CN211478948U - Industrial intelligent power consumption control device based on Internet of things - Google Patents

Abstract

The utility model discloses an industrial intelligent electricity utilization management and control device based on the Internet of things, which is characterized by comprising a centralized management and control device, a high-voltage management and control device, a transformer management and control device, a workshop power management and control device and a plant life management and control device; wireless data transmission units for being in communication connection with the centralized management and control device are arranged in the high-voltage management and control device, the transformer management and control device, the workshop power management and control device and the plant life management and control device; the centralized control device is in communication connection with a cloud server, and the cloud server is in communication connection with a mobile phone APP and a PC client. The utility model discloses the electric hidden danger that the early warning takes place in time avoids the emergence of electric incident, and the management of being convenient for is favorable to the energy saving simultaneously.

Description

Industrial intelligent power consumption control device based on Internet of things

Technical Field

The utility model relates to a power consumption management technology field, concretely relates to industry wisdom power consumption management and control device based on thing networking.

Background

At present, the detection and control of power consumption of a power supply and distribution system of an industrial enterprise from a high voltage to a transformer end and then to a workshop basically adopts a system which operates independently and respectively, a field monitoring mode, manual inspection and manual field control, a high-voltage control cabinet, a capacitance compensation cabinet, a low-voltage control cabinet, a workshop power distribution cabinet and the like are combined, and although a power instrument and a protection device are arranged, system management control cannot be formed. Particularly, the electric equipment is complex, and the conditions of short circuit, fire and the like are easy to occur due to overlarge power load of a part of electric equipment, so that a fire disaster is caused, and the power can not be quickly cut off and an alarm can not be given; when the power load of other parts is too small, redundant energy cannot be automatically distributed, and energy waste is caused.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve the not enough of prior art, provide one kind can in time early warning, avoid the emergence of electrical safety accident, be convenient for manage and energy-conserving industry wisdom power consumption management and control system.

In order to achieve the above purpose, the utility model provides a following technical scheme:

an industrial intelligent electricity utilization management and control device based on the Internet of things comprises a centralized management and control device, a high-voltage management and control device, a transformer management and control device, a workshop power management and control device and a plant life management and control device; wireless data transmission units for being in communication connection with the centralized management and control device are arranged in the high-voltage management and control device, the transformer management and control device, the workshop power management and control device and the plant life management and control device; the centralized control device is in communication connection with a cloud server, and the cloud server is in communication connection with a mobile phone APP and a PC client.

Further, the centralized management and control device is an upper computer arranged in the centralized management and control room and used for classifying, summarizing, storing and analyzing data collected by all regional workstations of an enterprise.

Furthermore, a first wireless data transmission unit is arranged in the high-voltage control device, and the high-voltage control device also comprises a high-voltage intelligent control cabinet, an electric power safety monitoring device, a wireless temperature measuring device, a microcomputer protection device, a vacuum switch, a voltmeter and an ammeter, wherein the high-voltage intelligent control cabinet is in communication connection with the first wireless data transmission unit; the high-voltage management and control device is used for receiving external power transmission and local electric energy distribution.

Furthermore, a second wireless data transmission unit is arranged in the transformer control device, and the transformer control device further comprises a transformer body, a transformer body temperature sensor, an environment temperature sensor, a cooling device, a high-voltage pipe control cabinet, a low-voltage pipe control cabinet, an intelligent capacitance compensation device, a vacuum switch, a voltage transformer, a current transformer and a power factor meter which are in communication connection with the second wireless data transmission unit; the high-voltage side control of the transformer control device is completed in the high-voltage control cabinet, the low-voltage side control is completed in the low-voltage control cabinet, and the high-voltage and low-voltage separation isolation is realized.

Further, set up the third wireless data transmission unit in the workshop power management and control device, workshop power management and control device still includes the power control cabinet with third wireless data transmission unit communication connection, electronic control mechanism, arc detector, voltmeter, and the electric current is mutual-inductance, ampere meter, power factor table.

