CN220108501U - Air supply heat dissipation system and communication machine room - Google Patents

Abstract

The utility model provides an air supply and heat dissipation system and a communication machine room, wherein the air supply and heat dissipation system comprises an air supply device, an adjusting device, a communication device and a plurality of temperature sensors, the air supply device is connected with the adjusting device, the adjusting device adjusts the air supply state of the air supply device, the plurality of temperature sensors are arranged on a plurality of communication cabinets in a one-to-one correspondence manner, and the temperature sensors are in communication connection with the communication device and are configured to detect the temperature of the communication cabinets and send the temperature to the communication device; the adjusting device is in communication connection with the communication device and is configured to adjust the air supply state of the air supply device under the control of the communication device. Through setting up foretell air supply cooling system, communication device can come control adjusting device according to the temperature of each communication rack, and adjusting device adjusts air supply device and changes and divide this state, can promote air supply cooling system's radiating efficiency, and then promotes communication computer lab's radiating efficiency, can reduce communication computer lab's power consumption.

Description

Air supply heat dissipation system and communication machine room

Technical Field

The utility model relates to the technical field of heat dissipation, in particular to an air supply heat dissipation system and a communication machine room.

Background

With the rapid development of the internet and communication technology, the load of the communication and network machine room is increased along with the expansion of the service, and the number of devices in the machine room is also increased. The number of the devices in the existing machine room is large, so that heat generated by the machine room is large, local hot spots are easy to generate, equipment downtime is caused, and normal operation is affected.

In the related art, the communication machine room is provided with a single air duct to integrally supply air to equipment in the machine room, so that the machine room is cooled, and the temperature of the machine room is reduced.

However, the communication machine room in the scheme has low heat dissipation efficiency and high energy consumption.

Disclosure of Invention

In order to solve at least one problem in the background art, the utility model provides an air supply and heat dissipation system and a communication machine room, and aims to solve the problems of lower heat dissipation efficiency and higher energy consumption of the communication machine room in the related art.

In order to achieve the above object, in a first aspect, the present utility model provides an air-supply heat dissipation system for a communication room, where the communication room includes a plurality of communication cabinets, the air-supply heat dissipation system includes an air-supply device, an adjusting device, a communication device, and a plurality of temperature sensors, the air-supply device is connected to the adjusting device, the plurality of temperature sensors are disposed on the plurality of communication cabinets in a one-to-one correspondence, and the temperature sensors are communicatively connected to the communication device and configured to detect a temperature of the communication cabinet and send the temperature to the communication device;

the adjusting device is in communication connection with the communication device and is configured to adjust the air supply state of the air supply device under the control of the communication device.

In the foregoing air supply and heat dissipation system, optionally, the communication device includes a communication module and a processing module that are connected in a communication manner, where the communication module is configured to receive temperature information of the temperature sensor and send the temperature information to the processing module;

the processing module is configured to control the regulating device according to the temperature information.

In the foregoing air supply and heat dissipation system, optionally, the processing module includes a first processing unit, where the first processing unit is communicatively connected to each of the temperature sensors, and the first processing unit is configured to:

and acquiring temperature information of each temperature sensor, and comparing to obtain a comparison result.

In the foregoing air supply and heat dissipation system, optionally, the communication device includes a second processing unit, where the second processing unit is communicatively connected to the first processing unit, and the second processing unit is configured to:

acquiring the comparison result of the first processing unit;

and determining the position information of the temperature sensor according to the comparison result, and controlling the adjusting device to adjust the air supply state of the air supply device.

In the foregoing air supply and heat dissipation system, optionally, the air supply device includes an air blower and an air supply pipeline, the air supply pipeline is communicated with an air supply end of the air blower, the air supply pipeline includes a plurality of air supply openings, and the air supply openings face the communication cabinet.

