CN111399596B - Memory heat dissipation structure of low-load server - Google Patents

Abstract

The invention relates to the field of computers, and discloses a memory radiating structure of a low-load server, which aims at solving the problem that the existing memory radiating structure of the low-load server is inconvenient to disassemble and assemble. The invention has reasonable structure, ingenious design and simple operation, solves the problem that the existing memory radiating structure of the low-load server is inconvenient to assemble and disassemble, has good radiating effect, is convenient for removing dust on the fan blades and the filter screen, and avoids the increase of the heating value of the server caused by the influence of the dust.

Description

Memory heat dissipation structure of low-load server

Technical Field

The invention relates to the field of computers, in particular to a memory heat dissipation structure of a low-load server.

Background

A server is an important accessory of a computer, and is a device for providing computing services. When the server works, high temperature is generated inside the case of the server. Some low-load servers have been developed in the prior art, and the heat productivity is reduced by reducing the load of the servers, but the low-load servers still generate more heat during operation. The traditional server heat radiation structure radiates heat by using a fan, and achieves the purpose of radiating heat by exchanging air in the case with outside air. In the process of heat exchange, dust and floaters in the outside air can enter the inside of the chassis, and the normal use of a server in the chassis can be influenced if the dust and the floaters are not cleaned timely, but the existing memory radiating structure of the low-load server is inconvenient to assemble and disassemble, so that the dust cleaning process is time-consuming.

Disclosure of Invention

The invention provides a memory heat dissipation structure of a low-load server, which solves the problem that the existing memory heat dissipation structure of the low-load server is inconvenient to assemble and disassemble.

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

The utility model provides a low load server memory heat radiation structure, including quick-witted case, the server, two curb plates, two installing frames and two fixed frames, the bottom inner wall fixed connection of server and quick-witted case, the breach has all been seted up to the both sides of quick-witted case, two curb plates are located the outside of two breachs respectively, the outside of two curb plates is equal threaded connection has a plurality of first bolts, through first bolt fixed connection between two curb plates and the quick-witted case, two installing frames all are located the inside of quick-witted case, two installing frames are located the both sides of server, the top and the bottom of installing frames all are fixed with the connecting block, all be fixed with two fixed blocks on the top inner wall of quick-witted case and the bottom inner wall, the fixed block is located the both sides of server, and the fixed slot has been seted up to one side that the fixed block is close to the curb plate, the inside and the fixed block fixed connection of fixed slot are extended to the one end of connecting block, the inside of two installing frames all is equipped with the fan, a plurality of dead levers are fixed on the outer wall of fan, the other end and installing frame fixed connection, fan and curb plate cooperate, the both sides of quick-witted case have all been seted up the vent's opening department, the connecting slot, two fixed frames are located the inside of two fixed connection holes respectively, the connecting plate, the inside is connected fixedly with the connecting plate.

Preferably, the spread groove is L-shaped structure, and threaded connection has a plurality of second bolts on the outer wall of connecting plate, through second bolt fixed connection between connecting plate and the spread groove, and one side threaded connection of fixed block has the third bolt, and the one end of third bolt extends to the inside and the connecting block threaded connection of connecting block.

Preferably, rubber sleeves are adhered to the outer parts of the bolt heads of the first bolt, the second bolt and the third bolt.

Preferably, a sealing gasket is adhered to the bottom of the connecting groove, and the sealing gasket is made of rubber.

Preferably, the filter screen is made of stainless steel, and a plurality of heat dissipation holes are uniformly formed in the side plate.

In the invention, the following components are added:

Through the cooperation between installing frame, fixed block, connecting block, curb plate, spread groove, connecting plate and the fan, not only reached good radiating effect, be convenient for install frame and fixed frame moreover and dismantle and assemble, and then conveniently handle the dust on flabellum and the filter screen, the design of rubber sleeve is convenient for to the rotation of first bolt, second bolt and third bolt.

The invention has reasonable structure, ingenious design and simple operation, solves the problem that the existing memory radiating structure of the low-load server is inconvenient to assemble and disassemble, has good radiating effect, is convenient for removing dust on the fan blades and the filter screen, and avoids the increase of the heating value of the server caused by the influence of the dust.

Drawings

Fig. 1 is a front cross-sectional view of the present invention.

Fig. 2 is a side cross-sectional view of the present invention.

