CN112055063A - Power working condition Internet of things monitoring device based on artificial intelligence and use method - Google Patents

Abstract

The invention discloses an artificial intelligence-based electric power working condition Internet of things monitoring device and a using method thereof, relates to the technical field of electric power working condition monitoring, and aims to solve the problems that working data of the monitoring device cannot be timely and effectively shared with a remote terminal due to lack of corresponding Internet of things intersection between the monitoring device and the remote terminal, the electric power working condition monitoring effect is poor, and the intelligent monitoring requirement of the electric power working condition cannot be met. The utility model discloses a device for processing the signals of a plurality of electronic devices, including device casing, the inside of device casing is provided with insulating pad, the inside of device casing is provided with the treater, one side of treater is provided with current transformer and voltage transformer, the opposite side of treater is provided with relay protection ware and temperature sensor, current transformer, voltage transformer and temperature sensor's output all with the input electric connection of treater, the one end of device casing is provided with card and groove, the inside in card and groove is provided with the screw hole, the below of device casing is provided with the fixed block.

Description

Power working condition Internet of things monitoring device based on artificial intelligence and use method

Technical Field

The invention relates to the technical field of electric power working condition monitoring, in particular to an electric power working condition internet of things monitoring device based on artificial intelligence and a using method thereof.

Background

The electric power is an electric energy production and consumption system which takes electric energy as the energy of power and consists of links of power generation, power transformation, power transmission, power distribution, power utilization and the like. The electric power working condition refers to the working state of the equipment under the condition that the equipment has a direct relation with the action of the equipment, and is important for monitoring the electric power working condition in an electric power system. Artificial intelligence, also known as intelligent machinery and machine intelligence, refers to intelligence developed by machines manufactured by humans, and generally refers to a technique for representing human intelligence by a general computer program.

At present, the electric power operating mode monitoring device who uses can monitor electric power data in the use, take effectual processing under the electric power abnormal conditions, because lack corresponding thing allies oneself with between monitoring device and the remote terminal and intersect, the working data that leads to monitoring device can't be in time effectual shares with the remote terminal, electric power operating mode monitoring effect is not good, can not satisfy electric power operating mode intelligent monitoring demand, therefore an electric power operating mode thing allies oneself with monitoring device and application method based on artificial intelligence are urgently needed in the market and solve these problems.

Disclosure of Invention

The invention aims to provide an artificial intelligence-based electric power working condition Internet of things monitoring device and a using method thereof, and aims to solve the problems that due to the fact that corresponding Internet of things intersection is lacked between the monitoring device and a remote terminal, working data of the monitoring device cannot be timely and effectively shared with the remote terminal, the electric power working condition monitoring effect is poor, and the intelligent monitoring requirement of the electric power working condition cannot be met.

In order to achieve the purpose, the invention provides the following technical scheme: an electric power working condition internet of things monitoring device based on artificial intelligence comprises a device shell, wherein an insulating pad is arranged inside the device shell and is connected with the inner wall of the device shell in a fitting manner, a processor is arranged inside the device shell, a current transformer and a voltage transformer are arranged on one side of the processor, a relay protector and a temperature sensor are arranged on the other side of the processor, the current transformer, the voltage transformer, the processor, the relay protector and the temperature sensor are all connected with the device shell through screws, the output ends of the current transformer, the voltage transformer and the temperature sensor are all electrically connected with the input end of the processor, the output end of the processor is electrically connected with the input end of the relay protector, a card and a groove are arranged at one end of the device shell, a threaded hole is formed inside the card and the groove, and one end of the threaded hole extends into the device shell, a fixing block is arranged below the device shell, and the fixing block is connected with the device shell through a screw.

Preferably, the insulating pad adopts polyvinyl chloride to make, current transformer's model is LMZJ1-0.5, voltage transformer's model is JDZ9-35Q, the model of treater is STC89C51, relay protector's model is MPT2300C, temperature sensor's model is PT 100.

