KR102425023B1 - Ventilation system for data processing room - Google Patents

Abstract

The present invention relates to a ventilation system for a data processing room. The ventilation system for a data processing room, according to the present invention, comprises: an air purifier (10); a heat exchanger (20); an air flow path (30); an air supply fan (40); and a controller (50). According to the present invention, each data processing device and a data processing room are always maintained at the uniform temperature, such that each data processing device can maintain stable drivability.

Description

Computer room ventilation system {Ventilation system for data processing room}

The present invention relates to a computer room ventilation system, and more particularly, by allowing fresh air of a constant temperature to flow in from the floor of the computer room to keep the computer room emitting high temperature heat always clean, so that the devices in the computer room can be safely maintained It is related to the ventilation system of the computer room that does.

In general, an air conditioner is an equipment used to provide a comfortable environment for people to live or a smooth environment for the preservation or operation of equipment by allowing the indoor temperature to maintain a preset temperature. It is widely used in various places such as the field.

The air conditioner is composed of a ceiling air conditioner, and the ceiling air conditioner maintains the indoor temperature at a certain level by supplying cool or warm air through the ceiling of the indoor space.

In the case of the ceiling air conditioning system, in order for the cool air from the ceiling to come down to a height of 18 m or less, where people are mainly active, the hot air from the upper part of the indoor space must first be cooled and then come down. Since the air blowing unit and the duct must be installed on the ceiling, installation and maintenance are not easy, and since sufficient free space is required at the top of the ceiling, the space utilization of the building is lowered.

The energy-saving floor air conditioning system of Registered Patent No. 1542430 (2015.07.31.) is an outdoor air conditioner that supplies fresh outdoor air to the lower part of the access floor, a zone air conditioner that cools and cools indoor ventilation and supplies it to the lower part of the access floor, and blows according to the indoor temperature. A configuration as a floor blowout device that can save energy by automatically adjusting the air volume while proportionally controlling the fan and damper has been proposed.

That is, the cooling or heated air from the outdoor air conditioner and the zone air conditioner is supplied to the lower part of the access floor so that the air conditioning effect is amplified. .

However, in the air conditioning system in the prior art, a specific space such as a computer room in which only computer devices are arranged at regular intervals by simply supplying warm and cold air through the lower part of the access floor of the ceiling or floor so that temperature control and ventilation can be made Air-conditioning facilities are required for safe operation of devices.

(Document 1) Registered Patent No. 1542430 (2015.07.31.)

Accordingly, the present invention was created in consideration of the above necessity, and the present invention provides a space between each computer device installed in a data processing room and the purified cold air supplied to each computer device individually for each computer device. An object of the present invention is to provide a ventilation system for the computer room that allows stable operation by always maintaining a uniform operating temperature of each computer device by controlling the supply.

The computer room ventilation system according to the present invention for achieving the above object, is installed outside the computer room (1), while forcibly sucking the outside air, the sucked outside air to be purified while passing through a plurality of filters (10); The heat exchange pipe 22, which is made of a material with good heat transfer ability and is formed in a coil shape and provided so that the cold air formed by the cooler passes through the inside, is an air supply pipe through which the purified air flowing in from the air purifier 10 passes ( a heat exchanger 20 to be provided in the interior of the air supply pipe 21 so that the purified air passing through the air supply pipe 21 is formed as an optimum temperature in the computer room 1; One end is connected to the rear of the air supply pipe 21 of the heat exchanger 20 , and is formed in a constant arrangement at the bottom of the computer room 1 , and the other end is in front of the air supply pipe 21 of the heat exchanger 20 . an air flow path 30 to be connected to; A plurality of formed between the computer devices 2 together with the inside of the computer devices 2 arranged and installed at regular intervals in the computer room 1 while communicating with the air flow path 30 at the bottom of the computer room 1 The upper part of the air outlet 41 is covered by the fine mesh 42 , and the purified air flowing through the air flow path 30 is located at the lower part of each air outlet 41 inside the computing devices 2 . Air supply fan 40 to be forced to be sent between the computing devices (2) together with; The air purifier 1 and the air purifier 1 and It is characterized in that it consists of a controller 50 for intermittent and control the driving of the air supply fan (40).

The air flow path 30 is provided with circulation fans 31 at regular intervals so that the purified air supplied from the air supply pipe 21 can flow at a constant speed.

The controller 50 drives each air supply fan 40 as much as possible for a certain period of time with a certain period of time to perform a cleaning time to remove dust adsorbed on the computerized devices 2 together with the computer room 1 .

By allowing the operating temperature of each computer device installed in the computer room to be individually cooled and controlled for each computer room by the computer room ventilation system according to the present invention having the configuration as described above, each computer device and the computer room where the equipment is installed are always uniform. By maintaining the temperature state, each computing device can maintain stable drivability.

