CN115079798A - Server heat abstractor that big data excavated - Google Patents

Abstract

The invention discloses a server heat dissipation device for big data mining, which comprises a base, wherein a box body is arranged on the base, a switch door is rotatably connected on the box body, a screen plate is arranged in the box body, an installation seat is arranged on the screen plate, a server assembly is arranged on the installation seat, a limiting mechanism for limiting the server assembly is arranged in the box body, a hollow heat exchange plate which is abutted against the server assembly is arranged on the server assembly, the hollow heat exchange plate is connected with the box body through two connecting mechanisms, and a first conveying pipe and a second conveying pipe which are communicated are respectively arranged on two sides of the hollow heat exchange plate. The invention can not only carry out air cooling heat dissipation on the server assembly, but also automatically clean dust on the filter screen without personnel participation, and also carry out water cooling heat dissipation on the server assembly, thereby greatly improving the heat dissipation effect of the server assembly, ensuring the stable work of the server assembly, and being convenient for mounting and dismounting the server assembly so as to facilitate the maintenance work.

Description

Server heat abstractor that big data excavated

Technical Field

The invention relates to the technical field of server heat dissipation, in particular to a server heat dissipation device for big data mining.

Background

In recent years, with the continuous growth of the internet field, large companies face the processing demand of massive data, and data mining in departments mainly serves operation and maintenance of all the companies. Wherein a server is a device that provides computer data mining services. Since the server needs to respond to the service request and perform processing. Compared with the common data management equipment, the server for large data mining has a larger size, and the server generates a large amount of heat during working due to the huge data operation. If the heat dissipation is insufficient and untimely, the server is easy to break down.

Current heat abstractor mainly bloies through the fan and dispels the heat to the server, and the radiating effect is outstanding inadequately, and when summer temperature high temperature, air temperature risees, and the effect of fan cooling of blowing further reduces to lead to can't fully dispelling the heat to the server, lead to the server to take place hot trouble, influence the working life of server.

Therefore, a server heat dissipation device for large data mining is designed.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides a server heat dissipation device for large data mining, which can not only perform air cooling heat dissipation on a server assembly, but also automatically clean dust on a filter screen without personnel participation, and also perform water cooling heat dissipation on the server assembly, thereby greatly improving the heat dissipation effect on the server assembly, ensuring the stable work of the server assembly, and facilitating the installation and the disassembly of the server assembly so as to facilitate the overhaul work.

In order to achieve the purpose, the invention adopts the following technical scheme:

a server heat dissipation device for big data mining comprises a base, wherein a box body is mounted on the base, a switch door is rotatably connected onto the box body, a screen plate is mounted in the box body, a mounting seat is mounted on the screen plate, a server assembly is mounted on the mounting seat, a limiting mechanism for limiting the server assembly is mounted in the box body, a hollow heat exchange plate which is abutted against the server assembly is arranged on the server assembly and is connected with the box body through two connecting mechanisms, a first conveying pipe and a second conveying pipe which are communicated with each other are respectively mounted on two sides of the hollow heat exchange plate, a water tank is mounted at the inner bottom of the box body, a water pumping mechanism connected with the first conveying pipe and the second conveying pipe is mounted on the water tank, a fan is mounted at the upper end of one side of the box body, a mounting frame is mounted at the lower end of one side of the box body, and a filter screen is mounted on the mounting frame, run through on the filter screen and be equipped with rather than the quarter butt of rotating being connected, install the flabellum on the quarter butt, fixedly connected with pole brush on the quarter butt, the outer wall of pole brush and filter screen offsets, the interior bottom fixedly connected with montant of box, install clockwork spring between montant and the quarter butt.

Preferably, coupling mechanism is including fixing the U type piece at the box inner wall, fixedly connected with connecting block on the cavity heat transfer board, the connecting block is located U type piece and slides the setting, the upper end of connecting block is equipped with the draw-in groove, run through on the U type piece be equipped with rather than sliding connection's kelly, the kelly inserts in the draw-in groove, the upper end fixedly connected with locating piece of kelly, the first spring of bottom fixedly connected with of locating piece, the lower extreme of first spring and the upper end fixed connection of U type piece, first spring housing sets up and does not offset in the outside of kelly.