Preferably, the both sides of device casing all are provided with binding post, and binding post sets up structure as an organic whole with the device casing, binding post respectively with current transformer, voltage transformer and relay protection ware electric connection, one side of binding post is provided with the rubber line cover, and the rubber line cover passes through screw connection with the device casing, one side of device casing is provided with the data plate, and the data plate passes through screw connection with the device casing.

Preferably, one side of device casing is provided with the front panel, and the front panel extends to the inside in card and groove, the both sides of front panel all are provided with the connecting block, and connecting block and front panel set up structure as an organic whole, one side of connecting block is provided with the fitting pin, and the one end through connection piece of fitting pin and extend to the inside of screw hole, fitting pin and device casing threaded connection, the outside of front panel is provided with the sealing washer, and sealing washer and front panel set up structure as an organic whole, the sealing washer is laminated with the device casing mutually.

Preferably, one side of front panel is provided with the display screen, the below of display screen is provided with status indicator lamp, status indicator lamp's below is provided with button input and audible-visual annunciator, and display screen, status indicator lamp, button input and audible-visual annunciator all pass through screw connection with the front panel, display screen, status indicator lamp, button input and audible-visual annunciator all with treater electric connection.

Preferably, the upper end of the device shell is provided with a heat dissipation groove, one end of the heat dissipation groove extends to the inside of the device shell, a heat dissipation fan is arranged inside the heat dissipation groove, the heat dissipation fan is connected with the device shell through screws, dust screens are arranged on two sides of the heat dissipation fan, and the dust screens are connected with the inner wall of the heat dissipation groove in a laminating mode.

Preferably, an RS485 communicator and a photoelectric isolator are arranged inside the device shell, the RS485 communicator and the photoelectric isolator are connected with the device shell through screws, the photoelectric isolator is respectively in bidirectional electrical connection with the RS485 communicator and the processor, and the type of the photoelectric isolator is BS 232-9.

Preferably, the top of rubber line cover is provided with U type groove, and U type groove and device casing punching press integral structure, the inside in U type groove is provided with carries the handle, and carries the handle and rotate with the device casing and be connected, the outside of carrying the handle is provided with the rubber sleeve, and the rubber sleeve is connected with carrying the handle laminating.

A use method of an electric power working condition Internet of things monitoring device based on artificial intelligence comprises the following steps:

step 1: the method comprises the following steps of implanting expected data into a processor in the monitoring device, connecting the monitoring device into a power transmission line, connecting a cable with a wiring terminal, collecting power signals by means of a current transformer and a voltage transformer, and collecting temperature data in the monitoring device by a temperature sensor;

step 2: converting the acquired data and inputting the converted data into a processor, processing and analyzing the acquired data by means of the processor, and judging the size between the acquired data and expected implantation data so as to monitor the power working condition;

and step 3: when the processed and analyzed data meet the use requirements, the power working condition is in a normal working state, measures are not needed, when the processed and analyzed data meet the expected data, the power working condition is in an abnormal working state, a relay protector is triggered to carry out safety protection on a circuit, an audible and visual alarm is triggered to give an alarm, and no matter what working state the power working condition is in, the working data at the moment can be transmitted to a display screen for visual display and corresponding state indicating lamps can be lightened;

and 4, step 4: the monitoring device working data can be transmitted with the terminal equipment through the RS485 communicator in a network mode, so that the monitoring data and the terminal equipment are shared, the terminal equipment can send instructions to the monitoring device to adjust correspondingly, and artificial intelligent power working condition internet of things monitoring is achieved.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the device, through the arrangement of the RS485 communicator and the photoelectric isolator, the RS485 communicator can be used for transmitting the electric power working condition data monitored by the monitoring device to the terminal equipment, so that remote Internet of things sharing can be achieved, instructions can be sent to the monitoring device, the working data of the monitoring device can be adjusted, and the photoelectric isolator has a good isolation effect on input and output electric signals, so that the common mode rejection capability is improved, and interference errors are reduced. The problem of can realize gathering the control and carrying out artificial intelligence to electric power operating mode, realize the thing allies oneself with intersection is solved.

