CN208092616U - A kind of computer dustproof heat dissipation cabinet - Google Patents

Abstract

The utility model discloses a computer dust-proof and heat-dissipating case, which comprises a case (1), and is characterized in that: a bottom fan (2) is arranged on a bottom plate inside the case (1), and a condenser is arranged above the bottom fan (2). (3), the side wall of the cabinet (1) is provided with a top fan (5), and the side wall of another cabinet (1) opposite to the top fan (5) is provided with an upper ventilation hole (6), the The bottom of the side wall of the chassis (1) where the upper ventilation hole (6) is located is provided with a lower ventilation hole (7), the outer wall of the chassis (1) is also fixed with a telescopic device, and the telescopic arm of the telescopic device is fixed with a The dustproof plate (8), the telescoping device is connected to the signal of the controller (9), and the controller (9) is fixed on the inner wall of the cabinet (1). The utility model has the advantages of being suitable for high-temperature environments, simple in structure, fast in cooling and cooling, convenient in maintenance, good in dust-proof effect, prolonging the service life of hardware, safe and environment-friendly, and automatically working.

Description

A computer dust-proof and heat-dissipating chassis

technical field

The utility model relates to the field of computer hardware, in particular to a computer dust-proof and heat-dissipating chassis.

Background technique

At present, computers are widely used in almost every field, and the CPU and other components of computers will generate heat during high-speed operation. Terrible heat generation is the fatal killer of computers, especially in certain high-temperature environments. , it often occurs that the temperature is too high and affects the use of the computer. Although there are many excellent radiators that can solve the problem of computer heating to a certain extent, there are problems such as insufficient heat dissipation, complex structure, and inconvenient maintenance, especially at high temperatures. In the environment, the effect of commonly used radiators is greatly reduced in the face of the same high temperature outside. Therefore, there is a need for a cooling system that not only has good heat dissipation function in ordinary environments, but also can be applied in high temperature environments. The existing utility model patent The "computer cooling system" "applied on April 26, 2017 and authorized on December 5, 2017" can solve the above problems well, but it still has defects. Due to the need for heat dissipation, the patent has multiple ventilation holes , the dust in the air is very easy to enter, and it is necessary to clean the inside of the computer frequently, otherwise the excessive accumulation of dust will easily cause damage to the computer hardware, so a technology that can take into account heat dissipation and dust prevention is needed.

Utility model content

The purpose of this utility model is to provide a computer dust-proof and heat-dissipating chassis suitable for high-temperature environments, simple in structure, fast in heat dissipation and cooling, convenient in maintenance, good in dust-proof effect, prolonging the service life of hardware, safe and environmentally friendly, and automatically working, so as to solve the problem of the prior art. lack of.

In order to solve the above technical problems, the utility model adopts the following technical solutions:

A computer dust-proof and heat-dissipating case, which includes a case 1, characterized in that: the bottom fan 2 is arranged on the bottom plate inside the case 1, and the bottom fan 2 blows upward to make the air flow through various components in the case 1 to take away heat. 2. There is a condenser 3 above, which is turned on when it is necessary to strengthen the heat dissipation to improve the heat dissipation effect. A partition 4 is arranged on the inner wall of the chassis 1 above the condenser 3. The partition divides the space inside the chassis 1 into an air duct. The partition 4 A top fan 5 is arranged on the inner side of the side wall of the upper chassis 1, and a ventilation hole 6 is arranged on the side wall of the other chassis 1 opposite to the top fan 5, and the hot air sent to the top is blown out of the ventilation hole to complete heat dissipation. The bottom of the side wall of the chassis 1 where the upper ventilation hole 6 is located is provided with a lower ventilation hole 7 to facilitate the introduction of air by the bottom fan. The outer wall of the chassis 1 is also fixed with a telescopic device, and the telescopic device is also connected to the computer power supply to obtain energy. , the telescopic arm of the telescopic device is fixed with a dust-proof plate 8, and the telescopic device is connected with a signal of the controller 9, so that the dust-proof plate 8 can be shrunk after the power is turned on by the controller 9, and the dust-proof plate is stretched before the power is turned off. 8. Dustproof and heat dissipation can be taken into account without affecting each other. The controller 9 is fixed on the inner wall of the chassis 1, which is convenient for connecting the power supply and the computer hardware in the chassis 1, so as to obtain energy and receive computer shutdown signals.

As a further improvement of the above technical solutions:

The bottom fan 2 is provided with three or more to enhance heat dissipation efficiency.

The condenser 3 is directly connected to the power supply or connected to the power supply through a control switch. The power supply of the computer is used to simplify the structure. The control switch can control the start and close of the condenser. High Turn off to save energy when you don't need to enhance the cooling effect.

