CN218001181U - Intelligent building intelligent energy monitoring system equipment - Google Patents
Intelligent building intelligent energy monitoring system equipment Download PDFInfo
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- CN218001181U CN218001181U CN202221892230.XU CN202221892230U CN218001181U CN 218001181 U CN218001181 U CN 218001181U CN 202221892230 U CN202221892230 U CN 202221892230U CN 218001181 U CN218001181 U CN 218001181U
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Abstract
The utility model discloses an intelligent wisdom energy monitored control system equipment of building, including the main control system, the main control system passes through 4G SMS warning module and is connected with the mobile terminal communication, and the main control system is connected with the router communication, and the router is connected with the switch communication, and the switch is connected with electric line monitor terminal, supply line monitor terminal and natural gas line monitor terminal communication respectively. The electric line monitoring terminal, the water supply pipeline monitoring terminal and the natural gas pipeline monitoring terminal are respectively configured on an indoor electric line, a water supply pipeline and a natural gas pipeline, the electric line monitoring terminal, the water supply pipeline monitoring terminal and the natural gas pipeline monitoring terminal can be respectively and independently monitored, the monitoring signals are uploaded to the control center control host in real time, and once the monitoring signals are abnormal, alarm information is sent to managers, timely troubleshooting and maintenance measures can be facilitated, and accidents are avoided.
Description
Technical Field
The utility model relates to a building intelligent technology field especially relates to a building intelligent wisdom energy monitoring system equipment.
Background
The building intellectualization means that a system integration method is utilized, a computer technology, a communication technology, a control technology, a multimedia technology and a modern building art are organically combined, and the system mainly comprises a fire alarm system, a closed circuit monitoring system, a parking lot management system, a building automatic control system, a broadcasting system, a comprehensive wiring system, a wireless intercom system, a water-electricity-gas three-meter reading system and the like through automatic monitoring of equipment, management of information resources and optimized combination of information services of users and building environments.
SUMMERY OF THE UTILITY MODEL
The utility model provides a long-range system of checking and sending of water, electricity and gas three meters to the inside water, electricity and gas that arranges of present building subject is unable in time to send the warning to managers when water, electricity and gas are unusual, can not satisfy the technical problem that current intelligent building subject functional requirement has far away, provides a building intelligent wisdom energy monitoring system equipment for solving above-mentioned problem.
The utility model discloses a following technical scheme realizes above-mentioned purpose:
the application provides a building intelligent wisdom energy monitored control system equipment, including the monitoring host, the monitoring host through 4G SMS warning module with the mobile terminal communication is connected, the monitoring host is connected with the router communication, the router with the switch communication is connected, the switch respectively with electric line monitor terminal water supply line monitor terminal and natural gas line monitor terminal communication is connected.
Preferably, the electric circuit monitoring terminal comprises a first MCU, and the first MCU is electrically connected with the power circuit monitoring component and the lighting circuit monitoring component respectively.
Preferably, power circuit monitoring components includes first electric current sampling unit and first relay unit, first relay unit with first electric current sampling unit concatenates respectively between block terminal leading-out terminal and power circuit wiring end, first electric current sampling unit with first relay unit all with first MCU electricity is connected.
Preferably, the first current sampling unit includes a first current transformer, and the first current transformer is electrically connected to the I/O port of the first MCU through an a/D signal converter.
Preferably, lighting circuit monitoring assembly second electric current sample unit and second relay unit, second electric current sample unit with second relay unit connects in series respectively between block terminal outlet terminal and lighting circuit wiring end, second electric current sample unit with second relay unit all with first MCU electricity is connected.
Preferably, the second current sampling unit includes a second current transformer, and the second current transformer is electrically connected to the I/O port of the first MCU through an a/D signal converter.
Preferably, the water supply line monitoring terminal includes a second MCU, and the second MCU is electrically connected with the tap water flow meter and the electric water supply valve, respectively.
Preferably, the natural gas pipeline monitoring terminal comprises a third MCU, and the third MCU is electrically connected with the natural gas flowmeter and the methane detection sensor respectively.