2. The device can timely perform circuit safety protection when the power working condition does not work normally or fails by virtue of the relay protector, the state indicator lamp can accurately display the working state, the maintenance efficiency of workers is improved when the fault occurs, and the audible and visual alarm gives out an alarm sound to conveniently warn the workers in a certain range. The problem of can in time carry out circuit safety protection when electric power operating mode breaks down, improve the safe in utilization performance is solved.

Drawings

FIG. 1 is a schematic view of the internal structure of the device housing of the present invention;

FIG. 2 is a schematic front view of the apparatus of the present invention;

FIG. 3 is a schematic side view of the apparatus of the present invention;

FIG. 4 is a schematic diagram of the operation of the present invention;

fig. 5 is a flow chart of the operation of the present invention.

In the figure: 1. a device housing; 2. a fixed block; 3. a wiring terminal; 4. a rubber wire sleeve; 5. an insulating pad; 6. an RS485 communicator; 7. a photoelectric isolator; 8. a current transformer; 9. a voltage transformer; 10. a card and a slot; 11. a threaded hole; 12. a processor; 13. a relay protector; 14. a heat sink; 15. a heat radiation fan; 16. a dust screen; 17. a temperature sensor; 18. a front panel; 19. connecting blocks; 20. a display screen; 21. a nameplate; 22. a status indicator light; 23. inputting a key; 24. an audible and visual alarm; 25. a seal ring; 26. a rubber sleeve; 27. a locking bolt; 28. a U-shaped groove; 29. and (5) lifting the handle.

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.

Referring to fig. 1-5, an embodiment of the present invention is shown: an electric power working condition internet-of-things monitoring device based on artificial intelligence comprises a device shell 1, wherein an insulating pad 5 is arranged inside the device shell 1, the insulating pad 5 is connected with the inner wall of the device shell 1 in a fitting manner, a processor 12 is arranged inside the device shell 1, a current transformer 8 and a voltage transformer 9 are arranged on one side of the processor 12, a relay protector 13 and a temperature sensor 17 are arranged on the other side of the processor 12, the current transformer 8, the voltage transformer 9, the processor 12, the relay protector 13 and the temperature sensor 17 are all connected with the device shell 1 through screws, the output ends of the current transformer 8, the voltage transformer 9 and the temperature sensor 17 are all electrically connected with the input end of the processor 12, the output end of the processor 12 is electrically connected with the input end of the relay protector 13, a card and a groove 10 are arranged at one end of the device shell 1, and a threaded hole 11 is arranged inside the card, and the one end of screw hole 11 extends to the inside of device casing 1, and the below of device casing 1 is provided with fixed block 2, and fixed block 2 passes through the screw connection with device casing 1, and current transformer 8 and voltage transformer 9 can detect electric current, voltage in the electric power respectively, and temperature sensor 17 then can detect monitoring device's operating temperature environment, and relay protection ware 13 then can in time carry out circuit safety protection when the monitoring data is unusual, has improved the safety in utilization performance.

Further, the insulation pad 5 is made of polyvinyl chloride, the type of the current transformer 8 is LMZJ1-0.5, the type of the voltage transformer 9 is JDZ9-35Q, the type of the processor 12 is STC89C51, the type of the relay protector 13 is MPT2300C, and the type of the temperature sensor 17 is PT 100. The insulating pad 5 can shield the electromagnetic effect inside the monitoring device, and reduce the electrostatic capacity of the monitoring device.

