SU1667730A1 - Heat supply system for group of heated plant houses - Google Patents

Abstract

The invention relates to agriculture and construction, and can be used in centralized systems for controlling the heat supply of a greenhouse complex. The regulators 7, subtracting the signals from the sensors 8 of the water pressure drop, change the positions of the plungers of the control valves 6 until the pressure drops at the inputs of all heat consumers of the greenhouse plant have the same values. Regulator 10, receiving a signal from the corresponding water pressure differential sensor 8, changes the position of the plunger of the control valve 9 until the value of the pressure drop at the inlet to the heat consumer of the greenhouse plant closest to the source 1 of the heat supply is equal to the specified value. Thus, the regulators 7 maintain the same pressure drops at the inputs of all heat consumers of the greenhouse complex, and the controller 10 controls the values of these differences depending, for example, on meteorological factors. 1 il.

Description

The invention relates to agriculture and construction, to the field of crop production in green buildings.

The aim of the invention is to improve the accuracy of maintaining the optimum temperature regime of heat consumers.

The drawing shows a functional diagram of the heat supply system of the greenhouse complex.

The heat supply system of the greenhouse complex contains a source of heat 1 supplying 2 and discharging 3 main pipelines of heating water with supply A and discharge 5 pipelines of heat consumers of the greenhouse complex (not shown), control valves 6 installed on the supply pipe 3 of all heat consumers of the greenhouse complex, with the exception of the latter along the supply main pipeline 2, with regulators 7, one of the inputs of each of which is connected to the sensor 8 of the water pressure differential s between the inlet 4 and the exhaust 5 pipelines of heat consumers installed behind the control valve 6. and the second inlet with the sensor 8 of the water pressure difference between the inlet 4 and the outlet 5 of the pipelines of the next (shown as a solid line) or the last (shown with a dotted line a consumer of heat along the supply main pipeline 2. In addition, a main control valve 9 is installed on the supply main pipeline 2 at the heat supply source 1 with a regulator 10, the inlet of which is connected to the sensor 8 differential pressure of water between supply 4 and outlet 5 pipelines of the heat consumer nearest to the heat supply source 1.

The heat supply system operates as follows.

The regulators 7, subtracting the signals from the respective sensors 8 of the water pressure differential between the supply 4 and discharge 5 pipelines of this and the next or last along the supply main pipeline 2 of the heat consumers of the greenhouse plant, change the position of the plungers of the control valves 6 until until the pressure drops at the inputs of all the heat consumers of the greenhouse complex have the same values, Regulator 10, receiving a signal from the corresponding sensor 8 of the water pressure difference between supply 4 and 5 pipelines closest to

heat source 1, changes the position of the plunger of the main control valve 9 as long as the differential pressure value

the input to the heat consumer of the greenhouse complex nearest to the heat supply source 1 will not be equal to the specified one. Thus, the regulators 7 maintain the same differential pressure at the inlets

all heat consumers, and the controller 10 controls the values of these differences depending, for example, on meteorological factors.

The use of the invention makes it possible to improve the quality of temperature control of greenhouses when their load changes and centralized control of their temperature condition.

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Claims (1)

Invention Formula The heat supply system of the greenhouse complex, containing the heat supply source communicated by means of the supply and discharge main 5 pipelines, respectively, with supply and discharge pipelines of consumers of heat of the greenhouse complex, control valves located on the supply pipes of all heat consumers, except the last, along the supply line and equipped with regulators, the first and second inputs of each of which are connected to the outputs of the differential pressure sensors between 5 supply and discharge pipelines of this and next in the course of the supply main pipeline of heat consumers, and the first input of each controller, except the first, is combined with the second 0 control valve regulator input on the supply pipe of the previous consumer of the heat flow along the main supply pipeline, with sensitive elements of all sensors 5 differential pressure, except for the latter, is installed downstream of the control valves along the respective supply pipelines of heat consumers, characterized in that, in order to increase 0 accuracy of maintaining the optimum temperature conditions of the heat consumer of the greenhouse complex, the system is equipped with a main control valve installed on the supply pipe of the main pipeline to the outlet pipe of the first heat consumer and equipped with a regulator, the inlet of which is connected to the first input of the regulator of the regulating valve on the first supply pipe heat consumer along the main supply pipe of the first and next to the second rovod, and the second inputs of the regulators of heat consumption regulators along the main flow valves on the supply trunk pipeline are combined.