CN215954132U - Remote intelligent operation and maintenance platform for air film building - Google Patents

Abstract

The utility model discloses a remote intelligent operation and maintenance platform for a gas film building, which comprises a PLC control cabinet, wherein the input end of the PLC control cabinet is respectively connected with an electronic element for acquiring gas film system parameters, one path of the PLC control cabinet is connected with a 380V power distribution cabinet, the other path of the PLC control cabinet is connected with control ends of an analog quantity hard wire, a switching quantity hard wire, a frequency converter fan and a power frequency fan, the PLC control cabinet is connected with a gas film control upper computer in a centralized control room through an Ethernet, the PLC control cabinet is connected with one end of a firewall through an Ethernet switch, the other end of the firewall is connected with an Internet Web information distribution end for uploading PLC feedback information, a gas film PLC controller is arranged in the PLC control cabinet, and the Internet Web information distribution end is connected with a user terminal for extracting information through a network. The utility model solves the problem that the existing air film building can not monitor the daily operation condition. The utility model realizes dynamic monitoring and automatic information management of main parameters of the operation of the air-supported membrane structure and the operation condition of equipment.

Description

Remote intelligent operation and maintenance platform for air film building

Technical Field

The utility model belongs to the field of intelligent management, and particularly relates to a remote intelligent operation and maintenance platform for an air film building.

Background

The air film building refers to a building structure system which uses a special building film material as a shell and is provided with a set of intelligent electromechanical equipment to provide positive pressure of air in the air film building so as to support a building main body. In a traditional building, factors such as air pressure, humidity, fresh air volume and the like in the building cannot be controlled manually. In the interior space of the air film building system, all factors: the air pressure, temperature, humidity, fresh air quantity, illumination and the like can be controlled according to requirements, and a comfortable and pleasant indoor environment is provided.

The air-supported membrane structure is developed rapidly in recent years, project distribution is wide, daily operation working conditions of the project are lack of monitoring, and after-sales maintenance is increasingly severe.

Disclosure of Invention

In order to overcome the defect that the conventional air film building cannot monitor the daily operation condition, the utility model provides an air film building remote intelligent operation and maintenance platform which utilizes a computer information technology and a communication technology to realize dynamic monitoring and automatic information management on main parameters of the operation of an air bearing type film structure and the operation condition of equipment.

The technical scheme adopted by the utility model for realizing the purpose is as follows:

the utility model provides a long-range fortune dimension platform of air film intelligence, is including the PLC switch board that is used for carrying out dynamic monitoring and automated information management to the major parameter, the equipment fortune situation of air-supported membrane structure operation, the PLC switch board input is connected with the electronic component who is used for gathering air film system parameter respectively, and the PLC switch board is connected with the 380V switch board all the way, and another way is connected with the control end of analog quantity, switching value hard wire, converter fan, power frequency fan, and the PLC switch board passes through the ethernet and is connected with the air film control host computer in the centralized control room, and the PLC switch board passes through the ethernet switch and is connected with preventing hot wall one end, prevents that the hot wall other end is connected with the Internet Web information distribution end that is used for uploading PLC feedback information, be equipped with air film PLC controller in the PLC switch board, Internet Web information distribution end passes through the network and is connected with the user terminal who draws information.

Further, the air film PLC controller comprises a commercial power supply, a UPS power supply, a power distribution cabinet circuit, an in-cabinet lighting power supply and socket, a control cabinet cooling fan wiring circuit and a PLC control terminal power supply circuit, wherein the first path of a live wire L and a zero line N of the commercial power supply is connected with one end of the UPS power supply through a breaker QF3, the other end of the UPS power supply is connected with a live wire L3 and a zero line N3, the second path of the commercial power supply is connected with the power distribution cabinet circuit, the third path of the commercial power supply is connected with wiring ends LA and N of the in-cabinet lighting power supply and socket through a breaker QF4, the fourth path of the commercial power supply is connected with standby ends L4 and N of the in-cabinet lighting power supply and socket through a breaker QF5, the fifth path of the commercial power supply is connected with wiring ends L5 and N of the control cabinet cooling fan through a breaker QF6, the control cabinet cooling fan wiring ends L5 and N of the control cabinet are connected with the control cabinet cooling fan circuit, the first path and the second path of the live wire L3 and the zero line N3 are respectively connected with the PLC control terminal power supply circuit through breakers 7 and QF8, the third path is connected with spare terminals L9 and N9 through a breaker QF16, the fourth path is connected with an Xbus double-bus bottom plate after passing through a breaker QF9, an indicator light H2 is connected between the breaker and the Xbus double-bus bottom plate, and a voltmeter PV1 is further connected between live wires L3 and N3 in series.

