CN211015090U - Distributed electric door control box system applying industrial Internet of things technology - Google Patents

Abstract

The utility model discloses an use electronic door control box system of distributing type of industry internet of things, including control center, electrically operated gate and control box, be provided with internet of things communication module on the control box, outlet and inlet wire, control center passes through internet of things communication module and control box wireless communication connection, the control box passes through inlet wire and outlet and is connected with the electrically operated gate electricity, has reduced laying of communication cable, has shortened engineering cycle, arranges in a flexible way, the beneficial effect of the debugging and maintenance of being convenient for.

Description

Distributed electric door control box system applying industrial Internet of things technology

Technical Field

The utility model belongs to the technical field of the heat supply pipe network, concretely relates to distributed electronic door control box system of applied industry internet of things.

Background

At present, the urbanization process of China is continuously accelerated, the urban scale is continuously enlarged, and the continuously increased number of hot users forms new requirements for urban heat supply network construction. According to the thirteen-five plan of China, intelligent manufacture becomes a new business card in the industrial construction field of China. Therefore, it puts a new demand on the current heat supply network construction, i.e., "intelligent heat supply network".

The heat supply network is different from the conventional energy point construction, and has a large radiation range and a wide influence range. Taking the central heating pipe network project matched with the Huaneng Anyang thermoelectric project as an example, the construction length of a pipeline is 20.54km, and the heating radius is 10.38 km; taking the heat supply network project of the Henan Hua Luo Lu district as an example, the construction length of the pipeline is 24.21 km. The heat source inlet door which is an important control means for outputting a heat source by a heating power company is positioned at the inlet side of a heat user, namely the end of a heat supply network pipeline.

However, the heat source entrance door at the side of the heat user is used as a controlled object and is brought into the monitoring of the heat supply network control center, the control requirement of the intelligent heat supply network is realized, and the operation and maintenance efficiency of the heat supply network is improved.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides an use electronic door control box system of industry internet of things's distributing type has the advantage that reduces cable laying, shortens construction cycle.

The utility model discloses a following technical scheme realizes:

the utility model provides an use electronic door control box system of distributed of industry internet of things, includes control center, electrically operated gate and control box, be provided with internet of things communication module on the control box, outlet and inlet, control center passes through internet of things communication module and control box wireless communication connection, the control box passes through inlet and outlet and is connected with the electrically operated gate electricity.

Thing networking communication module includes thing networking card, RS232 communication interface, communication power access port, communication binding post row and status indicator, wherein, thing networking card can dismantle with thing networking communication module and be connected, communication binding post row fixes the bottom that sets up at thing networking communication module, the fixed top one side that sets up at thing networking communication module of status indicator, RS232 communication interface and communication power access port are fixed side by side and are set up on thing networking communication module and are located between status indicator and the communication binding post row.

The Internet of things card comprises a communication module and is characterized in that an Internet of things clamping groove is further formed in the other side of the top end of the Internet of things communication module and is arranged in parallel with a status indicator lamp, and the Internet of things card is detachably connected with the Internet of things communication module through the Internet of things clamping groove.

The status indicator lamps comprise a power status indicator lamp, a data transmission indicator lamp and a network status indicator lamp.

The wire outlet and the wire inlet are arranged at the bottom end of the outside of the control box.

The control box is characterized in that a first control grid, a second control grid, a third control grid and a fourth control grid are arranged from top to bottom inside the control box respectively, a wiring groove is formed between the first control grid and the second control grid, a wiring groove is formed between the second control grid and the third control grid, a wiring groove is formed between the third control grid and the fourth control grid, and wiring grooves are formed in two ends of the first control grid, the second control grid, the third control grid and the fourth control grid.

Still be provided with circuit breaker, electrically operated gate power binding post in the control box, valve instruction binding post row and valve repayment binding post row, wherein, circuit breaker and thing networking communication module set up side by side in first control check, electrically operated gate power binding post and valve instruction binding post row set up side by side in the second control check, valve repayment binding post row sets up in the third control check.

And a fuse is arranged in the power supply wiring terminal of the electric door.

The electric door comprises an electric door valve, an electric door power supply input end, a valve instruction input end, a valve state feedback output end and a fault feedback output end, wherein the electric door power supply input end, the valve instruction input end, the valve state feedback output end and the fault feedback output end are all electrically connected with the electric door valve.

