CN113532538A - Bus duct on-line intelligent environment monitoring system - Google Patents

Abstract

The invention provides an online intelligent environment monitoring system for a bus duct, which comprises a plurality of bus ducts arranged among floors, a plurality of bus duct temperature and humidity and voltage acquisition units, a wireless signal transceiver, a touch measurement and control host, a router/gateway, a cloud background, a webpage terminal and a mobile terminal, wherein the bus duct temperature and humidity and voltage acquisition units are connected with the wireless signal transceiver in a wireless manner; the wireless signal receiving and sending device is in signal connection with the touch type measurement and control host through an Ethernet interface, the touch type measurement and control host is in signal connection with the router/gateway through the Ethernet interface, the router/gateway is in signal connection with the cloud background through the Internet, and the cloud background is in signal connection with the webpage terminal and the mobile terminal respectively; the touch type measurement and control host is responsible for receiving temperature, humidity and voltage data transmitted by the bus duct temperature, humidity and voltage acquisition unit, comparing the temperature, humidity and voltage values with preset alarm values, and outputting alarm signals when the temperature, humidity and voltage values exceed the alarm values.

Description

Bus duct on-line intelligent environment monitoring system

[ technical field ] A method for producing a semiconductor device

The invention relates to an electric power safety detection technology, in particular to an online intelligent environment monitoring system for a bus duct.

[ background of the invention ]

With the improvement of the requirement on power supply reliability, the power grid develops towards intellectualization, and the smart power grid is a novel modern power grid formed by highly integrating a sensing measurement technology, an information communication technology, an analysis decision technology, an automatic control technology, an energy power technology and a network infrastructure.

In the traditional electric wire netting, as distribution device's bus duct, belong to electric power transmission's trunk line, it is very important in the engineering, because the bus duct is in heavy current, the operational environment of high voltage for a long time, bus contact point and every section junction can make contact resistance increase because of reasons such as ageing, oxidation, pine, thereby lead to the generating line intensification, circuit voltage risees, will accelerate its insulating ageing, destroy the insulation even, so the temperature rise of bus duct, circuit voltage and environmental humidity are great to its working property and reliability influence, the bus duct often causes the incident such as electric leakage, fusing because of temperature rise or humidity are too high, and circuit voltage risees, even cause the conflagration, consequently it is especially important to the humiture and the voltage monitoring of bus duct.

At present, the collecting and communication means mainly include: manual inspection of a handheld infrared temperature tester, an infrared temperature measurement technology and a fiber grating temperature measurement technology. The manual inspection of the infrared temperature tester is carried out by hands, the detection is time-consuming and labor-consuming, the time of a whole day is usually obtained after each floor of a building is inspected, and the emergency automatic alarm processing cannot be carried out; moreover, the staff cannot measure continuously, so that the temperature and the humidity cannot be detected in real time; meanwhile, the bus duct is closed and electrified, so that temperature testing can be only performed on bolts of the fixed copper bar exposed outside the bus duct, the actual temperature difference between the measured temperature and the bus duct connector is large, misjudgment can be often caused, and the time for finding and removing faults by a user is delayed.

An infrared temperature measurement technology comprises the following steps: the measuring range is big, the degree of accuracy is high, but with cable communication, need lay the cable to need the temperature measurement space, can't realize bus-bar equipment and temperature on-line measuring's integration, if the circuit breaks down can cause the temperature measurement on the large tracts of land circuit to become invalid. The fiber grating temperature measurement technology comprises the following steps: generally, optical fibers are adopted to transmit signals, the signals are easily subjected to surrounding environment and electromagnetic interference, more optical fibers need to be laid, the optical fiber wiring difficulty is high, the optical fibers have the characteristics of easiness in folding, easiness in breaking and no high temperature resistance, and if a circuit fails, temperature measurement failure on a large-area circuit can be caused. A reliable data transmission mode suitable for collecting the temperature and humidity of the bus duct is urgently needed.