Preferably, the limiting mechanism comprises a first piston cylinder arranged at the bottom of the screen plate, a first piston is connected in the first piston cylinder in a sliding way, a second spring is arranged between the first piston and the first piston cylinder, a driving block is fixedly connected on the first piston, the driving block is abutted against the switch door, the first piston cylinder is provided with a bent pipe, the inner wall of the box body is provided with a second piston cylinder, a second piston is connected in the second piston cylinder in a sliding way, the second piston cylinder is connected with the elbow pipe through a connecting pipe, the second piston is provided with an inserted rod, the upper end of the mounting seat is provided with a guide groove, a guide block is connected in the guide groove in a sliding way, the guide block is fixedly connected with the bottom of the server assembly, a slot is formed in the guide block, the inserted bar penetrates through the mounting seat and is arranged in a sliding mode, and the inserted bar is inserted into the slot.

Preferably, a plurality of rubber strips are embedded and installed on the outer wall of the guide block.

Preferably, install the semiconductor refrigeration piece on the water tank, the semiconductor refrigeration piece part is the outside setting of box.

Preferably, the water pumping mechanism is including installing the water pump on the water tank, the inlet tube is installed to the end of intaking of water pump, the inlet tube is linked together with the water tank, the outlet pipe is installed to the play water end of water pump, the coiled pipe is installed to the other end of outlet pipe, the other end and the first conveyer pipe of coiled pipe are connected.

Preferably, the coiled pipe is arranged opposite to the filter screen, and the coiled pipe is made of stainless steel.

Preferably, the first conveying pipe is located at the upper end of one side of the hollow heat exchange plate, and the second conveying pipe is located at the lower end of one side of the hollow heat exchange plate.

Compared with the prior art, the invention has the beneficial effects that:

1. the fan can discharge air in the box body when working, and external air enters the box body through the mounting frame and the filter screen, so that circulation of air in the box body can be realized, heat dissipation can be performed on the server assembly, dust in the air can be filtered through the filter screen, and the external dust is prevented from entering the box body and falling on the server assembly to influence heat dissipation of the server assembly; when the air that flows enters into the box through the installing frame, the air that flows blows to on the flabellum, thereby realize the flabellum, quarter butt and pole brush rotate, clockwork spring this moment produces torsion, the air that has certain torsion and flows when clockwork spring can't drive the flabellum and rotate, flabellum this moment is in static state, along with the dust on the filter screen increases, the air volume of filter screen reduces, then the air that flows reduces the drive power of flabellum, under clockwork spring's torsion, realize the reversal of quarter butt and flabellum, can carry out automatic clearance to the filter screen through the flabellum, need not the manual work and clear up the filter screen, thereby can carry out effectual heat dissipation to server subassembly.

2. The water pump work can be carried the cooling water to the cavity heat transfer board through inlet tube, outlet pipe, coiled pipe, first conveyer pipe, can carry out the heat transfer cooling to the server subassembly through the cavity heat transfer board, and the cooling water in the final cavity heat transfer board passes through the second conveyer pipe and flows to the water tank in, realizes the circulation of cooling water.

3. When outside air enters the box body through the filter screen, the air can be blown to the coiled pipe, heat exchange and cooling can be carried out on the air through heat exchange of cooling water in the coiled pipe, and therefore more effective heat dissipation can be carried out on the server assembly.

4. When the opening and closing door is opened, the opening and closing door is not abutted to the driving block any more, the first piston and the driving block can move under the action of the second spring, air in the second piston cylinder can be sucked into the first piston cylinder by the movement of the first piston, the air in the second piston cylinder is reduced to realize the movement of the second piston, the inserted rod is driven to move, the inserted rod moves to be separated from the slot, the guide block is not limited any more at the moment, the server assembly can be pulled outwards by pulling the server assembly outwards, the server assembly is convenient to overhaul, and convenience is provided for workers; during the installation, offset server subassembly and cavity heat transfer board, the guide block of this moment resets, closes the switch door and can drive block and first piston removal, can extrude it to the second piston section of thick bamboo in to realize second piston and inserted bar removal, the inserted bar inserts in the slot, realizes spacing to the guide block, realizes the installation to the server subassembly.

In conclusion, the invention can not only carry out air cooling heat dissipation on the server assembly, but also automatically clean dust on the filter screen without personnel participation, and also carry out water cooling heat dissipation on the server assembly, thereby greatly improving the heat dissipation effect on the server assembly, ensuring the stable work of the server assembly, and being convenient for mounting and dismounting the server assembly so as to facilitate the maintenance work.

