CN211854373U

CN211854373U - Power utilization regulating system for communication base station

Info

Publication number: CN211854373U
Application number: CN201921710677.9U
Authority: CN
Inventors: 焦孟; 汪鑫; 侯涛
Original assignee: Midas Electric Shanghai Co ltd
Current assignee: Midas Electric Shanghai Co ltd
Priority date: 2019-10-08
Filing date: 2019-10-08
Publication date: 2020-11-03
Anticipated expiration: 2029-10-08

Abstract

The utility model provides a communication base station power consumption governing system, which comprises a power acquisition unit, a power control unit and a power control unit, wherein the power acquisition unit is used for acquiring the power of a communication assembly, the power of a temperature regulation assembly, the power of a standby power supply assembly and the power of an auxiliary device in the communication base station; a determination unit for determining a magnitude between a first electric power and a preset power, wherein the first electric power is a sum of the power of the communication component, the power of the temperature adjustment component, the power of the standby power component, and the power of the auxiliary device; and the control unit controls to stop the main incoming line from supplying power to the standby power supply component when the first electric power is larger than or equal to the preset power. The power utilization adjusting method for the communication base station can dynamically distribute power supply of equipment in the base station under the condition that the power supply inlet wire capacity of the existing base station is not changed, and stable operation of the communication base station is ensured.

Description

Power utilization regulating system for communication base station

Technical Field

The utility model relates to a communication field further relates to a communication base station power consumption governing system.

Background

With the development of science and technology, 5G networks (5G networks), that is, fifth generation mobile communication networks, have been developed at a high speed, and the peak theoretical transmission speed thereof can reach 8 seconds and 1GB, which is hundreds of times faster than that of 4G networks. For example, a 1G movie may be downloaded in less than 8 seconds. It is expected that 5G networks will be used in large scale in the near future, and will bring great convenience to people's production and life.

For some historical reasons, the capacity of a power supply inlet wire of a communication base station of three operators in China at present is generally 15KVA, and the capacity can meet the power supply load of equipment in the base station under the conventional condition, so that the equipment in the base station can normally operate. However, with the development of the 5G communication commissioning, a large amount of electric load is consumed, and a great power supply load is caused to the capacity of the power supply wire of the current communication base station. Those skilled in the art can understand that although a 5G network is already in commissioning, a large number of 2G network devices still do not quit the network at the present stage and still operate, that is, at the present stage, the power supply capacity of the power supply incoming line capacity 15KVA of the communication base station needs to simultaneously supply the 2G, 3G, 4G, and 5G, so that the power supply capacity of the power supply incoming line capacity 15KVA of the original base station cannot meet the situation of power utilization of all network devices in the base station.

For the above technical problems, there are two traditional solutions, one is open source, and the other is throttling. The capacity of the power supply inlet wire of the base station is improved, and the capacity of the power supply inlet wire is increased to 20KVA or higher so as to meet the power demand of all network electric equipment. Throttling means reducing the number of network devices in the base station, for example, dropping 2G and/or 3G and/or 4G network devices to meet the power demand of 5G network devices.

However, in terms of specific implementation, the solution for the open source, that is, the measure for increasing the capacity of the power supply inlet line, has various limitations in the implementation process, and has the problems of load capacity limitation of the local area from the power grid and the adaptability of the power supply bureau, so that the implementation is difficult, and the upgrading and transforming cost of the capacity of the power supply inlet line is huge, and the possibility of implementation does not exist in the aggregate.

For the solution of throttling, that is, to quit the 2G and/or 3G and/or 4G network devices, although the 5G network enters the commissioning phase in the market at present, only the 2G network can be covered in some areas, so that the normal operation of the 2G network devices in the base station must be ensured. Compared with the 2G network, the coverage area of the 3G network and the 4G network is larger, the covered crowd is more, and the operation of the 3G network equipment and/or the 4G network equipment in the base station cannot be stopped. And as far as the present situation is concerned, no plan and specific time for the network quit of the 2G network equipment is given by any of the three communication operators, i.e. there is no possibility for this measure to be implemented.

The development and popularization of the 5G network have become a necessary trend, and how to satisfy the power utilization balance between the 5G network device in the base station and the 2G network device, the 3G network device and the 4G network device at the initial stage of the 5G network operation, and prevent the maximum power supply capacity of the power supply wire of the base station from being exceeded becomes a key technical problem which needs to be solved for the popularization and application of the 5G network.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a communication base station power consumption governing system, wherein communication base station power consumption governing system can be when not changing the equipment in the current communication base station the electric power supply in the rational distribution communication base station for communication base station steady operation.

Another object of the utility model is to provide a communication base station power consumption governing system, wherein communication base station power consumption governing system can be under the condition that does not change current basic station power supply inlet wire capacity, and the inside equipment power supply of dynamic allocation basic station prevents that the total amount of electric charge of the inside equipment power supply of basic station from exceeding the capacity of basic station power supply inlet wire.

Another object of the utility model is to provide a communication base station power consumption governing system, wherein communication base station power consumption governing system can be based on the power supply of each network equipment's real-time load adjustment basic station internal plant in the basic station.

Another object of the utility model is to provide a communication base station power consumption governing system, wherein when first electric power is more than or equal to predetermines the power, control total inlet wire with power flow direction between the stand-by power supply subassembly stops total inlet wire to stand-by power supply subassembly power supply to the power consumption who reduces total inlet wire.

Another object of the present invention is to provide an electricity regulating system for a communication base station, wherein when a second electric power is greater than or equal to the preset power, the temperature regulating assembly stops working, that is, controlling the temperature regulating assembly stops cooling or heating, so as to reduce the power consumption of the main incoming line.

Another object of the present invention is to provide a communication base station power consumption governing system, wherein when the current time is within a predetermined time interval, the control stand-by power supply module supplies power to a communication module to ensure the steady operation of the communication module.

Another object of the utility model is to provide a communication base station power consumption governing system, wherein when the current time is not when predetermineeing the time interval, when the power supply of the total inlet wire of control to communication assembly, the total inlet wire of control supplies power to stand-by power supply assembly to supply to charge for stand-by power supply assembly.

Another object of the utility model is to provide a communication base station power consumption governing system, wherein when detecting that the current temperature is not when presetting the temperature interval, control temperature adjustment subassembly work to supply the inside temperature of adjustment communication base station, make the inside temperature of communication base station maintain predetermine the temperature interval.

