CN214281018U - Intelligent communication load power utilization manager - Google Patents

Abstract

The utility model provides an intelligent communication load power consumption manager, it detects power supply's real-time supply voltage and real-time supply current state through setting up mains operated state subassembly, switch this power supply circuit between this power supply and the communication base station, thereby make this communication base station can obtain the electric energy of steady voltage stationary flow from this power supply, in addition, still detect the real-time operating temperature of communication base station through setting up temperature sensing subassembly, and adjust the power supply duration of power supply to communication base station according to this real-time operating temperature, thereby avoid communication base station to take place overload work effectively and lead to operating temperature too high and prevent that communication base station from taking place work incident.

Description

Intelligent communication load power utilization manager

Technical Field

The utility model relates to a technical field of power management equipment, in particular to intelligent communication load power consumption manager.

Background

At present, communication base stations are widely applied to mobile communication networks, and the corresponding mobile communication networks can be constructed and formed by arranging the communication base stations in different location areas, and the coverage area of the mobile communication networks can be improved. The communication base station can maintain a stable working state only by combining with a corresponding power supply, and the working stability of the communication base station is directly influenced by the quality of electric energy output to the communication base station by the power supply. In order to improve the working stability of the communication base station, the power supply state mode of the power supply to the communication base station needs to be managed and controlled in a targeted manner, so that the power supply can output stable and reliable electric energy to the communication base station.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model provides an intelligent communication load power utilization manager, which comprises a communication base station, a power supply source, a power supply state monitoring component, a temperature sensing component, a power supply loop switcher and a central controller; the communication base station is connected with the power supply through a power supply line; the power supply state monitoring component is connected with the power supply and is used for monitoring the real-time power supply state parameters of the power supply; the power supply state monitoring component is also connected with the power supply loop switcher, the power supply loop switcher is arranged on the power supply line, and the power supply loop switcher is used for switching the power supply state of the power supply to the communication base station according to the time power supply state parameter; the temperature sensing assembly is connected with the communication base station, and the temperature sensor is used for detecting the real-time working temperature of the communication base station; the central controller is respectively connected with the temperature sensing assembly and the power supply, and is used for adjusting the power supply duration of the power supply to the communication base station according to the real-time working temperature; it is thus clear that this intelligent communication load power consumption manager detects power supply source's real-time power supply voltage and real-time power supply current state through setting up the power supply state subassembly to this power supply circuit between this power supply source and the communication base station switches, thereby make this communication base station can obtain the electric energy of steady voltage stationary flow from this power supply source, in addition, still detect the real-time operating temperature of communication base station through setting up temperature sensing subassembly, and according to this real-time operating temperature adjustment power supply to the power supply duration of communication base station, thereby avoid effectively that communication base station takes place overload work and leads to operating temperature too high and prevent that communication base station from taking place the work incident.

The utility model provides an intelligent communication load power utilization manager, which is characterized in that the manager comprises a communication base station, a power supply source, a power supply state monitoring component, a temperature sensing component, a power supply loop switcher and a central controller; wherein the content of the first and second substances,

the communication base station is connected with the power supply through a power supply line;

the power supply state monitoring component is connected with the power supply, and is used for monitoring real-time power supply state parameters of the power supply;

the power supply state monitoring assembly is also connected with the power supply loop switcher, the power supply loop switcher is arranged on the power supply line, and the power supply loop switcher is used for switching the power supply state of the power supply source to the communication base station according to the real-time power supply state parameters;

the temperature sensing assembly is connected with the communication base station and is used for detecting the real-time working temperature of the communication base station;

the central controller is respectively connected with the temperature sensing assembly and the power supply, and is used for adjusting the power supply duration of the power supply to the communication base station according to the real-time working temperature;

further, the communication base station comprises a signal receiver, a signal transmitter, a signal modem and a power interface terminal; wherein the content of the first and second substances,

