CN213484583U - Comprehensive management system of 5G base station - Google Patents

Abstract

The utility model discloses a comprehensive management system of 5G basic station, its technical scheme main points are including: the monitoring unit, the management unit that gives up electricity, the energy consumption measurement unit, the power management unit, automatically cleaning unit, the monitoring unit respectively with the management unit that gives up electricity, the energy consumption measurement unit, the power management unit, automatically cleaning unit is coupled, the management unit that gives up electricity is used for controlling the basic station and carries out the operation of giving down electricity, the energy consumption measurement unit is used for carrying out the electric current measurement to the basic station, the power management unit is used for carrying out the on-off control of power, automatically cleaning unit is used for carrying out cleaning operation to power supply unit air inlet end, this integrated management system can carry out the operation such as automatically cleaning maintenance and give down electricity control, energy consumption measurement to the basic station.

Description

Comprehensive management system of 5G base station

Technical Field

The utility model relates to a management system, more specifically say, it relates to a comprehensive management system of 5G basic station.

Background

Along with the development of communication construction, the quantity of communication base stations increases, and the demand of base station power consumption is bigger and bigger, especially the increase of 5G base station construction demand, original 4G base station coverage radius: 1-3 KM, and the coverage radius of 5G base station: 100-300 meters, the equipment power of the base station is larger than that of a 4G base station, the power consumption of the base station is greatly increased regardless of the macro base station, the micro base station and the power consumption, millions of stations are required to be added by each operator, the huge number of base stations brings huge examination to the base station maintenance and the base station energy consumption control, and 1, the ventilation effect inside the power distribution cabinet caused by the accumulation of dust at the air inlet of a power supply device (a power supply cabinet and a power supply box) of the base station is reduced, so that the whole heat dissipation function is influenced; 2. how to reduce the energy consumption of the 5G base station; 3. how to solve the problems of load power consumption measurement and electric charge sharing of multiple operators of a 5G shared base station.

Therefore, a management system suitable for a 5G base station is urgently needed, and the management system needs to automatically perform cleaning maintenance on a power supply device and perform power-off control, energy consumption metering and the like on the base station.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a comprehensive management system of 5G basic station, this comprehensive management system can carry out the automatically cleaning to power supply unit and maintain and carry out operations such as electric control, energy consumption measurement down to the basic station.

In order to achieve the above purpose, the utility model provides a following technical scheme: an integrated management system of a 5G base station comprises: the system comprises a monitoring unit, a power-off management unit, an energy consumption metering unit, a power management unit and a self-cleaning unit;

the monitoring unit is respectively coupled with the power-off management unit, the energy consumption metering unit, the power supply management unit and the self-cleaning unit;

the power-off management unit is used for controlling the base station to carry out power-off operation;

the energy consumption metering unit is used for metering the current of the base station;

the power supply management unit is used for controlling the on and off of the power supply;

and the self-cleaning unit is used for cleaning the air inlet end of the power supply device.

The utility model discloses further set up to: the power management unit is including parallelly connected first rectifier module and the second rectifier module who sets up, the input of first rectifier module and second rectifier module is equallyd divide and is do not coupled with commercial power live wire and commercial power zero line, the output of first rectifier module and second rectifier module is coupled with the monitor cell through the CAN bus, the output of first rectifier module and second rectifier module still is coupled with the signal device of basic station for carry out the power supply operation to signal device, signal device is coupled with the administrative unit that gives off the electricity, is used for receiving the lower signal of telecommunication that the administrative unit sent under the electricity.

The utility model discloses further set up to: the output ends of the first rectifying module and the second rectifying module are also coupled with a storage battery pack, and the output end of the storage battery pack is coupled with the monitoring unit and used for providing a standby power supply for the monitoring unit when the mains supply is powered off.

The utility model discloses further set up to: the power-off management unit comprises a timing power-off module, a remote power-off module and a voltage power-off module;

the voltage lower electric module is coupled with the storage battery pack and used for monitoring voltage information in the storage battery pack.