Another object of the utility model is to provide a communication base station power consumption governing system, wherein communication base station power consumption governing system simple structure, the running cost is low.

Correspondingly, in order to realize above at least one utility model purpose, the utility model provides a communication base station power consumption governing system, include:

a power acquisition unit for acquiring power of a communication component, power of a temperature adjustment component, power of a standby power component, and power of an auxiliary device in the communication base station;

a determination unit for determining a magnitude between a first electric power and a preset power, wherein the first electric power is a sum of the power of the communication component, the power of the temperature adjustment component, the power of the standby power component, and the power of the auxiliary device; and

and when the first electric power is larger than or equal to the preset power, the control unit controls the power flow direction between the main inlet wire and the standby power supply assembly, and the main inlet wire stops supplying power to the standby power supply assembly.

In some preferred embodiments of the present invention, the judging unit is further configured to judge a magnitude between a second electric power and the preset power, wherein the second electric power is a sum of the power of the communication component, the power of the temperature adjustment component, and the power of the auxiliary device, and when the second electric power is greater than the preset power, the control unit controls the temperature adjustment component to stop operating.

In some preferred embodiments of the present invention, the power conditioning system for a communication base station further includes a standby power supply control component for controlling the standby power supply component to switch between a power supply state, a charging state and a standby state, wherein the power supply state, the standby power supply component supplies power to the communication component, the charging state, the main line to the standby power supply component charges, the standby state, the standby power supply component neither supplies power to the communication component, the main line also does not charge to the standby power supply component, and when the first electric power is greater than or equal to the preset power, the standby power supply control component controls the standby power supply component to switch to the standby state.

In some preferred embodiments of the present invention, when the sum of the power of the temperature adjustment assembly and the power of the auxiliary device is greater than the preset power, the standby power supply control assembly controls the standby power supply assembly to switch to the power supply state.

In some preferred embodiments of the present invention, the backup power control component is a communication link.

In some preferred embodiments of the present invention, the power consumption adjusting system of the communication base station further includes a temperature adjusting unit operatively connected to the temperature adjusting assembly for controlling the operation of the temperature adjusting assembly.

In some preferred embodiments of the present invention, the power consumption adjusting system of the communication base station further includes a temperature detecting component for detecting the temperature inside the communication base station, and the temperature detecting component is operatively connected to the temperature adjusting unit.

In some preferred embodiments of the present invention, the temperature detection component is a set of temperature sensors.

In some preferred embodiments of the present invention, the power consumption adjusting system of the communication base station further includes a temperature adjusting control component operatively connected to the temperature adjusting unit and the temperature adjusting component for controlling the operation of the temperature adjusting component.

In some preferred embodiments of the present invention, the temperature adjustment control assembly is a set of infrared emission tubes.

In some preferred embodiments of the present invention, the power obtaining unit can further obtain a total power supply of the total incoming line, and the preset power is the total power supply of the total incoming line.

In some preferred embodiments of the present invention, the power consumption adjusting system of the communication base station further includes a temperature adjusting power supply switch for controlling the electrical connection between the main incoming line and the temperature adjusting assembly, and the temperature adjusting power supply switch is operatively connected to the control unit.

According to the utility model discloses an on the other hand, the utility model discloses a communication base station power consumption governing system is further provided, include:

a time acquisition unit for acquiring a current time;

a time judging unit, configured to judge whether the current time is within a preset time interval; and

the control unit controls a standby power supply assembly to supply power to a communication assembly and controls a bus to supply power to a temperature adjusting assembly and an auxiliary device when the current time is within the preset time interval; when the current time is not within the preset time interval, the control unit controls the main incoming line to supply power to the communication assembly, the temperature adjusting assembly and the auxiliary equipment, and controls the main incoming line to charge the standby power assembly.

In some preferred embodiments of the present invention, the power consumption adjusting system of the communication base station further includes a temperature adjusting unit, the temperature adjusting unit is used for determining whether the temperature value inside the communication base station is within a preset temperature interval, and when the temperature inside the communication base station is not within the preset temperature interval, the temperature adjusting unit is controlled to operate to adjust the temperature inside the communication base station.

In some preferred embodiments of the present invention, the power consumption adjusting system of the communication base station further includes a temperature detecting component, and the temperature detecting component is configured to detect the temperature inside the communication base station.

In some preferred embodiments of the present invention, the temperature adjustment assembly is a temperature sensor.

In some preferred embodiments of the present invention, the power consumption adjusting system of the communication base station further includes a temperature adjusting control component, and the temperature adjusting component is configured to control the temperature adjusting component.

In some preferred embodiments of the present invention, the temperature adjustment control assembly is an infrared emitter tube.

In some preferred embodiments of the present invention, the power consumption adjusting system for communication base station further includes a standby power supply control component, the control unit is adapted to control the operation of the standby power supply control component to control the general incoming line and the power flow direction between the standby power supply components, wherein the standby power supply control component is used to control the standby power supply component to switch between a power supply state and a charging state, wherein in the power supply state, the standby power supply component is adapted to supply power to the communication component and the temperature adjusting component, in the charging state, the general incoming line is adapted to charge the standby power supply component.

Other objects and advantages of the present invention will become apparent from the detailed description and drawings.

Drawings

Fig. 1 is a flow chart of a power consumption adjusting method for a communication base station according to a preferred embodiment of the present invention.

Fig. 2 is a schematic diagram of a power utilization regulation flow of a communication base station according to a preferred embodiment of the present invention.

Fig. 3 is a block diagram structure diagram of a power consumption adjusting system of a communication base station according to a preferred embodiment of the present invention.

Fig. 4 is a flowchart illustrating a power conditioning method for a communication base station according to a second preferred embodiment of the present invention.

Fig. 5 is a flowchart illustrating a power conditioning method for a communication base station according to a second preferred embodiment of the present invention.

Fig. 6 is a schematic flow chart of temperature adjustment of a communication base station according to a second preferred embodiment of the present invention.

Fig. 7 is a block diagram schematically illustrating a power consumption adjusting system of a communication base station according to a second preferred embodiment of the present invention.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents and other technical solutions without departing from the spirit and scope of the invention.

