CN211822694U - Heat energy edge service system based on Internet of things technology - Google Patents

Abstract

The utility model discloses a heat energy edge service system based on internet of things relates to intelligence warm logical control technology field. The heat energy edge service system based on the Internet of things technology comprises heat energy edge service stations, a wireless transmission module and a router, wherein the heat energy edge service stations are used for connecting unit clusters and monitoring the running states of all unit equipment, the heat energy edge service stations are connected into a local area network, data are transmitted to a local monitoring center through a router or a switch which is arranged in the edge service stations, the wireless transmission module is used for remotely transmitting data, each heat energy edge service station comprises a heat energy data communication gateway module and a communication interface conversion board, an industrial control host which is used for connecting the heat energy edge service stations and analyzing and processing the data and a router which is used for processing local data transfer, the heat energy edge service system can carry out remote checking and monitoring on any unit in each heat supply unit cluster, and a fault unit can be rapidly determined when a fault occurs; the running number of the units can be controlled according to the number of the end heating users, and the waste of capacity is avoided.

Description

Heat energy edge service system based on Internet of things technology

Technical Field

The utility model relates to an intelligence heating and ventilation control technical field especially relates to a heat energy edge service system based on internet of things.

Background

The heating is a social service for solving the basic life requirement of the heating of residents in northern China in winter, and is the building environment control technology developed by human beings at the earliest. Today, heating equipment and systems have made great progress in terms of comfort and hygiene for people, aesthetic appearance and dexterity of equipment, automatic control of systems and equipment, diversification of system forms, efficient use of energy, and the like.

In China, the northern heating has various modes such as urban central heating, rural bulk coal combustion heating, electric boiler heating, gas boiler function and the like; as shown in fig. 1, in a system for urban central heating, a heating company provides high-temperature hot water to be delivered to each heating heat exchange station through a heating pipe network, and the heating heat exchange stations are delivered to end users through a secondary side system.

Wherein, the steam power plant mainly heats the boiler with coal-fired mode, along with the popularization and implementation of north coal change of electricity policy in recent years, more and more heating power company adopts multiple energy composite systems such as ultralow ring temperature air source heat pump set or ground source heat pump set or solar energy heat pump to heat afterwards, according to the difference of heating regional area, probably adopts the unit quantity that varies from several to several hundred.

In the process of heating by using the new energy equipment, an equipment provider is only responsible for providing the equipment, and an engineer or a system integrator carries out system installation, but the engineer and the system integrator are not professional, so that a plurality of problems exist in the actual use of the system, for example, the running condition of the unit cannot be monitored remotely and checked, the fault unit cannot be determined accurately when the fault occurs, the temperature of supply and return water cannot be adjusted in real time or according to the weather and the like, and inconvenience is brought to the control and maintenance of the unit by a heating party.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above-mentioned technical problem, overcome prior art's shortcoming, provide a heat energy edge service system based on internet of things.

In order to solve the technical problem, the utility model provides a heat energy edge service system based on internet of things.

The technical effects are as follows: 1. the remote checking and monitoring can be carried out on any unit in each heat supply unit group, and a fault unit can be quickly determined when a fault occurs;

2. the running number of the units can be controlled according to the number of the end heating users, so that the waste of capacity is avoided;

3. different types of equipment can be monitored through the same platform, all main components (electric quantity, flow, heat, temperature and the like) in the system can be monitored, and the operation states of a plurality of projects can be centralized in one place for monitoring and management;

4. supply return water temperature and flow valve size can be adjusted in real time according to terminal heating temperature at any time, can also implement the adjustment according to the future a week weather forecast condition and supply return water temperature through analysis weather data, realize the unmanned on duty of heat exchange station completely.

The utility model discloses the technical scheme who further injects is: a heat energy edge service system based on the technology of the Internet of things comprises:

the heat energy edge service station is used for connecting the unit cluster and monitoring the running states of all unit equipment, and recording real-time data, historical data and fault records of temperature, pressure, flow, heat, electric quantity, water quantity and refrigerating capacity;

the heat energy edge service station is connected to the local area network, transmits data to a local monitoring center through a router or a switch arranged in the edge service station, and is also provided with a wireless transmission module for remotely transmitting the data;

the heat energy edge service station comprises a heat energy data communication gateway module, a communication interface conversion board, an industrial control host and a router, wherein the industrial control host is used for connecting the heat energy data communication gateway module and the communication interface conversion board, analyzing and processing data, and the router is used for processing local data transfer, and the communication interface conversion board comprises a plurality of RS485 or RS232 communication interfaces which are respectively connected with and record temperature, pressure, flow, heat, electric quantity, water quantity and refrigerating capacity data in a unit.