The utility model discloses further set up to: the energy consumption metering unit comprises an alternating current metering module for monitoring the alternating current power consumption condition and a direct current metering module for monitoring the direct current power consumption condition.

The utility model discloses further set up to: the monitoring unit is further coupled with a water immersion monitoring module, a temperature and humidity monitoring module and a smoke sensing monitoring module, and the water immersion monitoring module is arranged at the position of an air inlet end of the power supply device.

The utility model discloses further set up to: the automatically cleaning unit is including setting up the shell body in the basic station, be provided with an air intake and an air outlet on the shell body, and this internal installation cavity that communicates with air intake and air outlet respectively that is provided with of shell, the air intake is provided with the first piece of filtering that is used for filtering large granule debris, the air outlet is provided with the second that is used for filtering small granule debris and filters piece, fixed mounting has driving motor in the installation cavity, driving motor is including two pivots, two the pivot sets up towards air intake and air outlet respectively, and two all be provided with the cleaning brush in the pivot, two the one end that driving motor was kept away from to the cleaning brush filters the piece butt with first piece of filtering and second respectively.

The utility model discloses further set up to: install the air-out fan that bloies to the air intake and the air inlet fan of strengthening the air inlet effect on the shell body, the second filters one side that the piece installation is close to the air intake to the air outlet, air-out fan and air inlet fan install in proper order in the one side that the air intake is kept away from to the air outlet, air inlet fan is located between air-out fan and the air outlet, be provided with the mounting structure who supplies air-out fan and air inlet fan installation on the shell body, the last sliding structure who supplies air inlet fan to slide and the driving piece that is used for driving air inlet fan to slide that is provided with of mounting structure, the driving piece is.

The utility model discloses further set up to: the water logging monitoring module is coupled with air outlet fan and driving piece respectively, and when the water logging monitoring module was triggered, driving piece drive air inlet fan moved and air outlet fan started to keeping away from air outlet fan direction.

The utility model discloses further set up to: the humiture monitoring module is coupled with air inlet fan and driving piece respectively, and the driving piece drive air inlet fan moves and the air inlet fan starts to being close to air outlet fan direction when humiture monitoring module detects the inside high temperature in basic station.

To sum up, the utility model discloses following beneficial effect has: the self-cleaning capability is provided, the equipment is not easy to overheat due to dust accumulation, the current can be measured, and the operation state of the base station and the state of a peripheral circuit can be comprehensively known; various power-off operations are realized, the effects of energy conservation and emission reduction are achieved, and the sustainable development concept is met.

Drawings

FIG. 1 is a schematic diagram of an integrated management system;

FIG. 2 is a schematic diagram of a portion of a circuit connection of the integrated management system;

FIG. 3 is a schematic perspective view of a power box;

fig. 4 is a schematic view of a matching structure of the air outlet fan and the air inlet fan.

Reference numerals: 1. a monitoring unit; 11. a water immersion monitoring module; 12. a temperature and humidity monitoring module; 13. a smoke detection monitoring module; 2. a power down management unit; 21. powering off the module at regular time; 22. a remote control power-off module; 23. a voltage power-down module; 3. an energy consumption metering unit; 31. an exchange metering module; 32. a direct current metering module; 4. a power management unit; 41. a first rectifying module; 42. a second rectification module; 5. a self-cleaning unit; 51. a housing body; 52. an air inlet; 521. a first filter member; 53. an air outlet; 531. a second filter member; 54. installing a cavity; 55. a drive motor; 551. a cleaning brush; 56. an air outlet fan; 57. an air intake fan; 6. a signaling device; 7. a battery pack; 8. a drive member; 81. a guide bar; 82. a screw; 83. rotating the motor; 9. a mounting structure; 91. and (5) a sliding structure.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. In which like parts are designated by like reference numerals. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "bottom" and "top," "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

Referring to fig. 1 to 4, in order to achieve the above object, the present invention provides the following technical solutions: an integrated management system of a 5G base station comprises: the system comprises a monitoring unit 1, a power-off management unit 2, an energy consumption metering unit 3, a power management unit 4 and a self-cleaning unit 5;

the monitoring unit 1 is respectively coupled with the power-off management unit 2, the energy consumption metering unit 3, the power management unit 4 and the self-cleaning unit 5;

the power-off management unit 2 is used for controlling the base station to carry out power-off operation;

the energy consumption metering unit 3 is used for metering the current of the base station;

a power supply management unit 4 for performing power supply on/off control;

and the self-cleaning unit 5 is used for cleaning the air inlet end of the power supply device.

