CN218941610U - Radiating server cabinet - Google Patents

Abstract

The application provides a heat dissipation formula server cabinet body, including frame device, be equipped with a plurality of supporter boards in the frame device, the supporter board is used for placing the server, the frame device both sides are equipped with the side shield, both sides are equipped with the front door body respectively and the back door body around the frame device, frame device includes base and top cap, be equipped with a plurality of stands between base and the top cap, the base middle part is equipped with the air intake, air intake department is equipped with the exhaust fan, the top cap is equipped with first exhaust hole, the top cap upper end is equipped with the fender cap with keep off and be equipped with first ventilation channel between the cap, it is equipped with the second exhaust hole to keep off the cap, first exhaust hole is through first ventilation channel and second exhaust hole intercommunication, the second exhaust hole is towards below or towards oblique below, traditional server cabinet body heat dissipation unsmooth problem has been solved.

Description

Radiating server cabinet

Technical Field

The utility model relates to the field of server room construction, in particular to a heat dissipation type server cabinet.

Background

A server is one of computers, and is increasingly used in modern information society. During the operation process of the server, a large amount of heat is released in the actual peak period, and if the heat dissipation is unsmooth and light, the performance of the server is reduced, and the server is burnt out due to heavy heat dissipation.

Servers are often placed in the cabinet in a concentrated mode, heat is concentrated, heat dissipation difficulty is high, and the cabinet is provided with a certain sealing performance, so that the heat dissipation structure of the cabinet is important for the servers.

The traditional server cabinet body only adopts a thin-wall sheet metal structure to improve heat conduction efficiency, but the natural heat dissipation structure has poor heat dissipation effect for the centrally placed server group.

Disclosure of Invention

The utility model provides a heat dissipation type server cabinet body, which solves the problem of unsmooth heat dissipation of the traditional server cabinet body.

In order to solve the technical problems, the utility model adopts the following technical scheme: the utility model provides a heat dissipation formula server cabinet body, including frame device, be equipped with a plurality of supporter boards in the frame device, the supporter board is used for placing the server, the frame device both sides are equipped with the side shield, both sides are equipped with the front door body respectively and the back door body around the frame device, the frame device includes base and top cap, be equipped with a plurality of stands between base and the top cap, the base middle part is equipped with the air intake, air intake department is equipped with the exhaust fan, the top cap is equipped with first exhaust hole, the top cap upper end is equipped with keeps off the cap, be equipped with first ventilation channel between top cap and the fender cap, keep off the cap and be equipped with the second exhaust hole, first exhaust hole is through first ventilation channel and second exhaust hole intercommunication, the second exhaust hole is towards below or towards oblique below.

In the preferred scheme, the first exhaust hole is established in the top cap lateral wall, and the top cap upper wall is equipped with the fretwork hole, fretwork hole and first ventilation passageway intercommunication.

In the preferred scheme, the back door body is equipped with a plurality of first ventilation holes, and the back door body is close to cabinet body inboard and is equipped with first interior welt, is equipped with the second ventilation passageway between first interior welt and the back door body, and first interior welt is equipped with a plurality of third ventilation holes.

In the preferred scheme, the rear door body lower extreme is equipped with the cell body of bending, and the cell body of bending is equipped with the second wash port.

In the preferred scheme, the side shield is equipped with a plurality of second ventilation holes, and the side shield is close to cabinet internal side and is equipped with the second interior welt, and the second interior welt is equipped with a plurality of fourth ventilation holes, is equipped with the third ventilation passageway between second interior welt and the side shield.

In the preferred scheme, the top cover is provided with a first drain hole near the lower end of the third ventilation channel.

The beneficial effects of the utility model are as follows: the exhaust fan is adopted for active heat dissipation, so that the heat dissipation effect is greatly improved; according to the upward characteristic of hot air, an upper air outlet type design is adopted, so that the heat dissipation efficiency is improved; the heat dissipation air outlet adopts a downward design, so that ash falling and splashing are avoided; in the preferred scheme, the rear door body and the side baffle are of a double-layer design and are provided with heat dissipation holes, so that water splashing from the side surface is avoided, and dust entering the cabinet body is reduced; due to the adoption of the double-layer outer wall structure, the electromagnetic shielding performance of the cabinet body is correspondingly improved.