In the foregoing air supply and heat dissipation system, optionally, the number of air supply openings is smaller than the number of the communication cabinets, and the number of the adjusting devices is the same as the number of the air supply openings, and the plurality of adjusting devices are arranged in one-to-one correspondence with the plurality of air supply openings.

In the foregoing air supply and heat dissipation system, optionally, the adjusting device includes a shutter and an adjusting structure, where the adjusting structure is connected with the shutter and controls a working state of the shutter;

the communication device is arranged on the adjusting structure and is in communication connection with the adjusting structure.

In the foregoing air supply and heat dissipation system, optionally, the adjusting structure includes a power mechanism and a transmission mechanism, where the power mechanism is slidably connected with the transmission mechanism, and the transmission mechanism is rotatably connected with the shutter; the power mechanism is in communication with the communication device.

In the foregoing air supply and heat dissipation system, optionally, the power mechanism includes a dc pushrod motor.

According to the air supply and heat dissipation system, the air supply device is arranged, so that cold air with low temperature can be supplied to the information transmission machine room by the air supply device, and the temperature of communication equipment is reduced; through setting up the adjusting device who is connected with air supply arrangement, adjusting device can adjust air supply arrangement's air supply state, can carry out accurate air supply to the communication equipment in the communication computer lab to promote the radiating efficiency of air supply cooling system, and then promote the radiating efficiency of communication computer lab, can reduce the power consumption of communication computer lab; by arranging the communication device, the communication device can be in communication connection with the adjusting device, and the adjusting device can be controlled remotely or regularly, so that a user can conveniently control the air supply and heat dissipation system, and the working efficiency of the air supply and heat dissipation system can be improved; through setting up corresponding temperature sensor on each rack, temperature sensor can acquire the temperature of corresponding communication rack to with corresponding information transmission to communication device, communication device can control adjusting device according to the temperature of each communication rack and carry out corresponding regulation, can promote the radiating efficiency of air supply cooling system, and reduce the power consumption.

In a second aspect, the utility model further provides a communication machine room, which comprises a plurality of communication cabinets and the air supply and heat dissipation system, wherein the communication cabinets are arranged at intervals and correspond to the temperature sensors in the air supply and heat dissipation system one by one.

The communication machine room provided by the utility model is provided with the air supply and heat dissipation system, and the air supply device is arranged to supply cold air with lower temperature to the communication machine room so as to reduce the temperature of communication equipment; through setting up the adjusting device who is connected with air supply arrangement, adjusting device can adjust air supply arrangement's air supply state, can carry out accurate air supply to the communication equipment in the communication computer lab to promote the radiating efficiency of air supply cooling system, and then promote the radiating efficiency of communication computer lab, can reduce the power consumption of communication computer lab; by arranging the communication device, the communication device can be in communication connection with the adjusting device, and the adjusting device can be controlled remotely or regularly, so that a user can conveniently control the air supply and heat dissipation system, and the working efficiency of the air supply and heat dissipation system can be improved; through setting up the temperature sensor who corresponds on each rack, temperature sensor can acquire the temperature that corresponds the communication rack to with corresponding information transmission to communication device, communication device can control adjusting device according to the temperature of each communication rack and carry out corresponding regulation, can promote the radiating efficiency of air supply cooling system, and then promote the radiating efficiency of communication computer lab, can reduce the power consumption of communication computer lab.

The construction of the present utility model and other objects and advantages thereof will be more readily understood from the description of the preferred embodiment taken in conjunction with the accompanying drawings.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a machine room and an air supply and heat dissipation system according to an embodiment of the present utility model;

fig. 2 is a schematic structural diagram of an air supply and heat dissipation system according to an embodiment of the present utility model;

fig. 3 is a schematic structural diagram of an adjusting structure according to an embodiment of the present utility model.

