CN212519798U - Heat dissipation device for big data server - Google Patents

Abstract

The utility model discloses a heat dissipation device for a big data server, which relates to the technical field of auxiliary equipment of servers, and comprises a supporting base and a heat dissipation box, wherein the top wall of the heat dissipation box is provided with a water tank, the left side of the water tank is provided with a water pump, the water pump is connected with the water tank through a water pipe, a cooling water tank is arranged in the heat dissipation box, the bottoms of the cooling water tanks at the left side and the right side are connected through a serpentine water pipe, the right side of the water tank is provided with a circulating pump, the water tank is connected with the circulating pump through a return water pipe, a driving motor is arranged between the supporting base and the heat dissipation box, the driving motor is connected with a main chain wheel, the left side and the right side of the main chain wheel are provided with auxiliary chain wheels, the water pump conveys the water in the water tank to the left side cooling water tank, the circulating pump conveys, the heat dissipation effect on the big data server is effectively improved, and the stable operation of the big data server is guaranteed.

Description

Heat dissipation device for big data server

Technical Field

The utility model relates to a server auxiliary assembly technical field specifically is a heat abstractor for big data server.

Background

The server is one of computers, which runs faster, has higher load and is more expensive than a common computer, provides computing or application services for other clients in a network, and generally has the capability of bearing response service requests, bearing services and guaranteeing services according to the services provided by the server.

The big data server can give off a large amount of heats in the operation processing procedure, and current server heat dissipation equipment simple structure, the radiating effect is poor, and the server very easily because of the high stop motion of temperature.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a big heat abstractor for data server to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a heat dissipation device for a big data server comprises a supporting base and a heat dissipation box, wherein supporting rods are symmetrically arranged on the left side and the right side of the upper surface of the supporting base, one end, far away from the supporting base, of each supporting rod is fixedly connected with the heat dissipation box, the supporting rods, the heat dissipation box and the supporting base are fixedly connected through welding, a water tank is arranged on the upper surface of the top wall of the heat dissipation box, a water pump is arranged on the left side of the water tank and is connected with the water tank through a water pipe, cooling water tanks are symmetrically arranged on the left side and the right side in the heat dissipation box and are fixedly connected with the inner wall of the heat dissipation box, the water pipe penetrates through the top wall of the heat dissipation box to extend and be connected with the cooling water tank, the bottoms of the cooling water tanks on the left side and the right side are connected through, support and set up driving motor between base and heat dissipation case, driving motor fixed mounting is on supporting the base upper surface, driving motor output shaft end passes heat dissipation case diapire and extends the fixed connection main chain wheel, main chain wheel left and right sides symmetry sets up vice sprocket, vice sprocket all rotates with heat dissipation case diapire with the main chain wheel to be connected, the main chain wheel passes through the chain rotation with the vice sprocket of the left and right sides and is connected, the big blade of main chain wheel top fixed mounting, vice sprocket top fixed mounting bladelett, big blade and bladelett are all installed in big data server below, heat dissipation case left and right sides wall bottom symmetry sets up the thermovent.

As a further aspect of the present invention: the upper parts of the large blades and the small blades are provided with one-level filter screens, and the one-level filter screens are fixedly connected with the left side wall and the right side wall of the heat dissipation box.

As a further aspect of the present invention: and two-stage filter screens are arranged in the heat dissipation ports on the left side and the right side.

As a further aspect of the present invention: the support base left and right sides symmetry sets up the pneumatic cylinder, the telescopic link is connected to the pneumatic cylinder, the telescopic link is kept away from one side end of pneumatic cylinder and is passed the support base and extend fixed connection antiskid ribbed tile.

As a further aspect of the present invention: one-level filter screen fixed connection dwang is passed to vice sprocket top, the fixed mounting heat dissipation substrate of dwang surface equidistance.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model provides a heat abstractor for big data server, the water pump leads to in the water pipe carries the water tank to left side cooling water tank, cooling water tank absorbs the back to the heat in the heat dissipation case, the circulating pump passes through the wet return and carries the water in the right side cooling water tank to the water tank again, constitute the cooling water circulation, driving motor drives the main sprocket and rotates and big blade rotates, the main sprocket drives the rotation of auxiliary sprocket and little blade, big blade and little blade upwards blow to big data server and carry out ventilation cooling to it with the air after cooling around the coiled pipe, the radiating effect to big data server has effectively been improved, guarantee its even running.