Furthermore, the heat energy edge service station is connected with a control mainboard in the unit equipment through a plurality of RS485 communication interfaces and is used for monitoring the running state (including a compressor, a pump valve, pressure, temperature, flow and electric quantity) in the unit.

In the heat energy edge service system based on the internet of things, the heat energy edge service station is connected with the pressure transmitter and the temperature sensor in the heating and ventilation system through the RS485 communication interface, and is used for monitoring the pressure, temperature and flow change conditions of the system.

The heat energy edge service station is connected with the unit ammeter, the circulating pump ammeter and the submersible pump ammeter in the system through the RS485 communication interface and is used for monitoring the electric quantity condition in the system.

In the heat energy edge service system based on the internet of things technology, the heat energy data communication gateway module comprises a remote 4G module, and is used for remotely processing, receiving and sending equipment operation and fault information, and performing remote data acquisition, control and charging management on user end equipment (an indoor temperature controller, a remote electromagnetic valve and a heat meter).

In the heat energy edge service system based on the internet of things, the heat energy edge service station is connected to the local meteorological department and used for receiving and analyzing local meteorological data and calculating and predicting weather.

The utility model has the advantages that:

(1) the utility model discloses in, can implement long-range looking over and control to arbitrary unit in every heat supply unit group, can confirm the trouble unit rapidly when the trouble takes place; the running number of the units can be controlled according to the number of the end heating users, so that the waste of capacity is avoided; different types of equipment can be monitored through the same platform, all main components (electric quantity, flow, heat, temperature and the like) in the system can be monitored, and the operation states of a plurality of projects can be centralized in one place for monitoring and management; the temperature of the supply and return water and the size of the flow valve can be adjusted in real time according to the heating temperature at the tail end at any time, and the temperature of the supply and return water can be adjusted according to the weather prediction condition of a week in the future by analyzing weather data, so that unattended operation of the heat exchange station is completely realized;

(2) the utility model discloses in, support multichannel RS485 bus to monitor all unit equipment running state, including real-time data such as temperature, pressure, flow, heat, electric quantity, water yield, refrigerating output, information such as historical data, fault record, support customization service such as real-time data secondary processing and data visual presentation (large-screen display), equipment trouble information real-time propelling movement (SMS or APP mode);

(3) the utility model discloses in, support the local control of unit equipment data (intranet monitoring service), make things convenient for relevant first party management, maintainer knows system behavior in real time, supports user's end equipment (indoor temperature controller, long-range solenoid valve, calorimeter etc.) remote data acquisition, control and charging management, support through WEB (computer browser), APP (cell-phone end) login, carry out remote monitoring and management to a plurality of independent systems;

(4) the utility model discloses in, support different producers, different types, the new energy equipment's of different agreements access ensures the compatibility of intelligent heat energy edge service station, can be compatible from several to insert when hundreds of equipment, can also insert meteorological data, the local meteorological data of analysis calculates the prediction with real-time regulation heating to weather.

Drawings

FIG. 1 is a drawing in the background art;

FIG. 2 is a block diagram of connection in embodiment 1;

fig. 3 is a block diagram of the use of embodiment 1.

Detailed Description

The structure of the heat energy edge service system based on the internet of things technology provided by the embodiment is shown in the figure, and the heat energy edge service system comprises a heat energy edge service station which is used for connecting a unit cluster and monitoring the running states of all unit equipment, and can record real-time data, historical data and fault records of temperature, pressure, flow, heat, electric quantity, water quantity and refrigerating capacity;

the heat energy edge service station is connected to the local area network, transmits data to a local monitoring center through a router or a switch arranged in the edge service station, and is also provided with a wireless transmission module for remotely transmitting the data; the heat energy edge service station comprises a heat energy data communication gateway module, a communication interface conversion board, an industrial control host and a router, wherein the industrial control host is used for connecting the heat energy data communication gateway module and the communication interface conversion board and analyzing and processing data, and the router is used for processing local data transfer.

The communication interface conversion board comprises a plurality of RS485 or RS232 communication interfaces, can support a plurality of RS485 buses to monitor the running state of all unit equipment, and is respectively connected with and records the temperature, pressure, flow, heat, electric quantity, water quantity and refrigerating capacity data in the unit. The heat energy edge service station provides a software solution scheme of a 'heat energy cloud platform' core and matched 'remote and local APP and WEB terminals'.

