CN112506085A - Terminal data acquisition device of intelligent energy management and control system - Google Patents

Abstract

The invention relates to a terminal data acquisition device of a smart energy management and control system, which comprises at least one data acquisition terminal and a data processor in bidirectional communication connection with the data acquisition terminal, wherein the data processor comprises an equipment driving module and a multiplexer, the equipment driving module bears the drive of all the data acquisition terminals, and the multiplexer is in bidirectional communication with the data acquisition terminal and the data processor respectively; and the data acquisition terminal is used for acquiring data and transmitting the data to the data processor. The invention realizes the scheme of online energy system evaluation information and adjustment decision, and ensures the scientificity, timeliness and rationality of energy system balance adjustment.

Description

Terminal data acquisition device of intelligent energy management and control system

Technical Field

The invention relates to a data acquisition device, in particular to a terminal data acquisition device of a smart energy management and control system, which is applied to the smart energy management and control system and is used for acquiring energy data such as water, electricity, gas, heat energy and the like in real time and uploading the energy data to a cloud terminal data acquisition device.

Background

Along with the development of economic society and the increasing pressure of environmental resources in China, the situation of energy conservation and emission reduction is severe. According to the requirements and the construction spirit of relevant national departments, energy consumption enterprises and units in various regions strengthen the construction of energy consumption unit energy consumption monitoring systems, and the dynamic monitoring of energy consumption of key buildings is realized by utilizing modern technical means.

At present, most enterprises still rely on manual report reading, so that the efficiency is low and the real-time performance is poor. Although some enterprises add energy efficiency monitoring systems, terminal data acquisition can only acquire single data, online energy system review information and adjustment decision schemes cannot be realized, and scientificity, timeliness and reasonability of balance adjustment of the energy system cannot be ensured.

Disclosure of Invention

The invention provides a terminal data acquisition device of an intelligent energy management and control system, aiming at the problems in the prior art, and solving the problem that the online energy system evaluation information and decision scheme adjustment cannot be realized in the prior art.

In order to solve the technical problem, the technical scheme adopted by the invention is as follows:

a terminal data acquisition device of a smart energy management and control system comprises at least one data acquisition terminal and a data processor in bidirectional communication connection with the data acquisition terminal, wherein the data processor comprises an equipment driving module and a multiplexer, the equipment driving module bears the drive of all the data acquisition terminals, and the multiplexer is in bidirectional communication with the data acquisition terminals and the data processor respectively; and the data acquisition terminal is used for acquiring data and transmitting the data to the data processor.

The multiplexer is used for identifying the type of the accessed data acquisition terminal and comprises an equipment detection module, a signal analysis module, a terminal data control module and a wireless communication module.

The equipment detection module is used for periodically detecting whether the data acquisition terminal is accessed, and when the data acquisition terminal is accessed, the equipment driving module of the acquisition data processor sends a driving signal and forwards the driving signal.

And the signal analysis module is used for analyzing the received driving signal and acquiring a field of the type of the data acquisition terminal carried by the driving signal.

And the terminal data control module compares a field of the type of the data acquisition terminal borne by the driving signal with a preset type number of the data acquisition terminal, judges the type of the accessed data acquisition terminal and transmits the type of the data acquisition terminal to the data processor.

The wireless communication module is used for uploading the acquired data to the intelligent energy management and control system.

The further wireless communication module comprises GPRS and WIFI dual-mode communication.

The terminal data control module is connected with the RS485 interface, the photovoltaic control module, the storage battery control module, the clock module, the positioning module, the wind power control module and the LED indicator lamp; the photovoltaic control module is used for uploading relevant operation data of current power generation power and illumination intensity; the clock module is used for sending a clock signal to the terminal data control module; the positioning module is used for sending equipment position information to the terminal data control module; the wind power module is used for uploading relevant operation data of the current fan power generation power, wind speed and wind direction; the LED indicator light is used for indicating the working state of the current terminal data acquisition device, and comprises a power supply, wifi and GPRS communication states.

The further positioning module is a GPS and Beidou dual-mode positioning module.

The data acquisition terminal comprises a temperature sensor, a pressure sensor, a flow sensor, a humidity sensor and a valve control module; the temperature sensor is used for sending the indoor and outdoor current temperatures, the equipment temperature and the pipe network medium temperature to the terminal data control module; the pressure sensor is used for sending current pipe network flow data to the terminal data control module; the flow sensor is used for sending current flow data of the pump or other equipment to the terminal data control module; and the humidity sensor is used for sending current humidity data to the terminal data control module.

The invention has the following advantages and effects:

the intelligent energy management and control system is applied to an intelligent energy management and control system, is used for collecting energy data such as water, electricity, gas and heat energy in real time and uploading the energy data to a terminal data acquisition device at the cloud end, realizes an online energy system evaluation information and adjustment decision scheme, and ensures the scientificity, timeliness and rationality of balance adjustment of the energy system.

Drawings

In order to more clearly illustrate the technical scheme of the design method, the following brief descriptions are made on the drawings required in the engineering implementation process.

Fig. 1 is a schematic block diagram of the structural principle of the present invention.

Fig. 2 is a schematic block diagram of an application of the present invention.

Detailed Description

Examples

A terminal data acquisition device of a smart energy management and control system comprises at least one data acquisition terminal and a data processor in bidirectional communication connection with the data acquisition terminal, wherein the data processor comprises an equipment driving module and a multiplexer, the equipment driving module bears the drive of all the data acquisition terminals, and the multiplexer is in bidirectional communication with the data acquisition terminals and the data processor respectively; and the data acquisition terminal is used for acquiring data and transmitting the data to the data processor.

