WO2017016213A1 - Air volume control system and control method - Google Patents

Abstract

An air volume control system and control method. The air volume control system comprises: air speed sensors (4) distributed in different area ranges of an equipment room, each area range being correspondingly provided with a floor grid (2) that is located below an equipment cabinet and used for air current circulation inside the equipment room; an electric air-valve (3) disposed in each area range for adjusting the air volume; an electric device (5), respectively connected to the air speed sensors (4) and the electric air-valves (3), the electric device (5) receiving an air speed signal transmitted by each air speed sensor (4), and outputting an adjustment instruction to the electric air-valve (3) according to the air speed signal of the air speed sensor (4) in each area range, so that the electric air-valve (3) adjusts the air volume according to the adjustment instruction, and the air volume in each area range keeps the same. Also provided are a control method of the air volume control system and a nonvolatile computer readable storage medium for executing the control method. The present invention can control the air speed and air volume of air-out of floor grids at different positions in a data center passage, so that the air volume at each position keeps the same, thereby improving the whole supplied-air temperature in the equipment room, and achieving an objective of air conditioning energy conservation of the equipment room.

Description

Air volume control system and control method

The present application claims priority to Chinese Patent Application No. 201510446764.8, filed on Jul. 27, 2015, the entire disclosure of which is incorporated herein by reference.

Technical field

The invention relates to the technical field of air volume control systems, in particular to an air volume control system and a control method.

Background technique

In recent years, as electronic integration has become higher, the heat flow density of large cabinets in data center equipment rooms and telecommunications equipment rooms has become higher and higher. The energy consumption of data center rooms has already begun to be valued by countries around the world, and data center investors and users are beginning to realize the importance of data center energy conservation.

Most data centers are now inefficient and energy-intensive. The main reason is the poor airflow organization of the data center. On the one hand, the mixing of hot and cold winds in the data center is quite serious; on the other hand, because the air supply of the floor grille of the raised floor data center is different in different positions, the racks that need to dissipate heat cannot obtain a consistent air volume.

Summary of the invention

The object of the embodiments of the present invention is to provide an air volume control system and a control method, which can control the wind speed and air volume of the air outlets of different floor positions in the data center channel, so that the air volume at each position is uniform, thereby improving the overall operation of the machine room. The supply air temperature achieves the purpose of energy saving in the computer room air conditioner.

In order to achieve the above object, an embodiment of the present invention provides an air volume control system, which is applied to a machine room, and includes:

The wind speed sensor is distributed in different areas of the machine room, and each area is correspondingly provided with a floor grille for airflow in the equipment room, and the floor grille is located below the cabinet in the equipment room;

An electric damper for adjusting an air volume disposed in each area, the electric damper being disposed below the floor grille;

An electronic device respectively connected to the wind speed sensor and the electric damper, the electronic device receiving a wind speed signal transmitted by each of the wind speed sensors, according to a wind speed signal of the wind speed sensor in each region, to the The electric damper outputs an adjustment command, so that the electric damper adjusts the air volume according to the adjustment instruction, and the air volume in each area is consistent.

Wherein, a plurality of the electric dampers are disposed in each area.

Wherein, the plurality of electric dampers are connected to the electronic device one by one, or a plurality of the electric dampers are connected to the electronic device through a connecting line.

The electronic device includes: a memory for storing an air volume threshold signal, and a wind speed signal connected to the memory for receiving the wind speed sensor in each area and the wind speed signal and the air volume threshold The first comparator, which is compared with the first comparator, is connected to the first comparator for transmitting an adjustment command to the electric damper in the range of the corresponding region according to the comparison result.

The electronic device includes: a signal receiver for receiving a wind speed signal transmitted by the wind speed sensor in each area, and the signal receiver is connected to transmit the wind speed sensor according to each area The wind speed signal calculates an average value of the wind speed signal to obtain a calculation chip of a standard wind speed signal, and the first connection with the calculation chip for comparing the standard wind speed signal with the wind speed signal transmitted by the wind speed sensor in each area And a second signal regulator connected to the second comparator for transmitting an adjustment command to the electric damper in a range of the corresponding region according to the comparison result.

Wherein, the electronic device includes a display for displaying a wind speed signal.

Wherein, the wind speed sensor is disposed at a position below the floor grille.