Drawings

Fig. 1 is a schematic structural diagram of a server heat dissipation device for big data mining according to the present invention;

FIG. 2 is a schematic structural diagram of a connection mechanism in a server heat sink for big data mining according to the present invention;

FIG. 3 is a partial top sectional view of a box and a door of a server heat dissipation device for big data mining according to the present invention;

FIG. 4 is a schematic diagram of a server heat sink for big data mining according to the present invention;

fig. 5 is a schematic structural diagram of a filter screen in a server heat dissipation device for big data mining according to the present invention.

In the figure: the device comprises a base 1, a box body 2, a water tank 3, a semiconductor refrigeration piece 4, a screen plate 5, a mounting seat 6, a hollow heat exchange plate 7, a water inlet pipe 8, a water pump 9, a water outlet pipe 10, a coiled pipe 11, a first delivery pipe 12, a server component 13, a fan 14, a U-shaped block 15, a connecting block 16, a clamping groove 17, a clamping rod 18, a first spring 19, a positioning block 20, a switch door 21, a first piston cylinder 22, a first piston 23, a driving block 24, a second spring 25, a bent pipe 26, a second piston cylinder 27, a connecting pipe 28, a second piston 29, an insertion rod 30, a guide block 31, a guide groove 32, an insertion groove 33, a mounting frame 34, a filter screen 35, a rod brush 36, a short rod 37, a fan blade 38, a spring 39, a vertical rod 40 and a second delivery pipe 41.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-5, a server heat dissipation device for big data mining comprises a base 1, wherein a box body 2 is installed on the base 1, a switch door 21 is rotatably connected to the box body 2, a screen plate 5 is installed in the box body 2, a mounting seat 6 is installed on the screen plate 5, and a server assembly 13 is installed on the mounting seat 6.

A limiting mechanism for limiting the server component 13 is arranged in the box body 2, the limiting mechanism comprises a first piston cylinder 22 arranged at the bottom of the screen plate 5, a first piston 23 is connected in the first piston cylinder 22 in a sliding manner, a second spring 25 is arranged between the first piston 23 and the first piston cylinder 22, a driving block 24 is fixedly connected on the first piston 23, the driving block 24 is abutted against the opening and closing door 21, a bent pipe 26 is arranged on the first piston cylinder 22, a second piston cylinder 27 is arranged on the inner wall of the box body 2, a second piston 29 is connected in the second piston cylinder 27 in a sliding manner, the second piston cylinder 27 is connected with the bent pipe 26 through a connecting pipe 28, an inserting rod 30 is arranged on the second piston 29, a guide groove 32 is arranged at the upper end of the mounting seat 6, a guide block 31 is connected in the guide groove 32 in a sliding manner, the guide block 31 is fixedly connected with the bottom of the server component 13, a slot 33 is arranged on the guide block 31, the inserting rod 30 penetrates through the mounting seat 6 and is arranged in a sliding manner, and the inserted bar 30 is inserted into the slot 33, and a plurality of rubber strips are embedded and installed on the outer wall of the guide block 31, so that when the inserted bar 30 is not inserted into the slot 33, the rubber strips can increase the resistance of the guide block 31, and the guide block is not easy to slide.

The server component 13 is provided with a hollow heat exchange plate 7 which is abutted against the server component, the hollow heat exchange plate 7 is connected with the box body 2 through two connecting mechanisms, each connecting mechanism comprises a U-shaped block 15 fixed on the inner wall of the box body 2, a connecting block 16 is fixedly connected on the hollow heat exchange plate 7, the connecting block 16 is positioned in the U-shaped block 15 and is arranged in a sliding manner, the upper end of the connecting block 16 is provided with a clamping groove 17, a clamping rod 18 which is connected with the U-shaped block 15 in a sliding manner is arranged on the U-shaped block 15 in a penetrating manner, the clamping rod 18 is inserted into the clamping groove 17, the upper end of the clamping rod 18 is fixedly connected with a positioning block 20, the bottom of the positioning block 20 is fixedly connected with a first spring 19, the lower end of the first spring 19 is fixedly connected with the upper end of the U-shaped block 15, the first spring 19 is sleeved outside the clamping rod 18 and is not abutted against the hollow heat exchange plate 7 through the connecting mechanisms, the positioning block 20 is pulled upwards to prevent the clamping rod 18 from being in the clamping groove 17, and the connecting block 16 is not limited any more, the hollow heat exchanger plate 7 can be removed.

A first conveying pipe 12 and a second conveying pipe 41 which are communicated with each other are respectively installed on two sides of the hollow heat exchange plate 7, the first conveying pipe 12 is located at the upper end of one side of the hollow heat exchange plate 7, and the second conveying pipe 41 is located at the lower end of one side of the hollow heat exchange plate 7; a water tank 3 is installed at the inner bottom of the box body 2, a semiconductor refrigerating piece 4 is installed on the water tank 3, and the part of the semiconductor refrigerating piece 4 is arranged outside the box body 2.

