RU106720U1 - THERMAL ENERGY TRANSMISSION DEVICE - Google Patents

Abstract

 A thermal energy transmission control device comprising a gas boiler, a gas supply controller, a hot water temperature sensor, characterized in that it further includes a gas flow sensor, a valve, a consumer hot water boiler, a cellular communication modem, an information processing center, a comparison unit, a controller, moreover, the output of the gas flow sensor is connected to the input of the gas boiler, the input of the gas flow sensor is connected to the output of the gas supply regulator, the output of the gas boiler through the valve is connected to the input of the consumer's boiler, the course of the consumer’s boiler is connected to the input of the hot water temperature sensor, the output of the hot water temperature sensor is connected to the input of the cellular modem, the output of the cellular modem is connected to the input of the data center via GSM channel, the output of the data center is connected to the first input of the comparison unit, the second the input of the comparison unit is connected to the master, the output of the comparison unit is connected to the input of the gas supply regulator.

Description

The technical solution relates to heat supply systems of cities and towns and can be used for remote monitoring and regulation of the impact of thermal facilities on the environment.

Heat supply systems are complex engineering structures, the peculiarity of which is that they are two-parameter, when the amount of released heat energy is determined by both the temperature of the coolant and the pressure drop in the network, therefore they must be controlled by two interconnected systems, one to control the temperature regime, and the other - to regulate the hydraulic mode.

Known devices for measuring and accounting for heat consumption, which are described in the literature / Automatic devices, regulators and computer systems. Reference manual. / Ed. V.D. Kasharsky. - L.: Mechanical Engineering, 1976, / Setting up and operation of water heating networks: Reference. / V.I.Manyuk, Ya.I. Kaplinsky, E.B. Hizh [et al.]. - 3rd ed., Revised. and add. - M .: Stroyizdat, 1988. - 432 s, / Accounting and control of energy consumption and thermal energy. Methods and devices. / Kakhanovich B.C. [and etc]. / Ed. V.S. Kakhanovich - M .: Energy, 1990.

All known devices require primary sensors for measuring the flow rate of the coolant in the fluid flow, the operational reliability of which does not meet the requirements of today, so they have not been widely used.

A well-known automated system for measuring and accounting for the flow of heat carrier and heat in heat supply systems (RU 2144162, 07/16/96. An automated system for measuring and accounting for the flow of heat carrier and heat in heat supply systems).

The disadvantage of these patents is that they do not consider dual-circuit heat supply systems and the use of frequency converters to regulate the flow of coolant.

Closest to the claimed technical solution is an automated information system for monitoring and controlling the operation of a heating boiler with hot water boilers (RU 2340835, 12.10.2008). Consisting of a gas boiler, gas supply regulator, fan, hot water temperature sensor, heat energy meter.

The disadvantages of the device is the narrow functionality of the device, due to the lack of monitoring of the state of thermal installations.

The objective of the utility model is to expand the functionality of the device by remotely monitoring the environmental impact of thermal objects.

This object is achieved in that a thermal energy transmission control device comprising a gas boiler, a gas supply regulator, a hot water temperature sensor, a gas flow sensor, a valve, a consumer hot water boiler, a cellular communication modem, an information processing center, a comparison unit, a master, and an output the gas flow sensor is connected to the input of the gas boiler, the input of the gas flow sensor is connected to the output of the gas supply regulator, the gas boiler output through the valve is connected to the input of the consumer's boiler, the water output A consumer’s boiler is connected to the input of the hot water temperature sensor, the output of the hot water temperature sensor is connected to the input of the cellular modem, the output of the cellular modem is connected to the input of the data processing center via a GSM channel, the output of the data processing center is connected to the first input of the comparison unit, the second input the comparison unit is connected to the master, the output of the comparison unit is connected to the input of the gas supply regulator.

Such a technical solution extends the functionality of the device by transmitting information about the parameters of gas distribution points using cellular communication.

Figure 1 shows a diagram of a device for controlling the transfer of thermal energy.

The output of the gas flow sensor 1 is connected to the input of the gas boiler 2. The output of the gas boiler 2 through the valve 3 is connected to the input of the consumer boiler 4. The output of the consumer boiler 4 is connected to the input of the hot water temperature sensor 5. The output of the hot water temperature sensor 5 is connected to the input cellular modem 6. The output of the cellular modem 6 is connected to the input of the data processing center 10 via a GSM channel. The input of the information processing center 10 is connected to the first input of the comparison unit 7. The second input of the comparison unit 7 is connected to the setter 8. The output of the comparison unit 7 is connected to the input of the gas supply regulator 9.

The control device for the transfer of thermal energy works as follows.

Natural gas is supplied through gas flow sensor 1 to gas boiler 2. From gas boiler 2, through the valve 3, hot water enters the consumer’s boiler 4. The temperature of hot water is recorded by the hot water temperature sensor 5. Information from the hot water temperature sensor 5 is transmitted using a cellular modem 6 to the data processing center 10 via a GSM channel. The data that has been processed in the information processing center 10 is transmitted to the comparison unit 7. Also, data from the setter 8 is transmitted to the comparison unit 7. The results of the comparison are transmitted to the gas supply regulator 9.

When operating in the normal mode, information is recorded by the memory unit, which is stored in the hot water temperature sensor 5, and daily, through the cellular modem 6, it is transmitted to the information processing center 10. Data from the information processing center is transmitted to the comparison unit, where it is compared with data from the master. In the event that the temperature of hot water goes beyond the limits established by the technical regulations, the gas supply regulator adjusts it.

As a result of such regulation, automated remote control of all system parameters is carried out, which allows you to quickly intervene in the heat supply process and maintain the necessary level of security, i.e. expand the functionality of the proposed device.

Claims (1)

A thermal energy transmission control device comprising a gas boiler, a gas supply controller, a hot water temperature sensor, characterized in that it further includes a gas flow sensor, a valve, a consumer hot water boiler, a cellular communication modem, an information processing center, a comparison unit, a controller, moreover, the output of the gas flow sensor is connected to the input of the gas boiler, the input of the gas flow sensor is connected to the output of the gas supply regulator, the output of the gas boiler through the valve is connected to the input of the consumer's boiler, the course of the consumer’s boiler is connected to the input of the hot water temperature sensor, the output of the hot water temperature sensor is connected to the input of the cellular modem, the output of the cellular modem is connected to the input of the data center via GSM channel, the output of the data center is connected to the first input of the comparison unit, the second the input of the comparison unit is connected to the master, the output of the comparison unit is connected to the input of the gas supply regulator.