CN215219743U - Electric power design quality management and control platform - Google Patents

Abstract

The utility model relates to an electric power design quality management and control platform, including management and control platform, quality information centralized control ware and quality information real-time collection system, quality information real-time collection system installs on power equipment, and quality information real-time collection system includes MCU and the quality parameter collection module, power module, alarm module and the communication module of being connected with MCU respectively. The quality parameter acquisition module is electrically connected with the power equipment, the quality information integrated controller is connected with the management and control platform through a network, the communication module is connected with the quality information integrated controller and used for achieving a communication function, quality data are uploaded to the quality information integrated controller, and a control command sent by the quality information integrated controller is transmitted to the MCU. The key parameters of the quality of the power equipment are collected and monitored in real time, the transportation quality of the power equipment is practically guaranteed by strengthening the technical monitoring means during in-transit transportation, the transportation risk is reduced, and the equipment loss is reduced.

Description

Electric power design quality management and control platform

Technical Field

The utility model belongs to the technical field of electric power design technique and specifically relates to an electric power design quality management and control platform is related to.

Background

In the whole production flow of the power enterprise, the power design quality management work is the most critical link. Only if the power design quality is strictly controlled, the smooth operation and safety of the power system can be ensured, and the power system can be promoted to operate more efficiently. Therefore, the integration and optimization application of the power design quality management system are emphasized, the field supervision is performed in time, the management system is continuously improved, the existing problems are solved by taking corresponding measures in time, and a series of summaries are made, so that the future management is facilitated, and safer power energy is provided for people.

In the prior art, the power design is usually embodied on the customized power equipment, and therefore, the management and control of the transportation quality of the power equipment also belong to one aspect of the management and control of the power design quality. The transportation process of large-scale power equipment (such as a large-scale transformer, a mutual inductor and the like) from factory leaving to in place is long, the equipment is in a moving state in the long-distance transportation process, large vibration impact, abnormal environmental conditions, improper traction methods and the like can all have adverse effects on the quality of the equipment, and some influences are brought to a greater extent after the equipment is put into operation. Therefore, it is necessary to monitor the key parameters of the quality of the large-scale power equipment during transportation, and to give an early warning in time to prevent the occurrence of the critical parameters.

For a long time, measures such as manual recording of escort personnel and offline storage of equipment are generally adopted for monitoring quality key parameters, and no real-time monitoring capability exists due to technical limit. In some special cases, the equipment is found to be out of order after the transportation of the equipment reaches the destination, so that the transportation quality cannot be judged, and the related responsibility is difficult to define. Large-scale power equipment is generally produced in a customized mode, the goods value is high, the production period is long, and once the problems occur, direct economic loss and indirect loss caused by construction period delay are huge.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a not enough to prior art exists, the utility model aims at providing an electric power design quality management and control platform, it is installed on power equipment, can gather and monitor the key parameter of power equipment quality in real time, through strengthening the technical monitoring means when transporting in the way, ensures power equipment's transportation quality conscientiously, reduces the transportation risk, reduces the equipment loss.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

a power design quality control platform comprises a control platform, a quality information centralized controller and a quality information real-time acquisition device, wherein the quality information real-time acquisition device is installed on power equipment and comprises an MCU (microprogrammed control unit) and a quality parameter acquisition module, a power supply module, an alarm module and a communication module which are respectively connected with the MCU;

the quality parameter acquisition module is electrically connected with the power equipment, the quality information integrated controller is connected with the control platform through a network, and the communication module is connected with the quality information integrated controller and used for achieving a communication function, is responsible for uploading quality data to the quality information integrated controller, and transmits a control command sent by the quality information integrated controller to the MCU.

Through the technical scheme, when the power equipment is in the transportation process, the quality information real-time acquisition device is installed on the power equipment, the quality information data of the power equipment is transmitted to the MCU through the quality parameter acquisition module, and then is transmitted to the quality information integrated controller through the communication module, the quality information is transmitted to the control platform through the Internet by the quality information integrated controller, the centralized reporting and command issuing of the quality parameters are realized in the whole process, and the information quality control of power design is realized. The key parameters of the quality of the power equipment are collected and monitored in real time, the transportation quality of the power equipment is practically guaranteed by strengthening the technical monitoring means during in-transit transportation, the transportation risk is reduced, and the equipment loss is reduced.

The present invention may be further configured in a preferred embodiment as: the quality parameter acquisition module comprises a quality detection sensor and a signal conditioning circuit electrically connected with the quality detection sensor, the detection end of the quality detection sensor is electrically connected with a power supply inside the power equipment, and the signal conditioning circuit is electrically connected with the MCU.

Through the technical scheme, in order to collect quality data in real time in the transportation process of the power equipment, the quality detection sensor is required to be installed at a specific position of the equipment main body. The quality detection sensor transmits the quality data to the MCU through the signal conditioning circuit, so that the stability of data acquisition is improved.

The present invention may be further configured in a preferred embodiment as: the power supply module comprises a charging power supply, a control circuit and a battery, wherein the control circuit is respectively electrically connected with the charging power supply and the battery, and the battery is connected with the MCU and used for supplying power to the MCU.