The utility model discloses a comprehensive management system can carry out the electric operation down to the basic station, and the electric operation is under electricity, long-range electricity, the voltage including the timing down, and the electricity can be according to 12 evening every day down regularly: 00-5: 00 on in the morning, 5 hours every day of off, 20% every day of energy saving, or a monitor sees that the time slot has a small demand for 5G signals through a display interface corresponding to the monitoring unit 1, and can shut off the 5G signals and mainly use 4G signals through a remote power-off mode, besides, when the commercial power is determined, an internal storage battery 7 is started to be a base station for power supply operation, when the current in the storage battery 7 is gradually consumed, the voltage of the storage battery 7 is reduced, and when the voltage is reduced to a certain degree, the 5G signals are shut off, so that various power-off operations are realized, the effects of energy saving and emission reduction are achieved, and the sustainable development concept is met.

The energy consumption metering unit 3 can also be used for metering the current consumption of each aspect of the base station, accurately and respectively metering direct current and alternating current, judging the power consumption of the commercial power and the power consumption of the storage battery, and respectively knowing the working condition of the storage battery and the working condition of commercial power electrification, thereby respectively judging the working time of the storage battery and the commercial power electrification, and the specific power consumption condition, and more comprehensively knowing the state of the base station and the state of peripheral circuits. And through this energy consumption measurement unit 3, can successfully solve 5G shared base station and face the measurement of many operators load power consumption, the sharing problem of charges of electricity, carry out accurate measurement operation.

In addition, an air cooling unit is further arranged in the power supply device, air is blown in from the air inlet end of the power supply device and is blown out from the air outlet end of the power supply device through various electronic parts in sequence, and a self-cleaning unit 5 is arranged at the air inlet end of the power supply device, so that the air at the air inlet end is filtered and cleaned, and the self-cleaning operation can be performed on the filtering device, so that the filtering device is useful for a long time. And the self-cleaning unit 5 is coupled with the monitoring unit 1, so that the self-cleaning unit 5 can be started at regular time, and the effects of energy conservation and emission reduction can be achieved while the cleanness is ensured to be effective.

The integrated management system applied to the 5G base station has the advantages that: the self-cleaning capability is provided, the equipment is not easy to overheat due to dust accumulation, the current can be measured, and the operation state of the base station and the state of a peripheral circuit can be comprehensively known; various power-off operations are realized, the effects of energy conservation and emission reduction are achieved, and the sustainable development concept is met.

The power management unit 4 includes a first rectification module 41 and a second rectification module 42 which are arranged in parallel, the input ends of the first rectification module 41 and the second rectification module 42 are respectively coupled with a live wire and a zero line of a commercial power, the output ends of the first rectification module 41 and the second rectification module 42 are coupled with the monitoring unit 1 through a CAN bus, the output ends of the first rectification module 41 and the second rectification module 42 are further coupled with the signal device 6 of the base station, and are used for supplying power to the signal device 6, and the signal device 6 is coupled with the power-off management unit 2 and is used for receiving a power-off signal sent by the power-off management unit 2. The live wire and the zero line of the commercial power are respectively rectified, and the alternating current is converted into 48V direct current to supply power to equipment and a battery, so that the stable output of the power supply is ensured.

The signal device 6 is 3 AAUs, and the power-off management unit 2 comprises a contactor, and the contactor is connected with the 3 AAUs respectively and used for controlling the opening and closing of the AAUs, so that the signal strength is achieved, and the power-off operation of the signal device 6 is realized.