The input of circuit breaker passes through the cable and is connected with 380V and 220V power electricity through the inlet, the output of circuit breaker is connected with electrically operated gate power supply binding post and thing networking communication module electricity respectively, electrically operated gate power supply binding post passes through the cable and is connected with electrically operated gate power supply input end through the outlet, valve instruction binding post passes through the cable and is connected with valve instruction input end through the outlet, valve feedback binding post passes through the cable and is connected with valve state feedback output and trouble feedback output respectively through the inlet.

The utility model discloses an use distributed electrically operated gate control box system of industry internet of things, electrically operated gate set up at the heat supply network user side, and the control box is installed near the electrically operated gate, is provided with internet of things communication module in the control box, and the control box carries out radio communication through industry thing networking and control center, and the valve electricity on internet of things communication module and the electrically operated gate is connected, plays the effect of valve control, is provided with RS232 communication port on the internet of things communication module, the debugging and the maintenance of the control box of being convenient for, the utility model discloses having reduced laying of communication cable, having shortened the engineering cycle, arrange in a flexible way, the beneficial effect of the debugging and maintenance of being convenient for.

Drawings

Fig. 1 is a schematic view of the internal structure of a control box.

Fig. 2 is a schematic diagram of the structure of the circuit breaker.

Fig. 3 is a schematic structural diagram of a communication module of the internet of things.

Fig. 4 is a schematic view of the power terminals of the power door.

Fig. 5 is a schematic diagram of a valve command terminal block.

Fig. 6 is a schematic structural view of a valve feedback terminal block.

Fig. 7 is a schematic diagram of the electrical connection of the components on the control box.

Wherein the reference numerals

1. A circuit breaker, 2, an internet of things communication module, 3, a control box, 4, a wiring groove, 5. the system comprises a first control grid, 6, a second control grid, 7, a third control grid, 8, a fourth control grid, 9, an outlet, 10, a wire inlet, 11, a valve feedback terminal block, 12, a valve instruction terminal block, 13, an electric door power terminal block, 14, an internet of things network card, 15, a communication power access port, 16, a communication terminal block, 17, an RS232 communication interface, 18, a network state indicator lamp, 19, a data transmission indicator lamp, 20, a power state indicator lamp, 21, a state indicator lamp, 22, a fuse, 23, an internet of things communication module power supply cable, 24, an electric cabinet power input bus, 25, an electric door power supply cable, 26, an electric valve signal feedback receiving line and 27, and an electric valve instruction sending line.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only a part of the implementations of the present invention, and not all implementations, and all other embodiments obtained by those skilled in the art without any inventive work are included in the scope of the present invention.

As shown in fig. 1 to 6, a distributed electric door control box system applying industrial internet of things technology comprises a control center, an electric door and a control box 3, wherein the control box is provided with an internet of things communication module 2, an outlet 9 and an inlet 10, the control center is in wireless communication connection with the control box through the internet of things communication module 2, and the control box 3 is electrically connected with the electric door through the inlet 10 and the outlet 9.

Thing networking communication module 2 includes thing networking card 14, RS232 communication interface 17, communication power access port 15, communication binding post row 16 and status indicator 21, wherein, thing networking card 14 can dismantle with thing networking communication module 2 and be connected, communication binding post row 16 is fixed to be set up in the bottom of thing networking communication module 2, status indicator 21 is fixed to be set up in top one side of thing networking communication module 2, RS232 communication interface 17 is fixed to be set up side by side with communication power access port 15 on thing networking communication module 2 and be located between status indicator 21 and the communication binding post row 16.

The internet of things card is connected with the internet of things communication module 2 through the internet of things card slot in a detachable manner, and the internet of things card 14 is connected with the internet of things communication module 2 through the internet of things card slot. The thing networking card 14 can be dismantled and set up for it is comparatively convenient to change thing networking card 14.

The status indicator lights 21 include a power status indicator light 20, a data transmission indicator light 19, and a network status indicator light 18.

The outlet 9 and the inlet 10 are arranged at the bottom position outside the control box 3.

The inside top-down of control box 3 is provided with first control check 5, second control check 6, third control check 7 and fourth control check 8 respectively, be provided with trough 4 between first control check 5 and the second control check 6, be provided with trough 4 between second control check 6 and the third control check 7, be provided with trough 4 between third control check 7 and the fourth control check 8, first control check 5, second control check 6, third control check 7 and fourth control check 8 both ends all are provided with trough 4.

