CN220626976U - A server base with heat dissipation function - Google Patents

Abstract

The utility model belongs to the field of servers, and particularly relates to a server base with a heat dissipation function, which solves the problems of unsmooth disassembly and poor heat dissipation in the prior art.

Description

A server base with heat dissipation function

Technical field

The utility model relates to the technical field of servers, specifically a server base with a heat dissipation function.

Background technique

Currently, a server is a type of computer that runs faster, carries a higher load, and is more expensive than a regular computer. The server provides computing or application services to other clients in the network (such as PCs, smartphones, terminals such as ATMs, and even large equipment such as train systems). The server has high-speed CPU computing capabilities, long-term reliable operation, strong I/O external data throughput capabilities, and better scalability. According to the services provided by the server, generally speaking, the server has the ability to undertake corresponding service requests, undertake services, and guarantee services.

There are the following shortcomings in traditional technology: 1. The server in the existing technology is installed on the base. The server is generally installed on the base through screws and nuts. The operation is troublesome and requires special tools for installation and disassembly. There are disassembly and assembly problems. Not a quick question.

2. The base in the prior art has a single function. It only plays an installation role and cannot play other functions for the server, such as heat dissipation and shock absorption. As a result, the heat dissipation effect of the server is poor and there is a problem of single function.

Utility model content

The purpose of this utility model is to provide a server base with a heat dissipation function, which solves the problems of inconvenient disassembly and assembly and poor heat dissipation.

In order to achieve the above purpose, the present utility model provides the following technical solution: a server base with a heat dissipation function, including a server body and a base. The inside of the base is slidably equipped with four symmetrically arranged pressure plates and four symmetrically arranged horizontal plates. rod and four symmetrically arranged limit blocks. One side of the limit block is connected to a pull rod through screws. The other end of the pull rod is connected to a pull block through screws. The tops of the cross bars are fixed through screws. A connecting rod and a retraction rod are connected, and the top of the connecting rod is fixedly connected to the bottom of the pressure plate through screws;

A plastic transparent door is hinged on the server body, four symmetrically arranged positioning blocks are fixedly connected to the bottom of the server through screws, and two symmetrically arranged heat dissipation holes are provided at the bottom of the server.

Preferably, two symmetrically arranged cooling fans are installed inside the base, and the cooling fans are electrically connected to the server.

Preferably, four symmetrically arranged installation grooves are provided inside the base. The installation grooves and the positioning blocks have the same shape and size. The pressure plate is slidably connected inside the installation grooves, and the installation grooves are convenient for Positioning installation.

Preferably, four symmetrically arranged special-shaped grooves are provided inside the base, and the crossbar is slidably connected inside the special-shaped groove. Two symmetrically arranged first springs are connected to the bottom of the crossbar. The other ends of each of the first springs are connected to the bottom wall of the special-shaped groove, and the first spring facilitates the automatic reset of the crossbar.

Preferably, four symmetrically arranged shrinking grooves are provided inside the base, the limiting block is slidingly connected inside the shrinking groove, a second spring is set on the outer circumferential surface of the pull rod, and the third One end of the two springs is connected to the limiting block, and the other end of the second spring is connected to the side wall of the contraction groove. The second spring facilitates the automatic reset of the limiting block.

Preferably, a limiting groove is provided inside the positioning block. The limiting groove and the limiting block have the same shape and size. A blocking groove is provided on the limiting block. The blocking groove and the retracting block are provided. The shapes and dimensions of the rods are all the same, and the limiting grooves facilitate the limiting block to produce a limiting effect on the positioning block.

Compared with the existing technology, the beneficial effects of this utility model are as follows:

1. This utility model is configured with positioning blocks and limit blocks. When installing, align the positioning block at the bottom of the server body with the installation slot inside the base and insert it until the limit block is ejected into the inside of the positioning block by the second spring. The fixation is completed in the provided limit slot. When disassembling, just pull the pull block, achieving quick disassembly and assembly.

2. In this utility model, the cooling fan and the server body are electrically connected through the arrangement of the cooling fan and the base. When the server body is working, the cooling fan starts to dissipate heat to the server body through the heat dissipation holes, achieving good heat dissipation effect.

