CN212013424U - Data center server cooling cabinet - Google Patents

Abstract

The utility model relates to a server rack field, concretely relates to data center server cooling cabinet. The intelligent cabinet temperature adjusting device comprises a cabinet body, cabinet body left side wall inboard is fixed with vertical wind channel, it is used for carrying out the sealed shrouding of shutoff to the through-hole to slide to be provided with in the wind channel, be fixed with on the cabinet body left side wall and advance the pipe with the inside cold wind of intercommunication in wind channel, the internal a plurality of hollow layer boards that are provided with of cabinet, the trompil rather than inside intercommunication is seted up to the layer board upper end, the sealed grafting of intubate is in one of them through-hole in wind channel, set up the fresh air inlet with the intubate intercommunication on the intubate lateral wall that is located the wind channel, the. The utility model discloses, simple structure, convenient operation can carry out the heat dissipation of high efficiency to the internal server of cabinet, and cold wind direct action is at the server lower extreme, and the cooling effect is better, can accomodate simultaneously to the not server of co-altitude and deposit.

Description

Data center server cooling cabinet

Technical Field

The utility model relates to a server rack field, concretely relates to data center server cooling cabinet.

Background

Data center server cooling cabinet indicates can carry out cooling heat's rack to the server in the work, and current rack is mainly for introducing cold wind, then carries out the forced air cooling to the inside server of rack for the server can not damage or stop work because of high temperature in the work, and current data center server cooling cabinet can not carry out high-efficient quick heat dissipation to the server, can not deposit the not high server of co-altitude simultaneously, and application scope is narrower.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that one kind can carry out high efficiency's heat dissipation to the internal server of cabinet, and cold wind directly acts on at the server lower extreme, and the cooling effect is better, can accomodate the data center server cooling cabinet of depositing to the server of co-altitude simultaneously.

In order to realize the purpose, the utility model provides a technical scheme is:

a cooling cabinet for a data center server comprises a cabinet body, wherein a vertical air channel is fixed on the inner side of the left side wall of the cabinet body, the upper end and the lower end of the air channel are fixedly and hermetically connected with a top plate and a bottom plate of the cabinet body, a plurality of through holes are uniformly distributed at the right end of the air channel along the length direction of the air channel, a sealing plate for sealing the through holes is arranged in the air channel in a sliding manner, a spring is arranged between the sealing plate and the left side wall of the cabinet body, a cold air inlet pipe communicated with the inside of the air channel is fixed on the left side wall of the cabinet body, an air outlet hole is formed at the upper end of the cabinet body, a filter screen is fixed in the air outlet hole, a groove corresponding to the through hole is formed in the inner side wall of the cabinet body, a plurality of hollow supporting plates are arranged in the cabinet, an air inlet hole communicated with the insertion pipe is formed in the side wall of the insertion pipe in the air duct, a top plate is arranged at one end, back to the air duct, of the support plate in a sliding mode, the top plate is located in the groove, and a top plate stabilizing device is arranged on the top plate.

Specifically, a transverse polish rod is fixed in the air channels on the upper side and the lower side of the through hole, the polish rod penetrates through the sealing plate and is in sliding fit with the sealing plate, and a sealing gasket in sealing contact with the air channels is fixed on the sealing plate.

Specifically, a sealing ring is fixed on the inner edge of the through hole, and the insertion tube is hermetically connected with the through hole through the sealing ring.

Specifically, the intubation tube is sleeved with a sealing ring, and the end part of the supporting plate is in sealing contact with the outer edge of the air duct through the sealing ring.

Specifically, a plurality of transverse sliding rods are fixed on the top plate, penetrate through a slotted hole in the right side wall of the supporting plate and are in sliding sealing connection with the wall of the slotted hole.

Specifically, a sealing sleeve is fixed on the inner wall of a groove hole in the right side wall of the supporting plate, and the sliding rod is connected with the inner edge of the sealing sleeve in a sliding and sealing mode.