The present invention may be further configured in a preferred embodiment as: the MCU is provided with a remote control switch circuit, a communication interface and a Flash memory, the remote control switch circuit is in control connection with the quality detection sensor, and the Flash memory is used for storing quality data in the MCU.

Through the technical scheme, the communication interface is convenient for the MCU to be connected with the external transmission equipment, and the remote switch circuit is convenient for changing the acquisition period of the quality detection sensor.

The present invention may be further configured in a preferred embodiment as: the alarm module comprises a watchdog circuit, a clock circuit and an alarm, the watchdog circuit and the clock circuit are respectively arranged on the MCU, and the alarm is electrically connected with the watchdog circuit.

Through the technical scheme, the watchdog circuit, the clock circuit and the alarm enable the quality information real-time acquisition device to change multiple important parameters such as the early warning threshold value, the alarm threshold value, the data uploading period and the early warning state uploading period. Meanwhile, the system has the functions of data real-time transmission, threshold early warning, remote resetting, active fault reporting and the like, so that the safe and stable operation of the system is ensured.

The present invention may be further configured in a preferred embodiment as: the communication module comprises an anti-interference circuit and a Zigbee wireless transmitter connected with the anti-interference circuit, and the anti-interference circuit is arranged in the MCU;

the quality information centralized controller comprises a baseband processor and a Zigbee network controller connected with the baseband processor, and the Zigbee wireless transmitter is in communication connection with the Zigbee network controller.

Through the technical scheme, the Zigbee network controller is a key node for communication between the quality information real-time acquisition device and the quality information integrated controller, is connected with the mobile communication module through the UART, and is automatically connected with the Zigbee wireless transmitter of the quality information real-time acquisition device in a Zigbee ad hoc network mode, so that quality data can be conveniently transmitted, and the anti-interference circuit can improve the transmission stability.

The present invention may be further configured in a preferred embodiment as: the baseband processor is connected with a main control chip, a power management chip, a storage chip, a radio frequency transceiving chip of a wireless communication network, a display module, an input module, a satellite positioning chip, a Zigbee module, a camera function module, a USB interface, an SIM card interface and a loudspeaker module.

The present invention may be further configured in a preferred embodiment as: the MCU employs a CC2530 microprocessor based on an 80C51 kernel.

To sum up, the utility model discloses a beneficial technological effect does: when power equipment is in the transportation process, the quality information real-time acquisition device is installed on the power equipment, quality information data of the power equipment is transmitted to the MCU through the quality parameter acquisition module, and then is transmitted to the quality information integrated controller through the communication module, the quality information is transmitted to the control platform through the Internet by the quality information integrated controller, the centralized reporting and command issuing of quality parameters are realized in the whole process, and the information quality control of power design is realized. The key parameters of the quality of the power equipment are collected and monitored in real time, the transportation quality of the power equipment is practically guaranteed by strengthening the technical monitoring means during in-transit transportation, the transportation risk is reduced, and the equipment loss is reduced.

Drawings

Fig. 1 is a block diagram of the overall structure of the present invention.

Fig. 2 is the hardware structure diagram of the display quality information real-time acquisition device of the utility model.

Reference numerals: 1. a control platform; 2. a quality information centralized controller; 3. quality information real-time acquisition device.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, for the utility model discloses an electric power design quality management and control platform, including management and control platform 1, quality information centralized control ware 2 and quality information real-time collection system 3, quality information real-time collection system 3 installs on power equipment, and quality information real-time collection system 3 includes MCU and the quality parameter collection module, power module, alarm module and the communication module of being connected with MCU respectively.

Quality parameter acquisition module is connected with the power equipment electricity, quality information centralized control ware 2 and management and control platform 1 internet access, communication module connects quality information centralized control ware 2 and is used for realizing communication function, is responsible for uploading quality data to quality information centralized control ware 2 to give MCU with the control command transmission that quality information centralized control ware 2 sent. In this embodiment, the MCU preferably employs a CC2530 microprocessor based on an 80C51 core.

Referring to fig. 2, the quality parameter acquisition module includes a quality detection sensor and a signal conditioning circuit electrically connected to the quality detection sensor, a detection end of the quality detection sensor is electrically connected to a power supply inside the power equipment, and the signal conditioning circuit is electrically connected to the MCU. In order to collect quality data in real time during transportation of electric power equipment, it is necessary to ensure that a quality detection sensor is installed at a specific position of an equipment main body. The quality detection sensor transmits the quality data to the MCU through the signal conditioning circuit, so that the stability of data acquisition is improved.

The power supply module comprises a charging power supply, a control circuit and a battery, the control circuit is electrically connected with the charging power supply and the battery respectively, and the battery is connected with the MCU and used for supplying power to the MCU. The MCU is provided with a remote control switch circuit, a communication interface and a Flash memory, the remote control switch circuit is in control connection with the quality detection sensor, and the Flash memory is used for storing quality data in the MCU. The communication interface is convenient for the MCU to connect external transmission equipment, and the remote switch circuit is convenient for change the acquisition cycle of quality detection sensor.