[ summary of the invention ]

The invention provides an online intelligent environment monitoring system for a bus duct, which can monitor the temperature, the humidity and the voltage of the bus duct in real time on line, improve the accuracy of temperature, humidity and voltage measurement and realize reliable data transmission.

In order to achieve the purpose, the technical scheme is as follows:

the bus duct online intelligent environment monitoring system comprises a plurality of bus ducts arranged among floors, a plurality of bus duct temperature and humidity and voltage acquisition units, a wireless signal transceiver, a touch measurement and control host, a router/gateway, a cloud background, a webpage terminal and a mobile terminal, wherein the bus duct temperature and humidity and voltage acquisition units are connected with the wireless signal transceiver in a wireless mode;

the wireless signal receiving and sending device is in signal connection with the touch type measurement and control host through an Ethernet interface, the touch type measurement and control host is in signal connection with a router/gateway through the Ethernet interface, the router/gateway is in signal connection with a cloud background through the Internet, and the cloud background is in signal connection with a webpage terminal and a mobile terminal respectively;

each bus duct temperature, humidity and voltage acquisition unit is responsible for respectively acquiring data of the surfaces or joints of a plurality of bus ducts between floors and transmitting the data to the touch type measurement and control host through the wireless signal transceiver;

the touch type measurement and control host is responsible for receiving temperature, humidity and voltage data transmitted by the bus duct temperature, humidity and voltage acquisition unit, comparing the temperature, humidity and voltage values with a preset warning value, storing and displaying the temperature, humidity and voltage data and the comparison result, and outputting an alarm signal when the temperature, humidity and voltage values exceed the warning value;

and the touch type measurement and control host transmits data to the cloud background through a wireless transmitting module or an RS485 bus.

Preferably, the bus duct temperature, humidity and voltage acquisition unit comprises a power module, a wireless communication module and a user function module, wherein the power module is electrically connected with the wireless communication module and the user function module respectively, and the wireless communication module is in signal connection with the user function module and transmits acquired temperature, humidity and voltage data to the touch type measurement and control host through a wireless signal transceiver.

Preferably, the user function module includes a temperature and humidity and voltage detection submodule and at least one intelligent control module, wherein the temperature and humidity and voltage detection submodule corresponds to each bus duct, is respectively provided with a temperature and humidity and voltage detection submodule for detecting the current temperature and humidity and voltage of a detected part of each bus duct in real time, and responds to tripping and closing actions by receiving corresponding bus duct control information sent by the touch type measurement and control host through the wireless signal transceiver and the wireless communication module.

Preferably, the bus duct temperature and humidity and voltage acquisition unit is used for respectively acquiring the temperature and humidity and the grounding voltage of bus shells on the surfaces of all the bus ducts between floors or/and a connecting cover plate at a bus duct joint.

Preferably, the touch measurement and control host comprises:

the database is used for receiving and storing the temperature, humidity and voltage values uploaded by the bus duct temperature, humidity and voltage acquisition unit at certain time intervals and storing preset warning values;

the liquid crystal display module is used for carrying out node schematic display and real-time temperature, humidity and voltage display on the measured temperature, humidity and voltage of all the bus ducts;

and the processing module is used for comparing the temperature, the humidity and the voltage value with a preset warning value and outputting an alarm signal when the temperature, the humidity and the voltage value exceed the preset warning value.

Preferably, the touch measurement and control host further includes:

the geographical information management module is used for displaying geographical position information of power supply lines among the measurement and control points of each block and distribution relation of the measurement and control points on address position information by using an online map technology, and checking the temperature, humidity and voltage values of the measurement and control points of each block;

and the parameter setting module is used for setting the parameters of the bus duct temperature, humidity and voltage acquisition unit, such as the zone address, the remote control dial address, the remote control equipment type, the remote measurement equipment type, the actual access temperature measurement point number and whether the zone is started.