Reference numerals illustrate:

100-communication machine room;

110-house body;

120-communication cabinets;

200-an air supply and heat dissipation system;

210-an air supply device;

220-adjusting means;

230-a communication device;

240-a temperature sensor;

231-a communication module;

232-a processing module;

2321-a first processing unit;

2322-a second processing unit;

211-a blower;

212-an air supply pipeline;

2111-an air supply end;

2121-an air supply port;

221-shutter;

222-an adjustment structure;

2221-power mechanism;

2222-drive mechanism.

Specific embodiments of the present utility model have been shown by way of the above drawings and will be described in more detail below. The drawings and the written description are not intended to limit the scope of the inventive concepts in any way, but rather to illustrate the inventive concepts to those skilled in the art by reference to the specific embodiments.

Detailed Description

In the related art, the communication cabinets in the communication machine room are generally arranged at smaller intervals, and because of the large number of the communication cabinets, the overall power consumption is large, the heat productivity is large, and local hot spots are easy to generate. Under the condition, a single air duct communicated with the communication machine room is used for carrying out integral air supply and heat dissipation on the machine room, and the temperature of part of equipment is difficult to effectively reduce and is easy to downtime, so that the service is influenced; in addition, when part of the communication cabinets in the communication machine room are not in a working state, part of cold air can be wasted due to the whole air supply and heat dissipation mode, so that the cold air is wasted, and certain cost can be lost.

Based on the technical problems described above, the embodiment of the utility model provides an air supply and heat dissipation system and a communication machine room, wherein the air supply and heat dissipation system comprises an air supply device, an adjusting device, a communication device and a plurality of temperature sensors, the air supply device is connected with the adjusting device, the adjusting device adjusts the air supply state of the air supply device, the plurality of temperature sensors are arranged on a plurality of communication cabinets in a one-to-one correspondence manner, and the temperature sensors are in communication connection with the communication device and are configured to detect the temperature of the communication cabinets and send the temperature to the communication device; the adjusting device is in communication connection with the communication device and is configured to adjust the air supply state of the air supply device under the control of the communication device. By arranging the air supply device, the air supply device can supply cold air with lower temperature to the letter-sending machine room so as to reduce the temperature of communication equipment; through setting up the adjusting device who is connected with air supply arrangement, adjusting device can adjust air supply arrangement's air supply state, can carry out accurate air supply to the communication equipment in the communication computer lab to promote the radiating efficiency of air supply cooling system, and then promote the radiating efficiency of communication computer lab, can reduce the power consumption of communication computer lab; by arranging the communication device, the communication device can be in communication connection with the adjusting device, and the adjusting device can be controlled remotely or regularly, so that a user can conveniently control the air supply and heat dissipation system, and the working efficiency of the air supply and heat dissipation system can be improved; through setting up the temperature sensor who corresponds on each rack, temperature sensor can acquire the temperature that corresponds the communication rack to with corresponding information transmission to communication device, communication device can control adjusting device according to the temperature of each communication rack and carry out corresponding regulation, can promote the radiating efficiency of air supply cooling system, and then promote the radiating efficiency of communication computer lab, can reduce the power consumption of communication computer lab.

In order to make the objects, technical solutions and advantages of the present utility model more apparent, the technical solutions in the preferred embodiments of the present utility model will be described in more detail with reference to the accompanying drawings in the preferred embodiments of the present utility model. In the drawings, the same or similar reference numerals refer to the same or similar components or components having the same or similar functions throughout. The described embodiments are some, but not all, embodiments of the utility model. The embodiments described below by referring to the drawings are illustrative and intended to explain the present utility model and should not be construed as limiting the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model. Embodiments of the present utility model will be described in detail below with reference to the accompanying drawings.

In describing embodiments of the present utility model, it should be understood that the terms "mounted," "connected," and "coupled" are to be construed broadly, unless otherwise indicated and defined, and may be either fixedly attached, indirectly attached via an intermediate medium, or in communication between two elements or in an interaction relationship between the two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

Fig. 1 is a schematic structural diagram of a machine room and an air supply and heat dissipation system according to an embodiment of the present utility model; fig. 2 is a schematic structural diagram of an air supply and heat dissipation system according to an embodiment of the present utility model; fig. 3 is a schematic structural diagram of an adjusting structure according to an embodiment of the present utility model.