the signal receiver and the signal transmitter are both connected with the signal modem;

the signal receiver, the signal transmitter and the signal modem are all connected with the power supply through the power interface end;

further, the signal receiver is a 4G signal receiver or a 5G signal receiver;

the signal emitter is a 4G signal emitter or a 5G signal emitter;

the signal modem is a 4G signal modem or a 5G signal modem;

further, the power supply comprises a main power supply, a standby power supply and a power output port; wherein the content of the first and second substances,

the main power supply and the standby power supply are both connected with the power supply output port, and the power supply output port is connected with the communication base station through the power supply line;

the main power supply comprises an alternating current power supply, and the standby power supply comprises a direct current power supply;

further, the main power supply further comprises a transformer, the alternating current power supply is connected with the transformer, the transformer is connected with the power output port, and the transformer is used for outputting direct current to the power output port;

further, the standby power supply further comprises a voltage stabilizer, the direct current power supply is connected with the voltage stabilizer, the voltage stabilizer is connected with the power output port, and the voltage stabilizer is used for outputting voltage-stabilized direct current to the power output port;

further, the alternating current power supply is a 220V alternating current commercial power supply;

the output power supply voltage of the direct current power supply is 36-60V;

further, the temperature sensing assembly comprises a plurality of temperature sensors and a temperature signal collecting terminal; wherein the content of the first and second substances,

the temperature sensors are attached to the surface of the communication base station in a distributed mode, so that the real-time working temperature of different position areas of the communication base station is detected;

the temperature sensors are all connected with the temperature signal collecting terminal, and the temperature signal collecting terminal is also connected with the central controller;

the central controller is used for increasing or decreasing the power supply duration of the power supply to the communication base station;

further, the temperature sensor is a thermocouple temperature sensor;

further, the power supply state monitoring component comprises a power supply voltage detector and a power supply current detector; wherein the content of the first and second substances,

the power supply voltage detector is connected with the power supply and is used for detecting a real-time power supply voltage value of the power supply;

the power supply current detector is connected with the power supply, and the power supply current detector is used for detecting the real-time power supply current value of the power supply.

Compared with the prior art, the intelligent communication load power utilization manager comprises a communication base station, a power supply state monitoring assembly, a temperature sensing assembly, a power supply loop switcher and a central controller; the communication base station is connected with the power supply through a power supply line; the power supply state monitoring component is connected with the power supply and is used for monitoring the real-time power supply state parameters of the power supply; the power supply state monitoring component is also connected with the power supply loop switcher, the power supply loop switcher is arranged on the power supply line, and the power supply loop switcher is used for switching the power supply state of the power supply to the communication base station according to the time power supply state parameter; the temperature sensing assembly is connected with the communication base station, and the temperature sensor is used for detecting the real-time working temperature of the communication base station; the central controller is respectively connected with the temperature sensing assembly and the power supply, and is used for adjusting the power supply duration of the power supply to the communication base station according to the real-time working temperature; it is thus clear that this intelligent communication load power consumption manager detects power supply source's real-time power supply voltage and real-time power supply current state through setting up the power supply state subassembly to this power supply circuit between this power supply source and the communication base station switches, thereby make this communication base station can obtain the electric energy of steady voltage stationary flow from this power supply source, in addition, still detect the real-time operating temperature of communication base station through setting up temperature sensing subassembly, and according to this real-time operating temperature adjustment power supply to the power supply duration of communication base station, thereby avoid effectively that communication base station takes place overload work and leads to operating temperature too high and prevent that communication base station from taking place the work incident.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the invention.