1 is a schematic plan structure diagram illustrating a computer room ventilation system according to the present invention;
2 is a control block diagram of a computer room ventilation system according to the present invention;
3 is a structural diagram illustrating a heat exchanger of a computer room ventilation system according to the present invention;
4 is a side cross-sectional structural view illustrating the formation structure of an air flow path in the heat exchanger of the computer room ventilation system according to the present invention;
5 is an enlarged cross-sectional view illustrating the main part of the structure of the intake fan in the heat exchanger of the computer room ventilation system according to the present invention;

Hereinafter, with reference to the accompanying drawings, the embodiments of the present invention will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily implement them.

The scope of the present invention should not be construed as being limited by the embodiments described herein.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In the description of the embodiment, the same reference numerals are assigned to the same components, and in some cases, the descriptions of the same reference numerals will be omitted.

1 is a schematic plan structural diagram illustrating a computer room ventilation system according to the present invention, Figure 2 is a control block diagram of the computer room ventilation system according to the present invention.

As illustrated, the present invention is configured as an air purifier 10 , a heat exchanger 20 , an air flow path 30 , an air supply fan 40 , and a controller 50 .

The present invention is a configuration to be installed in a computer room (1) in which the computing devices (2) are installed in a public building, and the double air purifier (10) is installed outside the computer room (1) to forcibly suck the outside air while inhaled outdoor air to pass through a plurality of filters to be purified.

That is, the air purifier 10 is provided to be connected to the computer room 1 from the outside of the computer room 1, may be installed outside the building, or may be installed only outside the computer room 1 inside the building. .

At this time, a plurality of filters are installed in the air purifier 10, and the filter is a pre-filter that filters out foreign substances with large particles that can be seen with the naked eye, such as dust, and fine foreign substances such as fine dust that are not visible to the naked eye. It is made as a dust collecting filter to be filtered, and these pre-filters and dust collecting filters may be made in plural, respectively, and these air purifiers 10 may be formed in plural in the computer room.

A fan for external air intake is installed at the rear of the air purifier 10 so that more than a certain amount of purified air can be always sucked in.

The air purified through the air purifier 10 is heat-exchanged to a predetermined temperature by heat exchange in the heat exchanger 20 , while the humidity is controlled.

The heat exchanger 20 performs heat exchange while the cold air sent from the air conditioner passes through the passage through which the purified air passes.

That is, as shown in FIG. 3 , the heat exchanger 20 includes an air supply pipe 21 flowing through the air purifier 10 and a heat exchange pipe 22 made of a material having excellent heat transfer ability inside the air supply pipe 21 . It is configured to be provided in this coil form.

At this time, the heat exchange tube 22 allows cold air cooled by a separate cooler to pass through, and in particular, the heat exchange tube 22 formed inside the air supply pipe 21 is made of a material having excellent heat transfer ability. The purified air passes through the hot or cold air formed by the heat exchange tube 22 to form the optimum temperature required in the computer room.

In particular, in the air supply pipe 21 of the heat exchanger 20, temperature sensors are installed in front and rear of the heat exchange pipe 22, respectively, to check the temperature before and after heat exchange, so that the driving of the cooler may be intermittent, and the temperature Control may be made.

On the other hand, when the temperature of the purified air checked at the front of the air supply pipe 21 is within the temperature range required for the computer room, the operation of the cooler may be stopped to supply the outside air temperature as it is.

As such, the heat exchanged and the air passing through the air supply pipe 21 at a constant temperature is circulated along the air flow path 30 provided under the bottom surface of the computer room 1 .

That is, the air flow path 30 has one end connected to the air supply pipe 21 that has passed through the heat exchange pipe 22 of the heat exchanger 20 so as to be uniformly arranged at the bottom of the computer room 1 bottom, and the other end is air It is to be connected to the front of the air supply pipe 21 connected to the purifier (10).

Therefore, while the air supplied through the air supply pipe 21 circulates through the air flow path 30 , some of the air is supplied to the computer device 2 and the computer room 1 , and the excess air is again supplied to the air supply pipe 21 . and heat exchange again so that it is re-supplied.

The air flow path 30 is provided with a circulation fan 31 at regular intervals so that the purified air supplied from the air supply pipe 21 flows at a constant speed.

The purified air flowing along the air flow path 30 is discharged through the air outlet 41 formed at the bottom of the computer room 1 as shown in FIG. 5, and the air outlet 41 at this time has a fine upper portion. to be covered by the mesh 42,

However, each air outlet 41 is to be formed in plurality in the lower portion of each computer device installed in the computer room (1) and in the computer room (1) between each computer device.

Each air outlet 41 is provided with an air supply fan 40 in the air flow path 30 thereunder, respectively.

That is, the air flowing through the air flow path 30 is controlled to be discharged through each air outlet 41 depending on whether or not the air supply fan 40 is driven, and each air supply fan 40 has a driving force to be controlled independently. Thus, the amount of air supplied through each air outlet 41 is adjusted.

The air flow path 30 allows the air to flow in one direction so that the air supply fan 40 can pass sequentially to sequentially cool the computer room 1 and the computer equipment 2, but each air The flow paths 30 may be interconnected like a spider's web so that air can be supplied as a whole at the same time.