In a first aspect, referring to fig. 1, an embodiment of the present utility model provides a communication room 100, including a room body 110 and a communication cabinet 120, where the communication cabinet 120 is disposed in the room body 110.

Further, the number of the communication cabinets 120 may be plural, and illustratively, the number of the communication cabinets 120 may be two, three, four, five, six, etc., and the embodiment of the present utility model is not limited to the number of the communication cabinets 120, and is not limited to the above examples.

It can be appreciated that the plurality of communication cabinets 120 may be disposed at intervals in the housing 110, so as to avoid that the communication cabinets 120 are too closely spaced to generate local hot spots, which may affect the normal operation of the communication cabinets 120.

It should be noted that, the communication cabinets 120 may be uniformly distributed in the housing 110, for example, a plurality of communication cabinets 120 may be spaced and distributed in a matrix in the housing 110; alternatively, the plurality of communication cabinets 120 may be spaced apart and distributed in a circular pattern in the housing 110; alternatively, a plurality of communication cabinets 120 may be spaced and line-wise distributed within the housing 110. The embodiment of the present utility model is not limited to the specific distribution of the communication cabinet 120 in the housing 110, nor to the above examples.

It should be understood that the shape of the housing 110 may be any, and exemplary, the shape of the housing 110 may be a rectangular cube, a cylinder, or a triangular column, and the embodiment of the present utility model is not limited to the specific shape of the housing 110 or the above examples.

The following description will take the shape of the housing 110 as a rectangular cube as an example.

In a second aspect, referring to fig. 1 and 2, an embodiment of the present utility model provides an air-supply heat dissipation system 200 for a communication room 100, where the air-supply heat dissipation system 200 includes an air-supply device 210, an adjusting device 220, a communication device 230, and a temperature sensor 240.

Specifically, the number of the temperature sensors 240 may be plural, and exemplary, the number of the temperature sensors 240 may be two, three, four, five, six, seven, eight, etc., and the embodiment of the present utility model does not limit the number of the temperature sensors 240, and is not limited to the above-described examples.

It should be noted that, the temperature sensors 240 may be in one-to-one correspondence with the communication devices, that is, each temperature sensor 240 is close to the corresponding communication device to obtain temperature information of the corresponding communication device.

It will be appreciated that the temperature sensor 240 may be disposed directly on the communication device to obtain temperature information of the corresponding communication device; alternatively, the temperature sensor 240 may be disposed at other locations, such as the house 110, and may be close to the corresponding communication device, so as to obtain temperature information of the corresponding communication device. The position of the temperature sensor 240 is not limited by the embodiment of the present utility model, nor is it limited to the above example.

The temperature sensor 240 may be directly provided to the communication device, for example, as will be described below.

Further, the temperature sensor 240 is communicatively coupled to the communication device 230 and configured to detect temperature information of the communication cabinet 120 and transmit the temperature information to the communication device 230 so that the communication device 230 processes the temperature information of the communication cabinet 120.

It may be understood that the communication connection may be a wireless network connection, a wired network connection, a bluetooth connection, an electrical connection, etc., and in the embodiment of the present utility model, the specific form of the communication connection is not specifically defined, and the foregoing or other communication connection manners are not described in detail below.

Specifically, the adjusting device 220 is communicatively connected to the communication device 230, and the communication device 230 may obtain the temperature information of the corresponding communication cabinet 120 sent by the temperature sensor 240, and control the adjusting device 220 according to the temperature information.

It should be noted that, the temperature information of the communication cabinet 120 acquired by the temperature sensor 240 includes, but is not limited to, the temperature of the communication cabinet 120, and the time for which the communication cabinet 120 maintains the temperature, and the embodiment of the present utility model is not limited to the specific content of the temperature information acquired by the temperature sensor 240, and is not limited to the above examples.