The output ends of the first rectifying module 41 and the second rectifying module 42 are further coupled with a storage battery pack 7, and the output end of the storage battery pack 7 is coupled with the monitoring unit 1 and is used for providing standby power for the monitoring unit 1 when the mains supply fails. This storage battery 7's design can be at the commercial power outage the condition for power supply unit supplies power the operation, can have the electric condition at the commercial power moreover to storage battery 7 operation of charging, carries out effectual sustainable use.

The power-off management unit 2 comprises a timing power-off module 21, a remote power-off module 22 and a voltage power-off module 23;

the voltage lower electric module 23 is coupled to the battery pack 7 for monitoring voltage information in the battery pack 7.

The timing power down module 21 may be as per day night 12: 00-5: 00 on in the morning, 5 hours per day off, 20% per day energy saving, or a monitor sees that the requirement for 5G signals in the time period is small through a display interface corresponding to the monitoring unit 1, the 5G signals can be turned off mainly through a mode of remotely controlling the power-off module 22, and the 5G signals are turned off mainly through 4G signals, besides, when the commercial power is determined, the internal storage battery 7 is started to be a base station for power supply operation, when the current in the storage battery 7 is gradually consumed, the voltage of the storage battery 7 is reduced, and when the voltage is reduced to a certain degree, the power-off module 23 performs power-off operation to turn off the 5G signals, so that various power-off operations are realized, the effects of energy saving and emission reduction are achieved, and the.

The energy consumption metering unit 3 comprises an alternating current metering module 31 for monitoring the alternating current power consumption condition and a direct current metering module 32 for monitoring the direct current power consumption condition. The system is provided with mains supply, oil engine power generation, solar power generation and storage battery power supply, the mains supply, the oil engine power generation and the solar power generation are respectively measured through the electricity degree measuring functions of the alternating current measuring module 31 and the direct current measuring module 32, and the energy consumption of each user can be measured by users.

The monitoring unit 1 is further coupled with a water immersion monitoring module 11, a temperature and humidity monitoring module 12 and a smoke sensing monitoring module 13, and the water immersion monitoring module 11 is arranged at the position of an air inlet end of the power supply device. The water immersion monitoring module 11 is used for monitoring whether water leaks into the power supply device, the water immersion monitoring module 11 is provided with two monitoring threshold values, and when the first monitoring threshold value is reached, the monitoring unit 1 is used for realizing alarm warning; when the second monitoring threshold is reached when the first monitoring threshold is exceeded, a power-off operation is realized by the monitoring unit 1. And a smoke sensing monitoring module 13, a temperature monitoring module and a humidity monitoring module are further arranged, so that the safety of the power supply device is comprehensively ensured.

The self-cleaning unit 5 comprises a housing body 51 arranged in the base station, an air inlet 52 and an air outlet 53 are arranged on the housing body 51, an installation cavity 54 communicated with the air inlet 52 and the air outlet 53 is arranged in the housing body 51, the air inlet 52 is provided with a first filtering piece 521 for filtering large-particle impurities, the air outlet 53 is provided with a second filtering piece 531 for filtering small-particle impurities, a driving motor 55 is fixedly arranged in the installation cavity 54, the driving motor 55 comprises two rotating shafts, the two rotating shafts are arranged towards the air inlet 52 and the air outlet 53 respectively, cleaning brushes 551 are arranged on the two rotating shafts, and one ends, far away from the driving motor 55, of the two cleaning brushes 551 are abutted to the first filtering piece 521 and the second filtering piece 531 respectively.

In the process of air cooling in the power supply device, air enters the power supply box from the air inlet 52 and sequentially passes through the first filter piece 521 and the second filter piece 531, large-particle impurities are blocked outside through the first filter piece 521, small-particle impurities are filtered between the first filter piece 521 and the second filter piece 531 through the second filter piece 531, when cleaning operation is needed, the rotating shaft is driven to rotate through the driving motor 55, the cleaning brush 551 on the rotating shaft rotates for 360 degrees for a plurality of circles along with the rotating shaft, dust and impurities remained on the first filter piece 521 and the second filter piece 531 are removed, and the preferred positions of the air inlet 52 and the air outlet 53 are located on the same vertical line, so that when the impurities on the second filter piece 531 are removed, the air can directly flow out from the filter hole of the first filter piece 521, and the air is prevented from being accumulated in the mounting cavity 54.

