RU2487399C1 - Personal computer system unit (two versions) - Google Patents

Abstract

FIELD: information technology.SUBSTANCE: personal computer system unit has a case in form of a parallelepiped with ventilation openings for inlet of external cold air into the case and removing hot air from the case, a central processing unit, a video card and an expansion board, mounted on a motherboard which has rectangular shape and is vertically mounted inside the case, a power supply unit, a hard disk drive, a DVD reading and writing device, air-coolers and fans, wherein the video card and the expansion board, the central processing unit, the power supply unit, the hard disk drive and the DVD reading and writing device are arranged in parallel planes, directed towards the vertical axis of the case, wherein the DVD reading and writing device lies over the motherboard, and the power supply unit and the hard disk drive lie under the motherboard, ventilation openings for removing hot air are made in the top wall of the case, ventilation openings for inlet of external cold air are made in the bottom part of the case below the power supply unit, and the fans are mounted higher than the ventilation openings for inlet of external cold air and are able to feed air from bottom up along the vertical axis of the case.EFFECT: higher efficiency of cooling components of a personal computer system unit.2 cl, 2 dwg

Description

The invention relates to the field of computer technology and can be used in the manufacture of system units of personal computers.

A known personal computer system unit comprising a box in the form of a parallelepiped with ventilation holes for collecting external cold air inside the case and removing heated air from the case, vertically mounted inside the motherboard case with a central processor, video card and expansion cards mounted on it, power supply, drives on hard drives, a DVD device, air radiators and fans (see the description of US patent No. 20090038783 A1 dated February 12, 2009).

In the known device, a video card, a DVD device and a power supply unit are located horizontally inside the case and almost completely block upward air flows, making it difficult to cool the central processor, video card, and expansion cards located on the motherboard. The air flow entering to cool the video card from the back wall of the system unit changes its direction during movement, which leads to its slowdown and decrease in the cooling efficiency of the video card. The direction of the air flow entering for cooling the video card does not coincide with the direction of the air flow created by the fans located on the rear and upper walls. Also, the directions of the air flows created by the fans do not coincide, and the presence of differently directed air flows in the system unit leads to a decrease in their speed, the formation of swirl and stagnation zones and the use of part of previously heated air to cool the components of the system unit.

As a result, the cooling of the components of the system unit deteriorates, which is its drawback.

The technical task of the proposed device is to increase the cooling efficiency of the components of the system unit of a personal computer by creating a directed flow of cold air to the heat-sensitive components of the system unit.

The technical problem is solved in that the system unit of a personal computer (option 1) contains a box in the form of a parallelepiped with ventilation openings for drawing external cold air into the case and removing heated air from the case, a central processor, a video card, and expansion cards mounted on a motherboard made in the form of a rectangle and mounted vertically inside the case, power supply, hard disk drives, DVD reader and recorder, air radiators and fans, at Ohm, the video card and expansion cards, the central processor, the power supply unit, hard disk drives, the device for reading and writing DVDs are located in parallel planes oriented in the direction of the vertical axis of the case, with the DVD device located above the motherboard, and the power supply and drive on hard drives - under the motherboard, ventilation holes for removing heated air are made in the upper wall of the case, ventilation holes for intake of external cold air - in the lower part of the case, others like the power supply and fans are installed above the air vents for intake of cold external air and to supply air from the bottom upwards along the vertical axis of the housing.

The technical problem is solved in that the system unit of a personal computer (option 2) contains a box in the form of a parallelepiped with ventilation openings for drawing external cold air into the case and removing heated air from the case, a central processor, a video card, and expansion cards mounted on a motherboard made in the form of a rectangle and mounted vertically inside the case, power supply, hard disk drives, DVD reader and recorder, air radiators and fans, at om the video card and expansion cards, the DVD writer and the recorder, the power supply and the hard drive are located in parallel planes oriented in the direction of the vertical axis of the case, the DVD device is located above the motherboard, the power supply is located at the level of the DVD device next to the motherboard the board, and the hard drive is under the power supply, moreover, the ventilation holes for removing heated air are made in the upper face of the case, the ventilation holes for collecting external cold air are made in the lower part of the case, below the power supply, and the fans are installed above the ventilation openings for intake of external cold air and with the possibility of air supply from the bottom up along the vertical axis of the case.

The location of the components of the system unit in parallel planes with an orientation in the direction of the vertical axis of the housing allows you to:

- increase the ventilation of the system unit due to the coincidence of the directed movement of forced cooling air created by the fans with the direction of movement of the air that occurs during heating (convection);

- increase the efficiency of heat dissipation due to the directed air flow inside the system unit of a personal computer, namely only from the bottom up;

- reduce the heating temperature of the components of the system unit inside the case;

- reduce noise and vibration levels by reducing the number and power of fans of cooling devices of thermally loaded components;

- reduce the zone of swirling and stagnation of the air and the use for cooling the components of the system unit part of previously heated air.