Compared with the prior art, beneficial effect lies in:
the electric line monitoring terminal, the water supply pipeline monitoring terminal and the natural gas pipeline monitoring terminal are respectively configured on an indoor electric line, a water supply pipeline and a natural gas pipeline, the electric line monitoring terminal, the water supply pipeline monitoring terminal and the natural gas pipeline monitoring terminal can be respectively and independently monitored, the monitoring signals are not interfered with each other, monitoring signals are uploaded to a control center control host in real time, once water, electricity and gas monitoring data are abnormal, warning information is sent to a manager, timely troubleshooting and maintenance measures can be facilitated, and accidents are avoided.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.
Fig. 1 is the overall working principle diagram of the present invention.
Fig. 2 is a working schematic diagram of the middle electric circuit monitoring terminal of the present invention.
Fig. 3 is the utility model discloses well water supply line monitor terminal's working principle diagram.
Fig. 4 is a working principle diagram of the natural gas pipeline monitoring terminal of the present invention.
The reference numerals are explained below:
1 is a monitoring host computer, and 2 is a 4G short message alarm module;
3 is an electric circuit monitoring terminal, 31 is a first MCU,32 is a first current sampling unit, 33 is a second current sampling unit, 34 is a first relay unit, and 35 is a second relay unit;
4 is a water supply pipeline monitoring terminal, 41 is a second MCU,42 is a tap water flowmeter, and 43 is an electric water supply valve;
and 5, a natural gas pipeline monitoring terminal, 51 a third MCU,52 a natural gas flowmeter and 53 a methane detection sensor.
Detailed Description
The technical scheme of the invention is further explained by combining the attached drawings 1-4 as follows:
as shown in fig. 1-4, the application discloses building intelligent wisdom energy monitored control system equipment, including monitoring host 1, monitoring host 1 through 4G SMS warning module 2 with the mobile terminal communication is connected, monitoring host 1 is connected with the router communication, the router with the switch communication is connected, the switch respectively with electric line monitor terminal water supply line monitor terminal and natural gas line monitor terminal communication is connected. That is, an electric line monitoring terminal is configured on an indoor electric line, the operation states of a power line and an illumination line are respectively monitored by the electric line monitoring terminal, the operation parameters of the power line and the illumination line are uploaded to a monitoring host in real time, a water supply line monitoring terminal is configured on an indoor water supply line, the water flow of the water supply line is monitored by the water supply line monitoring terminal in real time, the water flow parameter of the water supply line is uploaded to the monitoring host in real time, a natural gas line monitoring terminal is configured on an indoor natural gas line, the natural gas flow and natural gas leakage parameters of the natural gas line are monitored by the natural gas line monitoring terminal in real time, the natural gas flow and natural gas leakage parameters of the natural gas line are uploaded to the monitoring host in real time, and when the operation parameters of the power line and the illumination line, the water flow parameters of the water supply line, the natural gas flow and natural gas outlet lines leak, the monitoring host can simultaneously control corresponding execution units to be switched off in emergency, and send short messages to managers to facilitate follow-up managers to check.
Specifically, the electric circuit monitoring terminal 3 includes a first MCU31, and the first MCU31 is electrically connected to the power circuit monitoring component and the lighting circuit monitoring component, respectively. That is to say, dispose the monitoring subassembly respectively on power circuit and illumination circuit, realize monitoring power circuit and illumination circuit simultaneously, monitoring signal transmits to first MCU in real time, and first MCU transmits monitoring signal to the monitoring host computer through RS485 communication bus.
In some embodiments, the power line monitoring assembly includes a first current sampling unit 32 and a first relay unit 34, the first relay unit 34 and the first current sampling unit 32 are respectively connected in series between the distribution box outlet terminal and the power line terminal, and both the first current sampling unit 32 and the first relay unit 34 are electrically connected to the first MCU 31. That is to say, concatenate current sampling unit and relay unit between power distribution box and power transmission line, when current monitoring is unusual, but remote control relay carries out the disconnection operation. It should be noted that the first current sampling unit includes a first current transformer, and the first current transformer is electrically connected to the I/O port of the first MCU through an a/D signal converter.
Specifically, lighting circuit monitoring assembly second current sample unit 33 and second relay unit 35, second current sample unit 33 with second relay unit 35 connects in series respectively between block terminal leading-out terminal and lighting circuit wiring end, second current sample unit 33 with second relay unit 35 all with first MCU31 electricity is connected. That is to say, concatenate current sampling unit and relay unit between lighting distribution box and lighting transmission line, when the current monitoring is unusual, but remote control relay carries out the disconnection operation. It should be noted that the second current sampling unit includes a second current transformer, and the second current transformer is electrically connected to the I/O port of the first MCU through an a/D signal converter.
