LU504434B1 - Heat-Dissipation Apparatus for Computer Host - Google Patents

Abstract

The present application discloses a heat-dissipation apparatus for a computer host in the technical field of computer hosts. The heat-dissipation apparatus for the computer host includes a computer host, an L-shaped clamping plate is arranged above and below an outer wall on one side of the computer host, an installation housing is installed in a central position of the outer wall on one side of the computer host, a heat-dissipation mechanism is installed inside the installation housing, and its structure is reasonable. The present application, by arranging the installation housing and the heat-dissipation mechanism, installs the heat-dissipation mechanism inside the installation housing, pushes the installation housing between two groups of L-shaped clamping plates on the computer host by an inserting plate in a sliding manner. By using the circulating heat-dissipation effect of the heat-dissipation mechanism, the heat-dissipation mechanism may perform effective heat-dissipation treatment on internal heat of the computer host.

Description

HEAT-DISSIPATION APPARATUS FOR COMPUTER HOST LU504434

TECHNICAL FIELD

The present application relates to the technical field of computer hosts, in particular to a heat-dissipation apparatus for a computer host.

BACKGROUND

A computer, commonly known as a personal computer, is a modern electronic computing machine used for high-speed computing. It may perform both numerical computation and logical computation, has the function of storage and memory, and is a modern intelligent electronic device that may run according to programs and process massive data automatically at a high speed. A computer host generally includes a central processing unit (CPU), a memory, a hard disk, an optical disk driver, a power supply, and other input/output controllers and interfaces. In networking technologies, the computer plays a role of a terminal device that sends and receives information.

The drawback of existing heat-dissipation apparatuses for the computer host is that: while the computer host is in operation, it is prone to generate heat under workload, and in the case that heat-dissipation treatment is not performed in time, it may easily cause damage or malfunction to the computer host, and also affect the operating efficiency of the computer host. Therefore, it is necessary to adopt the heat-dissipation treatment for the computer host, and the heat-dissipation mode is usually a water-cooling or air-cooling mode.

However, the water-cooling or air-cooling mode is usually installed inside the computer host, and since the configuration of the computer host is higher and higher, the volume of internal accessories is also increased, and the heat generated is also gradually increased, so that the water-cooling or air-cooling mode is easily limited by an internal space of the computer host and is less installed accordingly. Due to the reduction of installation of such apparatuses, the heat-dissipation effect may become weaker, and the operating stability of the computer host is also reduced.

Therefore, it is very necessary to develop a heat-dissipation apparatus for LUS04434 a computer host.

SUMMARY

A purpose of the present application is to provide a heat-dissipation apparatus for a computer host. By arranging an installation housing and a heat-dissipation mechanism, the heat-dissipation mechanism is installed inside the installation housing, and the installation housing is pushed between two groups of L-shaped clamping plates on the computer host by an inserting plate in a sliding manner, so that the installation housing is pushed in or pushed out, thereby the effects of installation and disassembly are achieved.

At the same time, it is also convenient for irregular maintenance and repair treatment of the heat-dissipation mechanism inside the installation housing. By using the circulating heat-dissipation effect of the heat-dissipation mechanism, the heat-dissipation mechanism may perform effective heat-dissipation treatment on internal heat of the computer host. At the same time, the heat-dissipation mechanism is arranged outside the computer host, thereby the normal operation of the computer host is not hindered, and it may also cooperate with the internal heat-dissipation apparatus of the computer host itself, so the heat-dissipation effect of the computer host is enhanced, and the using effect of the heat-dissipation apparatus of the computer host is also improved, as to solve the problem mentioned in the above background that the installation of the computer host heat-dissipation apparatus is limited so as to affect the heat-dissipation effect.

In order to achieve the above purpose, the present application provides the following technical schemes: a heat-dissipation apparatus for a computer host includes a computer host, an L-shaped clamping plate is arranged above and below an outer wall on one side of the computer host, an installation housing is installed in a central position of the outer wall on one side of the computer host, and a heat-dissipation mechanism is installed inside the installation housing.

The heat-dissipation mechanism includes a circulating component and a LUS04434 heat-dissipation component, the circulating component is connected with the installation housing, and the heat-dissipation component is connected with the circulating component.