The embodiment of the invention further provides a control method using an air volume control system, the control method comprising:

Receiving wind speed signals of the air volume of the floor grille flowing in the machine room under the cabinet in each area detected by the wind speed sensor distributed in different areas of the machine room;

Receiving, according to the received wind speed signal transmitted by each of the wind speed sensors, an adjustment command to the electric damper for adjusting the air volume disposed in each area, so that the electric damper is in accordance with the adjustment instruction for the region The air volume is adjusted and the air volume in each area remains the same.

The transmitting the adjustment command to the electric damper for adjusting the air volume, which is included in each area, according to the wind speed signal sent by each of the received wind speed sensors, specifically includes:

Comparing the received wind speed signal transmitted by each of the wind speed sensors with a pre-stored air volume threshold signal;

When the wind speed signal transmitted by the wind speed sensor in the corresponding area is less than the air volume threshold signal, an adjustment instruction for increasing the air volume is sent to the electric damper in the corresponding area;

When the wind speed signal transmitted by the wind speed sensor in the corresponding area is greater than the air volume threshold signal, an adjustment command for reducing the air volume is sent to the electric damper in the corresponding area.

The transmitting the adjustment command to the electric damper for adjusting the air volume, which is included in each area, according to the wind speed signal sent by each of the received wind speed sensors, specifically includes:

Determining a standard wind speed signal according to the received wind speed signal transmitted by each of the wind speed sensors;

Comparing the wind speed signal transmitted by each of the wind speed sensors with the standard wind speed signal;

When the wind speed signal transmitted by the wind speed sensor in the corresponding area is smaller than the standard wind speed signal, an adjustment instruction for increasing the air volume is sent to the electric damper in the corresponding area;

When the wind speed signal transmitted by the wind speed sensor in the corresponding area is greater than the standard wind speed signal, an adjustment command for reducing the air volume is sent to the electric damper in the corresponding area.

The determining, according to the received wind speed signal sent by each of the wind speed sensors, a standard wind speed signal, specifically:

Calculating an average value according to the received wind speed signals transmitted by each of the wind speed sensors to obtain a standard wind speed letter number.

The embodiment of the invention further provides an air volume control device, comprising:

processor;

a memory for storing processor executable instructions;

Wherein the processor is configured to:

Receiving wind speed signals of the air volume of the floor grille flowing in the machine room under the cabinet in each area detected by the wind speed sensor distributed in different areas of the machine room;

Receiving, according to the received wind speed signal transmitted by each of the wind speed sensors, an adjustment command to the electric damper for adjusting the air volume disposed in each area, so that the electric damper is in accordance with the adjustment instruction for the region The air volume is adjusted and the air volume in each area remains the same.

Embodiments of the present invention also provide a non-transitory computer readable storage medium having stored therein instructions that, when executed by a processor of an air volume control device, cause the air volume control device to perform any of the foregoing embodiments Air volume control method.

The beneficial effects of the above technical solutions of the embodiments of the present invention are as follows:

By setting a wind speed sensor in different areas of the machine room to detect the air volume of the floor grille in each area, the wind speed signal detected by the wind speed sensor of each area is transmitted to the electronic device, and the electronic device is sent to the electric air valve of each area through the electronic device. The adjustment command causes the electric damper to adjust the air volume according to the adjustment command, so that the air volume of each area is consistent. The solution can control the wind speed and air volume of the floor grille at different positions in the data center channel, so that the air volume at each position is uniform and uniform, and the air flow is smoother and more uniform, which can enable the air conditioner to increase its own air supply temperature and improve the cooling efficiency. The purpose of energy saving in the computer room air conditioner.

DRAWINGS

1 is a schematic structural view 1 of an air volume control system according to an embodiment of the present invention;

2 is a schematic structural view 2 of an air volume control system according to an embodiment of the present invention;

3 is a schematic circuit diagram 1 of an air volume control system according to an embodiment of the present invention;

4 is a second schematic diagram of a circuit of an air volume control system according to an embodiment of the present invention;

5 is a schematic circuit diagram 3 of an air volume control system according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of a control method using an air volume control system according to an embodiment of the present invention.