Two or more partition plates 4 are provided, and together with the side walls of the cabinet 1, the interior of the cabinet 1 is divided into at least three air ducts, so as to guide the air sent by the bottom fan 2 to pass through the air ducts and enhance the heat dissipation effect.

The upper ventilation hole 6 and the lower ventilation hole 7 adopt a honeycomb shape or a mesh shape.

There are two telescopic devices, which are respectively arranged below the upper ventilation hole 6 and above the lower ventilation hole 7, so that the structure distribution and space utilization are more efficient and reasonable.

The controller 9 adopts a single-chip microcomputer, and a simple program can be preset to perform simple information analysis and processing and issue simple instructions.

The dust-proof board 8 is made of metal or bamboo charcoal fiber, the metal plate has a faster heat conduction speed and is more conducive to heat dissipation, and the bamboo charcoal fiber board has better sterilization and cleaning performance and is more conducive to dust prevention and dust removal.

Compared with the prior art, the utility model has the advantages of:

The utility model has the advantages of high temperature environment, simple structure, fast heat dissipation and cooling, convenient maintenance, good dustproof effect, prolonging the service life of hardware, safety and environmental protection, and automatic operation. The dust board can take into account the dustproof performance without affecting the heat dissipation effect. It is safe and environmentally friendly, can better protect the hardware, prolong the service life of the computer to a certain extent, and it works automatically without operation, and the maintenance is also very convenient.

Description of drawings

Fig. 1 is the structural representation of the utility model.

In the figure: 1-chassis, 2-bottom fan, 3-condenser, 4-baffle, 5-top fan, 6-upper vent, 7-lower vent, 8-dust plate, 9-controller.

Detailed ways

The utility model will be described in further detail below in conjunction with the accompanying drawings and specific embodiments.

Embodiment 1, the utility model includes a chassis 1, which is characterized in that: the bottom fan 2 is arranged on the bottom plate inside the chassis 1, and the bottom fan 2 blows upward to make the air flow through each component in the chassis 1 to take away heat. A condenser 3 is provided, which is turned on when it is necessary to strengthen the heat dissipation to improve the heat dissipation effect. A partition 4 is arranged on the inner wall of the chassis 1 above the condenser 3, and the partition divides the inner space of the chassis 1 into an air duct. Above the partition 4 A top fan 5 is arranged on one inner side of the side wall of the cabinet 1, and an upper ventilation hole 6 is arranged on the other side wall of the cabinet 1 opposite to the top fan 5, and the hot air sent to the top is blown out of the ventilation hole to complete heat dissipation. The bottom of the side wall of the chassis 1 where the ventilation hole 6 is located is provided with a lower ventilation hole 7, which is convenient for the air to be introduced by the bottom fan. 4. The air duct separated from the side wall of the chassis 1 takes away the heat on the hardware to the top when passing through the air duct, and then is pushed by the top fan 5 to discharge out of the chassis 1 through the upper ventilation hole 6, and the entire interior of the chassis 1 can form A smooth air circulation to complete the heat exchange between the inside of the chassis 1 and the outside of the chassis 1. The bottom fan 2 is provided with three to enhance heat dissipation efficiency. The condenser 3 is connected to the power supply through a control switch. To simplify the structure of the power supply, the control switch can control the startup and shutdown of the condenser. It is turned on when the high temperature needs to enhance the heat dissipation effect, and is turned off when the temperature is not high and does not need to enhance the heat dissipation effect to save energy. The separator 4 is provided with two pieces , together with the side wall of the chassis 1, the interior of the chassis 1 is divided into three air ducts, so as to guide the air sent by the bottom fan 2 to pass through the air ducts and strengthen the heat dissipation effect. The upper ventilation holes 6 and the lower ventilation holes 7 are honeycomb-shaped , the outer wall of the chassis 1 is also fixed with a telescopic device, and the telescopic device is also connected with the computer power supply to obtain energy, and the telescopic arm of the telescopic device is fixed with a dustproof plate 8, and the telescopic device and the controller 9 signal connections, so that the dust-proof plate 8 can be shrunk after starting up through the controller 9, and the dust-proof plate 8 can be stretched before shutting down, so that the dust-proof and heat dissipation can be taken into account without affecting each other. The controller 9 is fixed on the chassis 1 On the inner wall, it is convenient to connect the power supply and the computer hardware in the chassis 1, so as to obtain energy and receive the computer shutdown signal. When in use, after the computer is turned on, the controller 9 is also connected to the power supply handle to receive the startup information from the computer hardware, and then the controller 9 controls the expansion and contraction The device shrinks so that the dustproof plate 8 is moved away to let out the ventilation hole, and then the heat dissipation work can be carried out normally. Covers the ventilation holes for dust protection. See Figure 1.