Furthermore, the wiring circuit of the cooling fan of the control cabinet comprises a button ST-1, a fan motor M and a cooling fan, wherein one end of the button ST-1 is connected with the wiring terminal L5, the other end of the button ST-1 is connected with one end of the fan motor M, and the other end of the fan motor M is simultaneously connected with the cooling fan and the wiring terminal N.

Furthermore, the power circuit of the PLC control terminal includes switching power supplies KGDY1, KGDY2, surge protectors SPD1, SPD2, SPD3 and SPD4, one end of the switching power supply KGDY1 is connected with the circuit breaker QF7, the other end of the switching power supply KGDY1 is connected with one ends of the circuit breakers QF10 and QF11 respectively, the other ends of the circuit breakers QF10 and QF11 are connected with an electronic component power supply for collecting gas film system parameters through the surge protectors SPD 11 and SPD 11 respectively, one end of the switching power supply KGDY 11 is connected with the circuit breaker QF11, the other end of the switching power supply kgy 11 is connected with one end of the circuit breakers QF11, the QF11 and the QF11 respectively, the other ends of the circuit breakers QF11 and the QF11 are connected with an input module power supply and an output module power supply through the SPD 11 respectively, the switch power supply and the other end of the circuit breaker 11 is connected with a GM 11.

Preferably, the electronic component for collecting the parameters of the air film system comprises an air pressure difference sensor, an electric exhaust valve, a wind speed sensor, a humidity sensor and a temperature sensor.

Preferably, the user terminal includes a WeChat terminal, a PC terminal and an APP terminal.

The air-supported membrane structure remote intelligent operation and maintenance platform supports multi-platform operation, is flexible in various operations and can be applied simultaneously.

A WeChat end: the WeChat concerns that the operation and maintenance platform clicks user authentication, enters a bound account and binds the user account. The bound user can receive the alarm information at any time. In the alarm, the alarm information of the equipment is configured, when equipment such as a fan and the like breaks down and a sensor gives an alarm, the WeChat alarm can send the equipment alarm information to all bound WeChat alarm receiving users, and the information content comprises alarm occurrence time, alarm equipment and fault content. And clicking the 'entering platform' to log in a user name (without binding an account), and clicking a corresponding grey button to view the current operating condition, historical data, curves, alarm information and the like of the air film in a networking manner.

APP end: the mobile phone scans the two-dimensional code or directly downloads the 'operation and maintenance platform' APP, the APP is opened after installation, a user login picture appears, a login name password is input to enter the monitoring platform, and the corresponding grey button is clicked to enable the user to view the current air film operation condition, historical data, curves, alarm information and the like in a networked mode.

A PC terminal: clicking a link: http:// qljh.uiot.top/logic.jsp, and inputting a login account into a monitoring picture. And inquiring current air film operation conditions, historical data, curves, alarm information and the like.

And (3) system state query: in daily maintenance, a maintainer can log in a mobile phone end (WeChat or APP) or a PC end at any time to inquire system state information, such as a fan state, a valve state, an air film pressure value and a generator state.

User management: only the users of the system administrator group have the authority to modify the users, certain users can be disabled or enabled, and the user project authority can be authorized.

By adopting the technology, the problem that in the traditional mode, programming needs to be performed by developers, programming can be avoided by means of an intelligent operation and maintenance platform, and the difficulty of remote detection of air film operation can be solved quickly, conveniently and quickly at low cost in a multifunctional mode; the response speed of coping with the working condition is improved, and the personnel traveling cost is saved.