In the figure: 1, cabinet; 2, floor grille; 3, electric damper; 4, wind speed sensor; 5, electronic equipment; 51, memory; 52, first comparator; 53, first signal regulator; , a signal receiver; 55, a computing chip; 56, a second comparator; 57, a second signal conditioner; 58, a display.

detailed description

The technical problems, the technical solutions, and the advantages of the present invention will be more clearly described in the following description.

An embodiment of the present invention provides an air volume control system, which is applied to a machine room. As shown in FIG. 1 to FIG. 3, the air volume control system includes:

An air velocity sensor 4 is disposed in a different area of the equipment room, and a floor grille 2 for airflow in the equipment room is disposed correspondingly in each area, and the floor grille 2 is located below the cabinet 1 in the equipment room;

An electric damper 3 for adjusting the air volume, which is disposed under each area, and the electric damper 3 is disposed below the floor grill 2;

An electronic device 5 connected to the wind speed sensor 4 and the electric damper 3 respectively, the electronic device 5 receives a wind speed signal transmitted by each of the wind speed sensors 4, according to the wind speed sensor 4 in each region The wind speed signal outputs an adjustment command to the electric damper 3 such that the electric damper 3 adjusts the air volume according to the adjustment command, and the air volume in each region remains consistent.

Specifically, the equipment room is divided into a plurality of areas, and one or more wind speed sensors 4 are disposed in each area, and a floor grille 2 for airflow in the equipment room is disposed under the cabinet 1 in each area, and each An electric damper 3 located below the floor grill 2 for adjusting the air volume is provided in the area. One or more wind speed sensors 4 in each area detect the amount of airflow of the floor grille 2 in the area, obtain a wind speed signal, transmit the wind speed signal to the electronic device 5, and the electronic device 5 receives an area range. After the wind speed signal transmitted by the one or more wind speed sensors 4, the received one or more wind speed signals are analyzed, and the adjustment command is sent to the electric damper 3 in the corresponding area according to the analysis processing result, the electric damper 3 Adjust the air volume within the area according to the obtained adjustment command.

By setting the wind speed sensor 4 in different areas of the machine room to detect the air volume of the floor grille 2 in each area, the wind speed signals detected by the wind speed sensors 4 of the respective area ranges are transmitted to the electronic device 5, and each of the electronic devices 5 is passed through the electronic device 5. The area-wide electric damper 3 sends an adjustment command, so that the electric damper 3 adjusts the air volume according to the adjustment command, so that the air volume in each area range is kept consistent. The scheme can control the wind speed and the air volume of the air outlets of the floor grille 2 at different positions in the data center channel, so that the air volume at each position is uniform and uniform, and the airflow is smoother and more uniform, which can enable the air conditioner to improve its own air supply temperature and improve the cooling efficiency. To achieve the purpose of energy saving in the computer room air conditioner.

In the above embodiment of the invention, a plurality of the electric dampers 3 are provided in each area.

One or more wind speed sensors 4 may be provided in a region of the machine room. When a wind speed sensor 4 is disposed in a region, a plurality of electric dampers 3 may be disposed in a region, and the wind speed sensor 4 detects the air volume of the floor grill 2 in the current region, obtains a wind speed signal, and transmits the wind speed signal to After receiving the wind speed signal, the electronic device 5 analyzes the wind speed signal and, after knowing that the air volume in the area is too large, transmits an adjustment command for reducing the air volume to the plurality of electric dampers 3, and the plurality of electric winds The valve 3 adjusts the amount of air in the area according to the received adjustment command for reducing the amount of air, and rapidly reduces the amount of air in the area. Correspondingly, when it is learned that the air volume in the range is too small, an adjustment command for increasing the air volume is sent to the plurality of electric dampers 3, and the plurality of electric dampers 3 are within the range according to the received adjustment command of the increased air volume. The air volume is adjusted to quickly increase the amount of air in the area.

When a plurality of wind speed sensors 4 are disposed in a range, a plurality of electric dampers 3 may be disposed in a range, The number of wind speed sensors 4 may be the same as or different from the number of electric dampers 3. When the number of the wind speed sensors 4 is the same as the number of the electric dampers 3, the wind speed sensor 4 is disposed in one-to-one correspondence with the electric damper 3, that is, one electric damper 3 corresponds to one wind speed sensor 4. The plurality of wind speed sensors 4 detect the air volume of the floor grille 2 in the current area, obtain a plurality of wind speed signals, and transmit the plurality of wind speed signals to the electronic device 5, and the electronic equipment 5 analyzes and processes the wind speed signals after receiving the wind speed signals. , to determine the size of each wind speed signal. When a wind speed signal is too small, an adjustment command for increasing the air volume is sent to the electric damper 3 corresponding to the wind speed sensor 4 that transmits the wind speed signal; when a wind speed signal is too large, the wind speed sensor 4 corresponding to the wind speed signal is transmitted. The electric damper 3 sends an adjustment command to reduce the air volume.