Further, both sides of the device shell 1 are provided with wiring terminals 3, the wiring terminals 3 and the device shell 1 are arranged to be of an integral structure, the wiring terminals 3 are respectively electrically connected with the current transformer 8, the voltage transformer 9 and the relay protector 13, one side of each wiring terminal 3 is provided with a rubber wire sleeve 4, the rubber wire sleeves 4 are connected with the device shell 1 through screws, one side of the device shell 1 is provided with a nameplate 21, and the nameplate 21 is connected with the device shell 1 through screws. Through binding post 3 be convenient for insert monitoring device to power line in, rubber thread bush 4 then can wrap up the protection with the wiring position.

Further, one side of the device shell 1 is provided with a front panel 18, and the front panel 18 extends to the inside of the card and the groove 10, both sides of the front panel 18 are provided with connecting blocks 19, and the connecting blocks 19 and the front panel 18 are set into an integrated structure, one side of the connecting blocks 19 is provided with a locking bolt 27, and one end of the locking bolt 27 penetrates through the connecting blocks 19 and extends to the inside of the threaded hole 11, the locking bolt 27 is in threaded connection with the device shell 1, the outside of the front panel 18 is provided with a sealing ring 25, and the sealing ring 25 and the front panel 18 are set into an integrated structure, and the sealing ring 25 is attached to the device shell 1. The front panel 18 can be assembled with the device shell 1 through the connecting block 19 and the locking bolt 27, so that the subsequent disassembly and maintenance are convenient, and the sealing ring 25 increases the sealing performance of the connection.

Further, one side of front panel 18 is provided with display screen 20, and the below of display screen 20 is provided with status indicator lamp 22, and the below of status indicator lamp 22 is provided with key input 23 and audible-visual alarm 24, and display screen 20, status indicator lamp 22, key input 23 and audible-visual alarm 24 all pass through screw connection with front panel 18, and display screen 20, status indicator lamp 22, key input 23 and audible-visual alarm 24 all with treater 12 electric connection. The display screen 20 and the status indicator lamp 22 can display the working status, the key input 23 can adjust the working data of the monitoring device, and the audible and visual alarm 24 can give an alarm.

Further, the upper end of the device shell 1 is provided with a heat dissipation groove 14, one end of the heat dissipation groove 14 extends into the device shell 1, a heat dissipation fan 15 is arranged inside the heat dissipation groove 14, the heat dissipation fan 15 is connected with the device shell 1 through screws, dust screens 16 are arranged on two sides of the heat dissipation fan 15, and the dust screens 16 are connected with the inner wall of the heat dissipation groove 14 in a fitting mode. The heat dissipation fan 15 can effectively dissipate the internal heat from the heat dissipation slot 14, and the dust screen 16 can effectively prevent external dust from entering.

Further, an RS485 communicator 6 and a photoelectric isolator 7 are arranged inside the device shell 1, the RS485 communicator 6 and the photoelectric isolator 7 are connected with the device shell 1 through screws, the photoelectric isolator 7 is respectively in bidirectional electric connection with the RS485 communicator 6 and the processor 12, and the type of the photoelectric isolator 7 is BS 232-9. The RS485 communicator 6 can be used for realizing intersection with remote terminal equipment, and the photoelectric isolator 7 can be used for isolating transmission of electric signals, so that interference is reduced.

Further, a U-shaped groove 28 is formed above the rubber wire sleeve 4, the U-shaped groove 28 and the device shell 1 are punched into a whole, a lifting handle 29 is arranged inside the U-shaped groove 28, the lifting handle 29 is rotatably connected with the device shell 1, a rubber sleeve 26 is arranged outside the lifting handle 29, and the rubber sleeve 26 is attached to the lifting handle 29. The monitoring device is easy to transport by means of the carrying handle 29, while the U-shaped groove 28 can accommodate the carrying handle 29 which is not used.