Description of the drawings

Figure 1 is a front cross-sectional view of the utility model;

Figure 2 is an enlarged view of point A of the present utility model;

Figure 3 is an overall structural diagram of the utility model.

In the picture: 1. Server body; 2. Plastic transparent door; 3. Base; 4. Heat dissipation holes; 5. Cooling fan; 6. Positioning block; 7. Installation slot; 8. Pressure plate; 9. Connecting rod; 10. Horizontal Rod; 11. Special-shaped groove; 12. First spring; 13. Retraction lever; 14. Pulling block; 15. Pulling rod; 16. Second spring; 17. Shrinking groove; 18. Limiting block.

Detailed ways

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. Obviously, the described embodiments are only part of the embodiments of the present utility model, not all implementations. example. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative efforts fall within the scope of protection of the present utility model.

Please refer to Figure 1-3. A server base with a heat dissipation function includes a server body 1 and a base 3. The base 3 is slidably assembled with four symmetrically arranged pressure plates 8, four symmetrically arranged crossbars 10 and four There are two symmetrically arranged limit blocks 18. One side of the limit block 18 is connected to a pull rod 15 through screws. The other end of the pull rod 15 is connected to a pull block 14 through screws. The tops of the cross bars 10 are connected through screws. Rod 9 and retraction rod 13, the top of the connecting rod 9 is connected to the bottom of the pressure plate 8 by screws, the server body 1 is hinged with a plastic transparent door 2, and the bottom of the server is connected by screws with four symmetrically arranged positioning blocks. 6. There are two symmetrically arranged heat dissipation holes 4 at the bottom of the server. Through the setting of positioning blocks 6 and limit blocks 18 and other structures, during installation, align the positioning blocks 6 at the bottom of the server body 1 with the installation holes provided inside the base 3. The slot 7 is inserted until the limit block 18 is ejected by the second spring 16 into the limit slot provided inside the positioning block 6 to complete the fixation. When disassembling, just pull the pull block 14, achieving the effect of quick disassembly and assembly.

Please refer to Figure 1-3. There are two symmetrically arranged cooling fans 5 installed inside the base 3. The cooling fans 5 are electrically connected to the server. Through the arrangement of the cooling fans 5 and the base 3 and other structures, the cooling fans 5 and the server body 1 Electrical connection, when the server body 1 is working, the cooling fan 5 is started to dissipate heat to the server body 1 through the heat dissipation holes 4, achieving good heat dissipation effect.

Please refer to Figure 1-3. There are four symmetrically arranged installation slots 7 inside the base 3. The installation slots 7 and the positioning block 6 have the same shape and size. The pressure plate 8 is slidingly connected inside the installation slot 7. The inside of the base 3 There are four symmetrically arranged special-shaped slots 11. The cross bar 10 is slidingly connected inside the special-shaped slot 11. The bottom of the cross bar 10 is connected with two symmetrically arranged first springs 12. The other ends of the two first springs 12 are both Connected to the bottom wall of the special-shaped groove 11, there are four symmetrically arranged shrink grooves 17 inside the base 3, the limit block 18 is slidingly connected inside the shrink groove 17, and a second spring is set on the outer peripheral surface of the pull rod 15 16. One end of the second spring 16 is connected to the limiting block 18, and the other end of the second spring 16 is connected to the side wall of the contraction groove 17. A limiting groove, a limiting groove and a limiting block are provided inside the positioning block 6. 18 have the same shape and size, the limiting block 18 is provided with a slot, and the slot and the retraction lever 13 have the same shape and size.