Drawings

Fig. 1 is a schematic structural diagram of a heat dissipation apparatus for a big data server.

Fig. 2 is a schematic structural diagram of a serpentine tube in a heat dissipation device for a big data server.

FIG. 3 is a schematic view of a sprocket drive of a heat sink for a big data server.

Fig. 4 is a schematic structural diagram of a heat dissipation substrate in a heat dissipation device for a big data server.

In the figure: 1-a support base; 2-a hydraulic cylinder; 3, a telescopic rod; 4-antiskid plate; 5-a support rod; 6-driving a motor; 7-a heat dissipation port; 8-first-stage filter screen; 9-a cooling water tank; 10-a heat dissipation box; 11-a water pipe; 12-a water pump; 13-a water tank; 14-lobule; 15-a water return pipe; 16-a circulation pump; 17-a heat-dissipating substrate; 18-rotating rods; 19-a serpentine tube; 20-a secondary filter screen; 21-a secondary sprocket; 22-a main sprocket; 23-a chain; 24-large leaf.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

Example 1

Referring to fig. 1-4, a heat dissipation apparatus for a big data server includes a supporting base 1 and a heat dissipation box 10, wherein support rods 5 are symmetrically disposed on left and right sides of an upper surface of the supporting base 1, an end of one side of each support rod 5 away from the supporting base 1 is fixedly connected to the heat dissipation box 10, the support rods 5 are fixedly connected to the heat dissipation box 10 and the supporting base 1 by welding, the big data server is fixedly installed in the heat dissipation box 10, a water tank 13 is disposed on an upper surface of a top wall of the heat dissipation box 10, a water pump 12 is disposed on a left side of the water tank 13, the water pump 12 is connected to the water tank 13 through a water pipe 11, cooling water tanks 9 are symmetrically disposed on left and right sides of the heat dissipation box 10, the cooling water tanks 9 are fixedly connected to an inner wall of the heat dissipation box 10, the water pipe 11 passes through the top wall of the heat dissipation box 10 to extend to connect the cooling water, the left and right sides cooling water tank 9 bottom is connected through coiled pipe 19, the left side water in cooling water tank 9 passes through coiled pipe 19 and carries to right side cooling water tank 9, water tank 13 right side sets up circulating pump 16, water tank 13 passes through wet return 15 with circulating pump 16 and is connected, wet return 15 passes the extension of heat dissipation case 10 roof and connects right side cooling water tank 9, the left and right sides cooling water tank 9 absorbs the back to the heat in heat dissipation case 10, circulating pump 16 passes through wet return 15 and carries the water in the right side cooling water tank 9 to water tank 13 again, set up driving motor 6 between support base 1 and heat dissipation case 10, driving motor 6 fixed mounting is on support base 1 upper surface, driving motor 6 output shaft end passes heat dissipation case diapire and extends fixed connection main sprocket 22, main sprocket 22 left and right sides symmetry sets up secondary sprocket 21, vice sprocket 21 and main sprocket 22 all rotate with heat dissipation case 10 diapire and are connected, main sprocket 22 rotates through chain 23 with left and right sides vice sprocket 21 to be connected, the big blade 24 of main sprocket 22 top fixed mounting, vice sprocket 21 top fixed mounting lobular 14, big blade 24 and lobular 14 are all installed in big data server below, heat dissipation case 10 left and right sides wall bottom symmetry sets up thermovent 7.

Further, in order to avoid blowing dust at the bottom of the heat dissipation box 10 to the surface of the server by the large blades 24 and the small blades 14, in this embodiment, a first-stage filter screen 8 is disposed above the large blades 24 and the small blades 14, and the first-stage filter screen 8 is fixedly connected with the left and right side walls of the heat dissipation box 10.

Further, in order to prevent external dust from entering the heat dissipation box 10 through the heat dissipation opening 7, in this embodiment, two-stage filter screens 20 are disposed in the heat dissipation opening 7 on the left and right sides.

Further, in order to carry out the fixed stay to heat dissipation case 10, and be convenient for adjust the height of heat dissipation case 10, in this embodiment, support 1 left and right sides symmetry and set up pneumatic cylinder 2, telescopic link 3 is connected to pneumatic cylinder 2, telescopic link 3 keeps away from one side end of pneumatic cylinder 2 and passes support 1 extension fixed connection antiskid ribbed tile 4.