Still be provided with circuit breaker 1, electrically operated gate power binding post 13 in the control box, valve instruction binding post row 12 and valve repayment binding post row 11, wherein, circuit breaker 1 and thing networking communication module 2 set up side by side in first control check 5, electrically operated gate power binding post 13 and valve instruction binding post row 12 set up side by side in second control check 6, valve repayment binding post row 11 sets up in third control check 7.

A fuse 22 is arranged in the power supply terminal 13 of the electric door.

The electric door comprises an electric door valve, an electric door power supply input end, a valve instruction input end, a valve state feedback output end and a fault feedback output end, wherein the electric door power supply input end, the valve instruction input end, the valve state feedback output end and the fault feedback output end are all electrically connected with the electric door valve.

As shown in fig. 7, the input end of the circuit breaker 1 is connected with the electric cabinet through an electric cabinet power input bus 24, the electric cabinet power input bus 24 is electrically connected with an external 380V industrial power supply through an inlet 10, the circuit breaker 1 includes a 380V power input/output interface and a 220V power input/output interface, the output interface of the 380V power supply is connected with a power terminal 13 through a cable, the 220V power output interface is connected with a communication power access port 15 through an internet-of-things communication module power supply cable 23, the power terminal 13 is connected with an electric door power supply input end through an electric door power supply cable 25 and an outlet 9, the valve command terminal 12 is connected with a valve command input end through an electric valve command transmitting line 27 and an outlet 9, and the valve feedback terminal 11 is respectively connected with a valve state feedback output end and a fault feedback output end through an electric valve signal feedback line 26 and the inlet 10 And (4) connecting.

The working process of the distributed electric door control box system applying the industrial Internet of things technology is as follows:

24 circular telegrams of electric cabinet power input bus, circuit breaker 1 gets electricity, and circuit breaker 1 passes through electrically operated gate power binding post 13 with the electric quantity and conveys into outside electrically operated gate for electrically operated gate gets electricity, and circuit breaker 1 simultaneously gets electricity work for thing networking communication module 2 power supplies through thing networking communication module power supply cable 23 for thing networking communication module 2.

The control center sends control information to the Internet of things communication module 2 on the electric cabinet 3 through the Internet of things, the Internet of things card 14 on the Internet of things communication module 2 acquires the control information, the control information is sent to an electric door outside the electric cabinet 3 through the valve instruction wiring terminal 12 and the electric valve instruction sending line 27, and an electric valve in the electric door acts according to the acquired control information. The control information is a high-low level signal, and the high-low level signal controls the opening or closing of the electric valve.

Meanwhile, the electric valve transmits the valve state information of the valve position feedback signal to the internet of things communication module 2 through the electric valve signal feedback line 26 and the valve feedback wiring terminal 11, and forwards the valve state information to the control center through the internet of things network card 14 in the internet of things communication module 2. The valve position feedback signal is opening state, closing state or fault information.

The status indicator lamp 21 on the communication module 2 of the internet of things displays the status information of the communication module 2 of the internet of things, the power status indicator lamp 20 represents the power supply status of the communication module 2 of the internet of things, the data transmission indicator lamp 19 represents the data communication status between the communication module 2 of the internet of things and the electric valve, and the network status indicator lamp 18 represents the wireless connection status between the communication module 2 of the internet of things and the control center.

Breaker 1 and fuse 22 provide the safety guarantee for control box 3, thing networking communication module 2 and electrically operated gate, appear unusually when the circuit, when the electric current is too big, fuse 22 fusing has ensured the safety of electrically operated gate, and the action of opening a circuit of breaker 1 has ensured the safety of electrically operated box 3 and thing networking communication module 2.

RS232 communication interface 17 provides convenient for debugging and maintenance of system, and when the system broke down, if thing networking communication module 2 or electrically operated gate can not receive communication command, can use RS232 communication interface to be connected with the PC end, carries out the investigation of trouble, has easy maintenance's characteristics.

The technical means disclosed by the scheme of the present invention is not limited to the technical means disclosed by the above embodiments, but also includes the technical scheme formed by the arbitrary combination of the above technical features. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, several improvements and modifications can be made, and these improvements and modifications are also considered as the protection scope of the present invention.