Embodiment 2, the utility model includes a chassis 1, which is characterized in that: the bottom fan 2 is arranged on the bottom plate inside the chassis 1, and the bottom fan 2 blows upward to make the air flow through each component in the chassis 1, taking away heat, and the top of the bottom fan 2 A condenser 3 is provided, which is turned on when it is necessary to strengthen the heat dissipation to improve the heat dissipation effect. A partition 4 is arranged on the inner wall of the chassis 1 above the condenser 3, and the partition divides the inner space of the chassis 1 into an air duct. Above the partition 4 A top fan 5 is arranged on one inner side of the side wall of the cabinet 1, and an upper ventilation hole 6 is arranged on the other side wall of the cabinet 1 opposite to the top fan 5, and the hot air sent to the top is blown out of the ventilation hole to complete heat dissipation. The bottom of the side wall of the chassis 1 where the ventilation hole 6 is located is provided with a lower ventilation hole 7, which is convenient for the air to be introduced by the bottom fan. 4. The air duct separated from the side wall of the chassis 1 takes away the heat on the hardware to the top when passing through the air duct, and then is pushed by the top fan 5 to discharge out of the chassis 1 through the upper ventilation hole 6, and the entire interior of the chassis 1 can form A smooth air circulation to complete the heat exchange between the inside of the chassis 1 and the outside of the chassis 1. The bottom fan 2 is provided with three to enhance heat dissipation efficiency. The condenser 3 is connected to the power supply through a control switch. To simplify the structure of the power supply, the control switch can control the startup and shutdown of the condenser. It is turned on when the high temperature needs to enhance the heat dissipation effect, and is turned off when the temperature is not high and does not need to enhance the heat dissipation effect to save energy. The separator 4 is provided with two pieces , together with the side wall of the chassis 1, the interior of the chassis 1 is divided into three air ducts, so as to guide the air sent by the bottom fan 2 to pass through the air ducts and strengthen the heat dissipation effect. The upper ventilation holes 6 and the lower ventilation holes 7 are honeycomb-shaped , the outer wall of the chassis 1 is also fixed with a telescopic device, and the telescopic device is also connected with the computer power supply to obtain energy, and the telescopic arm of the telescopic device is fixed with a dustproof plate 8, and the telescopic device and the controller 9 signal connections, so that the dust-proof plate 8 can be shrunk after starting up through the controller 9, and the dust-proof plate 8 can be stretched before shutting down, so that the dust-proof and heat dissipation can be taken into account without affecting each other. The controller 9 is fixed on the chassis 1 On the inner wall, it is convenient to connect the power supply and the computer hardware in the chassis 1, so as to obtain energy and receive the computer shutdown signal. When in use, after the computer is turned on, the controller 9 is also connected to the power supply handle to receive the startup information from the computer hardware, and then the controller 9 controls the expansion and contraction The device shrinks so that the dustproof plate 8 is moved away to let out the ventilation hole, and then the heat dissipation work can be carried out normally. Cover the ventilation hole to realize the dustproof function. The bottom fan 2 is provided with three to enhance heat dissipation efficiency. The condenser 3 is connected to the power supply through a control switch, which can control the start and stop of the condenser. It is turned on when the heat dissipation effect needs to be enhanced at high temperature, and is turned off when the temperature is not high and does not need to enhance the heat dissipation effect to save energy. The dust-proof plate 8 is made of metal, and the metal plate has a faster heat conduction speed and is more conducive to Heat dissipation. See Figure 1.

