SU847944A3 - Device for automatic control of heating station - Google Patents

Description

The invention relates to the automation of heating systems in buildings.

A known device for automatic control of a heating station, including temperature sensors of the coolant and the environment, amplifiers and actuators of the heating elements [1].

However, this device does not provide sufficient reliability of the heating systems of buildings.

The purpose of the invention is to increase reliability.

The goal is achieved in that the automatic control unit of the heating station, including the temperature sensors of the coolant and the environment, amplifiers and actuators of the heating elements, is equipped with four proportional 20 links, five comparison elements, a wind disturbance sensor, an integrating link, a block of time programs, two task units temperature inside the building, the control unit for the operation of the heating units, the unit for setting the temperature of the heating units and the permissible temperature deviation of the heating units; moreover, the temperature and medium temperature sensors are connected through the first and second proportional links to the two inputs of the first 10 comparison element, the output of which is connected to the first input of the second comparison element, the second input of the second comparison element is connected through the third proportional link to the J5 wind disturbance sensor, the output of the second comparison element is connected to the 'first input of the third comparison element, the second input of which' is connected through the fourth proportional link and the time program block to the first block for setting the temperature inside the building, the output of the third comparison element is connected to the first input of the fourth comparison element, the second 25 input of which is connected to the second block 847944 4 com of setting the temperature inside the building, the output of the fourth comparison element through the integrating link connected to the first input of the fifth element of the equalization £, the control unit for the operation of the heating blocks through the temperature setting block of the heating blocks is connected to the second input of the fifth element This comparison and through the block of permissible temperature deviations of the heating blocks is connected to the third input of the fifth comparison element, the output of the fifth comparison element is connected through actuators to the actuators of the heating elements of the heating units.

. The invention is described by the example of a heating installation consisting of four blocks.

In FIG. 1 shows a block diagram of a heating installation; in FIG. 2 block diagram of a control system.

When designing a heating installation, pump 1 is switched on to transporting return water before the actuating elements of the heating elements. Boilers 2, 3, 4 and 5 are connected in parallel to the line

6. To line 7, through which hot water is supplied from the boilers, boilers 2, 3, 4 and 5 are connected in the same sequence. The pipe system used for water circulation is connected through the consumer, and consumer 8 means all pipelines of buildings (distribution lines, all heat exchangers, radiators, boilers, etc.), as well as the necessary fittings (tanks, costs, etc.).

In the hot water supply line, after the last boiler, there is a sensing element 9 for measuring the temperature of the outgoing water, which, together with the ambient temperature sensor 10 and a wind disturbance sensor (not shown) is connected to the control device 11. The operating elements of the control device 11 are formed using shut-off valves 12 of the main- ⁵⁰ furnace of boiler 2, shut-off valves 13 of boiler 3, and also due to a switch of the pump motor, which is controlled via control lines 14, 15, 16.17 and 18. Shutter The main valves ⁵⁵ , 19, 20, 12 and 13, as well as the impact elements, are connected in parallel to the main gas pipeline 21, which is powered from the source in the direction of the arrow.

The block diagram of the control system is shown in FIG. 2. The signal of the temperature sensor integrated in line 7 of the TG sensor 9 '' ^is supplied through the proportional link 22 to the comparison element 23, while the signal 23 of the ambient temperature sensor 10 is supplied through the proportional link 25 to the same comparison element. In the comparison element 26, a comparison is made with signals arriving through the proportional link 27 with the wind disturbance sensor 28. The comparison element 29 receives a signal from the temperature setting unit 30 inside the building through the time program unit 31 and the proportional link 32. The resulting signal in the comparison element 33 is compared with the signal of the temperature setting block 34 inside the building. The resulting signal forms a command signal, which enters through the integrating link 35 to the comparison element 36. The signal of the heating control unit 37, forming the main heat request signal, controls the temperature setting unit 38 of the heating units and the temperature tolerance unit 39 of the heating units. The output signal from the Comparison element 36 drives the actuators of the heating mechanisms 44, 45, 46 and 47 through the amplifiers 40, 41, 42 and 43.

