CN110601362A - Intelligent management system for safe power utilization - Google Patents
Intelligent management system for safe power utilization Download PDFInfo
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- CN110601362A CN110601362A CN201910883677.7A CN201910883677A CN110601362A CN 110601362 A CN110601362 A CN 110601362A CN 201910883677 A CN201910883677 A CN 201910883677A CN 110601362 A CN110601362 A CN 110601362A
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Abstract
The invention provides an intelligent management system for safe power utilization, which comprises: the device comprises a multi-path power supply, a power supply conversion module, a power supply detection module, an electric shock processor module, a monitoring control module and an upper computer; the power conversion module is connected with a plurality of power supplies and is used for converting power supply voltage and power supply current provided by the power supplies into rated voltage and rated current used by power utilization units, and the power conversion module is a flyback voltage transformer converter; the electric shock processor module is connected with the power supply conversion module, the monitoring control module and the upper computer. The intelligent management system for the safe power utilization provided by the invention adopts a modular structure to safely manage the power utilization, up to twenty power supply power utilization real-time parameter data acquisition and processing are carried out, the whole power utilization environment is monitored in real time, personal injury and property loss caused by power utilization accidents are prevented, and field equipment data are transmitted in real time through an interface of a cloud service and a user intelligent mobile phone or a power utilization centralized control platform, so that the intelligent power utilization management is realized.
Description
Technical Field
The invention relates to the technical field of entrance guard management, in particular to an intelligent management system for safe power utilization.
Background
The traditional power system is divided into three-phase power supply and single-phase power supply, a power supply directly outputs four wires from a transformer, three live wires and one zero wire, a single ground wire is added for preventing electric shock, and the three-phase or single-phase power supply is directly transmitted to a user load without any treatment. Because the existing TN-C, TN-S or TN-C-S systems are communicated with the ground in a zero mode, if a fire wire is connected with the ground in a short circuit mode, a very large spark exists at the moment, if the fire wire is in a flammable and explosive place, a fire hazard can be caused, if a human body gets an electric shock, the fire hazard is equivalent to a two-phase electric shock, although the action value set by leakage protection is 30MA, the human body is greatly injured at 1MA, and the overall safety of the traditional power utilization system needs to be improved.
Disclosure of Invention
In order to solve the defects of the prior art, the invention discloses a safe power utilization intelligent management system, which comprises: the device comprises a multi-path power supply, a power supply conversion module, a power supply detection module, an electric shock processor module, a monitoring control module and an upper computer;
the multi-path power supply comprises a multi-path single-phase power supply circuit and a multi-path three-phase four-wire system power supply circuit;
the power conversion module is connected with the multi-path power supply and is used for converting power voltage and power current provided by the power supply into rated voltage and rated current used by power consumption units, and the power conversion module is a flyback type voltage transformation converter;
the power supply detection module comprises a sensor, and the sensor is used for acquiring voltage, current, electric leakage, temperature, zero alignment, ground alignment and live wire signals provided by the power supply conversion module in real time and transmitting the acquired signals to the electric shock processor module;
the electric shock processor module comprises a processor chip, a communication unit connected with the processor chip and a storage unit connected with the processor chip, wherein the processor chip is used for processing collected voltage, current, electric leakage, temperature, zero, ground and live wire signals and comparing the signals with rated values of electric equipment arranged in the storage unit to obtain control and regulation signals; the communication unit is used for feeding back the signal of the signal acquisition and the control and regulation signal to the upper computer;
the monitoring control module is used for receiving a control adjusting signal sent by the electric shock processor module and automatically matching loads according to electric equipment;
the upper computer is in communication connection with the communication unit.
Furthermore, the intelligent management system for safe power utilization comprises an alarm module connected with the electric shock processor module, wherein the alarm module comprises an alarm unit and a fault warning lamp connected with the alarm unit.
Further, the intelligent management system for safe power utilization comprises an insulation monitoring module connected with the electric shock processor module.
Further, the intelligent management system for safe power utilization comprises an insulation monitoring module connected with the electric shock processor module.
Further, the sensor includes one or more of a current sensor, a leakage current sensor, a voltage sensor, and a temperature sensor.
Furthermore, the monitoring control module comprises an automatic voltage regulating unit, an automatic phase regulating unit and an automatic current regulating unit which are connected with the electric equipment.
Further, the communication unit includes one or more of an ethernet, a wireless network card, an internet of things card, and an RS2342 interface.