The utility model realizes the visual display of monitoring point information and the real-time understanding of the air film operation condition, can display the power supply situation, the generator state, the film internal pressure, the outdoor wind speed and the fan operation in real time, and can inquire the alarm record, the historical data and the historical operation.

Drawings

The utility model is further described with reference to the accompanying drawings, in which:

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic diagram of a PLC controller circuit.

Detailed Description

As shown in fig. 1 to 2, the air film intelligent remote operation and maintenance platform of the embodiment includes a PLC control cabinet for dynamically monitoring main parameters of operation of the air-supported film structure and operation conditions of the equipment and managing automatic information, the input end of the PLC control cabinet is respectively connected with an electronic element for collecting parameters of a gas film system, one path of the PLC control cabinet is connected with a 380V power distribution cabinet, the other path of the PLC control cabinet is connected with the control ends of an analog quantity, a switching value hard wire, a frequency converter fan and a power frequency fan, the PLC control cabinet is connected with a gas film control upper computer in a centralized control room through an Ethernet, the PLC control cabinet is connected with one end of a firewall through an Ethernet switch, the other end of the firewall is connected with an Internet Web information distribution end for uploading PLC feedback information, the PLC control cabinet is internally provided with a gas film PLC controller, and the Internet Web information distribution end is connected with a user terminal for extracting information through a network.

Further, the air film PLC controller comprises a commercial power supply, a UPS power supply, a power distribution cabinet circuit, an in-cabinet lighting power supply and socket, a control cabinet cooling fan wiring circuit and a PLC control terminal power supply circuit, wherein the first path of a live wire L and a zero line N of the commercial power supply is connected with one end of the UPS power supply through a breaker QF3, the other end of the UPS power supply is connected with a live wire L3 and a zero line N3, the second path of the commercial power supply is connected with the power distribution cabinet circuit, the third path of the commercial power supply is connected with wiring ends LA and N of the in-cabinet lighting power supply and socket through a breaker QF4, the fourth path of the commercial power supply is connected with standby ends L4 and N of the in-cabinet lighting power supply and socket through a breaker QF5, the fifth path of the commercial power supply is connected with wiring ends L5 and N of the control cabinet cooling fan through a breaker QF6, the control cabinet cooling fan wiring ends L5 and N of the control cabinet are connected with the control cabinet cooling fan circuit, the first path and the second path of the live wire L3 and the zero line N3 are respectively connected with the PLC control terminal power supply circuit through breakers 7 and QF8, the third path is connected with spare terminals L9 and N9 through a breaker QF16, the fourth path is connected with an Xbus double-bus bottom plate after passing through a breaker QF9, an indicator light H2 is connected between the breaker and the Xbus double-bus bottom plate, and a voltmeter PV1 is further connected between live wires L3 and N3 in series.

Furthermore, the wiring circuit of the cooling fan of the control cabinet comprises a button ST-1, a fan motor M and a cooling fan, wherein one end of the button ST-1 is connected with the wiring terminal L5, the other end of the button ST-1 is connected with one end of the fan motor M, and the other end of the fan motor M is simultaneously connected with the cooling fan and the wiring terminal N.

Furthermore, the power circuit of the PLC control terminal includes switching power supplies KGDY1, KGDY2, surge protectors SPD1, SPD2, SPD3 and SPD4, one end of the switching power supply KGDY1 is connected with the circuit breaker QF7, the other end of the switching power supply KGDY1 is connected with one ends of the circuit breakers QF10 and QF11 respectively, the other ends of the circuit breakers QF10 and QF11 are connected with an electronic component power supply for collecting gas film system parameters through the surge protectors SPD 11 and SPD 11 respectively, one end of the switching power supply KGDY 11 is connected with the circuit breaker QF11, the other end of the switching power supply kgy 11 is connected with one end of the circuit breakers QF11, the QF11 and the QF11 respectively, the other ends of the circuit breakers QF11 and the QF11 are connected with an input module power supply and an output module power supply through the SPD 11 respectively, the switch power supply and the other end of the circuit breaker 11 is connected with a GM 11.

Preferably, the electronic component for collecting the parameters of the air film system comprises an air pressure difference sensor, an electric exhaust valve, a wind speed sensor, a humidity sensor and a temperature sensor.