Claims (10)

1. The utility model provides an use electronic door control box system of distributed of industry internet of things, includes control center, electrically operated gate and control box (3), its characterized in that: be provided with thing networking communication module (2), outlet (9) and inlet (10) on the control box, control center passes through thing networking communication module (2) and control box wireless communication connection, control box (3) are connected with the electrically operated gate electricity through inlet (10) and outlet (9).

2. The distributed electric door control box system applying the technology of the internet of things in the industry according to claim 1, wherein: thing networking communication module (2) include thing networking card (14), RS232 communication interface (17), communication power access port (15), communication binding post row (16) and status indicator lamp (21), wherein, thing networking card (14) can be dismantled with thing networking communication module (2) and be connected, communication binding post row (16) are fixed to be set up in the bottom of thing networking communication module (2), status indicator lamp (21) are fixed to be set up in top one side of thing networking communication module (2), RS232 communication interface (17) and communication power access port (15) are fixed to be set up side by side on thing networking communication module (2) and are located between status indicator lamp (21) and communication binding post row (16).

3. The distributed electric door control box system applying the technology of the internet of things in the industry according to claim 2, wherein: the internet of things communication module is characterized in that an internet of things clamping groove is further formed in the other side of the top end of the internet of things communication module (2), the internet of things clamping groove is arranged in parallel with the status indicator lamp (21), and the internet of things card (14) is detachably connected with the internet of things communication module (2) through the internet of things clamping groove.

4. The distributed electric door control box system applying the industrial internet of things technology as claimed in claim 3, wherein: the status indicator lamp (21) comprises a power status indicator lamp (20), a data transmission indicator lamp (19) and a network status indicator lamp (18).

5. The distributed electric door control box system applying the technology of the internet of things in the industry according to claim 1, wherein: the wire outlet (9) and the wire inlet (10) are arranged at the bottom end of the outside of the control box (3).

6. The distributed electric door control box system applying the technology of the internet of things in the industry according to claim 1, wherein: the control box is characterized in that a first control grid (5), a second control grid (6), a third control grid (7) and a fourth control grid (8) are arranged from top to bottom inside the control box (3) respectively, a wiring groove (4) is formed between the first control grid (5) and the second control grid (6), the wiring groove (4) is formed between the second control grid (6) and the third control grid (7), the wiring groove (4) is formed between the third control grid (7) and the fourth control grid (8), and the wiring grooves (4) are formed in two ends of the first control grid (5), the second control grid (6), the third control grid (7) and the fourth control grid (8).

7. The distributed electric door control box system applying the industrial internet of things technology as claimed in claim 6, wherein: still be provided with circuit breaker (1), electrically operated gate power binding post (13) in the control box, valve instruction binding post row (12) and valve repayment binding post row (11), wherein, circuit breaker (1) and thing networking communication module (2) set up side by side in first control check (5), electrically operated gate power binding post (13) and valve instruction binding post row (12) set up side by side in second control check (6), valve repayment binding post row (11) sets up in third control check (7).

8. The distributed electric door control box system applying the technology of the internet of things in the industry according to claim 7, wherein: and a fuse (22) is arranged in the power supply wiring terminal (13) of the electric door.

9. The distributed electric door control box system applying the technology of the internet of things in the industry according to claim 7, wherein: the electric door comprises an electric door valve, an electric door power supply input end, a valve instruction input end, a valve state feedback output end and a fault feedback output end, wherein the electric door power supply input end, the valve instruction input end, the valve state feedback output end and the fault feedback output end are all electrically connected with the electric door valve.

10. The distributed electric door control box system applying the technology of the internet of things in the industry according to claim 9, wherein: the input of circuit breaker (1) passes through inlet wire (10) and 380V and 220V power electricity through the cable and is connected, the output of circuit breaker (1) is connected with electrically operated gate power binding post (13) and thing networking communication module (2) electricity respectively, electrically operated gate power binding post (13) pass through outlet (9) and are connected with electrically operated gate power supply input through the cable, valve instruction binding post row (12) are connected with valve instruction input through outlet (9) through the cable, valve feedback binding post row (11) are connected with valve state feedback output and trouble feedback output respectively through inlet wire (10) through the cable.

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