When the number of the wind speed sensors 4 is different from the number of the electric dampers 3, the plurality of wind speed sensors 4 detect the air volume of the floor grille 2 in the current area range, obtain a plurality of wind speed signals, and transmit the plurality of wind speed signals to the electronic equipment. 5. The electronic device 5 performs comprehensive analysis processing on the received plurality of wind speed signals to determine the air volume condition in the area, and when the air volume in the area is too large, sends an adjustment command for reducing the air volume to the plurality of electric dampers 3, Quickly reduce the amount of air in the area. When the air volume in the area is small, an adjustment command for increasing the air volume is sent to the plurality of electric dampers 3, and the amount of air in the area is rapidly increased.

In the above embodiment of the present invention, a plurality of the electric dampers 3 are disposed in each area, and the plurality of electric dampers 3 are connected to the electronic device 5 one by one, or a plurality of the electric dampers 3 The electronic device 5 is connected through a connection line.

Specifically, when the plurality of electric dampers 3 are connected to the electronic device 5, when the electronic device 5 sends an adjustment command to the electric damper 3, it needs to be sent one by one. This connection method can ensure the accuracy of the connection, but is transmitted. The process of the command is complicated; when the plurality of electric dampers 3 are connected to the electronic device 5 through a connecting line, when the electronic device 5 sends an adjustment command to the electric damper 3, it only needs to be sent once, and the connection mode makes adjustment The transmission of instructions is more efficient.

In the above embodiment of the present invention, as shown in FIG. 4, the electronic device 5 includes: a memory 51 for storing an air volume threshold signal, and the air 51 connected to the memory 51 for receiving the wind speed sensor in each area a first comparator 52 that compares the transmitted wind speed signal and compares the wind speed signal with the air volume threshold signal, and the electric damper connected to the first comparator 52 for the range of the corresponding region according to the comparison result 3 sends a first signal conditioner 53 of the adjustment command.

Specifically, after receiving the wind speed signal transmitted by the wind speed sensor 4 in each area, the electronic device 5 compares the received respective wind speed signals with the air volume threshold signal stored in advance in the memory 51 by the first comparator 52. It should be noted that the memory 51 is electrically connected to the first comparator 52 to realize the transmission of the air volume threshold signal. The first comparator 52 is electrically connected to the first signal adjuster 53 to transmit the comparison result to the first signal adjuster 53. When the wind speed signal in a region is smaller than the air volume threshold signal, the first signal adjuster 53 is directed to the region. The electric damper 3 in the range sends an adjustment command for increasing the air volume. When the wind speed signal in a region is greater than the air volume threshold signal, the first signal adjuster 53 sends the reduced air volume to the electric damper 3 in the region. Adjust the command so that the air volume in each area is consistent.

In the above embodiment of the present invention, as shown in FIG. 5, the electronic device 5 includes: a signal receiver 54 for receiving a wind speed signal transmitted by the wind speed sensor 4 in each area, and the signal receiver 54 connected for Calculating an average value of the wind speed signal according to the wind speed signal transmitted by the wind speed sensor 4 in each area to obtain a standard wind speed signal calculation chip 55, and connecting the standard wind speed signal to each area connected to the calculation chip 55 a second comparator 56 for comparing the wind speed signals transmitted by the wind speed sensor 4, and a connection with the second comparator 56 for transmitting adjustments to the electric damper 3 in the corresponding region range according to the comparison result. The second signal conditioner 57 of the command.