Embodiment 3, the utility model includes a chassis 1, which is characterized in that: the bottom fan 2 is arranged on the bottom plate inside the chassis 1, and the bottom fan 2 blows upward to make the air flow through the various components in the chassis 1 to take away heat. A condenser 3 is provided, which is turned on when it is necessary to strengthen the heat dissipation to improve the heat dissipation effect. A partition 4 is arranged on the inner wall of the chassis 1 above the condenser 3, and the partition divides the inner space of the chassis 1 into an air duct. Above the partition 4 A top fan 5 is arranged on one inner side of the side wall of the cabinet 1, and an upper ventilation hole 6 is arranged on the other side wall of the cabinet 1 opposite to the top fan 5, and the hot air sent to the top is blown out of the ventilation hole to complete heat dissipation. The bottom of the side wall of the chassis 1 where the ventilation hole 6 is located is provided with a lower ventilation hole 7, which is convenient for the air to be introduced by the bottom fan. 4. The air duct separated from the side wall of the chassis 1 takes away the heat on the hardware to the top when passing through the air duct, and then is pushed by the top fan 5 to discharge out of the chassis 1 through the upper ventilation hole 6, and the entire interior of the chassis 1 can form A smooth air circulation to complete the heat exchange between the inside of the chassis 1 and the outside of the chassis 1. The bottom fan 2 is provided with three to enhance heat dissipation efficiency. The condenser 3 is connected to the power supply through a control switch. To simplify the structure of the power supply, the control switch can control the startup and shutdown of the condenser. It is turned on when the high temperature needs to enhance the heat dissipation effect, and is turned off when the temperature is not high and does not need to enhance the heat dissipation effect to save energy. The separator 4 is provided with two pieces , together with the side wall of the chassis 1, the interior of the chassis 1 is divided into three air ducts, so as to guide the air sent by the bottom fan 2 to pass through the air ducts and strengthen the heat dissipation effect. The upper ventilation holes 6 and the lower ventilation holes 7 are honeycomb-shaped , the outer wall of the chassis 1 is also fixed with a telescopic device, and the telescopic device is also connected with the computer power supply to obtain energy, and the telescopic arm of the telescopic device is fixed with a dustproof plate 8, and the telescopic device and the controller 9 signal connections, so that the dust-proof plate 8 can be shrunk after starting up through the controller 9, and the dust-proof plate 8 can be stretched before shutting down, so that the dust-proof and heat dissipation can be taken into account without affecting each other. The controller 9 is fixed on the chassis 1 On the inner wall, it is convenient to connect the power supply and the computer hardware in the chassis 1, so as to obtain energy and receive the computer shutdown signal. When in use, after the computer is turned on, the controller 9 is also connected to the power supply handle to receive the startup information from the computer hardware, and then the controller 9 controls the expansion and contraction The device shrinks so that the dustproof plate 8 is moved away to let out the ventilation hole, and then the heat dissipation work can be carried out normally. Cover the ventilation hole to realize the dust-proof function. The partition plate 4 is provided with two pieces, and together with the side wall of the chassis 1, the interior of the chassis 1 is divided into at least three air ducts, so as to guide the air sent by the bottom fan 2 to concentrate from the wind. Pass through the passage to enhance the heat dissipation effect. The upper ventilation hole 6 and the lower ventilation hole 7 are honeycomb-shaped, and the telescopic device is provided with two, respectively arranged below the upper ventilation hole 6 and above the lower ventilation hole 7, so that Minute The use of cloth and space is more efficient and reasonable. The dust-proof board 8 is made of bamboo charcoal fiber, and the bamboo charcoal fiber board has better sterilization and cleaning performance and is more conducive to dust prevention and dust removal. See Figure 1.

The above are only preferred embodiments of the utility model, and do not limit the utility model in any form. Although the present invention has been disclosed above with preferred embodiments, it is not intended to limit the present invention. Any person familiar with the art, without departing from the scope of the technical solution of the present utility model, can use the technical content disclosed above to make many possible changes and modifications to the technical solution of the utility model, or modify it into an equivalent change, etc. effective example. Therefore, any simple modifications, equivalent changes and modifications made to the above embodiments according to the technical essence of the present invention shall fall within the protection scope of the technical proposal of the present invention.

Claims (8)

1. a kind of computer dustproof heat dissipation cabinet, it includes cabinet (1), it is characterised in that：Bottom fan (2) is arranged in cabinet (1) on internal bottom plate, condenser (3) is provided with above bottom fan (2), above condenser (3) on cabinet (1) interior side box wall It is provided with partition board (4), one inside of cabinet (1) side wall is provided with top fan (5) above the partition board (4), with the top wind Ventilation hole (6), cabinet (1) side wall where the upper ventilation hole (6) are provided on opposite another cabinet (1) side wall of fan (5) Bottom be provided with lower ventilation hole (7), be fixedly provided with telescopic device on cabinet (1) outer wall, the telescopic device it is flexible Dust excluding plate (8) is installed on arm, the telescopic device is connect with controller (9) signal, and the controller (9) is installed in cabinet (1) on inner wall.

2. a kind of computer dustproof heat dissipation cabinet according to claim 1, it is characterised in that：The bottom fan (2) Setting three or three or more.

3. a kind of computer dustproof heat dissipation cabinet according to claim 1, it is characterised in that：The condenser (3) is straight It connects and is connected with power supply or is connected with power supply by controlling switch.

4. a kind of computer dustproof heat dissipation cabinet according to claim 1, it is characterised in that：Partition board (4) setting It is more than two panels or two panels.

5. a kind of computer dustproof heat dissipation cabinet according to claim 1, it is characterised in that：The upper ventilation hole (6) and Lower ventilation hole (7) is using cellular or netted.

6. a kind of computer dustproof heat dissipation cabinet according to claim 1, it is characterised in that：The telescopic device is provided with Two, it is separately positioned on the top of the lower section and lower ventilation hole (7) of ventilation hole (6).

7. a kind of computer dustproof heat dissipation cabinet according to claim 1, it is characterised in that：The controller (9) uses Microcontroller.

8. a kind of computer dustproof heat dissipation cabinet according to claim 1, it is characterised in that：The dust excluding plate (8) uses Metal or bamboo charcoal fiber make.