SU939873A1 - Apparatus for controlling heating unit - Google Patents

Description

(54) yCTPOiteTBO MANAGEMENT OF HEATING.THE UNIT

one

The invention relates to the construction and production of building materials, in particular, to devices for controlling air-heating units.

A device for controlling a heating unit is known, comprising a first temperature sensor installed in a room, a second temperature sensor installed in an air intake, a fan with an electric motor, a valve with an actuator installed on the pipeline to the air heater. This device has an increased reliability of operation, since it is equipped with two threshold elements and logical elements, connected in such a way that the operation of the heater of the heating unit when the fan is not working 1 is excluded.

However, this device maintains only the set air temperature, not taking into account other parameters of the latter, which is a drawback of the device.

The closest to the present invention is the control unit of the heating unit, which contains the first temperature sensor installed in the heated room, which is connected to the valve actuator through the first temperature controller. a radiator installed on the pipeline to which a fan installed in the mixing chamber is connected, a second temperature sensor which is connected to the second temperature controller, and an actuator connected kinematically to the outdoor air ducts of the outside and recirculated air {2.

The disadvantage of this device is that this device does not support the necessary sanitary and hygienic

15 conditions in a heated room, since the control of the valves on the air ducts is carried out only depending on the deviation of the temperature from the set value.

In case of some decrease in temperature

20, the outside air flap on its air duct closes and the recirculation flap opens slightly, and the temperature value leads to the set point. However, if the content in the room, for example, oxygen in the air was normal, as a result of a decrease in the inflow of external air, the oxygen content in the room air will decrease and may become less than normal, i.e. indoor hygiene conditions will not meet the requirements. The same will happen if there are vapors and gases in the air that are trapped in the process. The purpose of the invention is to improve sanitary conditions in a heated room. The goal is achieved by the fact that the heating unit control unit contains the first temperature sensor installed in a heated room, which through the first temperature controller is connected to a valve actuator located in the pipeline of the colorizer to which the fan installed in the mixing chamber is connected, the second a temperature sensor, which is connected to the second temperature controller, and an actuator, kinematically connected with the dampers on the outdoor air ducts and recirculation The sensor, regulator and unit of oxygen content in the air, sensor, regulator and unit of gas concentration of industrial outputs and logical elements OR-NOT, OR and AND, and the second temperature controller are connected to the first input of the element AND, the second input of which is connected to the output of the element OR NOT, the input of the element AND is connected to the first input of the element OR the output of which is connected to the actuator, the oxygen content sensor in the air is connected to the first input of the corresponding regulator, the second input The sensor of gas concentration of industrial emissions is connected to the first input of the corresponding regulator, the second input of which is connected to the corresponding setting 1 output of the oxygen content in the air regulator is connected to the first input of the OR-NOT element and to the second input of the OR element the third input of which and the second input of the element OR is NOT connected to the output of the regulator of gas concentration of industrial emissions. The drawing shows a diagram of the proposed device. The device contains the first temperature sensor 1 installed in the room 2 and connected to the first temperature controller 3, which is connected to the actuator 4 of the valve 5 mounted on the pipe 6 of the direct heat carrier to the heater 7 connected to the pipe 8 of the return counter pipe I1el, the valve 9 on the duct 10 outside air and a damper 11 on the air duct 12 of the recirculation air connected to the actuator 13, a second temperature sensor 14 mounted in the chamber 15 of the outside and recirculated air displacement and Connected to the second temperature controller 16, the oxygen content sensor 17 in the room 2 is connected to one input of the controller 18, to the other input of which the oxygen content setting unit 19 in the air of the heated room 2 is connected, the production concentration 20 gas sensor 20 is connected to one regulator input 21, to the other input of which the gas concentration adjuster 22 is connected, the outputs of the regulators 18 and 21 are connected respectively to the first 1M and second inputs of the OR-NOT 23 elements and the OR 24 element, the third input of which is connected with the output element And 25, the inputs of which are connected to the outputs of the controller 16 and the element OR NOT 23. The device also contains a fan 26. The device operates as follows. The sensor 14 controls the air temperature in the chamber 15 of the external and recirculated air displacement, the controller 16 compares it with the set value and drives the control signal to the actuator 13, which in case of a decrease in temperature simultaneously covers the valve 9 and opens the valve 11, thereby driving temperature value in the chamber 15 to a predetermined value. In this case, the control signal from the output of the regulator 16 passes through the element AND 25 only if its other input contains the enabling signal from the output of the element OR NOT 23. Maintaining the set temperature in the chamber 15 is performed in order to ensure that controlling the temperature in the room 2 produced by the second circuit, regulating including the temperature sensor 1, the regulator 3 and the valve 5 with the actuator 4, and at the same time ensuring the minimum flow rate of the coolant. Depending on the temperature in room 2, which is monitored by sensor 1, controller 3 compares it with the set value and generates an error signal fed to the 4-valve actuator 5, which opens as the temperature drops and increases the flow rate of the heat carrier through the heater 7, and temperature above a given value is covered