The technical solution of the present invention is further described in detail by the accompanying drawings and examples.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is the utility model provides an intelligent communication load power manager's schematic structure.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1, it is a schematic structural diagram of an intelligent communication load power manager according to an embodiment of the present invention. The intelligent communication load power utilization manager comprises a communication base station, a power supply state monitoring assembly, a temperature sensing assembly, a power supply loop switcher and a central controller; wherein the content of the first and second substances,

the communication base station is connected with the power supply through a power supply line;

the power supply state monitoring component is connected with the power supply and is used for monitoring the real-time power supply state parameters of the power supply;

the power supply state monitoring component is also connected with the power supply loop switcher, the power supply loop switcher is arranged on the power supply line, and the power supply loop switcher is used for switching the power supply state of the power supply power to the communication base station according to the real-time power supply state parameters;

the temperature sensing assembly is connected with the communication base station and is used for detecting the real-time working temperature of the communication base station;

the central controller is respectively connected with the temperature sensing assembly and the power supply, and the central controller is used for adjusting the power supply duration of the power supply to the communication base station according to the real-time working temperature.

The beneficial effects of the above technical scheme are: this intelligent communication load power consumption manager detects power supply's real-time power supply voltage and real-time power supply current state through setting up the power supply state subassembly, switch the power supply circuit between this power supply and the communication base station with this, thereby make this communication base station can obtain the electric energy of steady voltage stationary flow from this power supply, in addition, still detect the real-time operating temperature of communication base station through setting up temperature sensing subassembly, and adjust power supply duration to the communication base station according to this real-time operating temperature, thereby avoid effectively that the communication base station takes place overload work and leads to operating temperature too high and prevent that the communication base station from taking place the work incident.

Preferably, the communication base station comprises a signal receiver, a signal transmitter, a signal modem and a power interface terminal; wherein the content of the first and second substances,

the signal receiver and the signal transmitter are both connected with the signal modem;

the signal receiver, the signal transmitter and the signal modem are all connected with the power supply through the power interface end.

The beneficial effects of the above technical scheme are: by connecting the power supply with the signal receiver, the signal transmitter and the signal modem, the power supply can be ensured to continuously and stably supply power to the signal receiver, the signal transmitter and the signal modem, so that the communication base station can perform normal signal receiving, signal transmitting and signal modulation and demodulation operations.

Preferably, the signal receiver is a 4G signal receiver or a 5G signal receiver;

the signal emitter is a 4G signal emitter or a 5G signal emitter;

the signal modem is a 4G signal modem or a 5G signal modem.

The beneficial effects of the above technical scheme are: by setting the signal receiver, the signal transmitter and the signal modem as communication elements of 4G mode or 5G mode, the intelligent communication load power utilization manager can be ensured to be applied to 4G communication occasions or 5G communication occasions.

Preferably, the power supply comprises a main power supply, a standby power supply and a power output port; wherein the content of the first and second substances,

the main power supply and the standby power supply are both connected with the power supply output port, and the power supply output port is connected with the communication base station through the power supply line;

the primary power supply includes an alternating current power supply and the backup power supply includes a direct current power supply.

The beneficial effects of the above technical scheme are: the power supply is set to comprise a main power supply and a standby power supply, and dual-power supply operation of the communication base station can be realized, so that the power supply loop switcher can carry out different modes of main power supply or standby power supply to the communication base station according to the real-time power supply state parameters, and the power supply stability of the power supply is guaranteed to the maximum extent.

Preferably, the main power supply further comprises a transformer, the ac power supply is connected to the transformer, the transformer is connected to the power output port, and the transformer is configured to output dc power to the power output port.

The beneficial effects of the above technical scheme are: the transformer is arranged to convert the alternating current output by the alternating current power supply into corresponding direct current, so that normal power supply of the communication base station is guaranteed.

Preferably, the standby power supply further comprises a voltage regulator, the dc power supply is connected to the voltage regulator, the voltage regulator is connected to the power output port, and the voltage regulator is configured to output a regulated dc power to the power output port.

The beneficial effects of the above technical scheme are: the voltage stabilizer can stabilize the direct current output by the direct current power supply, so that voltage fluctuation is effectively reduced, and normal voltage stabilization power supply of the communication base station is ensured.