Preferably, an inner wall of the L-shaped clamping plate is provided with a rubber pad, and an outer wall surface on one side of the computer host is provided with a ventilation opening.

Preferably, one side of a top portion and a bottom portion of the installation housing is provided with an inserting plate, an outer wall of the inserting plate is slidably connected with the inner wall of the L-shaped clamping plate, an outer wall surface on one side of the installation housing is provided with an installation groove, and a filtering plate is installed inside the installation groove.

Preferably, the circulating component includes a U-shaped frame, there are two groups of the U-shaped frames, the two groups of the U-shaped frames are correspondingly installed on a top end and a bottom end of the interior of the installation housing respectively, a front end between opposite sides of the two groups of the U-shaped frames is rotatably connected with a rotating shaft A, and a rear end between the opposite sides of the two groups of the U-shaped frames is rotatably connected with a rotating shaft B.

Preferably, a belt pulley A is arranged below an outer wall of the rotating shaft A, a belt pulley B is arranged below an outer wall of the rotating shaft B, the belt pulley B is transmission-connected with the belt pulley A by a transmission belt, and a motor is installed inside one group of the U-shaped frame.

Preferably, an output shaft on the motor is fixedly connected with one end of the rotating shaft A by a shaft coupler, and a connecting rod is arranged between the opposite sides of the two groups of the U-shaped frames.

Preferably, the heat-dissipation component includes a moving block, a threaded hole is arranged at a central position of the surface of the moving block, a limiting block is installed on an outer wall of one side of the moving LUS04434 block, and a through hole is arranged at a central position of the surface of the limiting block.

Preferably, an installation frame is installed on an outer wall of the other side of the moving block, and a heat-dissipation fan is installed above and below the interior of the installation frame.

Compared with existing technologies, the beneficial effects of the present application are as follows.

By arranging the installation housing and the heat-dissipation mechanism, the heat-dissipation mechanism is installed inside the installation housing, and the installation housing is pushed between the two groups of the L-shaped clamping plates on the computer host by the inserting plate in the sliding manner, so that the installation housing is pushed in or pushed out, thereby the effects of installation and disassembly are achieved. At the same time, it is also convenient for irregular maintenance and repair treatment of the heat-dissipation mechanism inside the installation housing. By utilizing the circulating heat-dissipation effect of the heat-dissipation mechanism, the heat-dissipation mechanism may perform effective heat-dissipation treatment on internal heat of the computer host. At the same time, the heat-dissipation mechanism is arranged outside the computer host, thereby the normal operation of the computer host is not hindered, and it may also cooperate with the internal heat-dissipation apparatus of the computer host itself, so the heat-dissipation effect of the computer host is enhanced, and the using effect of the heat-dissipation apparatus of the computer host is also improved.

BRIEF DESCRIPTION OF THE DRAWINGS

Fig. 1 is a partial cross-sectional diagram of a front view provided by the present application:

Fig. 2 is a cross-sectional diagram of a front view of a heat-dissipation mechanism provided by the present application;

Fig. 3 is an enlarged view of the structure at a position À in Fig. 2 provided by the present application: LUS04434

Fig. 4 is a side view of the partial structure of the heat-dissipation mechanism provided by the present application;

Fig. 5 is a stereostructure diagram of a computer host provided by the 5 present application; and

Fig. 6 is a stereostructure diagram of an installation housing provided by the present application.

In the drawings: 1. Computer host; 101. L-shaped clamping plate; 102.

Rubber pad; 103. Ventilation opening; 2. Installation housing; 201. Inserting plate; 202. Installation groove; 203. Filtering plate; 3. Heat-dissipation mechanism; 301. U-shaped frame; 302. Rotating shaft A; 303. Rotating shaft; 304. Belt pulley A; 305. Belt pulley B; 306. Motor; 307. Connecting rod; 308.

Moving block; 309. Threaded hole; 310. Limiting block; 311. Through hole; 312.

Installation frame; and 313. Heat-dissipation fan.

DETAILED DESCRIPTION OF THE EMBODIMENTS

Technical schemes in embodiments of the present application are clearly and completely described below in combination with the drawings in the embodiments of the present application. Apparently, the embodiments described are only a part of the embodiments of the present application, not all of the embodiments. Based on the embodiments in the present application, all other embodiments obtained by those of ordinary skill in the art without creative labor shall fall within the scope of protection of the present application.