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in a generic and descriptive sense only and not for purposes of limitation, as the terms are used in the description to indicate that the referenced device or element must have the specified orientation, be constructed and operated in the specified orientation, and not for the purpose of limitation.

It is understood that the terms "a" and "an" should be interpreted as meaning that a number of one element or element is one in one embodiment, while a number of other elements is one in another embodiment, and the terms "a" and "an" should not be interpreted as limiting the number.

Referring to the attached drawings 1 to 3 of the specification, the utility model provides a communication base station power consumption governing system and regulation method are elucidated, the utility model provides a communication base station power consumption governing method and system can fill in the millet through the peak clipping under the condition that does not change current basic station inlet wire capacity and reduce the communication equipment in the communication base station, reach the purpose of the inside communication equipment steady operation of control communication base station.

Specifically, referring to fig. 1 in the specification, the utility model provides a method for adjusting power consumption of a communication base station according to a first preferred embodiment is illustrated, and in the preferred embodiment, the method for adjusting power consumption of a communication base station includes:

101: acquiring the power consumption of a communication component 201, a temperature regulation component 202, a standby power component 203 and an auxiliary device 204 in the communication base station;

102: obtaining a sum of the power consumption of the communication component 201, the temperature adjustment component 202, the standby power component 203 and the auxiliary device 204 to obtain a first electric power; and

103: and judging the magnitude between the first electric power and a preset power, and when the first electric power is larger than or equal to the preset power, controlling the power flow direction between the main incoming line and the standby power supply component 203, and stopping the main incoming line from supplying power to the standby power supply component 203.

The communication component 201, the temperature regulating component 202, the standby power component 203 and the auxiliary device 204 are respectively provided in the communication base station, wherein the communication component 201 is a communication device, preferably the communication component 201 is a 2G communication device and/or a 3G communication device and/or a 4G communication device and/or a 5G communication device, such as a BBU, an RRU, an AAU or the like. It should be understood by those skilled in the art that in other preferred embodiments of the present invention, the communication component 201 can also be implemented as other types of communication devices, as long as the objects of the present invention can be achieved, and the specific type of the communication component 201 should not constitute a limitation of the present invention.

The mains line is arranged for charging the communication component 201, the temperature regulating component 202, the standby power supply component 203 and the auxiliary device 204 within the communication base station. The main incoming line is electrically connected to the outer grid, preferably the main incoming line has a capacity of 15KVA, AC380V three-phase 5-wire system.

The temperature adjustment component 202 is arranged to adjust the temperature inside the base station so that the communication component 201, the standby power component 203 and the auxiliary device 204 in the base station can operate stably in a relatively stable temperature environment. Preferably, the temperature regulating assembly 202 is an air conditioner. It should be understood by those skilled in the art that in other preferred embodiments of the present invention, the temperature adjustment assembly 202 can also be implemented as other cooling and/or heating devices, and the specific type of the temperature adjustment assembly 202 should not constitute a limitation of the present invention as long as the objects of the present invention can be achieved.

The standby power supply component 203 is configured to supply power to the communication component 201, the temperature adjustment component 202, and/or the auxiliary device 203 when the power supply of the main incoming line is abnormal, so that even when the main incoming line is abnormal, the power supply of the communication component 201, the temperature adjustment component 202, and/or the auxiliary device 203 is not interrupted, and stable operation of the communication base station is ensured.

The auxiliary device 204 is arranged to assist the operation of the communication component 201, the temperature regulating component 202 and the standby power component 203 in the communication base station, assisting the stable operation of the devices in the communication base station, e.g. the auxiliary device 204 can be a lighting device, a ventilation device, a detection device, etc. It should be understood by those skilled in the art that the particular type of auxiliary device 204 should not be construed as limiting the invention.

It is worth mentioning that the utility model discloses in, through control standby power supply component 203 switches each other between a power supply state, a charged state and a standby state, can effectually prevent that the total power consumption power in the communication base station from surpassing total inlet wire power, the stability of effectual assurance communication base station operation. It will be appreciated by those skilled in the art that by controlling the power flow direction between the main incoming line and the standby supply component 203, the standby supply component 203 can be controlled to switch between the power supply state, the charging state and the standby state. When the standby power supply component 203 is in the power supply state, the standby power supply component 203 is electrically connected to the communication component 201 to supply power to the communication component 201; when the standby power supply component 203 is in the charging state, a main incoming line is electrically connected to the standby power supply component 203 to charge the standby power supply component 203. When the standby power supply component 203 is in the standby state, the standby power supply component 203 does not supply power to the temperature adjusting component 202, the main incoming line does not charge the standby power supply component 203, and the standby power supply component 203 is in the standby state.

Specifically, in the step 101, the power consumption of a communication component 201, a temperature adjustment component 202, a standby power component 203, and an auxiliary device 204 in the communication base station is obtained in real time, wherein a bus line is respectively supplied to the communication component 201, the temperature adjustment component 202, the standby power component 203, and the auxiliary device 204. The power consumption of the communication component 201, the temperature adjustment component 202, the standby power component 203 and the auxiliary device 204 is obtained in real time, so as to obtain the power consumption information of the power consumption devices in the communication base station. It is understood that the real-time power value of the communication module 201 can be calculated and obtained by acquiring the real-time current value and the real-time voltage value of the communication module 201 in real time, the real-time power value of the temperature adjustment module 202 can be calculated and obtained by acquiring the real-time current value and the real-time voltage value of the temperature adjustment module 202 in real time, the real-time power value of the standby power module 201 can be calculated and obtained by acquiring the real-time current value and the real-time voltage value of the auxiliary device 204 in real time, and the real-time power value of the auxiliary device 204 can be calculated and obtained by acquiring the real-time current value and the real-time voltage value.

In step 102, the sum of the power consumption of the communication component 201, the temperature adjustment component 202, the standby power component 203 and the auxiliary device 204 is obtained to obtain a first electric power, and after the power consumption of the communication component 201, the temperature adjustment component 202, the standby power component 203 and the auxiliary device 204 is obtained, the sum of the power consumption of the communication component 201, the temperature adjustment component 202, the standby power component 203 and the auxiliary device 204 is calculated to obtain the first electric power.