Preferably, the touch measurement and control host further includes:

the temperature, humidity and voltage alarm trip recording module is used for recording temperature, humidity and voltage information of a measurement and control position where an alarm occurs;

the abnormal information recording module is used for recording the abnormal operation information and the abnormal equipment information;

the historical data module is used for inquiring the historical data of each temperature control point in the last month, generating various curves and conveniently exporting the curves to an EXCEL table;

the data freezing module is used for storing the data of each temperature measuring point once every five minutes and storing data volume of at least three months;

and the password management module is used for receiving a user name and a password accessed by a user and checking the temperature, humidity and voltage values of each measurement and control point of each chip area when the user name and the password are correct.

The invention has the advantages that:

the intelligent bus duct temperature and humidity and voltage monitoring system integrates monitoring of the working state of the bus duct temperature and humidity and voltage acquisition unit, display of the field temperature and humidity and voltage, alarm prompt and output, meanwhile, the intelligent control module receives control information, which is sent by the touch type measurement and control host and corresponds to the bus duct, responds to tripping and closing actions, records events and data, and is an environment monitoring system integrating event recording and data recording, and parameters such as the address of the field bus duct temperature and humidity and voltage acquisition unit can be modified.

The bus duct temperature and humidity and voltage acquisition units establish a wireless ad hoc network through a built-in wireless communication module to achieve data sharing, the touch type measurement and control host receives information of the bus duct temperature and humidity and voltage acquisition units, displays the temperature and humidity of each point of each bus duct temperature and humidity and voltage acquisition unit and the voltage value between detection points of each bus duct temperature and humidity and voltage acquisition unit and the ground, when the temperature and humidity or the voltage value exceed a preset value, the touch type measurement and control host gives an alarm, meanwhile, the touch type measurement and control host sends a control instruction to an intelligent control module of each bus duct temperature and humidity and voltage acquisition unit, and a shunt release of a corresponding bus duct breaker acts to cut off a power supply.

Meanwhile, as the bus duct temperature, humidity and voltage acquisition unit can be used for connecting bus shells on the surfaces of all bus ducts among floors and bus duct joints with cover plates, grounding voltage acquisition is respectively carried out, namely in single-phase-to-ground protection of the bus ducts, one grounding voltage detection point detects a shell of a bus, and the other grounding voltage detection point is arranged on the connecting cover plate at the bus duct joint.

In addition, the touch type measurement and control host computer adopts a cloud platform remote centralized monitoring mode, all collected data are collected to the cloud platform, when an alarm occurs, alarm information can be pushed to a webpage terminal and a mobile terminal of a maintenance worker in real time, quick maintenance preparation is facilitated, faults are solved efficiently, and loss caused by the faults is reduced to the maximum extent.

[ description of the drawings ]

FIG. 1 is a schematic diagram of the system of the present invention;

FIG. 2 is a functional block diagram of the system of the present invention;

FIG. 3 is a schematic structural diagram of a bus duct temperature, humidity and voltage acquisition unit according to the present invention;

FIG. 4 is a schematic structural diagram of a user function module according to the present invention;

fig. 5 is a schematic structural diagram of the touch measurement and control host according to the present invention.

[ detailed description ] embodiments

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the drawings of the embodiments of the present invention. It is to be understood that the embodiments described are only a few embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the described embodiments of the invention without any inventive step, are within the scope of protection of the invention.

