CN2498641Y - Compressor cooling computer housing - Google Patents

Abstract

The utility model discloses a compressor refrigeration computer case, which comprises a case shell, a power supply of the case, a compressor, a radiator, a capillary tube and an evaporator, the middle cavity of the case shell is a space for installing computer components, the compressor, The radiator, capillary tube and evaporator are installed in the case shell and form a heat absorption and heat dissipation circuit. The utility model has the advantage of keeping the temperature in the computer box space in a lower range by cooling down, so that the computer components work stably and improve their service life. In addition, the utility model has good sealing performance and prevents dust The utility model is suitable for various computer mainframes due to the advantages of corrosion of computer components, low noise and convenient operation.

Description

Compressor cooling computer case

The utility model relates to a computer device, in particular to a compressor cooling computer case which lowers the temperature inside the case through refrigeration.

With the continuous development of computer technology, the heat generated by various components of the computer is getting higher and higher, especially the CPU, graphics card and hard disk. At present, INTEL and AMD's high-frequency CPUs have an input power of more than 70 watts when running at full speed, and the total power of each component in the chassis is about 200 watts or more. The heat dissipation effect of the current air-cooled heat dissipation technology depends on the ambient temperature. In summer, even in a well-conditioned air-conditioned room and under the condition of well-ventilated chassis, the air temperature in the chassis will still reach above 30 degrees Celsius, and the heat dissipation of components is limited by the air temperature in the chassis. The stability and service life of each component in the computer have a great influence. At the same time, air-cooled heat dissipation also has problems such as loud noise and easy dust accumulation.

The purpose of the utility model is to provide a compressor cooling computer case which cools the sealed computer case by circulating air through refrigeration technology, thereby reducing the ambient temperature in the case.

In order to achieve the above object, the compressor refrigeration computer case described in the utility model includes a case shell, a case power supply, a compressor, a radiator, a capillary tube and an evaporator, and the middle cavity of the case shell is a component installation space, which constitutes The compressor, radiator, capillary tube and evaporator of the heat absorption and heat dissipation circuit are installed in the chassis shell, and the cavity of the chassis shell where the power supply of the chassis and the evaporator are installed and the middle cavity of the chassis shell form a closed cold air circuit channel. Exhaust fans are respectively installed at the air outlet and the air inlet of the middle cavity, and the cavity of the chassis shell where the compressor and the radiator are installed forms an open heat dissipation channel with the outside world.

A water separator is arranged on the cold air circuit passage, so as to ensure the dryness of the air in the cabinet.

There is a partition plate in the case shell, the power supply of the case is installed in the bottom shell behind the partition plate, the compressor is installed in the front bottom shell, and the evaporator and water separator are installed on the right side behind the partition plate Inside the housing, the radiator is installed in the front right housing.

A temperature control component is arranged in the cold air circuit passage, so as to control the temperature in the chassis within a required range.

The working principle of the utility model is: the hot air in the chassis space is sucked into the air-conditioning circuit channel by the fan, and the power supply of the chassis inside is cooled down, then cooled by the evaporator, separated from the water by the water separator, and then separated by the fan. Cool air is exhausted into the case to complete the cycle. The outside air passes through the air inlet on the side of the chassis, passes through the dust filter, and cools the compressor, and then is sent to the radiator by the fan to cool the radiator, and then discharged into the outside air. For the internal space of the chassis, the air is circulated internally and does not exchange with the outside world. The outlet temperature of the condenser is adjusted to 5°C to 10°C through the temperature controller. Excellent cooling effect, while effectively cooling down, it also prevents the entry of dust. In addition, since there is no large amount of air exchange with the outside world, airflow noise can also be reduced.

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

1. Through cooling and cooling, the temperature in the computer case space is kept in a low range, so that the computer components work stably and improve their service life; 2. The middle space of the computer case is isolated from the outside world, thereby preventing the intrusion of external dust , to protect the computer components in the chassis from infringement; 3, low noise; 4, simple structure, easy to use, suitable for various computer hosts.

Below in conjunction with accompanying drawing and embodiment, the utility model is described in further detail:

Fig. 1 is a schematic diagram of the utility model left view structure.

Fig. 2 is a schematic view of the structure of the utility model as viewed from the right.

FIG. 3 and FIG. 4 are schematic diagrams of front and rear cross-sectional structures of FIG. 1 , respectively.

Embodiment: The compressor refrigeration computer chassis that the utility model makes comprises chassis shell 1, chassis power supply 2, compressor 3, radiator 4, capillary tube 5, evaporator 6 and water separator 10. The chassis shell 1 is rectangular, and its bottom, back and top are all box-shaped shells. The partition plate 11 separates the box-shaped shell into front and rear halves. The chassis power supply 2, compressor 3, radiator 4, capillary tube 5 and evaporator 6 are installed in the box cavity, wherein the chassis power supply 2 is located behind the bottom partition 11 and below the fan 9, the evaporator 6 and the water separator 10 are located behind the right partition 11, and the fan 8 is located The top cooling air outlet. The compressor 3 is positioned at the front of the bottom partition 11 , the radiator 4 is positioned at the front of the right partition 11 , the radiator 4 can be directly exposed to the air, and the computer components are installed in the middle cavity 7 of the chassis shell 1 . At the top of the chassis shell 1 at the inlet of the cold air, a temperature control component is provided.

Claims (4)

1, a kind of compressor cooling computer housing that reduces the computer housing internal temperature by refrigeration, it is characterized in that it also comprises cabinet housing (1), chassis power supply (2), compressor (3), heating radiator (4), kapillary (5) and evaporator (6), the middle chamber (7) of cabinet housing (1) is computer components and parts installing spaces, constitute the compressor (3) in heat radiator loop, heating radiator (4), kapillary (5) and evaporator (6) are installed in the housing of cabinet housing (1), the cavity of the cabinet housing (1) of installation chassis power supply (2) and evaporator (6) and the middle chamber (7) of cabinet housing (1) form the cold air return passage of sealing, air intake opening and place, gas outlet at middle chamber (7) are equipped with fan (8 respectively, the cavity and the extraneous heat dissipation channel of opening that forms of the cabinet housing (1) of compressor (3) and heating radiator (4) 9), are installed.

2, compressor cooling computer housing according to claim 1 is characterized in that being provided with separator (10) on described cold air return passage.

3, compressor cooling computer housing according to claim 1 and 2, it is characterized in that in the housing of described cabinet housing (1), being provided with demarcation strip (11), chassis power supply (2) is installed in the bottom shell of demarcation strip (11) back, compressor (3) is installed in the bottom shell of front, evaporator (6) and separator (6) are installed in the right, back housing of demarcation strip (11), and heating radiator (4) is installed in the housing of the right, front.

4, compressor cooling computer housing according to claim 1 and 2 is characterized in that being provided with the temperature control assembly in described cold air return passage.