 is switched on cooling stand 1
In the switching card slot 1-6 for being located at rear end, the rotation direction of the transmission fan mechanism 6 of power mechanism 7 is inverted, telescoping mechanism II 11
Starting;Switching buckle 3-6 is connected in the switching card slot 1-6 of front end, and filter plate 3-1 is fastened on support housing 1-1, wind
Fan mechanism 6 is passed through cold air into cooling stand 1, switches card slot 1-6 there are two settings on cooling stand 1, telescoping mechanism II 11
It starts switch and is placed in the switching card slot 1-6 of rear end, seal rubber frame 3, which slides backward, is connected to cutting positioned at rear end
It changes in card slot 1-6, the rotation direction reversion of the transmission fan mechanism 6 of power mechanism 7, telescoping mechanism II 11 starts, dedusting mechanism
10, which move up and down, carries out reciprocal dedusting, and the rotation direction of fan mechanism 6 changes cooperation and outward siphons away dust.
Specific embodiment 2:
Illustrate present embodiment below with reference to Fig. 1-12, present embodiment is described further embodiment one, described
Cooling stand 1 includes I 1-2 of support housing 1-1, T shape sliding rail, switching snap-gauge 1-3, I 1-4 and T shape sliding rail of support plate, II 1-5, branch
Upper end on rear side of frame outline border 1-1 is fixedly connected with switching snap-gauge 1-3, switches and switches card slot 1-6 on snap-gauge 1-3 there are two settings,
Middle part on rear side of support housing 1-1 is fixedly connected there are two I 1-2 of T shape sliding rail, and the lower end on rear side of support housing 1-1 is fixedly connected
There is I 1-4 of support plate, the left and right sides on front side of support housing 1-1 is fixedly connected to II 1-5 of T shape sliding rail.
Specific embodiment 3:
Illustrate present embodiment below with reference to Fig. 1-12, present embodiment is described further embodiment two, described
Seal rubber frame 3 includes filter plate 3-1, T-shaped slider 3-2, II 3-3 of support plate, dedusting sliding slot 3-4, sliding cylinder 3-5 and switch card
3-6 is detained, the upper end on rear side of filter plate 3-1 is fixedly connected with II 3-3 of support plate, is fixedly connected at left and right sides of filter plate 3-1
There are T-shaped slider 3-2, two T-shaped slider 3-2 to be slidably connected on two I 1-2 of T shape sliding rail respectively, is provided on filter plate 3-1
Dedusting sliding slot 3-4, the upper end of filter plate 3-1 are fixedly connected with sliding cylinder 3-5, and switching buckle is slidably connected in sliding cylinder 3-5
Compressed spring I is fixedly connected between 3-6, switching buckle 3-6 and sliding cylinder 3-5, switching buckle 3-6 is connected to positioned at front end
Switch in card slot 1-6, filter plate 3-1 is fastened on support housing 1-1.
Specific embodiment 4:
Illustrate present embodiment below with reference to Fig. 1-12, present embodiment is described further embodiment three, described
The rear end of two I 1-2 of T shape sliding rail is fixedly connected to T shape sliding rail III 4, slidably connects sliding between two T shape sliding rails III 4
Bracket II 5.
Specific embodiment 5:
Illustrate present embodiment below with reference to Fig. 1-12, present embodiment is described further embodiment four, described
Fan mechanism 6 includes fan 6-1, transmission gear 6-2 and drive pulley 6-3, and fan 6-1 is rotatably connected on sliding support II 5,
Transmission gear 6-2 and drive pulley 6-3, fan 6-1, transmission gear 6-2 and drive pulley 6-3 are fixedly connected on fan 6-1
It is coaxially disposed.