Further, the air supply device 210 is connected to the adjusting device 220, and the adjusting device 220 is configured to adjust the air supply state of the air supply device 210 under the control of the communication device 230.

Specifically, the air blowing state of the air blowing device 210 includes, but is not limited to, the direction of blowing, the intensity of blowing, and the time of blowing. The blower 210 receives the control of the communication device 230, and adjusts the blower state of the blower 210 according to the control signal sent by the communication device 230, where the blower state of the blower 210 includes, but is not limited to, the blower direction, the blower strength, and the blower time of the blower 210, and the embodiment of the present utility model does not limit the specific content of the blower state of the blower 210, and is not limited to the above examples.

It is to be understood that the air supply device 210 and the adjusting device 220 may be in communication connection, and a specific manner of the communication connection is not described herein.

According to the air supply and heat dissipation system 200 provided by the embodiment of the utility model, the air supply device 210 is arranged, so that the air supply device 210 can supply cold air with lower temperature to the communication equipment room to reduce the temperature of the communication equipment; by arranging the adjusting device 220 connected with the air supply device 210, the adjusting device 220 can adjust the air supply state of the air supply device 210, so that communication equipment in the communication machine room 100 can be precisely supplied with air, the heat dissipation efficiency of the air supply heat dissipation system 200 is improved, the heat dissipation efficiency of the communication machine room 100 is further improved, and the energy consumption of the communication machine room 100 can be reduced; by arranging the communication device 230, the communication device 230 can be in communication connection with the adjusting device 220, and the adjusting device 220 can be controlled remotely or at regular time, so that a user can control the air supply and heat dissipation system 200 conveniently, and the working efficiency of the air supply and heat dissipation system 200 can be improved; through setting up corresponding temperature sensor 240 on each rack, temperature sensor 240 can acquire the temperature of corresponding communication rack 120 to with corresponding information transmission to communication device 230, communication device 230 can control adjusting device 220 according to the temperature of each communication rack 120 and carry out corresponding regulation, can promote the radiating efficiency of air supply cooling system 200, and then promote the radiating efficiency of communication computer lab 100, can reduce the power consumption of communication computer lab 100.

As an alternative embodiment, the communication device 230 includes a communication module 231 and a processing module 232 communicatively connected, the communication module 231 being configured to receive the temperature information of the temperature sensor 240 and send the temperature information to the processing module 232; the processing module 232 is configured to control the regulating device 220 in accordance with the temperature information.

Specifically, the communication module 231 receives temperature information of the temperature sensor 240, such as a specific temperature of the communication cabinet 120 and the temperature duration corresponding to the temperature sensor 240. The communication module 231 receives the temperature information and transmits the temperature information to the processing module 232. The processing module 232 generates a corresponding control signal according to the temperature information, and sends the control signal to the adjusting device 220 to control the adjusting device 220, so that the adjusting device 220 adjusts the air supply device 210 to change to a corresponding air supply state according to the temperature information.

It is to be understood that the specific manner of communication connection between the communication module 231 and the processing module 232 is not described herein.

It should be noted that, the processing module 232 may be a separate processing chip, or may be a terminal with a corresponding processing chip, and the processing module 232 may be a mobile phone, a computer, a monitoring camera, a vehicle-mounted terminal, or the like, which is not limited to the specific form of the processing module 232 and is not limited to the above examples.

It can be understood that the manner in which the processing module 232 processes the temperature information may be directly processed according to a stored processing manner, or may be directly controlled by a user, or may be correspondingly controlled according to a manner set by the user.

As an alternative embodiment, processing module 232 includes a first processing unit 2321, first processing unit 2321 being communicatively coupled to each temperature sensor 240, first processing unit 2321 being configured to: the temperature information of each temperature sensor 240 is acquired and compared, and a comparison result is obtained, that is, the temperature information of the temperature sensor 240 is initially processed by setting the first processing unit 2321.