Preferably, the user terminal includes a WeChat terminal, a PC terminal and an APP terminal.

The PLC control cabinet, the air pressure difference sensor, the electric exhaust valve, the wind speed sensor, the humidity sensor and the temperature sensor are all of the conventional universal models.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (5)

1. The utility model provides a long-range intelligent fortune dimension platform of air film building, a serial communication port, including the PLC switch board, the PLC switch board input is connected with the electronic component who is used for gathering air film system parameter respectively, and the PLC switch board is connected with the 380V switch board all the way, and another way is connected with the control end of analog quantity, switching value hard wire, converter fan, power frequency fan, and the PLC switch board passes through the ethernet and is connected with the indoor air film control host computer of centralized control, and the PLC switch board passes through the ethernet switch and is connected with preventing hot wall one end, prevents that the other end of hot wall connects Internet information distribution end, be equipped with the air film PLC controller in the PLC switch board.

2. The remote intelligent operation and maintenance platform for air film buildings according to claim 1, wherein the air film PLC controller comprises commercial power, a UPS, a switch board circuit, an illumination power supply and socket in the cabinet, a control cabinet cooling fan wiring circuit and a PLC control terminal power circuit, the first path of the live wire L and the zero wire N of the commercial power is connected with one end of the UPS through a breaker QF3, the other end of the UPS is connected with a live wire L3 and a zero wire N3, the second path is connected with the switch board circuit, the third path is connected with the wiring terminals LA and N of the illumination power supply and the socket in the cabinet through a breaker QF4, the fourth path is connected with the standby terminals L4 and N of the illumination power supply and the socket in the cabinet through a breaker QF5, the fifth path is connected with the control cabinet cooling fan wiring terminals L5 and N through a breaker QF6, the control cabinet cooling fan wiring terminals L5 and N are connected with the control cabinet cooling fan circuit, the live wire L3, the first path and the second path of zero line N3 are respectively connected with a PLC control terminal power circuit through circuit breakers QF7 and QF8, the third path is connected with standby terminals L9 and N9 through a circuit breaker QF16, the fourth path is connected with an Xbus double-bus bottom plate after passing through a circuit breaker QF9, an indicator light H2 is connected between the circuit breaker and the Xbus double-bus bottom plate, and a voltmeter PV1 is further connected in series between the live wire L3 and the N3.

3. The remote intelligent operation and maintenance platform for air film buildings according to claim 2, wherein the control cabinet radiator fan connection circuit comprises a button ST-1, a fan motor M and a radiator fan, one end of the button ST-1 is connected with the terminal L5, the other end of the button ST-1 is connected with one end of the fan motor M, and the other end of the fan motor M is connected with the radiator fan and the terminal N.

4. The remote intelligent operation and maintenance platform for gas film buildings according to claim 2, the PLC control terminal power supply circuit comprises switching power supplies KGDY1, KGDY2, surge protectors SPD1, SPD2, SPD3 and SPD4, one end of the switch power supply KGDY1 is connected with a breaker QF7, the other end of the switch power supply KGDY1 is connected with one end of each breaker QF10 and one end of each breaker QF11 respectively, the other ends of the breakers QF10 and the breakers QF11 are connected with an electronic element power supply used for collecting gas film system parameters through surge protectors SPD1 and SPD2 respectively, one end of the switch power supply KGDY2 is connected with the breaker QF8, the other end of the switch power supply KGDY2 is connected with one end of each breaker QF12, one end of each breaker QF13, one end of each breaker QF14 and one end of each breaker QF15, the other ends of the breakers QF12 and the breaker QF13 are connected with an input module power supply and an output module power supply in a one-to-one correspondence mode through surge protectors SPD3 and SP 4 respectively, the other end of each breaker QF14 is connected with a switch power supply, and the other end of each breaker QF15 is connected with a GM20 gateway power supply.

5. The air film building remote intelligent operation and maintenance platform according to any one of claims 1 to 4, wherein the electronic components for collecting air film system parameters comprise an air pressure difference sensor, an electric exhaust valve, an air speed sensor, a humidity sensor and a temperature sensor connection.

Images