Further, set up fourth wireless data transmission unit in the factory life management and control device, factory life management and control device still includes office area intelligent distribution box, fills electric pile intelligent distribution box and dormitory district intelligent distribution box with fourth wireless data transmission unit communication connection.

The utility model discloses extensively be applicable to industrial enterprise such as metallurgy, petroleum, chemical industry, building materials, mine to and building units such as hospital, school, office building, municipal construction realize supplying distribution system's intelligent management. The utility model discloses a data set storage, big data, cloud calculate, realize state information's unusual warning and trend prediction, with the help of cell-phone APP and PC customer end, can realize supplying distribution equipment safe state anytime and anywhere to the instant early warning of the electric hidden danger of discovery, avoid the emergence of electric incident. The electricity consumption metering data is uploaded to the cloud server, the annual statistics report of the monthly rose of the electricity consumption is automatically realized, the year-round and year-round analysis of the electricity consumption is well carried out, electricity consumption leaks are timely found, and energy conservation is realized in management. The centralized management system realizes centralized management of equipment data files, centralized end management of equipment daily management workflow (polling, maintenance, detection), assists equipment managers to scientifically arrange equipment polling, maintenance, detection and other work, and upgrades preventive after-event maintenance to predictive maintenance, so that the full life cycle management of the equipment is realized, the traditional extensive experience management is upgraded to accurate intelligent management, and the equipment management is simpler.

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 an architectural diagram of the present invention;

fig. 2 is a control block diagram of the medium-high voltage control device of the present invention;

fig. 3 is a control block diagram of the transformer management and control apparatus of the present invention;

FIG. 4 is a control block diagram of the workshop power management and control device of the present invention;

fig. 5 is a control block diagram of the utility model discloses well factory life management and control device.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of 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. 1-5, the utility model provides an industrial intelligent electricity utilization control device based on internet of things, which comprises a centralized control device 4, a high-voltage control device 5, a transformer control device 6, a workshop power control device 7 and a plant life control device 8; wireless data transmission units for being in communication connection with the centralized management and control device 4 are arranged in the high-voltage management and control device 5, the transformer management and control device 6, the workshop power management and control device 7 and the plant life management and control device 8; centralized management and control device 4 and cloud server 2 communication connection, cloud server 2 passes through 2G or 3G or 4G or 5G network and cell-phone APP3 and PC client 1 communication connection.

The utility model discloses in, concentrate management and control device 4 for setting up at the indoor host computer of concentrated management and control, it classifies the data that each regional workstation of enterprise gathered, saves and analyzes. Meanwhile, the centralized control device 4 transmits the processed data to the cloud server 2, so that the user can conveniently inquire, monitor and manage corresponding equipment by distributing authority. The centralized management and control device 4 is a main control platform for equipment energy management, and performs centralized and unified management on equipment by adopting modern information technologies such as internet of things, cloud computing and big data analysis. The method can comprehensively record detailed basic data, operation state and historical information of the equipment, can monitor the operation state of the equipment in real time, and can make scientific equipment management schemes and energy distribution schemes for equipment managers, thereby achieving energy conservation while ensuring high-efficiency operation of the equipment.

The utility model discloses in, high pressure management and control device 5 is used for accepting external transmission and local electric energy distribution. The high-voltage control device 5 is internally provided with a first wireless data transmission unit 9, and the high-voltage control device 5 further comprises a high-voltage intelligent control cabinet 10, an electric power safety monitoring device 11, a wireless temperature measuring device 12, a microcomputer protection device 13, a vacuum switch 14, a voltmeter 15 and an ammeter 16, wherein the high-voltage intelligent control cabinet 10 is in communication connection with the first wireless data transmission unit 9; wherein, the wireless temperature measuring device 12 in the high-voltage control device 5 transmits the measured temperature information of the high-voltage copper bar connecting joint to the first data transmission unit 9, and the temperature acquisition is completed. The high-voltage control device 5 realizes the scattered local acquisition and control of comprehensive information such as electrical parameters, protection device information, high-voltage copper bar connecting joint temperature, on-off state and the like, and simultaneously transmits all acquired signals in the high-voltage control device 5 to the centralized control device 4 in real time through the first wireless data transmission unit 9.