Further, the communication module further comprises at least one of a zigbee module, an NFC module, a WIFI module, and a bluetooth module.
Furthermore, the intelligent management system for safe power utilization comprises a touch display screen connected with the upper computer and the electric shock processor module, and the touch display screen is used for man-machine interaction.
The implementation of the intelligent management system for safe power utilization provided by the invention has the following beneficial technical effects:
the intelligent management system for the safe power utilization provided by the invention adopts a modular structure to safely manage the power utilization, up to twenty power supply power utilization real-time parameter data are collected and processed, the whole power utilization environment is monitored in real time, the damage to people and property loss caused by power utilization safety accidents are prevented, and field equipment data are transmitted in real time through an interface of a cloud service and a user intelligent mobile phone or a power utilization centralized control platform, so that the intelligent power utilization management is realized.
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, and 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 a functional block diagram of an intelligent management system for safe power utilization according to an embodiment of the present invention;
fig. 2 is a block diagram of a shock processor module in an intelligent management system for safe power utilization according to an embodiment of the present invention.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1 and fig. 2, an embodiment of the present invention provides an intelligent management system for safe power utilization, including: the device comprises a multi-path power supply 10, a power conversion module 20, a power detection module 30, an electric shock processor module 40, a monitoring control module 50 and an upper computer 60.
The power supply 10 includes a multi-path single-phase power supply circuit and a multi-path three-phase four-wire system power supply circuit.
The power conversion module 20 is connected to the power supply 10 and is configured to convert a power voltage and a power current provided by the power supply 10 into a rated voltage and a rated current for a power consumption unit, and the power conversion module 20 is a flyback transformer converter.
The power detection module 30 includes sensors for acquiring voltage, current, leakage, temperature, zero, ground and fire signals provided by the power conversion module 20 in real time and transmitting the acquired signals to the electric shock processor module 40; the sensor comprises one or more of a current sensor, a leakage current sensor, a voltage sensor and a temperature sensor.
The shock processor module 40 comprises a processor chip 401, a communication unit 402 connected with the processor chip 401, and a storage unit 403 connected with the processor chip 401, wherein the processor chip 401 is used for processing collected voltage, current, electric leakage, temperature, zero, ground and live wire signals and comparing the collected voltage, current, electric leakage, temperature, zero, ground and live wire signals with rated values of electric equipment arranged in the storage unit 403 to obtain control and regulation signals; the communication unit 402 is used for feeding back the acquisition signal and the control and regulation signal to the upper computer 60; the communication unit 402 includes one or more of an ethernet, a wireless network card, an internet of things card, and an RS2342 interface; the communication unit 402 further includes at least one of a zigbee module, an NFC module, a WIFI module, and a bluetooth module.
The monitoring control module 50 is used for receiving the control and adjustment signal sent by the electric shock processor module 40 and automatically matching loads according to electric equipment.
The upper computer 60 is in communication connection with the communication unit 402.
The intelligent management system for safe electricity utilization comprises an alarm module 70 connected with the electric shock processor module 40, wherein the alarm module 70 comprises an alarm unit and a fault warning lamp connected with the alarm unit, and the fault warning lamp comprises a short circuit warning lamp, an electric leakage warning lamp, an under-voltage warning lamp and an overload and overcurrent warning lamp.
The intelligent management system for safe electricity utilization comprises an insulation monitoring module 80 connected with the electric shock processor module 40.
The monitoring control module 50 comprises an automatic voltage regulating unit, an automatic phase regulating unit and an automatic current regulating unit which are connected with the electric equipment.
The intelligent management system for safe power utilization comprises a touch display screen 90 connected with the upper computer 60 and the electric shock processor module 40, and the touch display screen 90 is used for man-machine interaction.
The upper computer 60 includes a cloud service and an intelligent user terminal, which is a smart phone.
Further explanation is as follows:
aiming at the technical defects of the traditional safe power utilization, the invention adopts an autonomous research and development technology, adopts a modular structure for the traditional power supply system, can achieve the purposes of preventing the power from firing and damaging people, ensuring that people have no feeling when getting an electric shock to a live wire and cannot hurt the human body, and can participate in circuit acquisition in real time for up to 20 circuits of power supply power utilization, monitor the whole power utilization environment in real time, and transmit field equipment data in real time through an interface of a cloud platform and a user mobile phone or a power utilization centralized control platform.