Specific embodiment 6:
Illustrate present embodiment below with reference to Fig. 1-12, present embodiment is described further embodiment five, described
Power mechanism 7 includes power motor 7-1, connecting key 7-2, power gear 7-3, power belt wheel 7-4 and sliding friction wheel 7-5, is moved
Force motor 7-1 is fixedly connected on sliding support II 5, and connecting key 7-2 is fixedly connected on the output shaft of power motor 7-1, even
Connect and slidably connect sliding friction wheel 7-5 on key 7-2, be rotatably connected on the output shaft of power motor 7-1 power gear 7-3 and
Power belt wheel 7-4, transmission gear 6-2 and power gear 7-3 engaged transmission, power belt wheel 7-4 and drive pulley 6-3 pass through band and pass
Dynamic connection, switching buckle 3-6 are connected in the switching card slot 1-6 of front end, and sliding friction wheel 7-5 and power gear 7-3 rub
Transmission is wiped, switching buckle 3-6 is connected in the switching card slot 1-6 of rear end, and sliding friction wheel 7-5 and power belt wheel 7-4 rub
Wipe transmission;Start power motor 7-1 when use, the output shaft of power motor 7-1 starts turning, the output shaft of power motor 7-1
Connecting key 7-2 is driven to be rotated centered on the axis of power motor 7-1 output shaft, connecting key 7-2 drives sliding friction wheel
7-5 is rotated centered on the axis of power motor 7-1 output shaft, transmission gear 6-2 and power gear 7-3 engaged transmission,
Power belt wheel 7-4 is connected with drive pulley 6-3 by V belt translation, and switching buckle 3-6 is connected to the switching card slot 1-6 positioned at front end
Interior, sliding friction wheel 7-5 and power gear 7-3 frictional drive, sliding friction wheel 7-5 drive power gear 7-3 to be rotated, and move
Powershift gear 7-3 band nutating gear 6-2 is rotated, and transmission gear 6-2 drives fan 6-1 to be rotated, when fan 6-1 is rotated
It blows chilled air into cooling stand 1.
Specific embodiment 7:
Illustrate present embodiment below with reference to Fig. 1-12, present embodiment is described further embodiment six, described
One end of switching shift fork 8 is slidably connected on II 3-3 of support plate, and the other end of switching shift fork 8 is rotatably connected on sliding friction wheel
On 7-5, telescoping mechanism I 9 is fixedly connected on I 1-4 of support plate;Start telescoping mechanism I 9, telescoping mechanism I 9 and contracting mechanism II 11
Structure it is identical, telescoping mechanism I 9 and contracting mechanism II 11 can be hydraulic cylinder or electric pushrod etc., and telescoping mechanism I 9 stretches
End pushes sliding support II 5 to be slided between two T shape sliding rails III 4, the telescopic end adjustment fan 6-1's of telescoping mechanism I 9
Cooling position, can also move back and forth comprehensive cooling, and fan 6-1 is multi-party to the different location of filter plate 3-1 and progress
Position is cooling, meets different use demands.
Specific embodiment 8:
Illustrate present embodiment below with reference to Fig. 1-12, present embodiment is described further embodiment seven, described
Dedusting mechanism 10 includes dedusting cleaner plate 10-1, dedusting slot 10-2 and sliding groove 10-3, is provided with and removes on dedusting cleaner plate 10-1
Dirt slot 10-2, filter plate 3-1 are slidably connected in dedusting slot 10-2, and dedusting cleaner plate 10-1 is slidably connected at dedusting sliding slot 3-4
It is interior, sliding groove 10-3 is provided on dedusting cleaner plate 10-1, telescoping mechanism II 11 is fixedly connected on I 1-4 of support plate, telescopic machine
The telescopic end of structure II 11 is slidably connected in sliding groove 10-3, and starting switch for telescoping mechanism II 11 is placed on cutting positioned at rear end
Change the interior of card slot 1-6.
