SU1358844A1 - Method of automatic regulation of heat dispense for heating multiple-block warmhouses - Google Patents

Abstract

The invention relates to the field of industrial heat and power engineering and can be used in heating systems with both traditional heat sources and geothermal ones. The purpose of the invention is to increase the efficiency of regulation and reduce heat waste. The range of regulation of heat supply to each npnHtfMaroT block corresponds to the interval of permissible values in the blocks. Signals are received about the deviation of temperature in each block from the allowable values. If there is a signal about a decrease in temperature in any of the units and its preservation during the time of setting, 1 the temperature in the unit, with an abrupt change in the heat supplied to it, increases the temperature of the heat transfer medium in the common power supply unit. If there are signals of an increase in temperature in all the blocks and the preservation of these signals during the time that the temperature is established in the blocks, the temperature in the unit decreases, iinin. The automatic control system from the start of heat contains regulating bodies 1, 2, 3, 4, regulating devices 5, 6. 7 and 8, time relays 9 and 10 with a time delay equal to the time of setting the temperature in the greenhouse blocks when the heat supplied to them changes abruptly. , logical element OR 11, logical element And 12, temperature sensors 13, 14 and 15, installed greenhouses in blocks 16, 17, 18, 1 sludge. € SL OS О1 ОО ОО 4

Description

The invention relates to industrial tenloenergy, in particular, to methods for controlling the heat supply to the heating of multi-block greenhouses, and can be used in heating systems with both traditional heat sources and geothermal ones.

The goal of the invention is to increase the efficiency of regulation and reduce the waste of heat.

The drawing shows a diagram of a dual-circuit heating system of a multi-block greenhouse with regulation of heat supply.

The heating system contains regulators L-4, regulating devices 5-8, a relay — 10 seconds — with a time equal to the temperature setting time in the greenhouse blocks when the heat supplied to x, j, iHidx changes abruptly. , the logical element OR 11, the logical element AND 12, the sensors 13, 14 and 15 of the temperature, installed respectively in blocks 16, 17 and 18 of the greenhouse. Heat exchanger 19 is associated with regulatory bodies 1-4.

The regulation of heat supply is carried out as follows.

When the temperature decreases in any of the greenhouse blocks, for example in block 16, the temperature sensor 13 together with the regulating device 6 detects this decrease and issues a signal to the regulator 10, which increases the amount of heat carrier, respectively, and the heat pump supplied to the heating unit 16 greenhouses. At the same time the signal from the output of the regulating device 8 through the logical element OR 11 is fed to the relay 9 time. If the temperature decrease signal in block 16 is maintained for a time equal to the time for setting the temperature in the blocks with an abrupt change in the heat supplied to them tycT, time relay 9 triggers and sends a signal to the regulating device 5, which by means of regulator 1 increases the amount of heat i.e. the amount of geothermal water entering the primary circuit of the heat exchanger 19. With this m., the temperature in the flow pipe of the secondary circuit of the heat exchanger increases. The temperature of the coolant entering block 16 increases accordingly. If, after a time tyr, after an increase

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the temperature of the coolant temperature in the block is not restored to the specified value, the time relay 9 is again triggered and sends a signal through the regulating device 5 to the regulator 1. The latter increases the supply of the geothermal coolant to the heat exchanger 19, which leads to an increase in the temperature of the coolant in the secondary circuit and so until the temperature in the 16 o block is restored.

The decrease in heat supply with increasing temperature in the blocks is similar. Only a signal to reduce the flow of geothermal water is given in the event of an increase in temperature in all blocks, which is fixed by element 12. If the signals about exceeding the specified temperature values in all blocks remain for a time tycT, the time relay 10 is activated and The flow of geothermal water in the heat exchanger is reduced with the aid of regulating device 5 and regulator 1.

Claims (1)

Invention Formula 5 A method of automatic regulation of heat supply for heating multi-block greenhouses, including regulation of thermal conditions in each block by changing the amount of heat supplied to each of them through the appropriate branches through individual regulators, the amount of heat depending on the temperature of air inside the blocks, differing from that, in order to increase the efficiency of regulation and reduce heat waste, the range of regulation of heat supply to each unit is taken to correspond to the interval of permissible values th temperature changes in these blocks, receive signals about the temperature deviation in each block from the permissible values, and when the signal is lowered about a decrease in temperature in any of the blocks and maintaining it during the time the temperature in the block is established during a sudden change in heat supplied to it increase the temperature of the coolant in the common line 5 to a predetermined stage, and if there are signals that the temperature in all units increases during the time that the temperature is established in the units, the temperature of the heat carrier in the common line decreases. 0 five