Preferably, the alternating current power supply is a 220V alternating current mains supply;

the output power voltage of the direct current power supply is 36-60V.

The beneficial effects of the above technical scheme are: the 220V alternating current commercial power supply is adopted as the alternating current power supply, so that the power transmission reliability of the alternating current power supply can be improved; the output power voltage of the direct current power supply is set to be 36-60V, so that the voltage matching between the direct current power supply and the communication base station can be ensured, and the direct current power supply can be, but is not limited to, a lithium storage battery or a lead-acid storage battery.

Preferably, the temperature sensing assembly comprises a plurality of temperature sensors and a temperature signal collecting terminal; wherein the content of the first and second substances,

the temperature sensors are attached to the surface of the communication base station in a distributed manner, so that the real-time working temperature of different position areas of the communication base station is detected;

the temperature sensors are all connected with the temperature signal collecting terminal, and the temperature signal collecting terminal is also connected with the central controller;

the central controller is used for increasing or decreasing the power supply duration of the power supply to the communication base station.

The beneficial effects of the above technical scheme are: because when the communication base station is in an overload working state, the working temperature of the communication base station can continuously rise, the real-time working temperature state of the communication base station can be comprehensively and accurately detected by arranging the temperature sensors in different position areas of the communication base station, so that the power supply duration of the power supply to the communication base station is reduced when the real-time working temperature exceeds a preset temperature threshold value, otherwise, the power supply duration of the power supply to the communication base station is increased. Thereby effectively avoiding the situation that the communication base station is overheated to work.

Preferably, the temperature sensor is a thermocouple temperature sensor.

The beneficial effects of the above technical scheme are: the temperature sensor is a thermocouple temperature sensor, so that the temperature detection accuracy of the temperature sensor can be effectively improved.

Preferably, the power supply state monitoring component comprises a power supply voltage detector and a power supply current detector; wherein the content of the first and second substances,

the power supply voltage detector is connected with the power supply and is used for detecting the real-time power supply voltage value of the power supply;

the power supply current detector is connected with the power supply and is used for detecting the real-time power supply current value of the power supply.

The beneficial effects of the above technical scheme are: through setting the power supply state monitoring assembly into a power supply voltage detector and a power supply current detector, wherein the power supply voltage detector is used for detecting the real-time power supply voltage value of the power supply, and the power supply current detector is used for detecting the real-time power supply current value of the power supply, the power supply loop switcher can conveniently and timely switch the power supply state of the power supply to the communication base station when the real-time power supply voltage value and/or the real-time power supply current value are abnormal, so that the main power supply or the standby power supply of the power supply can respectively supply power to the communication base station.

As can be seen from the content of the above embodiments, the intelligent communication load power utilization manager includes a communication base station, a power supply state monitoring component, a temperature sensing component, a power supply loop switcher and a central controller; the communication base station is connected with the power supply through a power supply line; the power supply state monitoring component is connected with the power supply and is used for monitoring the real-time power supply state parameters of the power supply; the power supply state monitoring component is also connected with the power supply loop switcher, the power supply loop switcher is arranged on the power supply line, and the power supply loop switcher is used for switching the power supply state of the power supply to the communication base station according to the time power supply state parameter; the temperature sensing assembly is connected with the communication base station, and the temperature sensor is used for detecting the real-time working temperature of the communication base station; the central controller is respectively connected with the temperature sensing assembly and the power supply, and is used for adjusting the power supply duration of the power supply to the communication base station according to the real-time working temperature; it is thus clear that this intelligent communication load power consumption manager detects power supply source's real-time power supply voltage and real-time power supply current state through setting up the power supply state subassembly to this power supply circuit between this power supply source and the communication base station switches, thereby make this communication base station can obtain the electric energy of steady voltage stationary flow from this power supply source, in addition, still detect the real-time operating temperature of communication base station through setting up temperature sensing subassembly, and according to this real-time operating temperature adjustment power supply to the power supply duration of communication base station, thereby avoid effectively that communication base station takes place overload work and leads to operating temperature too high and prevent that communication base station from taking place the work incident.