In step 103, the magnitude between the first electric power and a preset power is determined, when the first electric power is greater than or equal to the preset power, the power flow direction between the main incoming line and the standby power component 203 is controlled, the main incoming line is stopped from supplying power to the standby power component 203, after the first electric power is obtained through calculation, the magnitude between the first electric power and a preset power is compared, and when the first electric power is greater than or equal to the preset power, the power flow direction between the main incoming line and the standby power component 203 is controlled, so that the main incoming line is stopped from supplying power to the standby power component 203. It can be understood that, when the first preset power is greater than or equal to the preset power, it indicates that the sum of the power consumptions of the communication component 201, the temperature adjustment component 202, the standby power component 203, and the auxiliary device 204 exceeds the preset power level, that is, the sum of the power consumptions in the communication base station exceeds the preset power supply power of the base station, and there is a case that the power supply amount is less than the power consumption amount, which results in insufficient power supply of the power consumptions in the communication base station, and normal operation of the device is affected. In the preferred embodiment, when the first electric power is greater than or equal to the preset power, the power flow direction between the main incoming line and the standby power supply component 203 is controlled, and the main incoming line is stopped from charging the standby power supply component 203, so that the power supply of the main incoming line can meet the power consumption requirements of the communication component 201, the temperature adjustment component 202 and the auxiliary device 204, and the communication component 201, the temperature adjustment component 202 and the auxiliary device 204 can stably operate.

It should be noted that, in the preferred embodiment, the method for adjusting power consumption of a communication base station further includes 104: and acquiring the total power supply power of the total incoming line, wherein the preset power value is the total power supply power of the total incoming line.

That is, in step 103, the first electric power is compared with the total power supply power of the main incoming line, and when the first electric power is greater than or equal to the total power supply power of the main incoming line, the power flow direction between the main incoming line and the standby power supply component 203 is controlled, and the power supply from the main incoming line to the standby power supply component 203 is stopped, so that the total power supply power of the main incoming line can meet the power demand of the communication component 201, the temperature adjustment component 202, and the auxiliary device 204. It will be appreciated by those skilled in the art that in other preferred embodiments of the present invention, the predetermined power can also be implemented to a value less than the total incoming line power, for further ensuring that the value of the first electric power does not exceed the total supply power of the total incoming line.

Further, the power utilization adjusting method for the communication base station further comprises the following steps:

105: judging the magnitude of a second electric power and the preset power, wherein the second electric power is the sum of the power of the communication component 201, the power of the temperature adjusting component 203 and the power of the auxiliary equipment 204, and controlling the temperature adjusting component 202 to stop working when the second electric power is larger than or equal to the preset power.

It should be noted that, as will be understood by those skilled in the art, when the second electric power is greater than or equal to the preset power, that is, the sum of the power of the communication component 201, the power of the temperature adjustment component 202 and the power of the auxiliary device 204 exceeds the preset power, that is, the preset power supply of the main line cannot meet the power demand of the communication component 201, the temperature adjustment component 202 and the auxiliary device 204. Therefore, when the second electric power is greater than or equal to the preset power, the temperature adjustment assembly 202 is controlled to stop working, so that the total power supply power of the total incoming line can meet the power demand of the communication assembly 201 and the auxiliary equipment 204.

106: acquiring the temperature inside the communication base station;

107: in response to that the temperature inside the communication base station is not within a preset temperature interval, controlling the temperature adjustment component 202 to operate so as to adjust the temperature inside the communication base station, so that the temperature inside the communication base station is maintained within the preset temperature interval.

In step 107, in response to the temperature inside the communication base station not being within a preset temperature interval, the temperature adjustment component 202 is controlled to operate, and in response to the temperature inside the communication base station not being within a preset temperature interval, the standby power supply component 203 is controlled to supply power to the temperature adjustment component 202, so that the temperature adjustment component 202 operates.

In a modified embodiment of the present invention, in the step 107, in response to the temperature inside the communication base station not being within a preset temperature range, the temperature adjustment component 202 is controlled to operate, in response to the temperature inside the communication base station not being within a preset temperature range, the bus line is controlled to supply power to the temperature adjustment component 202, so that the temperature adjustment component 202 operates.

It should be noted that, in this modified embodiment, when the total incoming line supplies power to the temperature adjustment assembly 202, and when the second electric power is greater than or equal to the total supply power of the total incoming line, that is, the sum of the power of the communication assembly 201, the temperature adjustment assembly 202, and the power of the auxiliary device 204 exceeds the preset power, the standby power assembly 203 is controlled to stop operating, and is also controlled to be electrically connected to the temperature adjustment assembly 202, so that the standby power assembly 203 supplies power to the temperature adjustment assembly 202, so as to guarantee the temperature adjustment assembly 202 to adjust the temperature inside the communication base station.

Further, when the sum of the power of the communication component 201 and the power of the auxiliary device 204 is greater than the preset power, the standby power control component 13 controls the standby power component 203 to switch to the power supply state, so that the standby power component 203 supplies power to the communication component 201, and the communication component 201 operates stably.

It should be noted that the internal temperature of the communication base station has a great influence on the operation of the communication component 201, the temperature adjustment component 202, the standby power component 203 and the auxiliary device 204 in the communication base station, and the internal temperature of the communication base station, whether being too high or too low, may affect the normal operation of the devices in the communication base station, so that the internal temperature of the communication base station needs to be maintained within a preset temperature interval to ensure the stable operation of the electric devices in the communication base station.

Specifically, when the temperature inside the communication base station is greater than the maximum temperature value of the preset temperature interval, the temperature adjustment component 202 is controlled to operate so as to reduce the temperature inside the communication base station; when the temperature inside the communication base station is smaller than the minimum temperature value in the preset temperature interval, controlling the temperature adjusting component 202 to work so as to raise the temperature inside the communication base station, so that the temperature inside the communication base station is maintained in the preset temperature interval.

Further, in the step 106, the step of obtaining the temperature inside the communication base station is obtained by a temperature detecting component 11 disposed inside the communication base station, wherein the temperature detecting component 11 is disposed inside the communication base station and is used for detecting the temperature inside the communication base station. Preferably, the temperature detection assembly 11 is a set of temperature sensors.