An online intelligent environment monitoring system for a bus duct is shown in fig. 1 and comprises a plurality of bus ducts 1 arranged among floors, a plurality of bus duct temperature and humidity and voltage acquisition units 2, a wireless signal transceiver 3, a touch measurement and control host 4, a router/gateway 5, a cloud background 6, a webpage terminal 7 and a mobile terminal 8, wherein the bus duct temperature and humidity and voltage acquisition units 2 are connected with the wireless signal transceiver 3 in a wireless manner; the wireless signal receiving and sending device 3 is in signal connection with the touch type measurement and control host 4 through an Ethernet interface, the touch type measurement and control host 4 is in signal connection with the router/gateway 5 through the Ethernet interface, the router/gateway 5 is in signal connection with the cloud background 6 through the Internet 9, and the cloud background 6 is in signal connection with the webpage terminal 7 and the mobile terminal 8 respectively. In addition, in the example, the touch type measurement and control host 4 transmits data to the cloud background 6 through the RS485 bus, the reliability of data transmission is improved through the scheme of the system architecture, the bus duct system can be maintained in time, extra wiring is not needed in the scheme, networking is simple, and the engineering cost is reduced.

Continuing as shown in fig. 1, each bus duct temperature and humidity and voltage acquisition unit 2 respectively acquires temperature and humidity and grounding voltage of bus shells on the surfaces of all bus ducts 1 between floors and a connecting cover plate at the junction of the bus ducts 1, and transmits the temperature and humidity and grounding voltage to the touch measurement and control host 4 through the wireless signal transceiver 3, and the touch measurement and control host 4 is responsible for receiving temperature and humidity and voltage data transmitted by the bus duct temperature and humidity and voltage acquisition units 2 and comparing the temperature and humidity and voltage values with preset warning values, storing and displaying the temperature and humidity and voltage data and comparison results, and outputting an alarm signal when the temperature and humidity and voltage values exceed the warning values.

Because the bus duct temperature, humidity and voltage acquisition unit 2 can connect the cover plates on the bus shells on the surfaces of all the bus ducts 1 among floors and the joints of the bus ducts 1, and respectively carry out grounding voltage acquisition, namely in the single-phase-to-ground protection of the bus ducts 1, one grounding voltage detection point detects the shell of a bus, and the other grounding voltage detection point is arranged on the connection cover plate at the joint of the bus ducts 1.

In this embodiment, the touch measurement and control host 4 adopts the remote centralized monitoring mode of the cloud platform, and all collected data are collected to the cloud platform, so that when an alarm occurs, the alarm information can be pushed to the webpage terminal 7 and the mobile terminal 8 of the maintenance personnel in real time, so that the maintenance preparation can be rapidly made, the fault can be efficiently solved, and the loss caused by the fault can be reduced to the maximum extent.

As shown in fig. 1 and fig. 3, the bus duct temperature, humidity and voltage collecting unit 2 includes a power module 20, a wireless communication module 21 and a user function module 22, the power module 20 is electrically connected to the wireless communication module 21 and the user function module 22, and the wireless communication module 21 is in signal connection with the user function module 22 and transmits collected temperature, humidity and voltage data to the touch measurement and control host 4 through the wireless signal transceiver 3.

As shown in fig. 1 and 4, the user function module 22 includes a temperature and humidity and voltage detection submodule 220 and an intelligent control module 221, which correspond to each bus duct 1 and are respectively provided with a temperature and humidity and voltage detection submodule 220 and an intelligent control module 221, for detecting the current temperature and humidity and voltage of the detected part of each bus duct 1 in real time, and the intelligent control module 221 receives the control information of the corresponding bus duct 1 sent by the touch measurement and control host 4 through the wireless signal transceiver 3 and the wireless communication module 21 to respond to the control of tripping and closing actions.

As shown in fig. 1, 2 and 5, the touch measurement and control host 4 includes a database 40, a liquid crystal display module 41, a processing module 42, a geographic information management module 43, a parameter setting module 44, a temperature, humidity and voltage alarm trip recording module 45, an abnormal information recording module 46, a historical data module 47, a data freezing module 48 and a password management module 49, where the database 40 is configured to receive and store temperature, humidity and voltage values uploaded by the bus duct temperature, humidity and voltage acquisition unit 2 at certain time intervals, and store preset warning values; the liquid crystal display module 41 is used for performing node schematic display and real-time temperature, humidity and voltage display on the measured temperature, humidity and voltage of all the bus ducts, wherein received data are displayed in a colorful mode, the display effect is more visual, and the backlight switch is controllable and is suitable for various application occasions; the processing module 42 is configured to compare the temperature, humidity and voltage values with a preset warning value, and output an alarm signal when the temperature, humidity and voltage values exceed the preset warning value.