Claims (2)

The unit for setting the temperature inside the building, the output of the fourth element of the comparison is connected to the first input of the fifth control unit via an integrated link, the control unit for the operation of the heating units is connected to the second input of the fifth element of the heating unit through the unit for setting the temperature of the heating units connected to the third input of the fifth comparison element; the output of the fifth comparison element through the corresponding amplifiers is connected to the actuators; s heating elements blo Cove. . The invention is described by the example of a heating installation consisting of a number of blocks. FIG. shows a block diagram of a heating installation; in fig. 2 is a block diagram of the control system. When designing a heating installation, the pump 1 is turned on to the water transporting back flow in front of the executive elements of the heating elements. Boilers 2, 3, 4 and 5 are connected in parallel to line 6. To line 7, through which hot water is supplied from the boilers, boilers 2, 3.4 and 5 are connected in the same sequence. Serving for circulation. Water pipe system is connected through the consumer, and consumer 8 means all the pipelines of buildings (distribution lines, all heat exchangers, radiators, boilers, etc.), as well as fittings (tanks, costs, etc.). In the supplied hot water line, after the last boiler, there is a sensing element 9 for measuring the temperature of the outgoing water, which, together with the measured ambient temperature, the sensor 10 and the wind perturbation sensor (not shown) is connected to the control device 1I. The organs of action of the control device 11 are formed with the help of the valve I2 of the furnace 2 of the boiler 2, the valve of the valve 13 of the boiler 3, as well as through the switch of the pump motor, which is controlled through the control lines 14, 15, 16,17 and 18 Shutter valves 19, 20, 12, and 13, as well as the impact organ, are connected in parallel to the main gas pipeline 21, which is supplied from the source in the direction of the arrow. The block diagram of the control system is shown in FIG. 2. The signal of the sensor 9 which is built in to line 7 of the sensor is supplied through proportional link 22 to the reference element 23, while the signal 23 of the sensor 10 of the ambient temperature passes through proportional link 25 to the same element of comparison. In the comparison element 26, a comparison is made with signals arriving through the proportional link 27 with a wind disturbance sensor 28. In the comparison element 29, a signal is transmitted from the temperature setting block 30 of the building through the time program block 31 and a proportional link 32. The resultant signal in the comparison element 33 is compared with the signal of the temperature reference block 34 inside the building. The resulting signal generates a command signal that is fed through the integrating element 35 to the comparison element 36. The signal of the block 37 for controlling the operation of the heating blocks, which forms the main heat demand signal, controls the block 38 for setting the temperatures of the heating blocks and the block 39 for permissible deviations of the temperatures of the heating blocks. The output signal from the Comparison element 36 drives through amplifiers 40, 41, 42 and 43 executive jaxa} fflz into I heating mechanisms 44, 45, 46 and 47. Invention The device for automatic control of the heating station, including temperature sensors of the heat carrier and the environment, amplifiers and actuators of heating elements, characterized in that, in order to increase the reliability of operation, the device is equipped with four proportional i units, five comparison elements, a wind disturbance sensor, tegryrunkhtsim link, block time programs, two blocks set the temperature inside the building, the block control operation of the heating blocks, block set the temperature of the heating blocks and block tolerance temperature deviations units, whereby the temperature sensors of the coolant and the environment through the first and second proportional links are connected to two inputs of the first comparison element, the output of which is connected to the first input of the second comparison element, the second input of the second comparison element is connected via a third proportional link to the wind disturbance sensor, output The second comparison element is connected to the first input of the third comparison element, the second input of which is connected through the fourth proportional link and block software variables to the first block specifying the temperature inside a building, the output of the third comparing element is connected to the first input of the fourth comparison element, a second input coupled to a second setting unit temperature inside the building.,. the output of the fourth comparison element through the integrating link is connected to the first input of the fifth comparison element, the control unit of the heating units is connected to the second input of the fifth comparison element through the temperature setting unit of the heating elements and connected to the third input of the fifth heating element Comparison element. The output of the fifth comparison element is connected to the actuators of the heating elements of the heater units through appropriate amplifiers. Sources of information taken into account in the examination I. Copyright USSR USSR IP 546760, cl. F 24 O 17/00, 1973. 26 Z9 23 ten