The multiplexer is used for identifying the type of the accessed data acquisition terminal and comprises an equipment detection module, a signal analysis module, a terminal data control module and a wireless communication module.

The equipment detection module is used for periodically detecting whether the data acquisition terminal is accessed, and when the data acquisition terminal is accessed, the equipment driving module of the acquisition data processor sends a driving signal and forwards the driving signal.

And the signal analysis module is used for analyzing the received driving signal and acquiring a field of the type of the data acquisition terminal carried by the driving signal.

And the terminal data control module compares a field of the type of the data acquisition terminal borne by the driving signal with a preset type number of the data acquisition terminal, judges the type of the accessed data acquisition terminal and transmits the type of the data acquisition terminal to the data processor.

The wireless communication module is used for uploading the acquired data to the intelligent energy management and control system.

The further wireless communication module comprises GPRS and WIFI dual-mode communication.

The terminal data control module is connected with the RS485 interface, the photovoltaic control module, the storage battery control module, the clock module, the positioning module, the wind power control module and the LED indicator lamp; the photovoltaic control module is used for uploading relevant operation data of current power generation power and illumination intensity; the clock module is used for sending a clock signal to the terminal data control module; the positioning module is used for sending equipment position information to the terminal data control module; the wind power module is used for uploading relevant operation data of the current fan power generation power, wind speed and wind direction; the LED indicator light is used for indicating the working state of the current terminal data acquisition device, and comprises a power supply, wifi and GPRS communication states.

The further positioning module is a GPS and Beidou dual-mode positioning module.

The data acquisition terminal comprises a temperature sensor, a pressure sensor, a flow sensor, a humidity sensor and a valve control module; the temperature sensor is used for sending the indoor and outdoor current temperatures, the equipment temperature and the pipe network medium temperature to the terminal data control module; the pressure sensor is used for sending current pipe network flow data to the terminal data control module; the flow sensor is used for sending current flow data of the pump or other equipment to the terminal data control module; and the humidity sensor is used for sending current humidity data to the terminal data control module.

The terminal data acquisition device also comprises a power supply module which converts input voltage into working voltage of the terminal data acquisition device and is used for the terminal data acquisition device to work.

The present invention is not limited to the above embodiments, and any modifications, equivalent replacements, improvements, etc. within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (10)

1. A terminal data acquisition device of a smart energy management and control system is characterized by comprising at least one data acquisition terminal and a data processor in bidirectional communication connection with the data acquisition terminal, wherein the data processor comprises an equipment driving module and a multiplexer, the equipment driving module bears the drive of all the data acquisition terminals, and the multiplexer is in bidirectional communication with the data acquisition terminal and the data processor respectively; and the data acquisition terminal is used for acquiring data and transmitting the data to the data processor.

2. The terminal data acquisition device of the intelligent energy management and control system as claimed in claim 1, wherein the multiplexer is used for identifying the type of the accessed data acquisition terminal, and comprises an equipment detection module, a signal analysis module, a terminal data control module and a wireless communication module.

3. The terminal data acquisition device of the intelligent energy management and control system as claimed in claim 2, wherein the device detection module is configured to periodically detect whether the data acquisition terminal is accessed, and when the data acquisition terminal is accessed, the device driving module of the data acquisition processor sends the driving signal and forwards the driving signal.

4. The terminal data acquisition device of the intelligent energy management and control system as claimed in claim 2, wherein the signal analysis module is configured to analyze the received driving signal to obtain a field of a type of the data acquisition terminal carried by the driving signal.

5. The terminal data acquisition device of the intelligent energy management and control system as claimed in claim 2, wherein the terminal data control module compares a field of a type of the data acquisition terminal carried by the driving signal with a preset type number of the data acquisition terminal, determines the type of the data acquisition terminal to be accessed, and transmits the type of the data acquisition terminal to the data processor.

6. The terminal data acquisition device of a smart energy management and control system according to claim 2, wherein the wireless communication module is configured to upload the acquired data to the smart energy management and control system.

7. The terminal data acquisition device of the intelligent energy management and control system according to claim 6, wherein the wireless communication module comprises GPRS and WIFI dual-mode communication.

8. The terminal data acquisition device of the intelligent energy management and control system according to claim 2, wherein the terminal data control module is connected with an RS485 interface, a photovoltaic control module, a storage battery control module, a clock module, a positioning module, a wind power control module and an LED indicator light; the photovoltaic control module is used for uploading relevant operation data of current power generation power and illumination intensity; the clock module is used for sending a clock signal to the terminal data control module; the positioning module is used for sending equipment position information to the terminal data control module; the wind power module is used for uploading relevant operation data of the current fan power generation power, wind speed and wind direction; the LED indicator light is used for indicating the working state of the current terminal data acquisition device, and comprises a power supply, wifi and GPRS communication states.

9. The terminal data acquisition device of the intelligent energy management and control system according to claim 8, wherein the positioning module is a GPS and Beidou dual-mode positioning module.

10. The terminal data acquisition device of the intelligent energy management and control system according to claim 1, wherein the data acquisition terminal comprises a temperature sensor, a pressure sensor, a flow sensor, a humidity sensor and a valve control module; the temperature sensor is used for sending the indoor and outdoor current temperatures, the equipment temperature and the pipe network medium temperature to the terminal data control module; the pressure sensor is used for sending current pipe network flow data to the terminal data control module; the flow sensor is used for sending current flow data of the pump or other equipment to the terminal data control module; and the humidity sensor is used for sending current humidity data to the terminal data control module.

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