Specifically, the water supply line monitoring terminal 4 includes a second MCU41, and the second MCU41 is electrically connected to a tap water flow meter 42 and an electric water supply valve 43, respectively. That is to say, a tap water flow meter and an electric water supply valve are arranged on a water supply pipeline of a household, when the condition that the water supply pipeline exceeds a preset value is monitored, the monitoring host controls the electric water supply valve to be closed, and meanwhile, the monitoring host sends an alarm short message to the mobile terminal through the short message alarm module to prompt a manager to check abnormality in time. It should be noted that the mobile terminal is a communication terminal with a GSM short message module.
Specifically, the natural gas pipeline monitoring terminal 5 includes a third MCU51, and the third MCU51 is electrically connected to a natural gas flow meter 52 and a methane detection sensor 53, respectively. That is to say, install natural gas flowmeter and methane detection sensor on the natural gas pipeline of entrying one's residence, utilize natural gas flowmeter real time monitoring natural gas pipeline gas flow and through methane detection sensor real time monitoring comprehensive judgement whether methane reveals, when natural gas flow and/or detect the methane signal, the third MCU sends unusual information to the monitoring host computer, and the monitoring host computer sends alarm information to mobile terminal, is convenient for managers to investigate the natural gas pipeline fast.
The foregoing illustrates and describes the general principles, features and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention.
Claims (8)
1. The utility model provides a building intelligent wisdom energy monitored control system equipment, a serial communication port, including the monitoring host computer, the monitoring host computer through 4G SMS warning module with the mobile terminal communication is connected, the monitoring host computer is connected with the router communication, the router with the switch communication is connected, the switch respectively with electric line monitor terminal water supply line monitor terminal and natural gas line monitor terminal communication is connected.
2. The intelligent building energy monitoring system according to claim 1, wherein the electric line monitoring terminal comprises a first MCU, and the first MCU is electrically connected to the power line monitoring module and the lighting line monitoring module respectively.
3. The intelligent building energy monitoring system device according to claim 2, wherein the power line monitoring component comprises a first current sampling unit and a first relay unit, the first relay unit and the first current sampling unit are respectively connected in series between the distribution box outlet terminal and the power line terminal, and the first current sampling unit and the first relay unit are both electrically connected to the first MCU.
4. The intelligent energy monitoring system equipment for building according to claim 3, wherein the first current sampling unit comprises a first current transformer, and the first current transformer is electrically connected with the I/O port of the first MCU through an A/D signal converter.
5. The intelligent building energy monitoring system device according to claim 2, wherein the lighting line monitoring module comprises a second current sampling unit and a second relay unit, the second current sampling unit and the second relay unit are respectively connected in series between the distribution box outlet terminal and the lighting line terminal, and the second current sampling unit and the second relay unit are both electrically connected to the first MCU.
6. The intelligent energy monitoring system equipment for building according to claim 5, wherein the second current sampling unit comprises a second current transformer, and the second current transformer is electrically connected with the I/O port of the first MCU through an A/D signal converter.
7. The building intelligent energy monitoring system device of claim 1, wherein the water supply line monitoring terminal comprises a second MCU, and the second MCU is electrically connected with the tap water flow meter and the electric water supply valve respectively.
8. The intelligent building energy monitoring system according to claim 2, wherein the natural gas pipeline monitoring terminal comprises a third MCU, and the third MCU is electrically connected to the natural gas flowmeter and the methane detection sensor respectively.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202221892230.XU CN218001181U (en) | 2022-07-22 | 2022-07-22 | Intelligent building intelligent energy monitoring system equipment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202221892230.XU CN218001181U (en) | 2022-07-22 | 2022-07-22 | Intelligent building intelligent energy monitoring system equipment |
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CN218001181U true CN218001181U (en) | 2022-12-09 |
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CN202221892230.XU Active CN218001181U (en) | 2022-07-22 | 2022-07-22 | Intelligent building intelligent energy monitoring system equipment |
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2022
- 2022-07-22 CN CN202221892230.XU patent/CN218001181U/en active Active
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