Specifically, the signal receiver 54 of the electronic device 5 receives the wind speed signal transmitted by the wind speed sensor 4 in each region, and then transmits the wind speed signal transmitted by the wind speed sensor 4 in each region to the computing chip connected to the signal receiver 54. 55. The calculation chip 55 calculates a wind speed signal average value according to the received wind speed signal transmitted by the wind speed sensor 4 in each region to obtain a standard wind speed signal. The calculation chip 55 transmits the standard wind speed signal and the wind speed signal transmitted by the wind speed sensor 4 in each region to the second comparator 56, and the second comparator 56 transmits the standard wind speed signal to the wind speed signal transmitted by the wind speed sensor 4 in each region. For comparison, the comparison result is sent to the second signal conditioner 57 electrically connected to the second comparator 56. When the wind speed signal transmitted by the wind speed sensor 4 in a region is smaller than the standard wind speed signal, the second signal adjuster 57 The electric damper 3 in the region transmits an adjustment command for increasing the air volume; when the wind speed signal transmitted by the wind speed sensor 4 in a region is greater than the standard wind speed signal, the second signal adjuster 57 is directed to the electric damper 3 in the region. The adjustment command to reduce the air volume is sent so that the air volume in each area is consistent.

In the above embodiment of the invention, the electronic device 5 includes a display 58 for displaying a wind speed signal. After receiving the wind speed signal transmitted by the wind speed sensor 4 in each area, the electronic device 5 can display the wind speed signal on the display 58 to facilitate the understanding of the wind speed signal by the staff in the equipment room, thereby understanding the range of various areas in the equipment room. The amount of air output.

In the above embodiment of the invention, the wind speed sensor 4 is disposed at a position below the floor grille 2.

Specifically, the wind speed sensor 4 may be located below the floor grille 2 or a position where the air volume is easy to detect, and it is only necessary to ensure that the wind speed sensor 4 can quickly and accurately know the amount of airflow in each area.

An embodiment of the present invention further provides a control method using an air volume control system. As shown in FIG. 6, the control method includes:

Step S101: Receive a wind speed signal of an air volume of a floor grille flowing under the cabinet in the area of each area detected by the wind speed sensor distributed in different areas of the equipment room;

Step S102: Send an adjustment instruction to the electric damper for adjusting the air volume according to the received wind speed signal transmitted by each of the wind speed sensors, so that the electric damper according to the adjustment instruction The air volume in the area is adjusted, and the air volume in each area remains the same.

Specifically, the electronic device receives the wind speed signal of the air volume of the floor grille in each area detected by the wind speed sensor distributed in different areas of the equipment room, and then analyzes and processes the obtained wind speed signal in each area, according to the analysis The processing result sends an adjustment command to the electric damper in each area, so that the electric damper in each area adjusts the air volume of the area according to the corresponding adjustment instruction, so as to achieve the purpose of keeping the air volume of each area consistent. It should be noted that the electronic device always pays attention to the wind speed signal in each area, when the area is within the range. When the wind speed signal reaches the standard, the transmission of the adjustment command to the electric damper is stopped, so that the wind speed in each region reaches the requirements of human comfort.

The embodiment of the invention can control the wind speed and the air volume of the air outlet of the floor grille at different positions in the data center channel, so that the air volume at each position is uniform and uniform, the air flow is smoother and more uniform, and the air conditioner can improve the air supply temperature and improve the cooling efficiency. To achieve the purpose of energy saving in the computer room air conditioner.

In the above embodiment of the present invention, step S102 includes:

Step S1021: Comparing the received wind speed signal transmitted by each of the wind speed sensors with a pre-stored air volume threshold signal;

Step S1022: When the wind speed signal transmitted by the wind speed sensor in the corresponding area is smaller than the air volume threshold signal, send an adjustment instruction for increasing the air volume to the electric damper in the corresponding area;

Step S1023: When the wind speed signal transmitted by the wind speed sensor in the corresponding area is greater than the air volume threshold signal, an adjustment instruction for reducing the air volume is sent to the electric damper in the corresponding area.

Specifically, after receiving the wind speed signals transmitted by the respective wind speed sensors, comparing the received wind speed signals transmitted by the respective wind speed sensors with the pre-stored air volume threshold signals, when the wind speed signals transmitted by the wind speed sensors in the corresponding area are smaller than the air volume When the threshold signal is used, the electronic device needs to send an adjustment command for increasing the air volume to the electric damper in the corresponding area, and the electric damper increases the air volume in the area after receiving the adjustment instruction for increasing the air volume; When the wind speed signal transmitted by the wind speed sensor in the range is greater than the air volume threshold signal, the electronic device needs to send an adjustment command for reducing the air volume to the electric damper in the corresponding area, and the electric damper is reduced after receiving the adjustment instruction for reducing the air volume. The amount of wind in the area is small; so that the air volume in each area is consistent, so that the wind speed in each area reaches the preset standard and meets the requirements of human comfort.