In the step 107, in response to that the temperature inside the communication base station is not within a preset temperature interval, in the step of controlling the operation of the temperature adjustment component 202, when the temperature inside the communication base station is not within the preset temperature interval, the operation of a group of temperature adjustment control components 12 is controlled to control the operation of the temperature adjustment component 202. Preferably, the temperature regulation control assembly 12 is a set of infrared emitting tubes.

Specifically, the temperature regulation control assembly 12 is configured to control the operation of the temperature regulation assembly 202, and the temperature regulation control assembly 12 is adapted to emit infrared light for controlling the operation of the temperature regulation assembly 202. Further, when the temperature inside the communication base station is not within the preset temperature range, the temperature adjustment control component 12 operates to emit corresponding infrared light to control the operation of the temperature adjustment component 202, so that the temperature inside the base station is maintained within the preset temperature range. It should be understood by those skilled in the art that in other embodiments of the present invention, the thermostat control assembly 12 can also be implemented as other types of control assemblies, as long as the objectives of the present invention are achieved, and the specific type of thermostat control assembly 12 should not constitute a limitation of the present invention.

Further, in the step 103, when the first electric power is greater than or equal to the preset power, controlling a power flow direction between the main incoming line and the standby power supply component 203, and stopping the main incoming line from supplying power to the standby power supply component 203, when the first electric power is greater than or equal to the preset power, controlling a standby power supply control component 13 to change the power flow direction between the main incoming line and the standby power supply component 203, and stopping the main incoming line from supplying power to the standby power supply component 203. Preferably, the backup power control component 13 is a communication link.

Specifically, the standby power supply control assembly 13 is configured to control the standby power supply assembly 203 to switch between the power supply state and the charging state. When the first electric power is greater than or equal to the preset power, the standby power supply control assembly 13 controls the standby power supply assembly 203 to be switched to the standby state, so as to control the power flow direction between the main incoming line and the standby power supply assembly 203, and stop the main incoming line from charging the standby power supply assembly 203.

In response to that the temperature inside the communication base station is not within a preset temperature range, controlling the standby power supply component 203 to supply power to the temperature adjustment component 202, so that in the operating step of the temperature adjustment component 202, in response to that the temperature inside the communication base station is not within the preset temperature range, controlling the standby power supply component 203 to supply power to the temperature adjustment component 202 through the standby power supply control component 13, so that the temperature adjustment component 202 operates to adjust the temperature inside the communication base station.

Referring to the accompanying drawing 3, according to another aspect of the present invention, the present invention further provides a power consumption adjusting system for a communication base station, which is used for adjusting power supply in the communication base station. Specifically, the power utilization adjusting system of the communication base station includes a power acquiring unit 21, a determining unit 22 and a control unit 23, wherein the power acquiring unit 21 is configured to acquire power of a communication component 201, power of a temperature adjusting component 202, power of a standby power component 203 and power of an auxiliary device 204 in the communication base station; the determining unit 22 is configured to determine whether a first electric power is greater than or equal to a preset power, and when the first electric power is greater than or equal to the preset power, the control unit 23 controls a power flow direction between a main incoming line and the standby power supply component 202, and stops the main incoming line from charging the standby power supply component 203. It should be noted that the general line is operatively connected to the communication component 201, the temperature adjustment component 202, the standby power component 203, and the auxiliary device 204, respectively, for supplying power to the communication component 201, the temperature adjustment component 202, the standby power component 203, and the auxiliary device 204, respectively.

Specifically, the power obtaining unit 21 further includes a communication power obtaining module 211, a temperature adjustment power obtaining module 212, a standby power obtaining module 213, and an auxiliary device power obtaining module 214, where the communication power obtaining module 211 is configured to obtain power of the communication component 201, the temperature adjustment power obtaining module 212 is configured to obtain power of the temperature adjustment component 202, the standby power obtaining module 213 is configured to obtain power of the standby power component 203, and the auxiliary device power obtaining module 214 is configured to obtain power of the auxiliary device 204.

The determining unit 22 is operatively connected to the communication power obtaining module 211, the temperature adjusting power obtaining module 212, the standby power obtaining module 213, and the auxiliary device power obtaining module 214, and is configured to obtain the power of the communication component 201, the power of the temperature adjusting component 202, the power of the standby power component 203, and the power of the auxiliary device 204, respectively.

It is understood that the power of the communication component 201, the temperature adjustment component 202, the standby power component 203 and the auxiliary device 204 can be obtained by obtaining the voltage value and the current value of the communication component 201, the temperature adjustment component 202, the standby power component 203 and the auxiliary device 204, respectively, and then by calculating.

Preferably, the preset power is a total power supply power of the main incoming line, that is, the determining unit compares the first electric power with the total power supply power of the main incoming line, and when the first electric power is greater than or equal to the total power supply power, the control unit 23 controls to change a power flow direction between the main incoming line and the standby power supply component 202, and stops the main incoming line from charging the standby power supply component 203.

Correspondingly, the power obtaining unit 21 is further operatively connected to the mains line for detecting the mains supply power of the mains line.

The power obtaining unit 21 further includes a total incoming line power obtaining module 215, where the total incoming line power obtaining module 215 is configured to obtain the total power supply of the total incoming line. It is understood that the total power supply of the total incoming line acquired by the total incoming line power acquiring module 215 is also the actual power supply of the total incoming line.

In other preferred embodiments of the present invention, the preset power can also be a power value smaller than the total power supply of the total incoming line, so as to further ensure that the first electric power does not exceed the total power supply of the total incoming line, and ensure that the electric equipment in the communication base station can obtain sufficient power supply.

Further, after the total incoming line is stopped to provide the power supply to the standby power supply component 203, the determining unit 22 can further determine whether a second electrical power is greater than or equal to the preset power, where the second preset power is a sum of the power of the communication component 201, the power of the temperature adjusting component 202, and the power of the auxiliary device 204, and when the second electrical power is greater than or equal to the preset power, the control unit 23 controls the temperature adjusting component 202 to stop working, that is, stop cooling or heating, so as to reduce power consumption, so that the total power supply power of the total incoming line can meet the power demand of the communication component 201 and the auxiliary device 204.