In addition, the positional relationship has the advantages that: the second filter member 531 filters the small dust particles, so that the air inlet surface thereof is easily blocked, and thus the second filter member is removed, and the air outlet surface of the first filter member 521 is easily cleaned because the internal dust particles fall down and are accumulated.

Therefore, through the filtering self-cleaning device, when the power box is cooled by wind, the filtering operation is carried out on external dust, the electronic elements in the power box are prevented from being shortened due to excessive dust, and then the first filtering piece 521 and the second filtering piece 531 are cleaned, so that the ventilation property and the filtering property of the first filtering piece 521 and the second filtering piece 531 are prolonged, and the service life of the power box is prolonged.

Install the air outlet fan 56 and the air inlet fan 57 of strengthening the air inlet effect of blowing to air intake 52 on the housing body 51, second filter piece 531 is installed to one side that air outlet 53 is close to air intake 52, air outlet fan 56 and air inlet fan 57 are installed in proper order in one side that air outlet 53 kept away from air intake 52, air inlet fan 57 is located between air outlet fan 56 and the air outlet 53, be provided with the mounting structure 9 that supplies air outlet fan 56 and air inlet fan 57 installation on the housing body 51, be provided with the gliding structure 91 that supplies air inlet fan 57 and be used for driving the gliding driving piece 8 of air inlet fan 57 on the mounting structure 9, driving piece 8 is coupled with monitoring unit 1.

This driving piece 8 can be for the cooperation use of rotating motor 83 and screw rod 82 and guide bar 81, and rotating motor 83 is coupled with monitoring unit 1, and monitoring unit 1 is through opening and close, the positive and negative rotation of control rotating motor 83 and control the positional relation of air inlet fan 57, realizes intelligent and automatic control system.

The water immersion monitoring module 11 is coupled with the air outlet fan 56 and the driving member 8 respectively, and when the water immersion monitoring module 11 is triggered, the driving member 8 drives the air inlet fan 57 to move in a direction away from the air outlet fan 56 and the air outlet fan 56 is started.

Humiture monitoring module 12 is coupled with air inlet fan 57 and driving piece 8 respectively, and when humiture monitoring module 12 detected the inside high temperature in basic station driving piece 8 drive air inlet fan 57 to being close to air outlet fan 56 direction removal and air inlet fan 57 starts.

Air outlet fan 56 can carry out the additional action when cleaing away the operation, improves and clears away the effect, and when the water logging condition appeared in the discovery of water logging monitoring module 11, driving piece 8 drive air inlet fan 57 removed and crosses the position department directly over second filter member 531 and then restarts air outlet fan 56, strengthens the effect of blowing to the entrance point for air-dry, make water follow air inlet end flow. When the temperature and humidity monitoring module 12 detects that the temperature inside the base station is too high, the driving member 8 drives the air inlet fan 57 to move to a position where the air outlet fan 56 is not blocked, the air outlet fan 56 is restarted, and the air inlet fan 57 can enhance the carrying effect of the power box, so that a better cooling effect is achieved.

Above only the utility model discloses an it is preferred embodiment, the utility model discloses a scope of protection not only limits in above-mentioned embodiment, and the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. A comprehensive management system of a 5G base station is characterized by comprising: the system comprises a monitoring unit (1), a power-off management unit (2), an energy consumption metering unit (3), a power supply management unit (4) and a self-cleaning unit (5);

the monitoring unit (1) is respectively coupled with the power-off management unit (2), the energy consumption metering unit (3), the power supply management unit (4) and the self-cleaning unit (5);

the power-off management unit (2) is used for controlling the base station to perform power-off operation;

the energy consumption metering unit (3) is used for metering the current of the base station;

the power supply management unit (4) is used for controlling the on and off of the power supply;

and the self-cleaning unit (5) is used for cleaning the air inlet end of the power supply device.