As shown in fig. 1, fig. 2, and fig. 5, the geographic information management module 43 is configured to display geographic position information of power supply lines between the measurement and control points in each segment and a distribution relationship of the measurement and control points on the address position information by using an online map technology, and provide for checking temperature, humidity, and voltage values of the measurement and control points in each segment; the parameter setting module 44 is used for setting parameters such as a zone address, a remote control dial address, a remote control device type, a remote measurement device type, an actual access temperature measurement point number, whether the zone is started or not and the like of the bus duct temperature and humidity and voltage acquisition unit 2, and all the parameters are flexible and can be set, so that the operation is convenient, and data is not lost after power failure. The temperature and humidity and voltage alarm trip recording module 45 is used for recording temperature and humidity and voltage information of a measurement and control position where an alarm occurs, the abnormal information recording module 46 is used for recording operation abnormal information and equipment abnormal information, the historical data module 47 is used for inquiring historical data of each temperature control point in the last month, generating various curves and conveniently exporting the curves to an EXCEL table, and then the curves are copied through a computer connecting device; the data freezing module 48 is used for storing the data of each temperature measuring point once every five minutes and storing data volume of at least three months; the password management module 49 is configured to receive a user name and a password accessed by a user, and check the temperature, humidity and voltage values of each measurement and control point in each block when the user name and the password are correct.

The intelligent bus duct temperature and humidity and voltage monitoring system integrates monitoring of the working state of a bus duct temperature and humidity and voltage acquisition unit, display of field temperature and humidity and voltage, alarm prompt and output, meanwhile, an intelligent control module receives control information, which is sent by a touch type measurement and control host and corresponds to a bus duct, responds to tripping and closing actions, records events and data, and is an integrated environment monitoring system, and parameters such as the address of the field bus duct temperature and humidity and voltage acquisition unit can be modified; moreover, the cloud background can also backup various data of the touch type measurement and control host, so that the reliability of the whole system is improved.

The bus duct temperature and humidity and voltage acquisition units 2 establish a wireless ad hoc network through a built-in wireless communication module 21 to achieve data sharing, the touch type measurement and control host 4 receives information of the bus duct temperature and humidity and voltage acquisition units 2 and displays temperature and humidity of each point of each bus duct temperature and humidity and voltage acquisition unit 2 and voltage values between detection points of each bus duct temperature and humidity and voltage acquisition unit 2 and the ground, when the temperature and humidity or the voltage values exceed preset values, the touch type measurement and control host 4 gives an alarm, meanwhile, the touch type measurement and control host 4 issues a control command to an intelligent control module of the bus duct temperature and humidity and voltage acquisition unit 2, and a shunt release of a corresponding bus duct 1 circuit breaker acts to cut off a power supply.

The above-mentioned embodiments are only preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, except for the cases listed in the specific embodiments; all equivalent variations of the methods and principles of the present invention are intended to be within the scope of the present invention.

Claims (7)

1. The bus duct online intelligent environment monitoring system is characterized by comprising a plurality of bus ducts arranged among floors, a plurality of bus duct temperature and humidity and voltage acquisition units, a wireless signal transceiver, a touch measurement and control host, a router/gateway, a cloud background, a webpage terminal and a mobile terminal, wherein the bus duct temperature and humidity and voltage acquisition units are connected with the wireless signal transceiver in a wireless mode;

the wireless signal receiving and sending device is in signal connection with the touch type measurement and control host through an Ethernet interface, the touch type measurement and control host is in signal connection with a router/gateway through the Ethernet interface, the router/gateway is in signal connection with a cloud background through the Internet, and the cloud background is in signal connection with a webpage terminal and a mobile terminal respectively;