The control unit 23 is operably connected to a standby power control assembly 13, and the standby power control assembly 13 is configured to control the standby power assembly 203 to switch between a power supply state, a charging state and a standby state. When the standby power supply component 203 is in the power supply state, the standby power supply component 203 is electrically connected to the communication component 201 to supply power to the communication component 202; when the standby power supply component 203 is in the charging state, a main incoming line is electrically connected to the standby power supply component 203 to charge the standby power supply component 203. When the standby power supply component 203 is in the standby state, the standby power supply component 203 does not supply power to the temperature adjusting component 202, the main incoming line does not charge the standby power supply component 203, and the standby power supply component 203 is in the standby state.

When the first electric power is greater than the preset power, the control unit 23 sends a corresponding control instruction to the standby power supply control assembly 13, and the standby power supply control assembly 13 switches the standby power supply assembly 203 to the standby state, so as to change the power flow direction between the main incoming line and the standby power supply assembly 203 and stop charging the standby power supply assembly 203.

When the second electric power is larger than the preset power, the control unit 23 sends a corresponding control command to the standby power control assembly 13, and a temperature adjusting power supply switch 14 is adapted to obtain the control command and control the temperature adjusting assembly 202 to stop working. Wherein the thermostat power supply switch 14 is used to control the operation of the main line and the thermostat assembly 202.

Further, the power utilization regulating system of the communication base station further includes a temperature regulating unit 24, where the temperature regulating unit 24 is configured to enable the temperature in the communication base station to be maintained within a preset temperature range, so as to provide a stable temperature environment for the power utilization equipment in the communication base station, so as to enable the power utilization equipment in the communication base station to stably operate.

Specifically, the temperature adjustment unit 24 further includes a temperature acquisition module 241, a temperature determination module 242, and a temperature determination module 243, where the temperature acquisition module 241 is configured to acquire temperature data in the communication base station, the temperature determination module 242 is configured to determine whether the temperature in the communication base station is within a preset temperature interval, and when the temperature in the communication base station is not within the preset temperature interval, the temperature control module 243 controls the temperature adjustment assembly 202 to operate so as to adjust the temperature inside the communication base station, so that the temperature inside the communication base station is maintained within the preset temperature interval, and thus the electric device in the communication base station can operate in a stable temperature environment.

Specifically, the temperature obtaining module 241 is operatively connected to a set of temperature detecting components 11, the temperature detecting components 11 are disposed inside the communication base station for detecting the temperature inside the communication base station, and the temperature obtaining module 241 is adapted to obtain the temperature data inside the communication base station detected by the temperature detecting components 11 from the temperature detecting components 11. It will be appreciated by those skilled in the art that in other preferred embodiments of the present invention, the temperature sensing assembly 11 can also be implemented as other temperature acquisition devices or assemblies.

The temperature control module 243 is operably connected to a temperature adjustment control component 12, and the temperature adjustment control component 12 is configured to obtain a temperature control command sent by the temperature control module 243, and control the operation of the temperature adjustment component 202, so as to adjust the temperature inside the communication base station, so that the temperature inside the communication base station is maintained within the preset temperature interval.

Specifically, the temperature adjustment control component 12 is adapted to emit infrared rays after acquiring the temperature control command emitted by the temperature control module 243, so as to control the operation of the temperature adjustment component 202 and adjust the temperature inside the communication base station. It should be understood by those skilled in the art that in other preferred embodiments of the present invention, the thermostat control assembly 12 can also be implemented as other control assemblies or devices, as long as the utility purpose of the present invention can be achieved, and the specific type of thermostat control assembly 12 should not constitute a limitation of the present invention.

Further, when the temperature in the communication base station is not within the preset temperature interval and the second electric power is less than the preset power, the temperature control module 243 controls the temperature adjustment power supply switch 14 to be in a conducting state, so that the main cable is electrically connected to the temperature adjustment assembly 202 to supply power to the temperature adjustment assembly 202. When the temperature in the communication base station is not within the preset temperature interval and the second electric power is greater than or equal to the preset power, the control unit 23 controls the backup power supply control component 13 to supply electric energy to the temperature adjustment component 202 from the backup power supply component 203, so that the temperature adjustment component 202 operates to adjust the temperature inside the communication base station.

It should be noted that the standby power control module 13 further has a function of detecting a capacitance of the standby power module 203, and when the capacitance of the standby power module 203 is smaller than a preset capacitance and the first electric power is smaller than the preset power, the control unit 23 controls the standby power control module 13 to switch to the charging state, so that the main line is electrically connected to the standby power module 203 to charge the standby power module 203.

It should be noted that the power conditioning system for the communication base station, the temperature detection component 11, the temperature conditioning control component 12, the standby power control component 13, and the temperature conditioning power supply switch 14 form a power conditioning device for the communication base station, which is used for adjusting the power supply of the communication base station.

Referring to fig. 4 to fig. 6 in the specification, the utility model provides a method for adjusting power consumption of a communication base station according to a second preferred embodiment is explained, in the second preferred embodiment, the method for adjusting power consumption of a communication base station includes:

201: judging whether the current time is within a preset time interval or not;

202: in response to the current time being within the preset time interval, powering a communication component 201 via a standby power component 203, and powering a temperature adjustment component 202 and an auxiliary device 204 via the bus; and

203: in response to the current time not being in the preset time interval, the communication component 201, the temperature adjustment component 202 and the auxiliary device 204 are powered via the main line, and the standby power component 203 is charged via the main line.

In step 202, judge whether current time is in a preset time interval, wherein the preset time interval is the time of external power grid power consumption peak, for example eight morning to eight evening, and those skilled in the art should understand that in other preferred embodiments of the present invention, the preset time interval can also be implemented as other time intervals, as long as the utility model aims at, the scope of the preset time interval should not constitute the limitation of the present invention. In other preferred embodiments of the present invention, the number of preset time intervals can also be implemented as a plurality of different time intervals. In other words, the step 201 is to determine whether the current time is in peak electricity utilization time.

In step 201, in response to the current time being in the preset time interval, a standby power component 203 is used to supply power to a communication component 201, and a thermostat 202 and an auxiliary device 204 are supplied with power via a bus, that is, when the current time is in the preset time interval, that is, the current time is in a peak power utilization time, the standby power component 203 is used to supply power to the communication component 201, and the thermostat 202 and the auxiliary device 204 are supplied with power via the bus.