Specific embodiment 9:
Illustrate that present embodiment, present embodiment make any one of embodiment two to eight further below with reference to Fig. 1-12
Illustrate, the big data server Dustproofing radiating system further includes mounting bracket 2, and mounting bracket 2 includes I 2-1 of sliding support, cunning
Sliding side plate 2- is fixedly connected at left and right sides of dynamic side plate 2-2, stripper plate 2-3 and installation snap-gauge 2-4, I 2-1 of sliding support
Being slidably connected on 2, I 2-1 of sliding support, there are two stripper plate 2-3, between two stripper plate 2-3 and two sliding side plate 2-2
Be fixedly connected with compressed spring II, slidably connected on two stripper plate 2-3 installation snap-gauge 2-4, two installation snap-gauge 2-4 with
Compressed spring III is fixedly connected between two stripper plate 2-3, the both ends of I 2-1 of sliding support are slidably connected at two T respectively
On II 1-5 of shape sliding rail, there are two the settings of mounting bracket 2, solid between the outside and support housing 1-1 of two I 2-1 of sliding support
Surely it is connected with compressed spring IV.
A kind of big data server Dustproofing radiating system of the invention, its working principle is that:
Start power motor 7-1 when use, the output shaft of power motor 7-1 starts turning, the output shaft of power motor 7-1
Connecting key 7-2 is driven to be rotated centered on the axis of power motor 7-1 output shaft, connecting key 7-2 drives sliding friction wheel
7-5 is rotated centered on the axis of power motor 7-1 output shaft, transmission gear 6-2 and power gear 7-3 engaged transmission,
Power belt wheel 7-4 is connected with drive pulley 6-3 by V belt translation, and switching buckle 3-6 is connected to the switching card slot 1-6 positioned at front end
Interior, sliding friction wheel 7-5 and power gear 7-3 frictional drive, sliding friction wheel 7-5 drive power gear 7-3 to be rotated, and move
Powershift gear 7-3 band nutating gear 6-2 is rotated, and transmission gear 6-2 drives fan 6-1 to be rotated, when fan 6-1 is rotated
It blows chilled air into cooling stand 1, starts telescoping mechanism I 9, telescoping mechanism I 9 is identical with the structure of contracting mechanism II 11, stretches
Mechanism I 9 and contracting mechanism II 11 can be hydraulic cylinder or electric pushrod etc., and the telescopic end of telescoping mechanism I 9 pushes sliding support II
5 are slided between two T shape sliding rails III 4, the cooling position of the telescopic end of telescoping mechanism I 9 adjustment fan 6-1, can also be with
Move back and forth comprehensive cooling, and different location and progress multi-faceted cooling of the fan 6-1 to filter plate 3-1 meet different
Use demand;When needing to be purged dust, pull back seal rubber frame 3, seal rubber frame 3 drive switching shift fork 8 to
After move, switching shift fork 8 drive sliding friction wheel 7-5 move backward, sliding friction wheel 7-5 and transmission gear 6-2 exit friction
Transmission, so that seal rubber frame 3 is slided on two I 1-2 of T shape sliding rail, starting switch for telescoping mechanism II 11 is placed on
In the switching card slot 1-6 of rear end, seal rubber frame 3, which slides backward, to be connected in the switching card slot 1-6 of rear end, is cut
It changes buckle 3-6 to be connected in the switching card slot 1-6 of rear end, sliding friction wheel 7-5 and power belt wheel 7-4 frictional drive are sliding
Dynamic friction wheel 7-5 drives power belt wheel 7-4 to be rotated, and power belt wheel 7-4 drives drive pulley 6-3 to be rotated, transmission belt
Wheel 6-3 drives fan 6-1 to be rotated, rotation direction and transmission gear 6-2 when drive pulley 6-3 drives fan 6-1 to rotate
Rotation direction when fan 6-1 rotation is driven on the contrary, telescoping mechanism II 11 starts, the up and down motion of dedusting mechanism 10 is back and forth removed
The rotation direction of dirt, fan mechanism 6 changes, and 6 rotation direction of fan mechanism generates suction outward on the contrary, and cooperation outward will
Dust siphons away, the conversion that can be done directly between radiating mode and dedusting mode, more accurately, there is better ash-removal effect,
It can be applicable to heat dissipation and dedusting on a large scale;Device can be mounted on to the big of different model size by mounting bracket 2
On data server, it is easy to use.
Certainly, above description is not limitation of the present invention, and the present invention is also not limited to the example above, the art
The variations, modifications, additions or substitutions that those of ordinary skill is made within the essential scope of the present invention also belong to guarantor of the invention
Protect range.