SU1543192A1 - Apparatus for controlling heat supply in building central heating system - Google Patents

Description

The invention relates to heating technology. The purpose of the invention to increase the efficiency of regulation by optimizing the processes of joint operation of heating and ventilation systems. For this purpose, the device further comprises a sensor-relay 18 for recirculated air temperature and two relays 19,

1543192

20 controls, each of which has two pairs of contacts, with both pairs of contacts 21, 22 of control relay 19 located in the supply lines of the regulators and gulsators 1, 7, one pair of contacts 23 of the control relay 20 located in the supply line of the actuators 13, 14 valves 11, 12, and another pair of contacts 24 of the relay 20 -> in an additional power supply line connecting the power supply unit 15 to the supply air temperature regulator 7 via

The temperature increase setting unit 17, both of the control relays 19, 20 are connected to the power supply unit 15 via the time relay 16, and the contacts 25 of the relay sensor 18 are located in the communication line of the control relay 20 and the time relay 16. The presence of a sensor-relay 18 and two control relays 19,20 allows the optimal way to provide three control modes: operating (day mode), night mode and flow mode.

1 il.

The invention relates to heating equipment, in particular to devices for regulating tempering 20

heat in the system of heat consumption of the building.,

The purpose of the invention is to increase efficiency by optimizing the processes of joint operation of heating and ventilation systems.

The drawing shows a device for regulating the heat supply in the system of heat consumption of the building.

The device contains a regulator 1, 30

heating with a setting device 2 for lowering the temperature of the heating medium of a heating installation that has direct and return pipes 3 and 4 connected to heating devices 5 installed in building 6, regulator 7 of the supply air temperature of the ventilation system having outdoor air duct 8 and connected to the building 6 inlet and recirculation duct 9 and 10 ,. mounted on the duct 8 of the outdoor air and the recirculation duct 10 valves 11, 12 with actuators 13, 14, power supply unit 15 with 45 power lines connected to regulators 1.7 and to actuators 13, 14 and time relay 16.

- Regulator 7 of the supply air temperature is supplied with a temperature increase setting device 17. The device additionally contains a sensor-relay 18 for recirculated air temperature and two control relays 19, 20, each of which has two pairs of contacts, one pair of contacts 21, 22 re-. - L 19, 20 controls are located in the supply lines of the regulator 1 and execute

telnye mechanisms 13, 14 valves 11, 12, and through other pairs of contacts 23, 24 relays 19, 20 setting devices 2, 17 lowering and raising the temperature are connected to the corresponding regulators 1, 7, and both control relays 19, 20 are connected to power supply unit 15 through the time relay 16, and the contacts 25 of the sensor-relay 18 of the recirculated air temperature are located in the communication line of the control relay 20 with the time relay 16.

The controller 26 is connected to the sensor 26, 27 of the outdoor air temperature and the temperature of the coolant, and the controller 7 is connected sensors 28 and 29 of the supply air temperature and the temperature of the coolant.

The device works as follows.

The first period of daily heat consumption of the building (regulation mode). Time relay 16 acts on control relay 19 directly and on control relay 20 via contacts 25 of sensor-relay 18, which is set to a predetermined temperature, for example + 20 ° C. The control relay 19 through one pair of contacts 23 connects the power supply unit 15 to the controller 7 and, through the other pair of contacts 21, breaks the communication link of the setter with the heating controller 1. At the same time, the control relay 20 through one pair of contacts 22 connects the power supply unit 15 to one channel. connection with the air valves 11, 12 and breaks the communication line of the setting device 17 with the regulator 7 with another pair of contacts 24. At the same time, the controller 7 maintains the set supply air temperature by means of the sensor 28

five

ha, for example + 20 ° C, acting on the ventilation unit, the air valves 11, 12 of which are in a predetermined position, providing, for example, the omission of 50% of the outside air and 50% of the recirculated air. The heating regulator 1 maintains the temperature of the heat carrier supplied and discharged through the pipework to the heat pipes 3 and 4 to the heating devices 5 and the building 6.

The second period of the daily regulation of heat supply in the system of heat consumption of the building (night mode). 15 Time relay 16 acts on control relay 19, which, through one pair of contacts 21, connects a setpoint 2 to the heating medium regulator 1 for heating, and after 20 another pair of contacts 23 connects the power supply unit 15 to the second communication channel with the regulator 7.

At the same time, a time relay 16 acts on a control relay 20, which through a single pair of contacts 22 connects the power supply unit 15 to the second communication channel with air valves 11, 12, and through another pair of contacts 24 connects the setpoint generator 17 to increase 30 the supply air temperature to the regulator 7. In this case, the regulator 7 has the controlling function of protecting the disconnected ventilation unit from freezing, the air valve 11 which is closed, and the air valve 12 is open. The heating controller 1 maintains a reduced graph of the temperature of the coolant supplied and discharged via pipelines 3 and 4 to the heating devices 5 of the building 6.

The third, the period of daily regulation of heat supply in the system of heat consumption of the building (the natop mode). Relay -16 time affects the relay

• 19, which restores the functional connections of the regulators 1 and 7 of the first regulation period. In this case, the control relay 20 provides the functional connections of the second control period, since the line of exposure of the time relay 16 to the relay
• 20 control 1 is interrupted by the sensor relay 18 due to the fact that the air temperature in the building 6 after the second (night) regulation period is less than the preset one, for example +10 C. em supply air temperature 1543192 ⁶

above the preset, for example + 40 ° C, acting on the ventilation unit, since the setting device 17 is connected to the regulator 7. The specified regulation mode of the ventilation installation is carried out until the air temperature in the building 6 and, consequently, the recirculated air rises to given, for example + 20 ° С. In this case, the sensor-relay 16 restores the communication link between the time relay 16 and the control relay 20, which in turn restores the functional connections of the first period. There is a full cycle of daily regulation.

Thus, the processes of joint operation of heating and ventilation systems are optimized and the efficiency of heat supply regulation in the heat consumption system is increased.

Claims (1)

Claim A device for controlling the heat supply in a building's heat consumption system, which contains a heating controller with a setpoint for lowering the temperature of the heating medium of a heating installation having direct and return pipelines connected to heating devices installed in the building, a temperature controller for the supply air of the ventilation system having an outside air duct and connected to the building has inlet and re40 circulating air ducts installed on the outside air and recirculated air ducts valve with actuators, a power unit with power lines, 45 connected to the regulators and actuators, and a time relay, characterized in that, in order to increase efficiency by optimizing the processes of joint operation of the heating and ventilation systems, the supply air temperature regulator unit for raising the temperature, the device additionally contains a recirculated air temperature sensor55 and two control relays, each of which has two pairs of bars, one pair of each control relay is located in the lines Ί 1543192 eight supply, respectively, of the supply air temperature regulator and actuators, and through other pairs of contacts, setters for lowering and raising the temperature are connected to the corresponding regulators, and Both control relays are connected to the power unit via a time relay, and the contacts of the temperature sensor for the recirculation air of cooling air are located in the communication line of the second control relay with a time relay.