It can be understood that, during peak time of power consumption of the external power grid, there may be problems of unstable voltage, insufficient power supply, etc. in the power supplied from the main line, therefore, when the current time is within the preset time interval, the standby power supply module 203 is used to supply power to the communication module 201, so that the communication module 201 can operate stably and provide stable communication signals. The main incoming line is used for supplying power to the temperature adjusting assembly 202 and the auxiliary equipment 204, and the power supply capacity of the main incoming line is far smaller than that of the main incoming line, so that the stable operation of electric equipment in a packaging communication base station can be guaranteed in the peak time of external network power utilization.

In step 203, in response to the current time not being in the preset time interval, the communication component 201, the temperature adjustment component 202 and the auxiliary device 204 are powered by the main line, and the standby power supply component 203 is charged by the main line, that is, when the current time is not in the preset time interval, that is, the current time is not in the peak time of the power consumption of the external power grid, the communication component 201, the temperature adjustment component 202, the auxiliary device 204 and the standby power supply component 203 are powered by the main line. That is to say, when the current time is not within the preset time interval, the main incoming line not only needs to supply power to the communication component 201, the temperature adjustment component 202, and the auxiliary device 204 in the communication base station, but also needs to charge the standby power component 203 to supplement the electric quantity of the standby power component 203.

Further, the method for adjusting power consumption of a communication base station in the second preferred embodiment further includes:

204: acquiring the current temperature inside a communication base station;

205: judging whether the current temperature inside the communication base station is within a preset temperature interval or not;

206: and in response to that the current temperature inside the communication base station is not within the preset temperature interval, controlling the temperature adjusting component 202 to work so as to adjust the temperature inside the communication base station.

In step 206, in response to that the temperature inside the communication base station is not within the preset temperature interval, the temperature adjustment component 202 is controlled to operate so as to adjust the temperature inside the communication base station, that is, when the temperature inside the communication base station is not within the preset temperature interval, the temperature adjustment component 202 is controlled to operate so as to adjust the temperature inside the communication base station.

Specifically, when the temperature value inside the communication base station is greater than the maximum temperature value within the preset temperature range, the temperature adjustment assembly 202 is controlled to cool, so as to reduce the temperature inside the communication base station. When the temperature value inside the communication base station is smaller than the minimum temperature value in the preset temperature interval, the temperature adjusting assembly 202 is controlled to heat so as to increase the temperature inside the communication base station.

It can be understood that the electric devices in the communication base station can operate stably only when the temperature in the communication base station is maintained within a stable temperature range, and therefore, the temperature adjusting module is controlled to adjust the temperature in the communication base station when the temperature in the communication base station is not within the preset temperature range.

207: and controlling the temperature adjusting component to be closed in response to the temperature inside the communication base station being within the preset temperature interval.

In step 207, in response to that the temperature inside the communication base station is within the preset temperature interval, the temperature adjustment component is controlled to be turned off, that is, when the temperature inside the communication base station is between the maximum temperature value and the minimum temperature value of the preset temperature interval, the temperature adjustment component 202 is controlled to be turned off, so as to reduce the power consumption of the main line.

Referring to fig. 7 of the specification, the power regulation system for a communication base station according to the second preferred embodiment of the present invention is illustrated, and in the second preferred embodiment, the power regulation system for a communication base station includes a time obtaining unit 31, a time judging unit 32 and a control unit 33, wherein the time obtaining unit 31 is configured to obtain a current time, the time judging unit 32 is configured to judge whether the current time is within a preset time interval, and when the judging unit 32 judges that the current time is within the preset time interval, the control unit 33 controls a standby power supply module 203 to supply power to a communication module 201, and controls a bus to supply power to a temperature regulation module 202 and an auxiliary device 204; when the determining unit 32 determines that the current time is not within the preset time interval, the main incoming line is controlled to supply power to the communication component 201, the temperature adjusting component 202 and the auxiliary device 204, and the main incoming line is controlled to charge the standby power component 203.

Specifically, the preset time interval is the time of the peak of the power consumption of the external power grid, for example, eight morning to eight evening, and those skilled in the art should understand that, in the other preferred embodiments of the present invention, the preset time interval can also be implemented as other time intervals as long as the objects of the present invention can be achieved, the range of the preset time interval should not constitute the limitation of the present invention. In other preferred embodiments of the present invention, the number of preset time intervals can also be implemented as a plurality of different time intervals.

When the current time is within the preset time interval, that is, the current time is in an external power grid peak time, and the external power grid power supply is in an unstable period, the standby power supply module 203 is controlled to supply power to the communication module 201, and the main incoming line is controlled to supply power to the temperature adjustment module 202 and the auxiliary device 204, so that the communication module 201 can operate stably, and the power consumption of the temperature adjustment module 202 and the auxiliary device 204 is much less than the power consumption of the main incoming line.

When the current time is not within the preset time interval, that is, the current time is in the off-peak time of the external power grid, the main incoming line is controlled to supply power to the communication component 201, the temperature adjustment component 203 and the auxiliary device 204, and meanwhile, the main incoming line is controlled to supply power to the standby power supply component 203 to charge the standby power supply component 203. It is understood that when the current time is in the off-peak hours of the external power grid, the power supply of the main line can satisfy the operations of the communication component 201, the temperature adjustment component 203, the auxiliary device 204, and the temperature adjustment component 202.

Further, the power consumption adjusting system of the communication base station further includes a temperature adjusting unit 24, where the temperature adjusting unit 24 is configured to adjust the temperature inside the communication base station and control the temperature inside the communication base station to be maintained within a preset temperature range.

Specifically, the temperature adjusting unit 24 further includes a temperature obtaining module 241, a temperature judging module 242, and a temperature control module 243, where the temperature obtaining module 21 is configured to obtain the temperature inside the communication base station, the temperature judging unit 242 is configured to judge whether the temperature value inside the communication base station is within the preset temperature interval, and when the temperature value inside the communication base station is not within the preset temperature interval, the temperature control module 243 controls the temperature adjusting assembly 202 to operate so as to adjust the temperature inside the communication base station, so that the temperature inside the communication base station is maintained within the preset temperature range. When the temperature inside the communication base station is within the preset temperature range, the temperature control module 243 controls the temperature adjustment component 203 to stop working, so as to save the consumption of electric energy.

Specifically, the power consumption adjusting system of the communication base station, a temperature detecting component 11, a temperature adjusting control component 12, a standby power control component 13 and a temperature adjusting power supply switch 14 form a power consumption adjusting device of the communication base station.