Drawings

The utility model is further described below with reference to the drawings and examples.

Fig. 1 is a schematic front side view of the present utility model.

Fig. 2 is a rear schematic view of the present utility model.

Fig. 3 is a main frame structure diagram of the present utility model.

Fig. 4 is an internal schematic view of the present utility model.

Fig. 5 is a view showing a structure of a rear door body portion of the present utility model.

Fig. 6 is a cross-sectional view of the deflector cap of the present utility model.

FIG. 7 is a sectional view of a shelf panel installation of the present utility model.

FIG. 8 is a schematic view of a shelf board installation of the present utility model.

In the figure: a frame device 1; a base 101; a top cover 102; a column 103; an air inlet 104; a first drain hole 105; a hollowed-out hole 106; a first exhaust hole 107; a vertical mounting portion 108; a front door body 2; a transparent window 201; a rear door body 3; a first ventilation hole 301; a first inner liner panel 302; a third ventilation hole 303; a second drain hole 304; a side baffle 4; a second ventilation hole 401; a second inner liner 402; fourth ventilation holes 403; a blocking cap 5; a second exhaust hole 501; a shelf board 6; a heat radiation hole 601; a limit stop pin 602; an exhaust fan 7; a vertical frame 8; a groove 801; and a transverse frame 9.

Detailed Description

As shown in fig. 1-8, a heat dissipation type server cabinet body comprises a frame device 1, a plurality of shelf boards 6 are arranged in the frame device 1, the shelf boards 6 are used for placing servers, side baffles 4 are arranged on two sides of the frame device 1, a front door body 2 and a rear door body 3 are respectively arranged on the front side and the rear side of the frame device 1, the frame device 1 comprises a base 101 and a top cover 102, a plurality of upright posts 103 are arranged between the base 101 and the top cover 102, an air inlet 104 is arranged in the middle of the base 101, an exhaust fan 7 is arranged at the air inlet 104, a first exhaust hole 107 is arranged in the top cover 102, a blocking cap 5 is arranged at the upper end of the top cover 102, a first ventilation channel is arranged between the top cover 102 and the blocking cap 5, a second exhaust hole 501 is arranged on the blocking cap 5, the first exhaust hole 107 is communicated with the second exhaust hole 501 through the first ventilation channel, and the second exhaust hole 501 faces downwards or obliquely downwards.

The front door body 2 is provided with a transparent window 201 made of glass or acrylic plates, so that the internal condition of the cabinet body can be observed conveniently.

The base 101, the upright post 103 and the top cover 102 are made of thin-wall steel and metal plates and are welded integrally, the exhaust fan 7 is arranged to exhaust air from bottom to top, the lower end of the base 101 is provided with a foot margin or a base plate to maintain a distance from the ground, good air inlet passage area is maintained, holes are formed in the side walls to assist, and heat can be dissipated more rapidly due to the fact that hot air has the ascending characteristic and is exhausted from bottom to top.

In order to improve the dustproof and splash-proof capacity of the cabinet body, a blocking cap 5 is covered above the top cover 102, the top of the blocking cap 5 is closed, the side wall is provided with an opening obliquely downwards, dust is prevented from directly falling into the cabinet body, and water drops are also prevented from directly splashing into the cabinet body.

The inside of the side wall of the frame device 1 is provided with a vertical installation part 108, two transverse frames 9 are installed on the vertical installation part 108, two vertical frames 8 are installed on the two transverse frames 9, a plurality of grooves 801 are formed in the vertical direction of the vertical frames 8, and bent parts at two ends of the storage rack plate 6 are directly clamped into the grooves 801.

A plurality of heat dissipation holes 601 are formed in the storage rack plate 6, limiting stop nails 602 are arranged on two sides of the storage rack plate 6, and the storage rack plate can limit displacement in the front-rear direction after being clamped into the grooves 801.

In a preferred scheme, the first exhaust hole 107 is formed in the side wall of the top cover 102, the upper wall of the top cover 102 is provided with a hollowed-out hole 106, and the hollowed-out hole 106 is communicated with the first ventilation channel.