The present application provides the following technical schemes: a heat-dissipation apparatus for a computer host may effectively enhance the heat-dissipation effect of the heat-dissipation apparatus for the computer host in a using process, which is additionally provided with an installation housing 2 and a heat-dissipation mechanism 3. As shown in Figs. 1-6, the heat-dissipation apparatus for the computer host includes a computer host 1, an L-shaped clamping plate 101 is arranged above and below an outer wall on one side of the computer host 1, an inner wall of the L-shaped clamping plate

101 is provided with a rubber pad 102, an outer wall surface on one side of the LUS04434 computer host 1 is provided with a ventilation opening 103, the installation housing 2 is installed in a central position of the outer wall on one side of the computer host 1, one side of a top portion and a bottom portion of the installation housing 2 is provided with an inserting plate 201, and an outer wall of the inserting plate 201 is slidably connected with the inner wall of the

L-shaped clamping plate 101, so that the installation housing 2 may be pushed between two groups of L-shaped clamping plates 101 on the computer host 1 by the inserting plate 201 in a sliding manner, as to achieve installation and disassembly treatment of the installation housing 2. At the same time, the inner wall of the L-shaped clamping plate 101 is provided with the rubber pad 102, and the anti-sliding effect of the rubber pad 102 is used, so that after the installation housing 2 is installed, due to the anti-sliding treatment of the rubber pad 102, the installation housing 2 is avoided from being easily shaken and detached from the L-shaped clamping plate 101. An outer wall surface on one side of the installation housing 2 is provided with an installation groove 202, and a filtering plate 203 is installed inside the installation groove 202. After the filtering plate 203 is installed, dust is prevented from entering the installation housing 2, and the heat-dissipation mechanism 3 is installed inside the installation housing 2.

The heat-dissipation mechanism 3 includes a circulating component and a heat-dissipation component, the circulating component is connected with the installation housing 2, and the heat-dissipation component is connected with the circulating component. The circulating component includes a U-shaped frame 301, there are two groups of the U-shaped frames 301, the two groups of the U-shaped frames 301 are correspondingly installed on a top end and a bottom end of the interior of the installation housing 2 respectively, a front end between opposite sides of the two groups of the U-shaped frames 301 is rotatably connected with a rotating shaft A 302, and a rear end between the opposite sides of the two groups of the U-shaped frames 301 is rotatably connected with a rotating shaft B 303. The rotating shaft A 302 and the rotating LUS04434 shaft B 303 are rotatably connected between the two groups of the U-shaped frames 301 in the manner of one in front and the other in back, so that the rotating shaft À 302 and the rotating shaft B 303 are installed and fixed by the

U-shaped frames 301, and the rotation treatment of the rotating shaft A 302 and the rotating shaft B 303 is not affected. A belt pulley A 304 is arranged below an outer wall of the rotating shaft A 302, a belt pulley B 305 is arranged below an outer wall of the rotating shaft B 303, the belt pulley B 305 is transmission-connected with the belt pulley A 304 by a transmission belt, and a