Due to the fact that the components of the system unit of a personal computer are not aerodynamically streamlined objects, since most of them have a rectangular shape, turbulences in the proposed device occur only when the components flow around, namely when the flow is cut off from the component faces. For analogues, vortices are created by the air flows themselves, and in this case, the loss of flow velocity is significantly higher.

Figure 1 shows a diagram of an outdoor system unit of a personal computer; figure 2 is a diagram of a desktop system unit of a personal computer.

The personal computer system unit (option 1) comprises a housing 1 made in the form of a vertically oriented parallelepiped with a cross section, for example, in the form of a rectangle or square.

The motherboard 2, made in the form of a rectangle, is installed vertically inside the housing 1. On the motherboard 2 there is a video card 3, expansion cards 4 and a central processor 5 located parallel to each other, in parallel planes oriented in the direction of the vertical axis of the housing 1.

The connectors of the video card 3 and the expansion board 4 are oriented vertically on the motherboard 2. Motherboard 2, video card 3, central processor 5 and power supply 6 are equipped with air radiators 7, 8 and 9, respectively (air cooler of motherboard 2 is not shown conventionally in the diagram).

The DVD device 10 is located above the motherboard 2, and the power supply unit 6 and the hard disk drive 11 are located under the motherboard 2.

The ventilation holes 12 for removing heated air are made in the upper wall of the housing 1, and the ventilation holes 13 for intake of external cold air in the lower part of the housing 1, below the power supply unit 6. The ventilation holes 13 for the intake of external cold air can be made both in the lower wall of the housing 1, and in the lower part of the side walls of the housing 1.

This arrangement of ventilation holes and components of the system unit of a personal computer eliminates the formation of zones of stagnation of air inside the housing 1 and allows air flow in the direction only from the bottom up along the vertical axis of the housing 1.

Fans 14 are installed above the ventilation openings 13 for intake of external cold air and with the possibility of supplying air from the bottom up along the vertical axis of the housing 1 and along the edges of the air radiators.

In the system unit of a personal computer (option 2), the power supply unit 6 can be located at the level of the DVD device 10 next to the motherboard 2, and the hard drive 11 under the power supply unit 6. Such an arrangement of the components of the system unit of a personal computer will allow changing the dimensions of the housing 1 in height, for example, high but short for the floor-mounted version, and low but long for the desktop version.

In the system unit of a personal computer, fans 14 can also be installed directly on air radiators 7, 8 and 9, but with the possibility of air supply from the bottom up along the vertical axis of the housing 1, which will reduce noise and vibration levels and reduce the power of fans of thermally loaded components.

The system unit of a personal computer operates as follows.

The flow of external cold air entering through the ventilation holes 13 in the lower part of the housing 1 is accelerated by the fans 14 and supplied to the air radiators 7, 8, 9, respectively, of the central processor 5, video card 3, power supply 6 and motherboard 2, as well as expansion cards 4, a hard disk drive 11, a DVD device 10 (the heat sink of the motherboard is not shown conventionally in the drawing). The directed air flow cools the components of the system unit, heats up and exits through the ventilation holes 12 in the upper wall of the housing 1. Moreover, when heated, the air expands and creates additional traction, helping fans 14.

Claims (2)

1. The system unit of a personal computer, comprising a case in the form of a vertically oriented parallelepiped with ventilation holes for drawing external cold air into the case and removing heated air from the case, a central processor, a video card, and expansion cards mounted on a motherboard made in the form of a rectangle and installed inside the case vertically, power supply, hard disk drives, a device for reading and writing DVDs, air radiators and fans, characterized in then the video card and expansion cards, the central processor, the power supply unit, hard disk drives, the device for reading and writing DVDs are located in parallel planes oriented in the direction of the vertical axis of the case, with the DVD device located above the motherboard, and the power supply and drive on hard drives - under the motherboard, ventilation holes for removing heated air are made in the upper wall of the case, ventilation holes for intake of external cold air - in the lower part of the case, below the power supply, and the fans are installed above the ventilation openings for the intake of external cold air and with the possibility of air supply from the bottom up along the vertical axis of the housing. 2. The system unit of a personal computer, comprising a case in the form of a vertically oriented parallelepiped with ventilation holes for drawing external cold air into the case and removing heated air from the case, a central processor, a video card, and expansion cards mounted on a motherboard made in the form of a rectangle and installed inside the case vertically, power supply, hard disk drives, a device for reading and writing DVDs, air radiators and fans, characterized in then the video card and expansion cards, DVD reader and recorder, power supply and hard disk drive are located in parallel planes oriented in the direction of the vertical axis of the case, the DVD device is located above the motherboard, the power supply is located at the level of the DVD device, next to the motherboard, and the hard drive is under the power supply, moreover, the ventilation holes for removing heated air are made in the upper wall of the case, the ventilation holes for taking an external cold of air are made in the bottom of the housing below the power supply and fans are installed above the air vents for intake of cold external air and to supply air from the bottom upwards along the vertical axis of the housing.

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