The hollow hole 106 is opened upwards and is large in surface connection, and the ventilation effect is better than that of the first exhaust hole 107.

In a preferred scheme, the back door body 3 is provided with a plurality of first ventilation holes 301, the back door body 3 is provided with a first inner lining plate 302 near the inner side of the cabinet body, a second ventilation channel is arranged between the first inner lining plate 302 and the back door body 3, and the first inner lining plate 302 is provided with a plurality of third ventilation holes 303.

In the preferred scheme, the lower extreme of back door body 3 is equipped with the cell body of bending, and the cell body of bending is equipped with second wash port 304.

In a preferred embodiment, the side baffle 4 is provided with a plurality of second ventilation holes 401, the side baffle 4 is provided with a second inner lining plate 402 near the inner side of the cabinet body, the second inner lining plate 402 is provided with a plurality of fourth ventilation holes 403, and a third ventilation channel is arranged between the second inner lining plate 402 and the side baffle 4.

In a preferred embodiment, the top cover 102 is provided with a first drain hole 105 near the lower end of the third ventilation channel.

The traditional cabinet body is directly connected with the interior of the cabinet body through the radiating holes, and meanwhile, external dust and accidentally splashed water drops easily enter the interior of the cabinet body to cause short circuit or dust accumulation of a server, the cabinet body adopts a double-layer structure no matter the rear door body 3 or the side baffle 4, the water drops are not easy to directly contact the server due to the blocking of the inner lining plate, and part of dust is blocked by the inner lining plate to directly fall down from the second or third air passage, so that the dust accumulation speed is reduced; the second or third ventilation channel is provided with a drainage structure in a matching way, so that dust accumulation and water accumulation are avoided.

The above embodiments are only preferred embodiments of the present utility model, and should not be construed as limiting the present utility model, and the scope of the present utility model should be defined by the claims, including the equivalents of the technical features in the claims. I.e., equivalent replacement modifications within the scope of this utility model are also within the scope of the utility model.

Claims (6)

1. A heat dissipation type server cabinet body is characterized in that: including frame apparatus (1), be equipped with a plurality of supporter boards (6) in frame apparatus (1), supporter board (6) are used for placing the server, frame apparatus (1) both sides are equipped with side shield (4), both sides are equipped with qianmen body (2) and back door body (3) respectively around frame apparatus (1), frame apparatus (1) are equipped with a plurality of stands (103) including base (101) and top cap (102), be equipped with air intake (104) in the middle part of base (101), air intake (104) department is equipped with exhaust fan (7), top cap (102) are equipped with first exhaust hole (107), top cap (102) upper end is equipped with keeps off cap (5), be equipped with first ventilation channel between top cap (102) and keeps off cap (5), keep off cap (5) are equipped with second exhaust hole (501), first exhaust hole (107) are through first ventilation channel and second exhaust hole (501) intercommunication, second exhaust hole (501) orientation below or towards oblique below.

2. The heat dissipation server cabinet of claim 1, wherein: the first exhaust hole (107) is formed in the side wall of the top cover (102), a hollowed-out hole (106) is formed in the upper wall of the top cover (102), and the hollowed-out hole (106) is communicated with the first ventilation channel.

3. The heat dissipation server cabinet of claim 1, wherein: the back door body (3) is equipped with a plurality of first ventilation holes (301), and back door body (3) are close to cabinet internal side and are equipped with first interior welt (302), are equipped with the second ventilation passageway between first interior welt (302) and back door body (3), and first interior welt (302) are equipped with a plurality of third ventilation holes (303).

4. A heat dissipating server cabinet according to claim 3, wherein: the lower end of the rear door body (3) is provided with a bending groove body, and the bending groove body is provided with a second drain hole (304).

5. The heat dissipation server cabinet of claim 1, wherein: the side baffle (4) is equipped with a plurality of second ventilation holes (401), and side baffle (4) are close to cabinet body inside and are equipped with second interior welt (402), and second interior welt (402) are equipped with a plurality of fourth ventilation holes (403), are equipped with the third ventilation passageway between second interior welt (402) and side baffle (4).

6. The heat dissipation server cabinet of claim 5, wherein: a first water drain hole (105) is arranged on the top cover (102) near the lower end of the third air passage.

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