It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention.

Claims (10)

1. The intelligent communication load power utilization manager is characterized by comprising a communication base station, a power supply state monitoring component, a temperature sensing component, a power supply loop switcher and a central controller; wherein the content of the first and second substances,

the communication base station is connected with the power supply through a power supply line;

the power supply state monitoring component is connected with the power supply, and is used for monitoring real-time power supply state parameters of the power supply;

the power supply state monitoring assembly is also connected with the power supply loop switcher, the power supply loop switcher is arranged on the power supply line, and the power supply loop switcher is used for switching the power supply state of the power supply source to the communication base station according to the real-time power supply state parameters;

the temperature sensing assembly is connected with the communication base station and is used for detecting the real-time working temperature of the communication base station;

the central controller is respectively connected with the temperature sensing assembly and the power supply, and is used for adjusting the power supply duration of the power supply to the communication base station according to the real-time working temperature.

2. The intelligent communications load power manager of claim 1, wherein:

the communication base station comprises a signal receiver, a signal transmitter, a signal modem and a power interface end; wherein the content of the first and second substances,

the signal receiver and the signal transmitter are both connected with the signal modem;

the signal receiver, the signal transmitter and the signal modem are all connected with the power supply through the power interface end.

3. The intelligent communications load power manager of claim 2, wherein:

the signal receiver is a 4G signal receiver or a 5G signal receiver;

the signal emitter is a 4G signal emitter or a 5G signal emitter;

the signal modem is a 4G signal modem or a 5G signal modem.

4. The intelligent communications load power manager of claim 1, wherein:

the power supply comprises a main power supply, a standby power supply and a power supply output port; wherein the content of the first and second substances,

the main power supply and the standby power supply are both connected with the power supply output port, and the power supply output port is connected with the communication base station through the power supply line;

the main power supply comprises an alternating current power supply, and the standby power supply comprises a direct current power supply.

5. The intelligent communications load power manager of claim 4, wherein:

the main power supply further comprises a transformer, the alternating current power supply is connected with the transformer, the transformer is connected with the power output port, and the transformer is used for outputting direct current to the power output port.

6. The intelligent communications load power manager of claim 4, wherein:

the standby power supply further comprises a voltage stabilizer, the direct-current power supply is connected with the voltage stabilizer, the voltage stabilizer is connected with the power output port, and the voltage stabilizer is used for outputting voltage-stabilized direct current to the power output port.

7. The intelligent communications load power manager of claim 4, wherein:

the alternating current power supply is a 220V alternating current commercial power supply;

the output power supply voltage of the direct current power supply is 36-60V.

8. The intelligent communications load power manager of claim 1, wherein:

the temperature sensing assembly comprises a plurality of temperature sensors and a temperature signal collecting terminal; wherein the content of the first and second substances,

the temperature sensors are attached to the surface of the communication base station in a distributed mode, so that the real-time working temperature of different position areas of the communication base station is detected;

the temperature sensors are all connected with the temperature signal collecting terminal, and the temperature signal collecting terminal is also connected with the central controller;

the central controller is used for increasing or decreasing the power supply duration of the power supply source to the communication base station.

9. The intelligent communications load power manager of claim 8, wherein:

the temperature sensor is a thermocouple temperature sensor.

10. The intelligent communications load power manager of claim 1, wherein:

the power supply state monitoring assembly comprises a power supply voltage detector and a power supply current detector; wherein the content of the first and second substances,

the power supply voltage detector is connected with the power supply and is used for detecting a real-time power supply voltage value of the power supply;

the power supply current detector is connected with the power supply, and the power supply current detector is used for detecting the real-time power supply current value of the power supply.

Images