Install the pumping mechanism who is connected with first conveyer pipe 12, second conveyer pipe 41 on the water tank 3, pumping mechanism is including installing water pump 9 on water tank 3, inlet tube 8 is installed to the end of intaking of water pump 9, inlet tube 8 is linked together with water tank 3, outlet pipe 10 is installed to the play water end of water pump 9, coiled pipe 11 is installed to the other end of outlet pipe 10, the other end of coiled pipe 11 is connected with first conveyer pipe 12, wherein, coiled pipe 11 is just to setting up with filter screen 35, and coiled pipe 11 is stainless steel.

Fan 14 is installed to one side upper end of box 2, and installing frame 34 is installed to one side lower extreme of box 2, installs filter screen 35 on the installing frame 34, runs through on the filter screen 35 and is equipped with rather than the rotation stub 37 of being connected, installs flabellum 38 on the stub 37, fixedly connected with pole brush 36 on the stub 37, and pole brush 36 offsets with the outer wall of filter screen 35, and the interior bottom fixedly connected with montant 40 of box 2 installs clockwork spring 39 between montant 40 and the stub 37.

When the air cooling device is used, heat is generated when the server component 13 works, a worker can turn on the fan 14, the fan 14 can discharge air in the box body 2 when working, and external air enters the box body 2 through the mounting frame 34 and the filter screen 35, so that the circulation of the air in the box body 2 can be realized, the heat of the server component 13 can be dissipated, dust in the air can be filtered through the filter screen 35, and the external dust is prevented from entering the box body 2 and falling on the server component 13 to influence the heat dissipation of the server component 13;

when flowing air enters the box body 2 through the mounting frame 34, the flowing air is blown to the fan blades 38, so that the fan blades 38, the short rods 37 and the rod brushes 36 rotate, the spring 39 generates torsion, when the spring 39 has certain torsion and the flowing air cannot drive the fan blades 38 to rotate, the fan blades 38 are in a static state, the ventilation quantity of the filter screen 35 is reduced along with the increase of dust on the filter screen 35, the driving force of the flowing air on the fan blades 38 is reduced, the short rods 37 and the fan blades 38 are reversely rotated under the torsion of the spring 39, the filter screen 35 can be automatically cleaned through the fan blades 38, the filter screen 35 does not need to be cleaned manually, and therefore the server assembly 13 can be effectively cooled;

when the temperature is high in summer, a worker can electrify the semiconductor refrigerating sheet 4 and the water pump 9, the semiconductor refrigerating sheet 4 can refrigerate and cool water in the water tank 3, the water pump 9 can convey cooling water to the hollow heat exchange plate 7 through the water inlet pipe 8, the water outlet pipe 10, the coiled pipe 11 and the first conveying pipe 12 when working, heat exchange and cooling can be carried out on the server assembly 13 through the hollow heat exchange plate 7, and finally the cooling water in the hollow heat exchange plate 7 flows into the water tank 3 through the second conveying pipe 41, so that circulation of the cooling water is realized;

when external air enters the box body 2 through the filter screen 35, the air is blown to the coiled pipe 11, and heat exchange and cooling can be carried out on the air through heat exchange of cooling water in the coiled pipe 11, so that the server assembly 13 can be more effectively cooled;

if the server assembly 13 needs to be overhauled, a worker can open the switch door 21, the switch door 21 is opened and is not abutted to the driving block 24, the first piston 23 and the driving block 24 can move under the action of the second spring 25, the first piston 23 can move to suck air in the second piston cylinder 27 into the first piston cylinder 22, the air in the second piston cylinder 27 is reduced to move the second piston 29, the inserting rod 30 is further driven to move, the inserting rod 30 moves to be separated from the slot 33, at the moment, the guide block 31 is not limited any more, the server assembly 13 can be pulled outwards by pulling the server assembly 13 outwards, the server assembly 13 is convenient to overhaul, and convenience is provided for the worker; during installation, the server assembly 13 is abutted against the hollow heat exchange plate 7, the guide block 31 is reset at the moment, the switch door 21 is closed, the driving block 24 and the first piston 23 can be driven to move, and can be extruded into the second piston cylinder 27, so that the second piston 29 and the insert rod 30 can move, the insert rod 30 is inserted into the slot 33, the guide block 31 is limited, and the server assembly 13 is installed.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (8)