In the utility model, a second wireless data transmission unit 17 is arranged in the transformer control device 6, and the transformer control device 6 further comprises a transformer body 18 in communication connection with the second wireless data transmission unit 17, a transformer body temperature sensor 19, an ambient temperature sensor 20, a cooling device 21, a high-voltage control cabinet 22, a low-voltage control cabinet 23, an intelligent capacitance compensation device 24, a vacuum switch 25, a voltage transformer 26, a current transformer 27 and a power factor meter 28; the high-voltage side control of the transformer control device 6 is completed in the high-voltage control cabinet 22, the low-voltage side control is completed in the low-voltage control cabinet 23, and the high-voltage and low-voltage separation isolation is realized. The transformer control device 6 realizes the scattered local acquisition and control of comprehensive information such as electrical parameters, protection device information, the temperature of connecting joints of copper bars in and out of the transformer, the switching state and the like, and simultaneously transmits all acquired signals in the transformer control device to the centralized control device 4 in real time through the second wireless data transmission unit 17.

The utility model discloses in, workshop power management and control device 7 is used for accomplishing each power control equipment power distribution in workshop and workshop power protection, three-phase voltage, three-phase current, power supply quality (three-phase unbalance degree, power supply quality qualification rate, power failure etc.), the function that leakage current, three-phase cable temperature, box temperature, load current (overload warning) gathered. The workshop power management and control device 7 is internally provided with a third wireless data transmission unit 30, and the workshop power management and control device 7 further comprises a power control cabinet 31, an electric control mechanism 32, an arc detector 33, a voltmeter 36, a current transformer 35, an ammeter 37 and a power factor meter 34 which are in communication connection with the third wireless data transmission unit 30. The workshop power management and control device 7 realizes the scattered local acquisition and control of comprehensive information such as electrical parameters, protection device information, temperature of a busbar connecting contact and switching state of workshop power, and transmits all acquired signals in the workshop power management and control device 7 to the centralized management and control device 4 in real time through the third wireless data transmission unit 30.

The utility model discloses in, set up fourth wireless data transmission unit 38 in the factory life management and control device 8, factory life management and control device 8 still includes office area intelligent distribution box 39 with fourth wireless data transmission unit 38 communication connection, fills electric pile intelligent distribution box 40 and dormitory district intelligent distribution box 41. The plant life management and control device 8 can provide a basis for management of power consumption and energy consumption in public areas by combining the functions of timing automatic control and remote control with the power consumption data of all intelligent distribution boxes for summarizing and analyzing; the timing automatic control mainly sets different time zones according to the characteristics of each power utilization section, such as illumination intensity and time control, and distributes the part of electric energy to other sections for use when power utilization is not needed. The remote control is mainly characterized in that the current feedback of each power utilization section is compared with the set current, and the power supply of the non-important section at the self-cutting end is realized. The voltage, current and load fluctuation conditions are analyzed, the operation conditions of illumination and other public equipment can be monitored, fault early warning is realized, and timely maintenance is realized. And the voltage, current fluctuation and rated power of the charging pile are monitored and early warned in real time, so that the safe and stable long-term operation of the charging equipment is protected.