Referring to fig. 2, the alarm module includes a watchdog circuit, a clock circuit, and an alarm, the watchdog circuit and the clock circuit are respectively disposed on the MCU, and the alarm is electrically connected to the watchdog circuit. The watchdog circuit, the clock circuit and the alarm are arranged, so that the quality information real-time acquisition device 3 can change a plurality of important parameters such as an early warning threshold value, an alarm threshold value, a data uploading period and an early warning state uploading period. Meanwhile, the system has the functions of data real-time transmission, threshold early warning, remote resetting, active fault reporting and the like, so that the safe and stable operation of the system is ensured.

Further, the communication module includes anti-jamming circuit and the Zigbee wireless transmitter who is connected with anti-jamming circuit, and anti-jamming circuit sets up in MCU. The quality information centralized controller 2 comprises a baseband processor and a Zigbee network controller connected with the baseband processor, and the Zigbee wireless transmitter is in communication connection with the Zigbee network controller.

The Zigbee network controller is a key node for communication between the quality information real-time acquisition device 3 and the quality information centralized controller 2, is connected with the mobile communication module through a UART (universal asynchronous receiver/transmitter) and is automatically connected with a Zigbee wireless transmitter of the quality information real-time acquisition device 3 in a Zigbee ad-hoc network mode, so that quality data can be transmitted conveniently, and the transmission stability can be improved by the anti-interference circuit.

In this embodiment, the baseband processor is connected to a main control chip, a power management chip, a memory chip, a radio frequency transceiver chip of a wireless communication network, a display module, an input module, a satellite positioning chip, a Zigbee module, a camera module, a USB interface, an SIM card interface, and a speaker module.

The implementation principle of the embodiment is as follows: when power equipment is in the transportation process, the quality information real-time acquisition device 3 is installed on the power equipment, the quality information data of the power equipment is transmitted to the MCU through the quality parameter acquisition module, and then is transmitted to the quality information integrated controller 2 through the communication module, the quality information is transmitted to the control platform 1 through the Internet by the quality information integrated controller 2, the centralized reporting and command issuing of the quality parameters are realized in the whole process, and the information quality control of power design is realized. The key parameters of the quality of the power equipment are collected and monitored in real time, the transportation quality of the power equipment is practically guaranteed by strengthening the technical monitoring means during in-transit transportation, the transportation risk is reduced, and the equipment loss is reduced.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides an electric power design quality management and control platform which characterized in that: the quality information monitoring system comprises a control platform (1), a quality information centralized controller (2) and a quality information real-time acquisition device (3), wherein the quality information real-time acquisition device (3) is installed on power equipment, and the quality information real-time acquisition device (3) comprises an MCU (microprogrammed control unit) and a quality parameter acquisition module, a power supply module, an alarm module and a communication module which are respectively connected with the MCU;

the quality parameter acquisition module is electrically connected with power equipment, the quality information centralized controller (2) is in network connection with the control platform (1), and the communication module is connected with the quality information centralized controller (2) and used for achieving a communication function, is responsible for uploading quality data to the quality information centralized controller (2), and transmits a control command sent by the quality information centralized controller (2) to the MCU.

2. The power design quality management and control platform according to claim 1, wherein: the quality parameter acquisition module comprises a quality detection sensor and a signal conditioning circuit electrically connected with the quality detection sensor, the detection end of the quality detection sensor is electrically connected with a power supply inside the power equipment, and the signal conditioning circuit is electrically connected with the MCU.

3. The power design quality management and control platform according to claim 1, wherein: the power supply module comprises a charging power supply, a control circuit and a battery, wherein the control circuit is respectively electrically connected with the charging power supply and the battery, and the battery is connected with the MCU and used for supplying power to the MCU.

4. The power design quality management and control platform according to claim 2, wherein: the MCU is provided with a remote control switch circuit, a communication interface and a Flash memory, the remote control switch circuit is in control connection with the quality detection sensor, and the Flash memory is used for storing quality data in the MCU.

5. The power design quality management and control platform according to claim 1, wherein: the alarm module comprises a watchdog circuit, a clock circuit and an alarm, the watchdog circuit and the clock circuit are respectively arranged on the MCU, and the alarm is electrically connected with the watchdog circuit.

6. The power design quality management and control platform according to claim 1, wherein: the communication module comprises an anti-interference circuit and a Zigbee wireless transmitter connected with the anti-interference circuit, and the anti-interference circuit is arranged in the MCU;

the quality information centralized controller (2) comprises a baseband processor and a Zigbee network controller connected with the baseband processor, and the Zigbee wireless transmitter is in communication connection with the Zigbee network controller.

7. The power design quality management and control platform according to claim 6, wherein: the baseband processor is connected with a main control chip, a power management chip, a storage chip, a radio frequency transceiving chip of a wireless communication network, a display module, an input module, a satellite positioning chip, a Zigbee module, a camera function module, a USB interface, an SIM card interface and a loudspeaker module.

8. The power design quality management and control platform according to claim 1, wherein: the MCU employs a CC2530 microprocessor based on an 80C51 kernel.

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