1. The utility model provides a server heat abstractor that big data was excavated, includes base (1), its characterized in that, install box (2) on base (1), it is connected with switch door (21) to rotate on box (2), install otter board (5) in box (2), install mount pad (6) on otter board (5), install server subassembly (13) on mount pad (6), install the stop gear spacing to server subassembly (13) in box (2), be equipped with cavity heat transfer board (7) rather than counterbalance on server subassembly (13), cavity heat transfer board (7) are connected with box (2) through two coupling mechanism, first conveyer pipe (12) and second conveyer pipe (41) of intercommunication are installed respectively to the both sides of cavity heat transfer board (7), water tank (3) are installed to the interior bottom of box (2), install the pump water mechanism of being connected with first conveyer pipe (12), second conveyer pipe (41) on water tank (3), fan (14) are installed to one side upper end of box (2), install installing frame (34) to one side lower extreme of box (2), install filter screen (35) on installing frame (34), run through on filter screen (35) and be equipped with short-bar (37) rather than rotating the connection, install flabellum (38) on short-bar (37), fixedly connected with pole brush (36) on short-bar (37), pole brush (36) offset with the outer wall of filter screen (35), the interior bottom fixedly connected with montant (40) of box (2), install clockwork spring (39) between montant (40) and short-bar (37).

2. The big data mining server heat sink of claim 1, the connecting mechanism comprises a U-shaped block (15) fixed on the inner wall of the box body (2), the hollow heat exchange plate (7) is fixedly connected with a connecting block (16), the connecting block (16) is positioned in the U-shaped block (15) and is arranged in a sliding manner, a clamping groove (17) is arranged at the upper end of the connecting block (16), a clamping rod (18) which is connected with the U-shaped block in a sliding way is arranged on the U-shaped block (15) in a penetrating way, the clamping rod (18) is inserted into the clamping groove (17), the upper end of the clamping rod (18) is fixedly connected with a positioning block (20), the bottom of the positioning block (20) is fixedly connected with a first spring (19), the lower end of the first spring (19) is fixedly connected with the upper end of the U-shaped block (15), the first spring (19) is sleeved outside the clamping rod (18) and is not abutted.

3. The server heat dissipation device for big data mining according to claim 1, wherein the limiting mechanism comprises a first piston cylinder (22) installed at the bottom of the screen (5), a first piston (23) is slidably connected in the first piston cylinder (22), a second spring (25) is installed between the first piston (23) and the first piston cylinder (22), a driving block (24) is fixedly connected on the first piston (23), the driving block (24) is abutted to the switch door (21), an elbow (26) is installed on the first piston cylinder (22), a second piston cylinder (27) is installed on the inner wall of the box body (2), a second piston (29) is slidably connected in the second piston cylinder (27), the second piston cylinder (27) is connected with the elbow (26) through a connecting pipe (28), and an insert rod (30) is installed on the second piston (29), the upper end of mount pad (6) is equipped with guide way (32), sliding connection has guide block (31) in guide way (32), the bottom fixed connection of guide block (31) and server subassembly (13), be equipped with slot (33) on guide block (31), inserted bar (30) run through mount pad (6) and slide the setting, just inserted bar (30) insert in slot (33).

4. The server heat sink for big data mining as claimed in claim 3, wherein the guide block (31) is embedded with a plurality of rubber strips on its outer wall.

5. The server heat dissipation device for big data mining according to claim 1, wherein a semiconductor refrigeration sheet (4) is installed on the water tank (3), and the semiconductor refrigeration sheet (4) is partially arranged outside the box body (2).

6. The server heat dissipation device for big data mining according to claim 1, wherein the water pumping mechanism comprises a water pump (9) installed on the water tank (3), the water inlet end of the water pump (9) is provided with a water inlet pipe (8), the water inlet pipe (8) is communicated with the water tank (3), the water outlet end of the water pump (9) is provided with a water outlet pipe (10), the other end of the water outlet pipe (10) is provided with a coiled pipe (11), and the other end of the coiled pipe (11) is connected with a first conveying pipe (12).

7. The server heat sink for big data mining as claimed in claim 6, wherein the coil (11) is disposed opposite to the filter (35), and the coil (11) is made of stainless steel.

8. A server heat sink for big data mining according to claim 1, characterized in that the first duct (12) is located at one side upper end of the hollow heat exchanger plate (7) and the second duct (41) is located at one side lower end of the hollow heat exchanger plate (7).

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