Specifically, roof stabilising arrangement includes the otic placode, and the otic placode is fixed on the left end face of roof, and the hinge is connected with horizontal ejector pin on the otic placode, and the ejector pin is kept away from and is rotated in the one end of otic placode and be provided with the runner, and the runner is located the arc wall on the layer board right-hand member face, is fixed with the baffle that supports the ejector pin on the layer board right-hand member face of arc wall below.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses, simple structure, convenient operation can carry out the heat dissipation of high efficiency to the internal server of cabinet, and cold wind direct action is at the server lower extreme, and the cooling effect is better, can accomodate simultaneously to the not server of co-altitude and deposit.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is an enlarged view of the area a in fig. 1.

Fig. 3 is an enlarged view of the region B in fig. 1.

Detailed Description

As shown in fig. 1-3, a cooling cabinet for a server in a data center comprises a cabinet body 1, a vertical air duct 2 is fixed on the inner side of the left side wall of the cabinet body 1, the upper and lower ends of the air duct 2 are fixedly and hermetically connected with the top plate and the bottom plate of the cabinet body 1, a plurality of through holes 3 are uniformly distributed on the right end of the air duct 2 along the length direction, a sealing plate 7 for sealing and sealing the through holes 3 is slidably arranged in the air duct 2, transverse polish rods 9 are fixed in the air duct 2 on the upper and lower sides of the through holes 3, the polish rods 9 penetrate through the sealing plate 7 and are in sliding fit with the sealing plate 7, a sealing gasket 8 in sealing contact with the air duct 2 is fixed on the sealing plate 7, a spring 10 is arranged between the sealing plate 7 and the left side wall of the cabinet body 1, a cold air inlet pipe 6 communicated with the inside of the air duct 2 is fixed on the left side wall of the, a plurality of hollow supporting plates 19 are arranged in the cabinet body 1, the upper end of each supporting plate 19 is provided with an opening 20 communicated with the inside of the supporting plate, one end of each supporting plate 19, facing the air duct 2, is fixedly provided with an insertion tube 22 communicated with the inside of the supporting plate, the insertion tube 22 is inserted into one through hole 3 of the air duct 2 in a sealing manner, the inner edge of the through hole 3 is fixedly provided with a sealing ring 4, the insertion tube 22 is connected with the through hole 3 in a sealing manner through the sealing ring 4, the insertion tube 22 is sleeved with a sealing ring 24, the end part of each supporting plate 19 is in sealing contact with the outer edge of the air duct 2 through the sealing ring 24, the end part of the insertion tube 22 is tightly abutted to the sealing plate 7, the side wall of the insertion tube 22 in the air duct 2 is provided with an air inlet hole 23 communicated with the insertion tube 22, one end of each supporting plate 19, facing, a sealing sleeve 12 is fixed on the inner wall of a groove hole on the right side wall of the supporting plate 19, a sliding rod 11 is connected with the inner edge of the sealing sleeve 12 in a sliding and sealing mode, a top plate 13 is located in the groove 14, and a top plate stabilizing device is arranged on the top plate 13.

Roof 13 stabilising arrangement includes otic placode 15, and otic placode 15 is fixed on the left end face of roof 13, and the hinge is connected with horizontal ejector pin 16 on the otic placode 15, and the one end that otic placode 15 was kept away from to ejector pin 16 rotates and is provided with runner 17, and runner 17 is located the arc wall 21 on the layer board 19 right-hand member face, is fixed with the baffle 18 that supports ejector pin 16 on the layer board 19 right-hand member face of arc wall 21 below.

The utility model discloses during the use, advance pipe 6 and cold wind source air outlet intercommunication with cold wind, cold wind enters into wind channel 2 in then enters into layer board 19 from the fresh air inlet 23 on the intubate 22, and cold wind directly acts on the server of layer board 19 top from the trompil 20 discharge back of 19 upper ends of layer board, consequently better, more direct to the cooling radiating effect of server, has reduced the loss of air conditioning. When the height of the supporting plate 19 needs to be adjusted, the top rod 16 is rotated, so that the rotating wheel 17 at the end part of the top rod 16 is screwed out of the arc-shaped groove 21, the top rod 16 is in a vertical state, at this time, the top plate 13 can be close to the right end of the supporting plate 19, then the supporting plate 19 moves towards the right side, the insertion tube 22 is withdrawn from the through hole 3, after the height of the supporting plate 19 in the cabinet body 1 is determined, the insertion tube 22 of the supporting plate 19 is inserted into the through hole 3 with a proper height, after the insertion tube 22 is inserted into the through hole 3, the outer edge of the insertion tube 22 is in sealing contact with the sealing ring 4 fixed in the through hole 3, the closing plate 7 moves towards the left side by the end part of the insertion tube 22, the spring 10 is compressed, at this time, the air inlet hole 23 on the insertion tube 22 is communicated with the air duct 2 and the inside of the supporting plate 19, at this time, the end of the support plate 19 facing the air duct 2 is sealed with the air duct 2 by the sealing ring 24, and the support plate 19 is stabilized again. The temperature of the server is increased after the server is cooled by cold air, and then the server is discharged through an air outlet hole in the top plate of the cabinet body 1.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (7)