A use method of an electric power working condition Internet of things monitoring device based on artificial intelligence comprises the following steps:

step 1: expected data are implanted into a processor 12 in the monitoring device, the monitoring device is connected into a power transmission line, a cable is connected with a wiring terminal 3, a current transformer 8 and a voltage transformer 9 are used for collecting power signals, and a temperature sensor 17 can collect temperature data in the monitoring device;

step 2: converting the acquired data and inputting the converted data into the processor 12, processing and analyzing the acquired data by means of the processor 12, and judging the size between the acquired data and expected implantation data so as to monitor the power working condition;

and step 3: when the processed and analyzed data meet the use requirements, the power working condition is in a normal working state at the moment, measures are not needed, when the processed and analyzed data meet the requirements that the processed and analyzed data do not meet the expected data, the power working condition is in an abnormal working state at the moment, the relay protector 13 is triggered to carry out safety protection on the circuit, the audible and visual alarm 24 is triggered to give an alarm at the same time, no matter what working state the power working condition is in, the working data at the moment can be transmitted to the display screen 20 to be visually displayed, and the corresponding state indicator lamp 22 can be lightened;

and 4, step 4: the monitoring device working data can be transmitted with the terminal equipment through the RS485 communicator 6, so that the monitoring data and the terminal equipment are shared, and the monitoring device can also send instructions to the monitoring device through the terminal equipment to perform corresponding adjustment, so that artificial intelligent power working condition internet of things monitoring is realized.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (9)

1. The utility model provides an electric power operating mode thing allies oneself with monitoring device based on artificial intelligence, includes device casing (1), its characterized in that: the device comprises a device shell (1), wherein an insulating pad (5) is arranged inside the device shell (1), the insulating pad (5) is connected with the inner wall of the device shell (1) in a laminating manner, a processor (12) is arranged inside the device shell (1), a current transformer (8) and a voltage transformer (9) are arranged on one side of the processor (12), a relay protector (13) and a temperature sensor (17) are arranged on the other side of the processor (12), the current transformer (8), the voltage transformer (9), the processor (12), the relay protector (13) and the temperature sensor (17) are all connected with the device shell (1) through screws, the output ends of the current transformer (8), the voltage transformer (9) and the temperature sensor (17) are all electrically connected with the input end of the processor (12), the output end of the processor (12) is electrically connected with the input end of the relay protector (13), the device is characterized in that one end of the device shell (1) is provided with a card and a groove (10), a threaded hole (11) is formed in the card and the groove (10), one end of the threaded hole (11) extends into the device shell (1), a fixed block (2) is arranged below the device shell (1), and the fixed block (2) is connected with the device shell (1) through screws.

2. The electric power working condition internet of things monitoring device based on artificial intelligence of claim 1, characterized in that: insulating pad (5) adopt polyvinyl chloride to make, the model of current transformer (8) is LMZJ1-0.5, the model of voltage transformer (9) is JDZ9-35Q, the model of treater (12) is STC89C51, the model of relay protection ware (13) is MPT2300C, the model of temperature sensor (17) is PT 100.

3. The electric power working condition internet of things monitoring device based on artificial intelligence of claim 1, characterized in that: the utility model discloses a device, including device casing (1), binding post (3), voltage transformer (9), relay protector (13), binding post (3) and device casing (1), the both sides of device casing (1) all are provided with binding post (3), and binding post (3) and device casing (1) set up structure as an organic whole, binding post (3) respectively with current transformer (8), voltage transformer (9) and relay protector (13) electric connection, one side of binding post (3) is provided with rubber line cover (4), and rubber line cover (4) and device casing (1) pass through screw connection, one side of device casing (1) is provided with data plate (21), and data plate (21) and device casing (1) pass through.

4. The electric power working condition internet of things monitoring device based on artificial intelligence of claim 1, characterized in that: one side of device casing (1) is provided with front panel (18), and front panel (18) extend to the inside of card and groove (10), the both sides of front panel (18) all are provided with connecting block (19), and connecting block (19) set up structure as an organic whole with front panel (18), one side of connecting block (19) is provided with fitting plug (27), and fitting plug's (27) one end through connection piece (19) and extend to the inside of screw hole (11), fitting plug (27) and device casing (1) threaded connection, the outside of front panel (18) is provided with sealing washer (25), and sealing washer (25) and front panel (18) set up structure as an organic whole, sealing washer (25) laminate mutually with device casing (1).