Motor 306 is installed inside one group of the U-shaped frame 301. An output shaft on the motor 306 is fixedly connected with one end of the rotating shaft A 302 by a shaft coupler, so that the motor 306 may drive the rotating shaft A 302 to rotate forward or reverse, the forward rotation or reverse rotation of the rotating shaft A 302 may synchronously drive the rotating shaft B 303 to rotate forward or reverse. A connecting rod 307 is arranged between the opposite sides of the two groups of the U-shaped frames 301. The heat-dissipation component includes a moving block 308, a threaded hole 309 is arranged at a central position of the surface of the moving block 308, a limiting block 310 is installed on an outer wall of one side of the moving block 308, and a through hole 311 is arranged at a central position of the surface of the limiting block 310. Two groups of the moving blocks 308 are respectively arranged on outer walls of the rotating shaft A 302 and the rotating shaft B 303 by the threaded hole 309 in the manner of threaded connection, and the limiting block 310 on the outer wall of one side of the moving block 308 is arranged on an outer wall of the connecting rod 307 in the sliding manner, so that the rotating shaft A 302 and the rotating shaft B 303 rotate forward or reverse, and the two groups of the moving blocks 308 may be synchronously driven to move upwards or downwards. An installation frame 312 is installed on an outer wall of the other side of the moving block 308, a heat-dissipation fan 313 is installed above and below the interior of the installation frame 312, two groups of the heat-dissipation fans 313 are correspondingly installed above and below the LUS04434 interior of the installation frame 312, and the wind direction of the heat-dissipation fan 313 is set in the direction of the filtering plate 203, so that heat inside the computer host 1 may be absorbed into the installation housing 2 by the heat-dissipation fans 313, and then discharged by a filter screen on the filtering plate 203. By setting the mode of the motor 306 driving the rotating shaft A 302 to be an up-down circulating mode, the heat-dissipation fan 313 may be effectively moved upwards and downwards for heat dissipation, and the occurrence of uneven heat dissipation is reduced. At the same time, the heat-dissipation fan 313 is located outside the computer host 1, thereby the normal operation of the computer host 1 is not hindered, and it may also cooperate with the internal heat-dissipation apparatus of the computer host 1 itself, so the heat-dissipation effect of the computer host 1 is enhanced.

Working principle: while the present application is used, two groups of the

L-shaped clamping plates 101 are respectively arranged above and below the outer wall of one side of the computer host 1, and the top portion and the bottom portion of the installation housing 2 are correspondingly provided with the inserting plate 201, so that the installation housing 2 may be pushed between the two groups of the L-shaped clamping plates 101 on the computer host 1 by the inserting plate 201 in the sliding manner, thereby the installation and disassembly treatment of the installation housing 2 is achieved. At the same time, the inner wall of the L-shaped clamping plate 101 is provided with the rubber pad 102, and the anti-sliding effect of the rubber pad 102 is used, so that after the installation housing 2 is installed, due to the anti-sliding treatment of the rubber pad 102, the installation housing 2 is avoided from being easily shaken and detached from the L-shaped clamping plate 101. The filtering plate 203 is installed in the installation groove 202 on the installation housing 2, so that after the filtering plate 203 is installed, dust is prevented from entering the installation housing 2. The two groups of the U-shaped frames 301 on the heat-dissipation mechanism 3 are correspondingly installed on the top end and the bottom end of the interior of the installation housing 2, and the rotating LUS04434 shaft A 302 and the rotating shaft B 303 are rotatably connected between the two groups of the U-shaped frames 301 in the manner of one in front and the other in back, so that the rotating shaft A 302 and the rotating shaft B 303 are installed and fixed by the U-shaped frames 301, and the rotation treatment of the rotating shaft A 302 and the rotating shaft B 303 is not affected.

The belt pulley A 304 on the rotating shaft A 302 is transmission-connected with the belt pulley B 305 on the rotating shaft B 303 by the transmission belt, and the output shaft on the motor 306 inside one group of the U-shaped frame 301 is fixedly connected with one end of the rotating shaft A 302 by the shaft coupler, so that the motor 306 may drive the rotating shaft A 302 to rotate forward or reverse, the forward rotation or reverse rotation of the rotating shaft A 302 may synchronously drive the rotating shaft B 303 to rotate forward or reverse.

Two groups of the moving blocks 308 are respectively arranged on the outer walls of the rotating shaft A 302 and the rotating shaft B 303 by the threaded hole 309 in the manner of threaded connection, and the limiting block 310 on the outer wall of one side of the moving block 308 is arranged on the outer wall of the connecting rod 307 by the through hole 311 in the sliding manner, so that the rotating shaft A 302 and the rotating shaft B 303 rotate forward or reverse, and the two groups of the moving blocks 308 may be synchronously driven to move upwards or downwards.