1. A cooling cabinet for a server in a data center comprises a cabinet body (1) and is characterized in that a vertical air duct (2) is fixed on the inner side of the left side wall of the cabinet body (1), the upper end and the lower end of the air duct (2) are fixedly and hermetically connected with a top plate and a bottom plate of the cabinet body (1), a plurality of through holes (3) are uniformly distributed at the right end of the air duct (2) along the length direction of the air duct, a sealing plate (7) for sealing and plugging the through holes (3) is arranged in the air duct (2) in a sliding manner, a spring (10) is arranged between the sealing plate (7) and the left side wall of the cabinet body (1), a cold air inlet pipe (6) communicated with the interior of the air duct (2) is fixed on the left side wall of the cabinet body (1), an air outlet is arranged at the upper end of the cabinet body (1), a filter screen (5) is fixed in the, the upper end of the supporting plate (19) is provided with a hole (20) communicated with the inside of the supporting plate, one end of the supporting plate (19) facing the air duct (2) is fixedly provided with an insertion pipe (22) communicated with the inside of the supporting plate, the insertion pipe (22) is inserted into one through hole (3) of the air duct (2) in a sealing mode, the end portion of the insertion pipe (22) tightly abuts against the sealing plate (7), an air inlet hole (23) communicated with the insertion pipe (22) is formed in the side wall of the insertion pipe (22) located in the air duct (2), one end of the supporting plate (19) facing away from the air duct (2) is provided with a top plate (13) in a sliding mode, the top plate (13) is located in the groove (.

2. The cooling cabinet for the server in the data center according to claim 1, wherein the air duct (2) on the upper and lower sides of the through hole (3) is fixed with a horizontal polish rod (9), the polish rod (9) penetrates through the sealing plate (7) and is in sliding fit with the sealing plate, and the sealing gasket (8) which is in sealing contact with the air duct (2) is fixed on the sealing plate (7).

3. The cooling cabinet for the server in the data center according to claim 1, wherein a sealing ring (4) is fixed on the inner edge of the through hole (3), and the insertion tube (22) is connected with the through hole (3) in a sealing way through the sealing ring (4).

4. The cooling cabinet for the server in the data center according to claim 1, wherein the insertion pipe (22) is sleeved with a sealing ring (24), and the end of the supporting plate (19) is in sealing contact with the outer edge of the air duct (2) through the sealing ring (24).

5. The data center server cooling cabinet according to claim 1, wherein a plurality of transverse sliding rods (11) are fixed on the top plate (13), and the sliding rods (11) penetrate through the slotted holes on the right side wall of the supporting plate (19) and are connected with the wall of the slotted holes in a sliding and sealing mode.

6. The cooling cabinet for the servers in the data center as claimed in claim 5, wherein a sealing sleeve (12) is fixed on the inner wall of the slotted hole on the right side wall of the supporting plate (19), and the sliding rod (11) is connected with the inner edge of the sealing sleeve (12) in a sliding and sealing manner.

7. The cooling cabinet for the data center server according to claim 1, wherein the top plate (13) stabilizing device comprises an ear plate (15), the ear plate (15) is fixed on the left end surface of the top plate (13), a transverse ejector rod (16) is hinged on the ear plate (15), a rotating wheel (17) is rotatably arranged on one end of the ejector rod (16) far away from the ear plate (15), the rotating wheel (17) is located in an arc-shaped groove (21) on the right end surface of the supporting plate (19), and a baffle plate (18) for supporting the ejector rod (16) is fixed on the right end surface of the supporting plate (19) below the arc-shaped groove (21).

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