For example, the user may set a certain temperature and set a corresponding air supply intensity, and the processing module 232 receives the temperature information and compares the content set by the user to obtain a comparison result, so as to perform corresponding air supply on the communication device needing air supply.

As an alternative embodiment, the communication device 230 includes a second processing unit 2322, the second processing unit 2322 being communicatively connected to the first processing unit 2321, the second processing unit 2322 being configured to: obtaining a comparison result of the first processing unit 2321; the position information of the temperature sensor 240 is determined according to the comparison result, and the adjusting device 220 is controlled to adjust the blowing state of the blowing device 210.

Specifically, second processing unit 2322 may obtain a comparison of first processing unit 2321, which may include, but is not limited to, a temperature of temperature sensor 240, a duration of the temperature, a location of temperature sensor 240, and the like; and determines the position information of the temperature sensor 240 and thus the position information of the communication device according to the above information, and based on the obtained information, the second processing unit 2322 controls the adjusting device 220 and thus adjusts the air supply state of the air supply device 210 to supply air to the communication device requiring air supply.

It should be noted that, when the first processing unit 2321 obtains the temperature information of the plurality of temperature sensors 240, the second processing unit 2322 may compare the plurality of temperature information, for example, compare the temperature of the temperature sensor 240, the duration of the temperature, the specific location of the temperature sensor 240, and so on; from the above temperature information, the second processing unit 2322 may obtain location information, which may include, but is not limited to, a specific location of the communication device where the temperature sensor 240 is located, a sequence of the air-blown communication devices, and strength of the air-blown communication devices.

For example, when the communication device is three, one of the temperatures (a, b, and c) obtained by the temperature sensor 240 is greater than the preset temperature, the second processing unit 2322 controls the adjusting device 220 to adjust the air supply direction of the air supply device 210 to the area, if only a is greater than the preset temperature, and the second processing unit 2322 controls the adjusting device 220 to adjust the air supply direction of the air supply device 210 to the preset position a; if only B is greater than the preset temperature, the second processing unit 2322 controls the adjusting device 220 to adjust the air supply direction of the air supply device 210 to the preset position B; if only C is greater than the preset temperature, the second processing unit 2322 controls the adjusting device 220 to adjust the air supply direction of the air supply device 210 to the preset position C; if a, b and c are all smaller than the preset temperature, the wind direction is kept unchanged;

for another example, if the temperatures obtained by the three temperature sensors 240 are all greater than the preset temperature, for example, a > b > c > preset temperature, the second processing unit 2322 controls the adjusting device 220 to adjust the preset position a of the air supply direction of the air supply device 210; if B > a > c > the preset temperature, the second processing unit 2322 controls the adjusting device 220 to adjust the preset position B of the air supply direction of the air supply device 210; if C > b > a > the preset temperature, the second processing unit 2322 controls the adjusting device 220 to adjust the preset position C of the air blowing direction of the air blowing device 210.

In still another example, if the temperatures obtained by all the temperature sensors 240 are less than the preset value, the second processing unit 2322 may control the adjusting device 220 to adjust the air supply device 210 to be turned off.

In the embodiment of the utility model, the air supply process is as follows: the communication module 231 obtains temperature information of the temperature sensor 240 and sends the temperature information to the first processing unit 2321, the first processing unit 2321 obtains a comparison result through comparison according to the obtained temperature information, the second processing unit 2322 obtains the comparison result, and can determine the position information of the temperature sensor 240 and control the adjusting device 220 according to the position information so as to adjust the air supply state of the air supply device 210, so that the heat dissipation efficiency of the air supply and heat dissipation system 200 can be improved, the heat dissipation efficiency of the communication machine room 100 can be improved, and the energy consumption of the communication machine room 100 can be reduced.