In the above embodiment of the present invention, step S102 includes:

Step S1024, determining a standard wind speed signal according to the received wind speed signal transmitted by each of the wind speed sensors;

Step S1025: Comparing the wind speed signal transmitted by each of the wind speed sensors with the standard wind speed signal;

Step S1026: When the wind speed signal transmitted by the wind speed sensor in the corresponding area is smaller than the standard wind speed signal, send an adjustment instruction for increasing the air volume to the electric damper in the corresponding area;

Step S1027: When the wind speed signal transmitted by the wind speed sensor in the corresponding area is greater than the standard wind speed signal, an adjustment instruction for reducing the air volume is sent to the electric damper in the corresponding area.

Specifically, after receiving the wind speed signal transmitted by each wind speed sensor, the electronic device determines a standard wind speed signal according to the received wind speed signals, and then compares each wind speed signal with a standard wind speed signal, and sends an adjustment command according to the comparison result. When the wind speed signal transmitted by the wind speed sensor in the corresponding area is smaller than the standard wind speed signal, the electronic device needs to send an adjustment instruction for increasing the air volume to the electric damper in the corresponding area, and the electric damper receives the adjustment instruction for increasing the air volume. After that, the air volume in the area is increased; when the wind speed signal transmitted by the wind speed sensor in the corresponding area is greater than the standard wind speed signal, the electronic device needs to send an adjustment command for reducing the air volume to the electric damper in the corresponding area, the electric After receiving the adjustment command for reducing the air volume, the damper reduces the air volume in the area; so that the air volume in each area is consistent, so that the wind speed in each area reaches a preset standard, The requirements of human body comfort.

In the above embodiment of the present invention, step S1024 is specifically:

An average value is calculated according to the received wind speed signals transmitted by the respective wind speed sensors to obtain a standard wind speed signal.

Specifically, after receiving the wind speed signals transmitted by the respective wind speed sensors, an average value is calculated according to the wind speed signals transmitted by the respective wind speed sensors, and the average value is set as the standard wind speed signal. The standard wind speed signal is determined by calculating the average value. According to the relationship between the standard wind speed signal and the wind speed signal transmitted by each wind speed sensor, the air volume in each area is adjusted, so that the air volume in each area of the equipment room is consistent.

In the air volume control system of the embodiment of the invention, the wind speed sensor is set in different areas of the machine room to detect the air volume of the floor grille in each area, and the wind speed signal detected by the wind speed sensor in each area is transmitted to the electronic device, and the electronic device is The electric damper of each zone sends an adjustment command, so that the electric damper adjusts the air volume according to the adjustment command, so that the air volume of each area is consistent. The solution can control the wind speed and air volume of the floor grille at different positions in the data center channel, so that the air volume at each position is uniform and uniform, and the air flow is smoother and more uniform, which can enable the air conditioner to increase its own air supply temperature and improve the cooling efficiency. The purpose of energy saving in the computer room air conditioner.

It should be noted that the control method provided by the embodiment of the present invention is a method using an air volume control system, and all embodiments of the air volume control system are applicable to the method, and all of the same or similar beneficial effects can be achieved.

The above is a preferred embodiment of the present invention, and it should be noted that those skilled in the art can also make several improvements and retouchings without departing from the principles of the present invention. It should be considered as the scope of protection of the present invention.

Industrial applicability

The air volume control method and system of the present application can be applied to a machine room, and a wind speed sensor is set in different areas of the equipment room to detect the air volume of the floor grille in each area, and the wind speed signal detected by the wind speed sensor in each area is transmitted to The electronic device sends an adjustment command to the electric damper of each area through the electronic device, so that the electric damper adjusts the air volume according to the adjustment instruction, so that the air volume of each area is consistent.