However, the air supply fan 40 regulates the flow of air flowing through the air flow path 30 to the air outlet 41 , but allows the flow amount to be adjusted by controlling the driving speed.

On the other hand, the internal temperature of the computer room 1 and the computer device 2 and the temperature in the front and rear of the air supply pipe 21 of the heat exchanger 20 are checked, and the air purifier 10 and the air supply fan 40 are checked by the controller 50. ) to be controlled.

In other words, the controller 50 checks the internal temperature of the computer room 1 and the computer devices 2 installed in the computer room 1, respectively, and compares the temperature with the preset temperature for the intake fan of the air purifier 10. The driving of the supercharger fan 40 is intermittent and controlled.

That is, the controller 50 stores the appropriate temperature inside the computer room 1 and each computer device 2, and the computer room 1 while checking the temperature in the computer room 1 and each computer device 2 in real time. And the cooling air supply to each computer device (2) can be made independently.

On the other hand, by the controller 50, each air supply fan 40 is driven to the maximum for a certain period of time in a certain period of time, thereby removing the dust adsorbed to the computer room 1 and each computer device 2 together with the cleaning time. It is best to be able to do it.

The operation and effect of the computer room ventilation system of the present invention according to the configuration as described above will be described in more detail as follows.

The present invention is for the safe operation of each computing device (2) by preventing overheating of each computing device (2) in the computer room (1) in which many computing devices (2) are installed indoors.

To this end, the controller 50 stores the appropriate temperature of each computer device 2 installed inside the computer room 1 together with the computer room 1, and then the internal temperature of the computer room 1 and each computer device 2 is stored. It checks in real time to check the cooling for each computer device (2).

That is, since a difference is generated in the driving amount of each of the computing devices 2 in the computer room 1, a difference is generated in the driving heat generated according to the driving amount, and the checked temperature is inevitably checked differently.

By comparison with the set value stored in the controller 50 of the temperature among the computer room 1 and the computer equipment 2 checked in this way, the supply air provided in the lower part of the bottom surface of the computer room 1 on the lower side of the computer equipment 2 The driving of the fan 40 is intermittent and the driving speed can be controlled.

However, it is possible to control the temperature of the cold air passing through the heat exchange tube 22 by checking the temperature of the purified air before and after being sucked through the air purifier 10 and undergoing heat exchange while passing through the thermal cycler 20 .

The lower the temperature of the cold air passing through the heat exchange tube 22, the faster the temperature of the purified air flowing in through the air purifier 10 can be lowered. When supplied to the computing device (2), the computing device (2) can be quickly stabilized while maintaining stable drivability.

In this way, the present invention cools each computer device 2 while rapidly cooling and stabilizing the computer device 2 that is driven overheated by cooling the purified air that is guided to the lower part of the bottom surface of the computer room 1 below a certain level. It allows the temperature to be controlled independently by adjusting the driving speed of the air supply fan 40 so that the computing device 2 in the computer room 1 can maintain a uniform driving condition.

As such, the present invention is not limited to the described embodiments, and it is apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the present invention. Accordingly, it should be said that such modifications or variations shall fall within the scope of the claims of the present invention.

1: computer room
2: Computing equipment
10: air purifier
20: thermocycler
21: water supply pipe 22: heat exchange pipe
30: air flow path
31: circulation fan
40: supply air fan
41: air outlet 42: fine mesh
50: controller

Claims (3)

an air purifier (10) installed outside the computer room (1) to forcibly suck the outside air and to purify the sucked outside air while passing through a plurality of filters;
The heat exchange pipe 22, which is made of a material with good heat transfer ability and is formed in a coil shape and provided so that the cold air formed by the cooler passes through the inside, is a supply pipe through which the purified air flowing in from the air purifier 10 passes ( a heat exchanger 20 to be provided in the inside of the air supply pipe 21 so that the purified air passing through the air supply pipe 21 is formed as an optimum temperature in the computer room 1;
One end is connected to the rear of the air supply pipe 21 of the heat exchanger 20 , and is formed in a predetermined arrangement at the bottom of the computer room 1 , and the other end is in front of the air supply pipe 21 of the heat exchanger 20 . an air flow path 30 to be connected and provided with a circulation fan 31 at regular intervals so that the purified air supplied from the air supply pipe 21 can flow at a constant speed;
While communicating with the air flow path 30 at the bottom of the computer room (1), a plurality of formed between the computer devices (2) together with the inside of the computer devices (2) arranged and installed at regular intervals in the computer room (1) The upper part of the air outlet 41 is covered by the fine mesh 42 , and the purified air flowing through the air flow path 30 is located at the lower part of each air outlet 41 inside the computing devices 2 . Air supply fan (40) to be forced to be sent between the computing devices (2) together with;
The air purifier 10 and the air purifier 10 and Intermittent and control the driving of the circulation fan 31 and the air supply fan 40, and by driving each air supply fan 40 as much as possible for a certain period of time with a certain period of time, the computer room (1) and the computerized device (2) A controller 50 to perform a cleaning time to remove the dust adsorbed to the field;
Computer room ventilation system consisting of
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