SU407150A1 - DEVICE FOR MANAGING HEAT WORK - Google Patents

Description

one

The invention relates to the supply of residential public and industrial buildings for use in group or individual substations.

Devices are known for controlling the operation of a substation with heating and hot water supply systems.

The purpose of the invention is to ensure the use of water pipelines with smaller diameters and to improve the quality of work.

This goal is achieved by connecting a key circuit to the control unit and the flow rate of the heating network water, the inputs of which are connected to the output of the temperature sensor in the room and the output of the network water flow sensor respectively, and the output circuit And, one of the inputs of which is connected to the output "OR, and the other input - with the output of the threshold element connected to the sensor flow of network water per item. One of the inputs of the circuit “OR” is connected with a threshold element connected to the sensor of the temperature of change, and the other element is connected with a threshold element connected to the sensor of the flow rate of hot water. The drawing shows a diagram of the device.

The tenla item includes a series of 1 and parallel 2 stages of a hot water heater for hot water systems 3 and a mixing pump 4 or heating heater 5 with a circulation pump 6 for connecting a local otloni system 7. The device itself includes a hot water temperature controller, current, from the sensor 8 of the temperature of this water and the unit 9 to control the flow rate of the network water pa parallel to step 2, the water flow regulator in the local heating system,

consisting of a flow sensor 10 with a sensitive element 11 and a flow control unit 12, a room temperature sensor 13, a network water flow control unit 14 for heating in a pipeline 15,

sensor 16 consumption of network water at the point with a sensitive element 17 in the pipeline 18.

The block 14 is connected to the key circuit 19, the inputs 20 and 21 of which are connected to the outputs

sensors 13 and 16, and the control circuit 22 of the key circuit 19 is connected to an output of an AND 23 circuit, one of the inputs of which is connected to the output of an OR 24 circuit, and the other input to an output of a threshold element 25 connected to the sensor 16. Ea is one of the inputs “OR is connected to the normative element 26 connected to the sensor 13, and to the other input is connected the threshold element 27 connected to the sensor 28 of hot water with the sensitive element 29. S If the value of the flow of network water per point in the pipeline 18 is less or calculated the value determined taking into account the average the demand load of hot water supply and by which the minimum possible pipe diameters of the network water are selected per station, at the output of the threshold element 25 of the sensor 16 there is such a signal that regardless of the signals from the threshold elements 27 and 26 of the corresponding sensors 13 and 28 through the circuit to the circuit. And, the key circuit 19 by its input 20 connects the sensor 13 to the block 14. At the same time, the operation of the hot water temperature controller 15 and the temperature controller in the rooms formed by the sensor 13 and the block 14, t is provided. It ensures the independence of the operation of heating and hot water supply, which leads to an increase in the quality of their work. Such 20 conditions occur during the greatest part of the heating season (transitional autumn-spring period on weekdays). With an increase in the flow rate of network water at a point above its calculated value, due to an increase in the flow rate of hot water in system 3 above the value corresponding to the average load of the hot water supply, and the operation of the hot water temperature controller, which increases the flow rate of the network water 2, at the output of the threshold elements 25 and 27 of the respective sensors B and 16 there appear such signals arriving at the AND and OR circuits, respectively, that the key circuit 19 connects the sensor 35 with the input 35 to the block 14. At the same time, Chip 16 and block 14 form a network water flow regulator that maintains the constant flow rate of this water by reducing the network water consumption by 40 heating in the pipeline 15. This decrease leads to a decrease in water temperature in the local heating system 7, in which water flow is kept constant This is due to the presence of a flow regulator with 45 dependent connections to the mixing pump 4 or due to the operation of the circulation pump 6 with independent connection through a heater 5. Peak load of hot water supply 5 0 is satisfied by not supplying heat to the local heating system. Due to the presence of the storage capacity of building structures, the temperature in the premises decreases slowly and more slowly, 55 the more indicated the capacity. When reducing the load of hot water supply below the average operation of the hot water temperature regulator and the flow water flow regulator, the flow rate of the supply water to the parallel stage 4 decreases, and in the pipeline 15 increases, which leads to an increase in water for heating, i.e. the drain, the heat return of the local heating system is restored. Indoor temperature begins to rise. At the same time, at the output of the threshold elements 26, 25 and 27 are corresponding, their sensors 13, 16 and 20 have such signals, coming through the schemes "OR and" AND, that the key scheme 19 again connects the sensor 13 to its inputs 20 to its inputs 20 Thus, the device ensures the utilization of the accumulating capacity of buildings and, consequently, the leveling of the uneven daily load of the substation, thus making it possible to select the smallest pipe diameters of the network water. If a decrease in cooling load occurs at the same time as a result of which the temperature in the rooms decreases to the minimum value, the output of the threshold element 26 of the sensor 13 will produce a signal which, having entered through the OR circuit on the Y circuit, will retain the sensor connection 16 to block 14. Due to this, the consumption of mains water cannot exceed its estimated value, which will increase the reliability and quality of the heat supply system, since this excess consumption would lead to a deterioration s neighboring heat points. The subject of the invention is a device for controlling the operation of a heating station with heating and hot water supply systems, including a hot water temperature controller, a water flow controller in the local heating system, a room temperature sensor, a network water flow rate control unit for heating, and a network water flow sensor , characterized in that, in order to reduce the piping diameters of the mains water and improve the quality of the work of the station, a key scheme is connected to the control unit of the mains water flow for heating, the inputs to The switch is connected to the output of the room temperature sensor and the output of the flow sensor of the network water to a point, respectively, and the output of the AND circuit, one of the inputs of which is connected to the output of the OR circuit, and the other to the output of the threshold element connected The threshold element connected to the room temperature sensor is connected to one of the inputs of the “OR” circuit, and a threshold element connected to the hot water flow sensor is connected to the other input of the circuit.

28

6 7