The heat energy edge service station is connected with a control main board in the unit equipment through a plurality of RS485 communication interfaces and is used for monitoring the running state (including a compressor, a pump valve, pressure, temperature, flow and electric quantity) in the unit; the heat energy edge service station is connected with a pressure transmitter and a temperature sensor in the heating and ventilation system through an RS485 communication interface and is used for monitoring the pressure, temperature and flow change conditions of the system; the heat energy edge service station is connected with a unit ammeter, a circulating pump ammeter and a submersible pump ammeter in the system through RS485 communication interfaces and is used for monitoring the electric quantity condition in the system.

The heat energy data communication gateway module comprises a remote 4G module which is used for remotely processing, receiving and sending equipment operation and fault information and carrying out remote data acquisition, control and charging management on user end equipment (an indoor temperature controller, a remote electromagnetic valve and a heat meter). The thermal energy edge service station can also be connected to a local meteorological department and used for receiving and analyzing local meteorological data and carrying out calculation prediction on weather.

In the application, local monitoring of unit equipment data (intranet monitoring service) can be realized, management of related parties A is facilitated, maintenance personnel can know the working condition of the system in real time, remote data acquisition, control and charging management can be carried out on user terminal equipment (an indoor temperature controller, a remote electromagnetic valve, a heat meter and the like), and remote monitoring and management can be carried out on a plurality of independent systems through WEB (computer browser) and APP (mobile phone terminal) login;

meanwhile, the access of new energy equipment of different manufacturers, different types and different protocols is supported, and the compatibility of the intelligent heat energy edge service station is ensured; the method supports the analysis and calculation of the energy consumption of the single machine or the system, supports the pushing of single machine faults and system faults, and can select a pushing mode; the maintenance order form repair and the payment of the expense of a stand-alone or a system are supported through the platform or the system, and the commercial implantation of merchants or heat supply companies or government public welfare is supported.

In addition to the above embodiments, the present invention may have other embodiments. All the technical solutions formed by adopting equivalent substitutions or equivalent transformations fall within the protection scope claimed by the present invention.

Claims (6)

1. The utility model provides a heat energy edge service system based on internet of things, its characterized in that includes: the heat energy edge service station is used for connecting the unit cluster and monitoring the running states of all unit equipment, and recording real-time data, historical data and fault records of temperature, pressure, flow, heat, electric quantity, water quantity and refrigerating capacity; the heat energy edge service station is connected to the local area network, transmits data to a local monitoring center through a router or a switch arranged in the edge service station, and is also provided with a wireless transmission module for remotely transmitting the data; the heat energy edge service station comprises a heat energy data communication gateway module, a communication interface conversion board, an industrial control host and a router, wherein the industrial control host is used for connecting the heat energy data communication gateway module and the communication interface conversion board and analyzing and processing data, the router is used for processing local data transfer, and the communication interface conversion board comprises multiple RS485 or RS232 communication interfaces which are respectively connected with different data in the recording unit.

2. The thermal energy edge service system based on the internet of things technology as claimed in claim 1, wherein: the heat energy edge service station is connected with a control main board in the unit equipment through a plurality of RS485 communication interfaces and used for monitoring the running state in the unit, and the running state in the monitoring unit comprises a compressor, a pump valve, pressure, temperature, flow and electric quantity.

3. The thermal energy edge service system based on the internet of things technology as claimed in claim 1, wherein: the heat energy edge service station is connected with a pressure transmitter and a temperature sensor in the heating and ventilating system through an RS485 communication interface and is used for monitoring the pressure, temperature and flow change conditions of the system.

4. The thermal energy edge service system based on the internet of things technology as claimed in claim 1, wherein: the heat energy edge service station is connected with a unit ammeter, a circulating pump ammeter and a submersible pump ammeter in the system through RS485 communication interfaces and is used for monitoring the electric quantity condition in the system.

5. The thermal energy edge service system based on the internet of things technology as claimed in claim 1, wherein: the heat energy data communication gateway module comprises a remote 4G module which is used for remotely processing, receiving and sending equipment operation and fault information and carrying out remote data acquisition, control and charging management on user end equipment, wherein the user end equipment comprises an indoor temperature controller, a remote electromagnetic valve and a heat meter.

6. The thermal energy edge service system based on the internet of things technology as claimed in claim 1, wherein: the heat energy edge service station is connected to a local meteorological department and used for receiving and analyzing local meteorological data and carrying out calculation prediction on weather.

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