As an alternative embodiment, blower device 210 includes blower 211 and blower duct 212, blower duct 212 communicates with a blower end 2111 of blower 211, and blower duct 212 includes a plurality of blower ports 2121, with blower ports 2121 facing communication cabinet 120. That is, the blower 211 generates a wind that can lower the temperature and sends the wind out from the blower end 2111, and the wind passes through the blower pipe 212 and the blower 2121 toward the communication cabinet 120 to lower the temperature of the communication cabinet 120.

It should be noted that the air supply device 210 of each air supply port 2121 may supply air independently.

It is to be understood that the air supply device 210 may be disposed in the room 110 or may be disposed outside the room 110, and the embodiment of the present utility model is not limited to the specific position of the air supply device 210 in the room 110 or the above example.

Hereinafter, the blower 210 is provided in the house 110 as an example.

The blower 211 may be an air conditioner or a fan, and the embodiment of the present utility model is not limited to the specific form of the blower 211, and is not limited to the above example.

It should be noted that, the air supply device 210 may also be communicatively connected to the communication device 230, such as the processing module 232 in the communication device 230, and the second processing unit 2322 of the processing module 232 may control the opening and closing of the air supply device 210 and the air supply intensity, so as to control the opening time and the opening intensity of the air supply and heat dissipation system 200, and effectively reduce the energy consumption of the air supply and heat dissipation system 200.

As an alternative embodiment, the number of air outlets 2121 is smaller than the number of communication cabinets 120, and the number of adjusting devices 220 is the same as the number of air outlets 2121, and the plurality of adjusting devices 220 are disposed in one-to-one correspondence with the plurality of air outlets 2121. That is, the air supply port 2121 is adjusted to adjust the air supply state of the air supplied from the air supply port 2121.

It should be noted that, each adjusting device 220 may adjust the air supply device 210, that is, the air supply states of the air supply devices 210 may be the same or different, and may be adjusted by the corresponding adjusting devices 220.

As an alternative embodiment, referring to fig. 1 and 3, the adjusting device 220 includes a louver 221 and an adjusting structure 222, and the adjusting structure 222 is connected to the louver 221 and controls an operation state of the louver 221; the communication device 230 is disposed on the adjustment structure 222 and is in communication with the adjustment structure 222.

Specifically, the adjustment structure 222 may control the operating state of the louver 221, which may include, but is not limited to, opening and closing, as well as the direction of the air supply and the sequence of the air supply. The processing module 232 of the communication device 230 may be communicatively connected to the adjusting structure 222, and illustratively, the second processing unit 2322 of the processing module 232 may be communicatively connected to the adjusting structure 222 and control the adjusting structure 222 to adjust the area of the shutter 221 covering the air supply port 2121 and the direction of the air supply, thereby controlling the air supply state of the air supply device 210.

It will be appreciated that to facilitate control of the adjustment device 220, the communication device 230 may be provided on the adjustment device 220, in particular, the shutter 221 may be provided and connected to the adjustment structure 222.

As an alternative embodiment, the adjustment mechanism 222 includes a power mechanism 2221 and a transmission mechanism 2222, the power mechanism 2221 being slidably coupled to the transmission mechanism 2222, the transmission mechanism 2222 being rotatably coupled to the blind 221, the power mechanism 2221 being communicatively coupled to the communication device 230. That is, the communication device 230 is communicatively connected to the power mechanism 2221, and controls the power mechanism 2221, and thus the transmission mechanism 2222, and adjusts the operating state of the louver 221 via the transmission mechanism 2222, and thus controls the air blowing state of the air blowing device 210.

As an alternative embodiment, power mechanism 2221 includes a dc pushrod motor.