Further, the temperature detecting component 11 is configured to detect the temperature inside the communication base station, and the temperature detecting component 11 is operably connected to the temperature acquiring module 241 of the temperature adjusting unit 24, and the temperature acquiring module 241 can acquire the temperature data inside the communication base station detected by the temperature detecting component 11. Preferably, the temperature detection assembly 11 is a set of temperature sensors.

The temperature adjustment control assembly 12 is configured to control the operation of the temperature adjustment assembly 202, and the temperature adjustment control assembly 12 is operatively connected to the temperature control module 243 of the temperature adjustment unit 24, and the temperature adjustment control assembly 12 is configured to obtain a control command sent by the temperature control module 243 to control the operation of the temperature adjustment assembly 202.

Preferably, the temperature adjustment control assembly 12 is an infrared emitting assembly for emitting corresponding infrared rays after acquiring the temperature control command emitted by the temperature control module 243, so as to control the operation of the temperature adjustment assembly 202.

The standby power control module 13 is configured to control the standby power module 203 to switch between a power supply state, a charging state and a standby state, and the standby power control module 13 is operably connected to the control unit 23 for obtaining corresponding control commands from the control unit 23. Wherein when the standby power supply component 203 is in the power supply state, the standby power supply component 203 is electrically connected to the temperature adjustment component 202 and the communication component 201 to supply power to the temperature adjustment component 202 and the communication component 201; when the standby power supply component 203 is in the charging state, a main incoming line is electrically connected to the standby power supply component 203 to charge the standby power supply component 203. When the standby power supply component 203 is in the standby state, the standby power supply component 203 does not supply power to the temperature adjusting component 202, the main incoming line does not charge the standby power supply component 203, and the standby power supply component 203 is in the standby state.

Preferably, the backup power control component 13 is a communication link. Further, the backup power supply control unit 13 can acquire information on the capacitance of the backup power supply unit 203.

The thermostat power supply switch 14 is provided for controlling the operating state of the thermostat assembly 202, i.e., controlling the thermostat assembly 202 to cool or heat. And the temperature-adjusting power supply switch 14 is operatively connected to the control unit 23, the control unit 23 being adapted to control the operating state of the temperature-adjusting power supply switch 14.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

It will be understood by those skilled in the art that the embodiments of the present invention as described above and shown in the drawings are given by way of example only and are not limiting of the present invention. The objects of the present invention have been fully and effectively accomplished. The functional and structural principles of the present invention have been shown and described in the embodiments without departing from the principles, embodiments of the present invention may have any deformation or modification.

Claims

1. A power consumption regulation system for a communication base station, comprising:

and the control unit controls the power flow direction between a general inlet wire and the standby power supply assembly when the first electric power is greater than or equal to the preset power, and stops the general inlet wire from supplying power to the standby power supply assembly.

2. The power consumption adjustment system for communication base station according to claim 1, wherein the determination unit is further configured to determine a magnitude between a second electrical power and the preset power, wherein the second electrical power is a sum of the power of the communication component, the power of the temperature adjustment component, and the power of the auxiliary device, and the control unit controls the temperature adjustment component to stop operating when the second electrical power is greater than the preset power.

3. The system of claim 2, further comprising a standby power control component configured to control the standby power component to switch between a power supply state, a charging state, and a standby state, wherein in the power supply state, the standby power component supplies power to the communication component, in the charging state, the main line supplies power to the standby power component, in the standby state, the standby power component neither supplies power to the communication component nor supplies power to the main line nor to the standby power component, and when the first power level is greater than or equal to the predetermined power level, the standby power control component controls the standby power component to switch to the standby state.

4. The power conditioning system for the communication base station according to claim 3, wherein the backup power supply control module controls the backup power supply module to switch to the power supply state when a sum of the power of the temperature conditioning module and the power of the auxiliary device is greater than the preset power.

5. The power management system of claim 3, wherein the backup power control component is a communication link.

6. The system of claim 2, further comprising a temperature adjustment unit operably connected to the temperature adjustment assembly for controlling the operation of the temperature adjustment assembly.

7. The system of claim 6, further comprising a temperature detection component for detecting a temperature inside the communication base station, wherein the temperature detection component is operably connected to the temperature adjustment unit.

8. The system of claim 7, wherein the temperature sensing component is a set of temperature sensors.

9. The system of claim 6, further comprising a temperature regulation control assembly operably connected to said temperature regulation unit and said temperature regulation assembly for controlling the operation of said temperature regulation assembly.

10. The system of claim 9, wherein the temperature regulation control component is a set of infrared emission tubes.

11. The power utilization regulating system for the communication base station as claimed in any one of claims 1 to 9, wherein the power obtaining unit is further capable of obtaining a total power supply of the main incoming line, and the preset power is the total power supply of the main incoming line.

12. The system of claim 11, further comprising a temperature regulation power supply switch for controlling electrical connection between said main line and said temperature regulation assembly, and said temperature regulation power supply switch is operably connected to said control unit.

13. A power consumption regulation system for a communication base station, comprising:

a time acquisition unit for acquiring a current time;

14. The system according to claim 13, further comprising a temperature adjusting unit, wherein the temperature adjusting unit is configured to determine whether the temperature value inside the communication base station is within a preset temperature range, and control the temperature adjusting component to operate when the temperature inside the communication base station is not within the preset temperature range, so as to adjust the temperature inside the communication base station.

15. The system of claim 14, further comprising a temperature detecting component configured to detect a temperature inside the communication base station.

16. The system of claim 14, wherein the temperature regulating component is a temperature sensor.

17. The system of claim 14, further comprising a temperature adjustment control component configured to control the temperature adjustment component.

18. The system of claim 17, wherein the temperature regulation control component is an infrared emitter tube.

19. The system of claim 13, further comprising a backup power control module, wherein the control unit is adapted to control the operation of the backup power control module to control the power flow between the main line and the backup power module, wherein the backup power control module is adapted to control the backup power module to switch between a power supply state and a charging state, wherein in the power supply state, the backup power module is adapted to supply power to the communication module and the temperature adjustment module, and in the charging state, the main line is adapted to charge the backup power module.

20. The system of claim 19, wherein the backup power control component is a communication link.