each bus duct temperature, humidity and voltage acquisition unit is responsible for respectively acquiring data of the surfaces or joints of a plurality of bus ducts between floors and transmitting the data to the touch type measurement and control host through the wireless signal transceiver;

the touch type measurement and control host is responsible for receiving temperature, humidity and voltage data transmitted by the bus duct temperature, humidity and voltage acquisition unit, comparing the temperature, humidity and voltage values with a preset warning value, storing and displaying the temperature, humidity and voltage data and the comparison result, and outputting an alarm signal when the temperature, humidity and voltage values exceed the warning value;

and the touch type measurement and control host transmits data to the cloud background through a wireless transmitting module or an RS485 bus.

2. The online intelligent bus duct environment monitoring system according to claim 1, wherein the bus duct temperature, humidity and voltage acquisition unit comprises a power module, a wireless communication module and a user function module, the power module is electrically connected with the wireless communication module and the user function module respectively, and the wireless communication module is in signal connection with the user function module and transmits acquired temperature, humidity and voltage data to the touch type measurement and control host through a wireless signal transceiver.

3. The online intelligent environment monitoring system for the bus ducts as claimed in claim 2, wherein the user function modules comprise temperature and humidity and voltage detection sub modules and at least one intelligent control module, wherein the temperature and humidity and voltage detection sub modules correspond to each bus duct, the temperature and humidity and voltage detection sub modules are respectively provided for detecting the current temperature and humidity and voltage of the detected part of each bus duct in real time, and the intelligent control module responds to tripping and closing actions by receiving corresponding bus duct control information sent by the touch type measurement and control host through the wireless signal transceiver and the wireless communication module.

4. The online intelligent bus duct environment monitoring system according to claim 1, wherein the bus duct temperature and humidity and voltage acquisition unit is used for respectively acquiring temperature and humidity and grounding voltage of bus shells on the surfaces of all bus ducts between floors or/and a connecting cover plate at a bus duct joint.

5. The online intelligent environment monitoring system of bus duct of claim 1, characterized in that, touch measurement and control host computer includes:

the database is used for receiving and storing the temperature, humidity and voltage values uploaded by the bus duct temperature, humidity and voltage acquisition unit at certain time intervals and storing preset warning values;

the liquid crystal display module is used for carrying out node schematic display and real-time temperature, humidity and voltage display on the measured temperature, humidity and voltage of all the bus ducts;

and the processing module is used for comparing the temperature, the humidity and the voltage value with a preset warning value and outputting an alarm signal when the temperature, the humidity and the voltage value exceed the preset warning value.

6. The online intelligent environment monitoring system for bus ducts of claim 5, wherein the touch type measurement and control host further comprises:

the geographical information management module is used for displaying geographical position information of power supply lines among the measurement and control points of each block and distribution relation of the measurement and control points on address position information by using an online map technology, and checking the temperature, humidity and voltage values of the measurement and control points of each block;

and the parameter setting module is used for setting the parameters of the bus duct temperature, humidity and voltage acquisition unit, such as the zone address, the remote control dial address, the remote control equipment type, the remote measurement equipment type, the actual access temperature measurement point number and whether the zone is started.

7. The online intelligent environment monitoring system for bus ducts of claim 5, wherein the touch type measurement and control host further comprises:

the temperature, humidity and voltage alarm trip recording module is used for recording temperature, humidity and voltage information of a measurement and control position where an alarm occurs;

the abnormal information recording module is used for recording the abnormal operation information and the abnormal equipment information;

the historical data module is used for inquiring the historical data of each temperature control point in the last month, generating various curves and conveniently exporting the curves to an EXCEL table;

the data freezing module is used for storing the data of each temperature measuring point once every five minutes and storing data volume of at least three months;

and the password management module is used for receiving a user name and a password accessed by a user and checking the temperature, humidity and voltage values of each measurement and control point of each chip area when the user name and the password are correct.

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