Further, in order to improve the radiating effect to big data server, in this embodiment, 8 fixed connection dwang 18 of one-level filter screen are passed to vice sprocket 21 top, 18 surperficial equidistance fixed mounting heat dissipation substrate 17 of dwang, vice sprocket 21 drives top dwang 18 and heat dissipation substrate 17 and rotates for the air mobility between heat dissipation substrate 17.

Example 2

Referring to fig. 1-3, in order to dissipate heat from the big data server according to embodiment 1, the driving motor 6 rotates, the driving motor 6 drives the main sprocket 22 to rotate and the big blades 24 to rotate, the main sprocket 22 drives the auxiliary sprocket 21 and the small blades 14 to rotate, and the big blades 24 and the small blades 14 blow the air cooled around the serpentine tube 19 upwards to the big data server for ventilation and heat dissipation.

The utility model discloses a theory of operation is: a water pump 12 conveys water in a water tank 13 to a left cooling water tank 9 through a water pipe 11, the left cooling water tank 9 and the right cooling water tank 9 absorb heat in a heat dissipation tank 10, a circulating pump 16 conveys the water in the right cooling water tank 9 to the water tank 13 through a water return pipe 15 to form cooling water circulation, a driving motor 6 drives a main chain wheel 22 to rotate and a large blade 24 to rotate, the main chain wheel 22 drives an auxiliary chain wheel 21 and a small blade 14 to rotate, and the large blade 24 and the small blade 14 blow air cooled around a coiled pipe 19 upwards to a big data server for ventilation and heat dissipation.

Although the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims (5)

1. The heat dissipation device for the big data server comprises a supporting base (1) and a heat dissipation box (10), and is characterized in that supporting rods (5) are symmetrically arranged on the left side and the right side of the upper surface of the supporting base (1), one end, far away from the supporting base (1), of one side of each supporting rod (5) is fixedly connected with the heat dissipation box (10), the supporting rods (5) are fixedly connected with the heat dissipation box (10) and the supporting base (1) in a welding mode, a water tank (13) is arranged on the upper surface of the top wall of the heat dissipation box (10), a water pump (12) is arranged on the left side of the water tank (13), the water pump (12) is connected with the water tank (13) through a water pipe (11), cooling water tanks (9) are symmetrically arranged on the left side and the right side in the heat dissipation box (10), the cooling water tanks (9) are fixedly connected with the inner wall of the heat dissipation box (10), and the water pipe, the left and right sides cooling water tank (9) bottom is connected through coiled pipe (19), water tank (13) right side sets up circulating pump (16), water tank (13) are connected through wet return (15) with circulating pump (16), wet return (15) pass radiator tank (10) roof extension and connect right side cooling water tank (9), it sets up driving motor (6) to support between base (1) and radiator tank (10), driving motor (6) fixed mounting is on supporting base (1) upper surface, driving motor (6) output shaft end passes radiator tank diapire extension fixed connection main chain wheel (22), main chain wheel (22) left and right sides symmetry sets up secondary sprocket (21), secondary sprocket (21) all rotate with radiator tank (10) diapire with main sprocket (22) and are connected, main chain wheel (22) rotate through chain (23) with left and right sides secondary sprocket (21) and are connected, big blade of main sprocket (22) top fixed mounting (24), vice sprocket (21) top fixed mounting lobular (14), big blade (24) and lobular (14) are all installed in big data server below, radiating box (10) left and right sides wall bottom symmetry sets up thermovent (7).

2. The heat dissipation device for big data server as claimed in claim 1, wherein a primary filter (8) is disposed above the big blade (24) and the small blade (14), and the primary filter (8) is fixedly connected to the left and right sidewalls of the heat dissipation box (10).

3. The heat sink for big data server as claimed in claim 1, wherein a secondary filter (20) is disposed in the left and right side heat dissipation openings (7).

4. The heat dissipation device for big data server according to claim 1, wherein the hydraulic cylinders (2) are symmetrically disposed on the left and right sides of the support base (1), the hydraulic cylinders (2) are connected to the telescopic rod (3), and the end of one side of the telescopic rod (3) far away from the hydraulic cylinder (2) passes through the support base (1) and extends to be fixedly connected to the anti-skid plate (4).

5. The heat sink for big data server as claimed in claim 1, wherein the secondary sprocket (21) is fixed to the rotating rod (18) through the primary screen (8), and the heat sink base (17) is fixed to the surface of the rotating rod (18) at equal intervals.

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