The specific implementation process of the utility model is as follows: This device uses positioning blocks 6 and limit blocks 18 to cooperate, making the disassembly and assembly of the server body 1 very fast. During installation, align the four positioning blocks 6 at the bottom of the server body 1 The four mounting slots 7 from the inside of the base 3 are inserted, the positioning block 6 presses the pressure plate 8, the pressure plate 8 drives the fixedly connected connecting rod 9 to move, the connecting rod 9 drives the fixedly connected crossbar 10 to move, and the crossbar 10 compresses the first spring 12 At the same time, the fixedly connected retraction rod 13 is driven to move. When the retraction rod 13 moves away from the slot provided inside the limit block 18, the retraction rod 13 loses its limiting effect on the limit block 18. The limit block 18 is due to the second spring 16 The ejection enters the limit groove provided inside the positioning block 6 to complete the fixation. When disassembling, pull the pull block 14, the pull block 14 drives the fixedly connected pull rod 15 to move, the pull rod 15 drives the fixedly connected limit block 18 to move, and the limit block 18 When moving out of the limit groove, the limit block 18 loses its limiting effect on the positioning block 6. At this time, the first spring 12 returns and lifts up the cross bar 10. The cross bar 10 drives the connecting rod 9 and the retraction lever 13 to move, and the retraction lever When 13 moves to the slot inside the limit block 18, the disassembly is completed. It should be noted that the server can be lifted while the retraction lever 13 moves;

In addition, two cooling fans 5 are provided inside the base 3, and the cooling fans 5 are electrically connected to the server body 1. When the server body 1 is working, the cooling fans 5 are started to dissipate heat to the server body 1 through the heat dissipation holes 4, thus realizing Good heat dissipation effect.

Although the embodiments of the present invention have been shown and described, those of ordinary skill in the art will understand that various changes and modifications can be made to these embodiments without departing from the principles and spirit of the present invention. , substitutions and modifications, the scope of the present invention is defined by the appended claims and their equivalents.

Claims (6)

1. A server base with a heat dissipation function, including a server body (1) and a base (3), which is characterized in that four symmetrically arranged pressure plates (8) and four symmetrically arranged pressure plates (8) are slidably assembled inside the base (3). A symmetrically arranged cross bar (10) and four symmetrically arranged limit blocks (18). One side of the limit block (18) is connected to a pull rod (15) through screws. The pull rod (15) The other end is connected with a pulling block (14) through screws. The top of the crossbar (10) is connected to a connecting rod (9) and a retraction rod (13) through screws. The top of the connecting rod (9) passes through The screws are fixedly connected to the bottom of the pressure plate (8); The server body (1) is hinged with a plastic transparent door (2). The bottom of the server is fixedly connected with four symmetrically arranged positioning blocks (6) through screws. There are two symmetrical positioning blocks (6) at the bottom of the server. Arranged heat dissipation holes (4). 2. A server base with a heat dissipation function according to claim 1, characterized in that: two symmetrically arranged cooling fans (5) are installed inside the base (3), and the cooling fans (5) electrically connected to the server. 3. A server base with a heat dissipation function according to claim 1, characterized in that four symmetrically arranged installation slots (7) are provided inside the base (3), and the installation slots (7) The shape and size of the positioning block (6) are the same, and the pressure plate (8) is slidingly connected inside the installation groove (7). 4. A server base with a heat dissipation function according to claim 1, characterized in that four symmetrically arranged special-shaped grooves (11) are provided inside the base (3), and the cross bar (10) Slidingly connected inside the special-shaped groove (11), the bottom of the crossbar (10) is connected with two symmetrically arranged first springs (12), and the other ends of the two first springs (12) are both Connected to the bottom wall of the special-shaped groove (11). 5. A server base with heat dissipation function according to claim 1, characterized in that: four symmetrically arranged shrink grooves (17) are provided inside the base (3), and the limiting block (18) ) is slidingly connected inside the contraction groove (17), a second spring (16) is set on the outer peripheral surface of the pull rod (15), and one end of the second spring (16) is connected to the limiter On the block (18), the other end of the second spring (16) is connected to the side wall of the contraction groove (17). 6. A server base with heat dissipation function according to claim 1, characterized in that: a limiting groove is provided inside the positioning block (6), and the limiting groove and the limiting block (18) The shapes and dimensions of the two blocks are all the same, the limiting block (18) is provided with a clamping groove, and the shapes and dimensions of the clamping slot and the retraction lever (13) are the same.