and reduces the flow of coolant through the heater 7.

At the same time, in room 2, sensor 17 monitors the oxygen content of the air, and sensor 20 monitors the content of process gases in it.

The signals of the sensors 17 and 20 are received respectively by the controllers 18 and 21, where they are compared with the 22 values set with the setters 19 with the corresponding maximum available values of the monitored parameters.

If, for example, at some point it turns out that the oxygen content in the air of room 2 decreases below the norm, the controller 21 produces a signal that enters the input of the OR-NO 23 element, as a result of which the signal at the output of this element disappears, consequently, the resolution signal disappears at one of the inputs of the And 25 element, thereby prohibiting the passage of control signals from the output of the controller 16 through the And 25 element.

In addition, the control signal from the regulator 18 is supplied through the OR element 24 to the input of the actuator 13, which covers the valve 11 and opens the valve 9, thereby increasing the flow of outside air.

The maintenance of the temperature in the room 2 at this time is carried out only by means of the controller 3, as described above.

The regulator 21 also works in a similar way; on a signal that arises when gas is used in a room above the norm, the action of the regulator 16 stops, and the actuator 13 senses a signal from the regulator 21 to change the position of the flaps 9 and 11 of air.

In order to avoid overshoot, the output signals of all the regulators are pulsed. Thus, the introduction of the new elements and new connections described above to the prior device provides this device with an advantage over the previously known ones, since it provides better maintenance of sanitary and hygienic conditions in the heated room, and, consequently, creates prerequisites for increasing productivity.

Claims (2)

Formula Figures, Eteni The control unit of the heating unit contains the first temperature sensor installed in the room to be heated, which through the first temperature controller is connected to the valve actuator located on the pipe of the heater, to which the fan installed in the mixing chamber is connected, to the second temperature controller temperature torus, and an actuator, kinematically associated with the dampers on the external and recirculated air ducts air, characterized in that, in order to improve the sanitary and hygienic conditions in the heated room, a sensor, controller and unit oxygen content in the air, a sensor, the controller and the setpoint of the gas concentration of production alterations and logical elements OR-NOT OR and AND, the second temperature controller is connected to the first input of the element AND, the second input of which is connected to the output of the element OR -NE, the output of the element AND OR, the output of which is connected to the actuator, the oxygen content sensor in the air is connected to the first input of the corresponding controller, the second input of which is connected to the corresponding setpoint, the gas concentration sensor is produced governmental precipitates connected to the first input of the corresponding regulator, the second input of which is connected to a corresponding control unit, and the output of the oxygen content regulator U to air is connected to the first input of the element OR-NOT and to the second input of the element OR, the third input of which and the second input of the element OR NOT are connected to the output regulator of gas concentration of industrial emissions. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 715895, cl. F 24 o 5/02, 1978. 2. Davydov Yu. S., et al. Technique of automatic control in ventilation systems and air positioning. M., stroiizdat, 1977, p. 180 (prototype).