Specifically, the dc pushrod motor may be located at a central position of the shutter 221 and located on the transmission mechanism 2222 and connected to the transmission mechanism 2222, when the communication device 230 controls the dc pushrod motor, the dc pushrod motor may drive the transmission mechanism 2222 to move in a forward or backward direction and drive the transmission mechanism 2222, and the transmission mechanism drives the shutter 221 to rotate, so as to adjust the opening and closing degree of the shutter 221, so as to adjust the air supply state of the air supply device 210. The efficiency of the direct current push rod motor is higher, can promote the speed that shutter 221 opened and shut and remove, can promote the speed that the air supply state was adjusted.

The terms "upper," "lower," "front," "rear," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used for convenience in describing and simplifying the description of the present utility model based on the orientation or positional relationship shown in the drawings, and do not denote or imply that the devices or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model. In the description of the present utility model, the meaning of "a plurality" is two or more, unless specified otherwise precisely.

The terms first, second, third, fourth and the like in the description and in the claims and in the above drawings are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that such data may be interchanged where appropriate such that embodiments of the utility model described herein may be implemented in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and not for limiting the same; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the utility model.

Claims (10)

1. An air supply and heat dissipation system is used for a communication machine room, and the communication machine room comprises a plurality of communication cabinets, and is characterized by comprising an air supply device, an adjusting device, a communication device and a plurality of temperature sensors, wherein the air supply device is connected with the adjusting device, the plurality of temperature sensors are arranged on the plurality of communication cabinets in a one-to-one correspondence manner, and the temperature sensors are in communication connection with the communication device and are configured to detect the temperature of the communication cabinet and send the temperature to the communication device;

the adjusting device is in communication connection with the communication device and is configured to adjust the air supply state of the air supply device under the control of the communication device.

2. The air supply and heat dissipation system according to claim 1, wherein the communication device comprises a communication module and a processing module in communication connection, the communication module being configured to receive temperature information of the temperature sensor and send the temperature information to the processing module;

the processing module is configured to control the regulating device according to the temperature information.

3. The air delivery and heat dissipation system of claim 2, wherein the processing module comprises a first processing unit communicatively coupled to each of the temperature sensors, the first processing unit configured to:

and acquiring temperature information of each temperature sensor, and comparing to obtain a comparison result.

4. The air delivery and heat dissipation system of claim 3, wherein the communication device comprises a second processing unit communicatively coupled to the first processing unit, the second processing unit configured to:

acquiring the comparison result of the first processing unit;

and determining the position information of the temperature sensor according to the comparison result, and controlling the adjusting device to adjust the air supply state of the air supply device.

5. The air delivery and heat dissipation system according to any of claims 2-4, wherein the air delivery device comprises an air delivery blower and an air delivery duct, the air delivery duct in communication with an air delivery end of the air delivery blower, the air delivery duct comprising a plurality of air delivery openings, the air delivery openings being oriented toward the communication cabinet.

6. The air supply and heat dissipation system according to claim 5, wherein the number of the air supply openings is smaller than the number of the communication cabinets, the number of the adjusting devices is the same as the number of the air supply openings, and a plurality of the adjusting devices are arranged in one-to-one correspondence with a plurality of the air supply openings.

7. The air-handling heat dissipation system according to any of claims 1-4, wherein the adjustment device comprises a louver and an adjustment structure, the adjustment structure being connected to the louver and controlling an operating state of the louver;

the communication device is arranged on the adjusting structure and is in communication connection with the adjusting structure.

8. The air supply and heat dissipation system according to claim 7, wherein the adjustment structure comprises a power mechanism and a transmission mechanism, the power mechanism being slidably connected to the transmission mechanism, the transmission mechanism being rotatably connected to the louver; the power mechanism is in communication with the communication device.

9. The air delivery and heat dissipation system according to claim 8, wherein the power mechanism comprises a dc pushrod motor.

10. A communication room comprising a plurality of communication cabinets and the air supply and heat dissipation system as set forth in any one of claims 1-9, wherein the plurality of communication cabinets are arranged at intervals and correspond to the plurality of temperature sensors in the air supply and heat dissipation system one by one.