The installation frame 312 is arranged on the outer wall of the other side of the moving block 308, and two groups of the heat-dissipation fans 313 are correspondingly installed above and below the interior of the installation frame 312, and the wind direction of the heat-dissipation fan 313 is set in the direction of the filtering plate 203, so that heat inside the computer host 1 may be absorbed into the installation housing 2 by the heat-dissipation fans 313, and then discharged by the filter screen on the filtering plate 203. By setting the mode of the motor 306 driving the rotating shaft A 302 to be the up-down circulating mode, the heat-dissipation fan 313 may be effectively moved upwards and downwards for heat dissipation, and the occurrence of uneven heat dissipation is reduced. At the same time, the LU504434 heat-dissipation fan 313 is located outside the computer host 1, thereby the normal operation of the computer host 1 is not hindered, and it may also cooperate with the internal heat-dissipation apparatus of the computer host 1 itself, so the heat-dissipation effect of the computer host 1 is enhanced, and the using effect of the heat-dissipation apparatus of the computer host is also improved.

Although the present application is already described hereinbefore with reference to the embodiments, various improvements may be made thereto and components therein may be replaced by equivalents without departing from the scope of the present application. Especially, as long as there is no structural conflict, various features disclosed in the embodiments of the present application may be combined with each other in any ways. The non-exhaustive description of these combinations in the description is only for the consideration of omitting space and saving resources. Therefore, the present application is not limited to the specific embodiments disclosed in the text, but shall include all technical schemes falling within the scope of the claims.

Claims (8)

CLAIMS LU504434

1. A heat-dissipation apparatus for a computer host, comprising a computer host (1), wherein an L-shaped clamping plate (101) being arranged above and below an outer wall on one side of the computer host (1), and an installation housing (2) being installed in a central position of the outer wall on one side of the computer host (1), characterized in that a heat-dissipation mechanism (3) is installed inside the installation housing (2); and the heat-dissipation mechanism (3) comprises a circulating component and a heat-dissipation component, the circulating component is connected with the installation housing (2), and the heat-dissipation component is connected with the circulating component.

2. The heat-dissipation apparatus for the computer host as claimed in claim 1, wherein an inner wall of the L-shaped clamping plate (101) is provided with a rubber pad (102), and an outer wall surface on one side of the computer host (1) is provided with a ventilation opening (103).

3. The heat-dissipation apparatus for the computer host as claimed in claim 1, wherein one side of a top portion and a bottom portion of the installation housing (2) is provided with an inserting plate (201), an outer wall of the inserting plate (201) is slidably connected with the inner wall of the L-shaped clamping plate (101) , an outer wall surface on one side of the installation housing (2) is provided with an installation groove (202), and a filtering plate (203) is installed inside the installation groove (202).

4. The heat-dissipation apparatus for the computer host as claimed in claim 1, wherein the circulating component comprises a U-shaped frame (301), there are two groups of the U-shaped frames (301), the two groups of the U-shaped frames (301) are correspondingly installed on a top end and a bottom end of the interior of the installation housing (2) respectively, a front end between opposite sides of the two groups of the U-shaped frames (301) is rotatably connected with a rotating shaft A (302), and a rear end between the opposite sides of the two groups of the U-shaped frames (301) is rotatably connected with a rotating shaft B (303). LUS04434

5. The heat-dissipation apparatus for the computer host as claimed in claim 4, wherein a belt pulley A (304) is arranged below an outer wall of the rotating shaft A (302), a belt pulley B (305) is arranged below an outer wall of the rotating shaft B (303), the belt pulley B (305) is transmission-connected with the belt pulley A (304) by a transmission belt, and a motor (306) is installed inside one group of the U-shaped frame (301).

6. The heat-dissipation apparatus for the computer host as claimed in claim 5, wherein an output shaft on the motor (306) is fixedly connected with one end of the rotating shaft A (302) by a shaft coupler, and a connecting rod (307) is arranged between the opposite sides of the two groups of the U-shaped frames (301).

7. The heat-dissipation apparatus for the computer host as claimed in claim 1, wherein the heat-dissipation component comprises a moving block (308), a threaded hole (309) is arranged at a central position of the surface of the moving block (308), a limiting block (310) is installed on an outer wall of one side of the moving block (308), and a through hole (311) is arranged at a central position of the surface of the limiting block (310).

8. The heat-dissipation apparatus for the computer host as claimed in claim 7, wherein an installation frame (312) is installed on an outer wall of the other side of the moving block (308), and a heat-dissipation fan (313) is installed above and below the interior of the installation frame (312).