2. The integrated management system of 5G base station as claimed in claim 1, wherein: power management unit (4) are including first rectifier module (41) and second rectifier module (42) of parallelly connected setting, the input of first rectifier module (41) and second rectifier module (42) is equallyd divide and is do not coupled with commercial power live wire and commercial power zero line, the output of first rectifier module (41) and second rectifier module (42) passes through the CAN bus and is coupled with monitoring unit (1), the output of first rectifier module (41) and second rectifier module (42) still is coupled with signal device (6) of basic station for supply power operation to signal device (6), signal device (6) are coupled with power down management unit (2), are used for receiving the lower signal of telecommunication that power down management unit (2) sent.

3. The integrated management system of 5G base station as claimed in claim 2, wherein: the output ends of the first rectifying module (41) and the second rectifying module (42) are also coupled with a storage battery pack (7), and the output end of the storage battery pack (7) is coupled with the monitoring unit (1) and used for providing a standby power supply for the monitoring unit (1) when the mains supply is in power failure.

4. The integrated management system of 5G base station as claimed in claim 3, wherein: the power-off management unit (2) comprises a timing power-off module (21), a remote control power-off module (22) and a voltage power-off module (23);

the voltage lower electric module (23) is coupled with the storage battery pack (7) and used for monitoring voltage information in the storage battery pack (7).

5. The integrated management system of 5G base station as claimed in claim 1, wherein: the energy consumption metering unit (3) comprises an alternating current metering module (31) for monitoring the alternating current power consumption condition and a direct current metering module (32) for monitoring the direct current power consumption condition.

6. The integrated management system of 5G base station as claimed in claim 1, wherein: the monitoring unit (1) is further coupled with a water immersion monitoring module (11), a temperature and humidity monitoring module (12) and a smoke sensing monitoring module (13), and the water immersion monitoring module (11) is arranged at the position of an air inlet end of a power supply device.

7. The integrated management system of 5G base station as claimed in claim 6, wherein: the self-cleaning unit (5) comprises a housing body (51) arranged in the base station, the shell body (51) is provided with an air inlet (52) and an air outlet (53), and the shell body (51) is internally provided with a mounting cavity (54) which is respectively communicated with the air inlet (52) and the air outlet (53), the air inlet (52) is provided with a first filtering piece (521) for filtering large-particle impurities, the air outlet (53) is provided with a second filtering piece (531) for filtering small-particle impurities, a driving motor (55) is fixedly installed in the installation cavity (54), the driving motor (55) comprises two rotating shafts, the two rotating shafts are respectively arranged towards the air inlet (52) and the air outlet (53), and the two rotating shafts are respectively provided with a cleaning brush (551), and one end of each cleaning brush (551) far away from the driving motor (55) is respectively abutted against the first filtering piece (521) and the second filtering piece (531).

8. The integrated management system of 5G base station as claimed in claim 7, wherein: install air-out fan (56) and air inlet fan (57) of strengthening the air inlet effect of blowing to air intake (52) on shell body (51), second filters piece (531) and installs one side that is close to air intake (52) to air outlet (53), air-out fan (56) and air inlet fan (57) are installed in one side that air intake (52) were kept away from in air outlet (53) in proper order, air inlet fan (57) are located between air-out fan (56) and air outlet (53), be provided with mounting structure (9) that supply air-out fan (56) and air inlet fan (57) to install on the shell body, be provided with sliding structure that supply air inlet fan (57) to slide and be used for driving piece (8) that air inlet fan (57) slided on mounting structure (9), driving piece (8) are coupled with monitoring unit (1).

9. The integrated management system of 5G base station as claimed in claim 8, wherein: the water logging monitoring module (11) is coupled with air outlet fan (56) and driving piece (8) respectively, and when the water logging monitoring module (11) is triggered, driving piece (8) drive air inlet fan (57) move towards the direction far away from air outlet fan (56) and air outlet fan (56) starts.

10. The integrated management system of 5G base station as claimed in claim 8, wherein: humiture monitoring module (12) are coupled with air inlet fan (57) and driving piece (8) respectively, and when humiture monitoring module (12) detected basic station inside high temperature driving piece (8) drive air inlet fan (57) to being close to air outlet fan (56) direction removal and air inlet fan (57) start.

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