Reference numerals in the drawings: 1 machine case, 2 server, 3 connecting blocks, 4 fixed blocks, 5 curb plates, 6 rubber sleeves, 7 first bolts, 8 installing frames, 9 fans, 10 fixed slots, 11 fixed rods, 12 sealing gaskets, 13 connecting slots, 14 second bolts, 15 connecting plates, 16 fixed frames, 17 filter screens and 18 third bolts.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Referring to fig. 1-2, a low-load server memory heat dissipation structure comprises a case 1, a server 2, two side plates 5, two mounting frames 8 and two fixing frames 16, wherein the server 2 is fixedly connected with the inner wall of the bottom of the case 1, notches are respectively formed on two sides of the case 1, the two side plates 5 are respectively positioned outside the two notches, a plurality of first bolts 7 are respectively connected with the outer parts of the two side plates 5 in a threaded manner, the two side plates 5 are fixedly connected with the case 1 through the first bolts 7, the two mounting frames 8 are respectively positioned in the case 1, the two mounting frames 8 are positioned on two sides of the server 2, connecting blocks 3 are respectively fixed on the top and bottom of the mounting frames 8, two fixing blocks 4 are respectively fixed on the inner wall of the top and the inner wall of the bottom of the case 1, the fixed block 4 is located the both sides of server 2, and fixed slot 10 has been seted up to one side that fixed block 4 is close to curb plate 5, the inside that one end of connecting block 3 extends to fixed slot 10 and fixed block 4 fixed connection, the inside of two mounting frames 8 all is equipped with fan 9, be fixed with a plurality of dead levers 11 on the outer wall of fan 9, the other end and the mounting frame 8 fixed connection of dead lever 11, fan 9 cooperatees with curb plate 5, the vent has all been seted up to the other both sides of quick-witted case 1, spread groove 13 has been seted up to the opening part of vent, two fixed frames 16 are located the inside of two vents respectively, the outside of fixed frame 16 is fixed with connecting plate 15, connecting plate 15 and spread groove 13 fixed connection, filter screen 17 has been inlayed to the inboard of fixed frame 16.

In this embodiment, the connecting groove 13 is an L-shaped structure, a plurality of second bolts 14 are screwed on the outer wall of the connecting plate 15, the connecting plate 15 is fixedly connected with the connecting groove 13 through the second bolts 14, one side of the fixed block 4 is screwed with a third bolt 18, one end of the third bolt 18 extends to the inside of the connecting block 3 and is screwed with the connecting block 3, rubber sleeves 6 are adhered to the outer parts of the bolt heads of the first bolt 7, the second bolt 14 and the third bolt 18, sealing gaskets 12 are adhered to the bottom of the connecting groove 13, the sealing gaskets 12 are made of rubber, the filter screen 17 is made of stainless steel mesh, and a plurality of heat dissipation holes are uniformly formed in the side plate 5.

In this embodiment, the fixing manner between the members is one of bolt fixing or welding fixing manner.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present invention, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

Working principle: when the fan 9 is powered by an external power supply, the fan 9 is started when the server 2 works, hot air in the chassis 1 is discharged to the outside of the chassis 1 through the side plates 5, new air enters the inside of the chassis 1 through the filter screen 17, when fan blades are cleaned, the side plates 5 are detached from the chassis 1, then the third bolts 18 are screwed out of the connecting blocks 3, the mounting frame 8 and the fixed blocks 4 can be separated, then the mounting frame 8 can be taken out of the chassis 1 to process dust on the fan blades, when the filter screen 17 is cleaned, the second bolts 14 are screwed out of the chassis 1, and then the fixed frames 16 are taken out of the vent holes to clean dust on the filter screen 17.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (5)

1. The utility model provides a low load server memory heat radiation structure, including quick-witted case (1), server (2), two curb plates (5), two installing frame (8) and two fixed frame (16), a serial communication port, the bottom inner wall fixed connection of server (2) and quick-witted case (1), the breach has all been seted up to the both sides of quick-witted case (1), two curb plates (5) are located the outside of two breachs respectively, the outside equal threaded connection of two curb plates (5) has a plurality of first bolts (7), pass through first bolt (7) fixed connection between two curb plates (5) and quick-witted case (1), two installing frame (8) all are located the inside of quick-witted case (1), two installing frame (8) are located the both sides of server (2), the top and the bottom of installing frame (8) all are fixed with connecting block (3), all be fixed with two fixed blocks (4) on the top inner wall of machine case (1) and the bottom inner wall, fixed block (4) are located the both sides of server (2), and one side that fixed block (4) are close to curb plate (5) is equipped with fixed slot (10), one side that fixed block (4) is equipped with fixed slot (10), one end (9) of fan (10) are fixed connection to the inside of fan (9) are fixed connection of two fixed connection piece (8), the other end of dead lever (11) and installing frame (8) fixed connection, fan (9) cooperatees with curb plate (5), and vent has all been seted up to the other both sides of quick-witted case (1), and spread groove (13) have been seted up to the opening part of vent, and two fixed frames (16) are located the inside of two vents respectively, and the outside of fixed frame (16) is fixed with connecting plate (15), connecting plate (15) and spread groove (13) fixed connection, and the inboard of fixed frame (16) is inlayed and is had filter screen (17).

2. The low-load server memory heat dissipation structure according to claim 1, wherein the connecting groove (13) is of an L-shaped structure, a plurality of second bolts (14) are connected to the outer wall of the connecting plate (15) in a threaded manner, the connecting plate (15) is fixedly connected with the connecting groove (13) through the second bolts (14), a third bolt (18) is connected to one side of the fixing block (4) in a threaded manner, and one end of the third bolt (18) extends to the inside of the connecting block (3) to be connected with the connecting block (3) in a threaded manner.

3. The low-load server memory heat dissipation structure according to claim 1, wherein the outer parts of the bolt heads of the first bolt (7), the second bolt (14) and the third bolt (18) are adhered with rubber sleeves (6).

4. The low load server memory heat dissipation structure as set forth in claim 1, wherein a gasket (12) is bonded to the bottom of the connection groove (13), and the gasket (12) is made of rubber.

5. The low-load server memory heat dissipation structure as set forth in claim 1, wherein the filter screen (17) is made of stainless steel mesh, and a plurality of heat dissipation holes are uniformly formed in the side plate (5).