5. The artificial intelligence-based power working condition internet-of-things monitoring device according to claim 4, wherein: one side of front panel (18) is provided with display screen (20), the below of display screen (20) is provided with status indicator lamp (22), the below of status indicator lamp (22) is provided with key input (23) and audible-visual annunciator (24), and display screen (20), status indicator lamp (22), key input (23) and audible-visual annunciator (24) all pass through the screw connection with front panel (18), display screen (20), status indicator lamp (22), key input (23) and audible-visual annunciator (24) all with treater (12) electric connection.

6. The electric power working condition internet of things monitoring device based on artificial intelligence of claim 1, characterized in that: the device is characterized in that a heat dissipation groove (14) is formed in the upper end of the device shell (1), one end of the heat dissipation groove (14) extends to the inside of the device shell (1), a heat dissipation fan (15) is arranged inside the heat dissipation groove (14), the heat dissipation fan (15) is connected with the device shell (1) through screws, dust screens (16) are arranged on two sides of the heat dissipation fan (15), and the dust screens (16) are connected with the inner wall of the heat dissipation groove (14) in a laminating mode.

7. The electric power working condition internet of things monitoring device based on artificial intelligence of claim 1, characterized in that: the device comprises a device shell (1), and is characterized in that an RS485 communicator (6) and a photoelectric isolator (7) are arranged inside the device shell (1), the RS485 communicator (6) and the photoelectric isolator (7) are connected with the device shell (1) through screws, the photoelectric isolator (7) is respectively in bidirectional electric connection with the RS485 communicator (6) and a processor (12), and the photoelectric isolator (7) is BS232-9 in model.

8. The artificial intelligence-based power working condition internet-of-things monitoring device according to claim 3, wherein: the top of rubber line cover (4) is provided with U type groove (28), and U type groove (28) and device casing (1) punching press integrated into one piece structure, the inside in U type groove (28) is provided with carries handle (29), and carries handle (29) and rotate with device casing (1) and be connected, the outside of carrying handle (29) is provided with rubber sleeve (26), and rubber sleeve (26) and carry handle (29) laminating and be connected.

9. An application method of an artificial intelligence-based power working condition Internet of things monitoring device is realized based on any one of claims 1 to 8, and is characterized by comprising the following steps of:

step 1: expected data are implanted into a processor (12) in the monitoring device, the monitoring device is connected into a power transmission line, a cable is connected with a wiring terminal (3), power signals are collected by means of a current transformer (8) and a voltage transformer (9), and a temperature sensor (17) can collect temperature data in the monitoring device;

step 2: the collected data are converted and input into the processor (12), the collected data are processed and analyzed by means of the processor (12), and the size between the collected data and the expected implantation data is judged, so that the power working condition is monitored;

and step 3: when the processed and analyzed data meet the use requirements, the power working condition is in a normal working state at the moment, measures are not needed, when the processed and analyzed data meet the conditions that the processed and analyzed data do not meet the expected data, the power working condition is in an abnormal working state at the moment, a relay protector (13) is triggered to carry out safety protection on a circuit, an audible and visual alarm (24) is triggered to carry out alarm, and no matter what working state the power working condition is in, the working data at the moment are transmitted to a display screen (20) to be visually displayed and corresponding state indicating lamps (22) are lightened;

and 4, step 4: the monitoring device working data can be transmitted with the terminal equipment through the RS485 communicator (6) in a network mode, so that the monitoring data and the terminal equipment are shared, the terminal equipment can send instructions to the monitoring device to adjust correspondingly, and artificial intelligent power working condition internet of things monitoring is achieved.

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