Claims (12)

1. An air volume control system is applied to a machine room, wherein the air volume control system comprises:

   The wind speed sensor is distributed in different areas of the machine room, and each area is correspondingly provided with a floor grille for airflow in the equipment room, and the floor grille is located below the cabinet in the equipment room;

   An electric damper for adjusting an air volume disposed in each area, the electric damper being disposed below the floor grille;

   An electronic device respectively connected to the wind speed sensor and the electric damper, the electronic device receiving a wind speed signal transmitted by each of the wind speed sensors, according to a wind speed signal of the wind speed sensor in each region, to the The electric damper outputs an adjustment command, so that the electric damper adjusts the air volume according to the adjustment instruction, and the air volume in each area is consistent.
2. The air volume control system according to claim 1, wherein a plurality of said electric dampers are disposed in each area.
3. The air volume control system according to claim 2, wherein a plurality of said electric dampers are connected to said electronic device one by one, or a plurality of said electric dampers are connected to said electronic device through a connecting line.
4. The air volume control system according to claim 1, wherein said electronic device comprises: a memory arranged to store an air volume threshold signal, said memory connection being arranged to receive a wind speed signal transmitted by said wind speed sensor within each range And connecting, by the first comparator, the wind speed signal to the air volume threshold signal, the first comparator is connected to send the first signal of the adjustment command to the electric damper in the corresponding area according to the comparison result. Regulator.
5. The air volume control system according to claim 1, wherein said electronic device comprises: a signal receiver configured to receive a wind speed signal transmitted by said wind speed sensor within each area, and said connection to said signal receiver is set to Calculating an average value of the wind speed signal according to the wind speed signal transmitted by the wind speed sensor in each area to obtain a standard wind speed signal, and connecting the calculation chip to the standard wind speed signal and each area range a second comparator for comparing a wind speed signal transmitted by the wind speed sensor, and a second signal regulator connected to the second comparator and configured to send an adjustment command to the electric damper within a corresponding area according to the comparison result .
6. The air volume control system of claim 1 wherein said electronic device includes a display for displaying a wind speed signal.
7. The air volume control system according to claim 1, wherein said wind speed sensor is disposed at a position below said floor grill.
8. A control method using the air volume control system according to any one of claims 1 to 7, wherein the control method comprises:

   Receiving wind speed signals of the air volume of the floor grille flowing in the machine room under the cabinet in each area detected by the wind speed sensor distributed in different areas of the machine room;

   According to the received wind speed signal transmitted by each of the wind speed sensors, it is set in each area and used for The electric damper for adjusting the air volume sends an adjustment command, so that the electric damper adjusts the air volume of the region according to the adjustment instruction, and the air volume of each region is consistent.
9. The control method according to claim 8, wherein the transmitting an adjustment command to the electric damper for adjusting the air volume according to the received wind speed signal transmitted by each of the wind speed sensors, specifically include:

   Comparing the received wind speed signal transmitted by each of the wind speed sensors with a pre-stored air volume threshold signal;

   When the wind speed signal transmitted by the wind speed sensor in the corresponding area is less than the air volume threshold signal, an adjustment instruction for increasing the air volume is sent to the electric damper in the corresponding area;

   When the wind speed signal transmitted by the wind speed sensor in the corresponding area is greater than the air volume threshold signal, an adjustment command for reducing the air volume is sent to the electric damper in the corresponding area.
10. The control method according to claim 8, wherein the transmitting an adjustment command to the electric damper for adjusting the air volume according to the received wind speed signal transmitted by each of the wind speed sensors, specifically include:

    Determining a standard wind speed signal according to the received wind speed signal transmitted by each of the wind speed sensors;

    Comparing the wind speed signal transmitted by each of the wind speed sensors with the standard wind speed signal;

    When the wind speed signal transmitted by the wind speed sensor in the corresponding area is smaller than the standard wind speed signal, an adjustment instruction for increasing the air volume is sent to the electric damper in the corresponding area;

    When the wind speed signal transmitted by the wind speed sensor in the corresponding area is greater than the standard wind speed signal, an adjustment command for reducing the air volume is sent to the electric damper in the corresponding area.
11. The control method according to claim 10, wherein the determining a standard wind speed signal according to the received wind speed signal transmitted by each of the wind speed sensors is specifically:

    An average value is calculated according to the received wind speed signals transmitted by the respective wind speed sensors to obtain a standard wind speed signal.
12. A non-transitory computer readable storage medium having stored therein instructions that, when executed by a processor of an air volume control device, cause the air volume control device to perform the method of any of claims 8-11 Air volume control method.

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