The implementation of the intelligent management system for safe power utilization provided by the invention has the following beneficial technical effects:
the intelligent management system for the safe power utilization provided by the invention adopts a modular structure to safely manage the power utilization, up to twenty power supply power utilization real-time parameter data are collected and processed, the whole power utilization environment is monitored in real time, the damage to people and property loss caused by power utilization safety accidents are prevented, and field equipment data are transmitted in real time through an interface of a cloud service and a user intelligent mobile phone or a power utilization centralized control platform, so that the intelligent power utilization management is realized.
The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.
Claims (10)
1. The utility model provides a safe power consumption intelligent management system which characterized in that includes: the device comprises a multi-path power supply, a power supply conversion module, a power supply detection module, an electric shock processor module, a monitoring control module and an upper computer;
the multi-path power supply comprises a multi-path single-phase power supply circuit and a multi-path three-phase four-wire system power supply circuit;
the power conversion module is connected with the multi-path power supply and is used for converting power voltage and power current provided by the power supply into rated voltage and rated current used by power consumption units, and the power conversion module is a flyback type voltage transformation converter;
the power supply detection module comprises a sensor, and the sensor is used for acquiring voltage, current, electric leakage, temperature, zero alignment, ground alignment and live wire signals provided by the power supply conversion module in real time and transmitting the acquired signals to the electric shock processor module;
the electric shock processor module comprises a processor chip, a communication unit connected with the processor chip and a storage unit connected with the processor chip, wherein the processor chip is used for processing collected voltage, current, electric leakage, temperature, zero, ground and live wire signals and comparing the signals with rated values of electric equipment arranged in the storage unit to obtain control and regulation signals; the communication unit is used for feeding back the signal of the signal acquisition and the control and regulation signal to the upper computer;
the monitoring control module is used for receiving a control adjusting signal sent by the electric shock processor module and automatically matching the control adjusting signal according to the load of electric equipment;
the upper computer is in communication connection with the communication unit.
2. The intelligent management system for safe electricity utilization according to claim 1, wherein the intelligent management system for safe electricity utilization comprises an alarm module connected with the electric shock processor module, and the alarm module comprises an alarm unit and a fault warning lamp connected with the alarm unit.
3. The intelligent management system for safe power utilization according to claim 2, wherein the fault warning lamp comprises a short circuit warning lamp, a leakage warning lamp, an under-voltage warning lamp and an overload and overcurrent warning lamp.
4. The intelligent management system for safe electricity utilization according to claim 1, wherein the intelligent management system for safe electricity utilization comprises an insulation monitoring module connected with the electric shock processor module.
5. The intelligent management system for safe electricity utilization according to claim 1, wherein the sensor comprises one or more of a current sensor, a leakage current sensor, a voltage sensor and a temperature sensor.
6. The intelligent management system for safety power utilization according to claim 1, wherein the monitoring control module comprises an automatic voltage regulating unit, an automatic phase regulating unit and an automatic current regulating unit which are connected with the electric equipment.
7. The intelligent management system for safe power utilization according to claim 1, wherein the communication unit comprises one or more of an ethernet, a wireless network card, an internet of things card and an RS2342 interface.
8. The intelligent management system for safe power utilization according to claim 1, wherein the communication unit further comprises at least one of a zigbee module, an NFC module, a WIFI module, and a bluetooth module.
9. The intelligent management system for safe electricity utilization according to claim 1, wherein the intelligent management system for safe electricity utilization comprises a touch display screen connected with an upper computer and an electric shock processor module, and the touch display screen is used for human-computer interaction.
10. The intelligent management system for safe power utilization according to claim 1, wherein the upper computer comprises a cloud service and an intelligent user terminal, and the intelligent user terminal is a smart phone.
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CN201910883677.7A CN110601362A (en) | 2019-09-18 | 2019-09-18 | Intelligent management system for safe power utilization |
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CN201910883677.7A CN110601362A (en) | 2019-09-18 | 2019-09-18 | Intelligent management system for safe power utilization |
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Cited By (1)
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CN111504375A (en) * | 2020-04-26 | 2020-08-07 | 上海宇航系统工程研究所 | Monitoring and protecting system and monitoring and protecting method for power supply, distribution and power utilization safety of underwater mechanical arm |
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CN101046695A (en) * | 2006-03-30 | 2007-10-03 | 英业达股份有限公司 | Stablized control method and device for remote load voltage |
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Application publication date: 20191220 |