The utility model discloses extensively be applicable to industrial enterprise such as metallurgy, petroleum, chemical industry, building materials, mine to and building units such as hospital, school, office building, municipal construction realize supplying distribution system's intelligent management. The utility model discloses on the basis based on industry internet and big data analysis, realize operation control, safety monitoring and electric power energy consumption analysis, electric power energy distribution, electric fire accident prevention system centralized management and high in the clouds management, based on thing networking and industry internet architecture system, realize the high in the clouds control and the high in the clouds management of power supply and distribution system. Through data centralized storage, big data, cloud calculation, realize state information's unusual warning and trend prediction, with the help of cell-phone APP and PC customer end, can realize anytime and anywhere supplying and distributing equipment safe state to the emergence of electric safety accident is avoided to the instant early warning of the electric hidden danger of discovery. The electricity consumption metering data is uploaded to the cloud platform, the annual statistics report of the monthly rose of the electricity consumption is automatically realized, the year-round and year-round analysis of the electricity consumption is well carried out, electricity consumption leaks are timely found, and energy conservation is realized in management. The centralized management system fuses, classifies and summarizes the online real-time state data and the manual inspection data of the equipment, the current data and the historical data of the equipment, realizes the centralized management of equipment data files, the centralized management of daily management workflows (inspection, maintenance and detection) of the equipment, assists the equipment managers to scientifically arrange the inspection, maintenance, detection and other works of the equipment, upgrades the preventive post-event maintenance into the predictive maintenance, realizes the full life cycle management of the equipment, upgrades the equipment management from the traditional extensive experience management into the precise intelligent management, and simplifies the equipment management.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (6)

1. An industrial intelligent electricity utilization management and control device based on the Internet of things is characterized by comprising a centralized management and control device, a high-voltage management and control device, a transformer management and control device, a workshop power management and control device and a plant life management and control device; wireless data transmission units for being in communication connection with the centralized management and control device are arranged in the high-voltage management and control device, the transformer management and control device, the workshop power management and control device and the plant life management and control device; the centralized control device is in communication connection with a cloud server, and the cloud server is in communication connection with a mobile phone APP and a PC client.

2. The internet of things-based industrial intelligent electricity management and control device according to claim 1, wherein: the centralized control device is an upper computer arranged in the centralized control room and used for classifying, summarizing, storing and analyzing data acquired by each regional workstation of an enterprise.

3. The internet of things-based industrial intelligent electricity management and control device according to claim 1, wherein: the high-voltage control device is internally provided with a first wireless data transmission unit and also comprises a high-voltage intelligent control cabinet, an electric power safety monitoring device, a wireless temperature measuring device, a microcomputer protection device, a vacuum switch, a voltmeter and an ammeter, wherein the high-voltage intelligent control cabinet is in communication connection with the first wireless data transmission unit; the high-voltage management and control device is used for receiving external power transmission and local electric energy distribution.

4. The internet of things-based industrial intelligent electricity management and control device according to claim 1, wherein: the transformer control device is internally provided with a second wireless data transmission unit and also comprises a transformer body, a transformer body temperature sensor, an environment temperature sensor, a cooling device, a high-voltage pipe control cabinet, a low-voltage pipe control cabinet, an intelligent capacitance compensation device, a vacuum switch, a voltage transformer, a current transformer and a power factor meter, wherein the transformer body, the transformer body temperature sensor, the environment temperature sensor, the cooling device, the high-voltage pipe control cabinet, the low-voltage pipe control cabinet, the intelligent capacitance compensation device, the vacuum switch, the; the high-voltage side control of the transformer control device is completed in the high-voltage control cabinet, the low-voltage side control is completed in the low-voltage control cabinet, and the high-voltage and low-voltage separation isolation is realized.

5. The internet of things-based industrial intelligent electricity management and control device according to claim 1, wherein: the workshop power management and control device is internally provided with a third wireless data transmission unit and further comprises a power control cabinet, an electric control mechanism, an arc detector, a voltmeter, a current transformer, an ammeter and a power factor meter, wherein the power control cabinet is in communication connection with the third wireless data transmission unit.

6. The internet of things-based industrial intelligent electricity management and control device according to claim 1, wherein: set up fourth wireless data transmission unit in the factory life management and control device, the factory life management and control device still includes office area intelligent distribution box, fills electric pile intelligent distribution box and dormitory district intelligent distribution box with fourth wireless data transmission unit communication connection.

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