SU1762082A1 - Conditioning system with automatic control of air supply parameters - Google Patents

Abstract

Use: for air treatment in the warm season. Summary of the invention: air cooler (1), air heater (2), supply air fan (3), thermostat (4) and air control (5) supply air with control circuits (6, 7) are arranged in series with the air flow. The air cooler (1) and the air heater (2) are connected to the forward and reverse lines (8.9) of cold water in series. The flow control valve (11) is installed on the line (8) and is connected in control with the thermostat (4). The inputs of the three-way control valve (10) are connected to the outlet of the air heater (2) and with the bypass line (12), the output is with the line

Description

The invention relates to air conditioning technology, in particular to the treatment of air during the warm period of the year.

The purpose of the invention is to simplify and improve the efficiency of the system.

The goal is achieved by the fact that a system containing a series of air coolers, an air heater, a supply fan, a thermostat and a supply air regulator with control circuits, as well as a forward and reverse cold water line with a three-way control valve In this case, the air cooler and the air heater are connected to the cold water lines in series, the control valve through passage, the air heater bypass line, and the external temperature controller are additionally inserted. An air control unit and a switching device. At that, the control valve through is installed on the direct cold water line and is connected to the supply air thermostat by a control circuit, the three-way valve inlets are connected to the air heater outlet and the bypass line, and the output is from the reverse cold water line, the outdoor thermostat air is placed in front of the air cooler, the switching unit of the control circuits being connected to a moisture regulator, an external air thermostat and a three-way valve.

The drawing shows a functional control circuit.

The air conditioning system includes successively located along the course of the air cooler 1, air

ABOUT

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revolver 2, supply fan 3, thermostat 4 and moisture regulator 5 supply air with control circuits 6 and 7, as well as forward and return lines 8 and 9 of cold water with a three-way control valve 10, with air cooler 1 and heater 2 connected to the cold water lines 8 and 9 in series, additionally introduced through the control valve 11, the bypass line 12 of the air heater 2, the outdoor air temperature controller 13 and the switching device 14, while the control valve 11 passing through is installed on the straight line 8 cold water and is connected by a control circuit 6 to the supply air thermostat 4, the inputs of the three-way control valve 10 are connected to the outlet of the air heater 2 and the bypass line 12, and the output is to the return line 9 of the cold water, the temperature control unit 13 of the outside air is placed in front of the air cooler 1, wherein the switching device 14 of the control circuits 7, 15 and 16 is connected to a moisture regulator 5, an outdoor air thermostat 13 and a three-way control valve 10.

As a switching device 14, a standard relay can be used, which switches the control circuit of the three-way valve 10 from the control unit 7 of the control valve 5 when a certain design outdoor temperature is exceeded, for example, 30 ° C and, on the contrary, closes the three-way valve 10 in the direction of the water passage through the heater 2 when the outdoor temperature drops below 30 ° C.

The air conditioning system works as follows.

External air is successively passed through the air cooler 1, the heater 2 and the fan 3 are supplied to the serviced room (not specified).

The parameters of the supply air are controlled automatically in the mode of maintaining the supply air temperature at a given level at its variable humidity and mode of maintaining at a given level and temperature and humidity of the supply air,

The first mode corresponds to dry cooling of the supply air, the second mode - cooling with moisture condensation and subsequent heating. The mode is selected by the outside air temperature controller 13, acting on the control circuit 15 on the switching device 14.

The first mode. In the warm period of the year, when the outside air temperature has not reached, for example, 30 ° C, the three-way control valve 10 is closed towards the passage of water through the heater 2 and all the water, mine, through the three-way valve 10 enters the return line 9. This a period, only air cooler 1 participates in the operation, to the input of which cold water from the direct line 8 is fed through the regulating valve 11.

The supply air temperature is controlled by a thermostat 4 acting on circuit 6

5 controls the control valve 11: when the supply air temperature rises, the valve 11 opens; closes when lowered.

Second mode. When the ambient air temperature rises at a certain design temperature, for example, 30 ° C at the command of the thermostat 13 via the control circuit 15, the switching device 14 connects the control circuit 7 of the control valve 5 of the controller 5 through the control circuit 16 to the three-way valve 10, and the valve 11 remains connected 6 controls to the thermostat 4 supply air.

Cold water from straight line 8 through

0 valve 11, for example, with an initial temperature of 10 ° C, is fed to the inlet of air cooler 1 and, taking heat from the outside air, is heated to 20-25 ° C and is fed to the inlet of the air heater 2, in which

5 returning heat to the passing cold air, is cooled to 15-17 ° C and returns to the return line 9 through a three-way valve 10. At the same time, the outside air with an initial temperature of 30 ° C condenses the excess moisture on the air cooler 1 and cools to 12 ° C and, heating on air heater 2, acquires the specified parameters: temperature 18 ° C; humidity 50%.

5 The supply air temperature is controlled, as in the first mode, by the thermostat 4, acting on the control circuit 6 on the control valve 11.

0 The supply air humidity is controlled by a moisture regulator 5 acting on the control circuits 7 and 16 through the switching device 14 to the three-way valve 10: when increasing

5 supply air humidity valve 10 increases the flow of water through the heater 2; decreases with decreasing. As the outside air temperature rises, the valve 10 will proportionally decrease the amount of water heated in the air cooler 1 through the air heater 2 and increase it bypassing it.

When the outside air temperature decreases, the valve 10 opens in proportion to the passage of water through the heater 2 and closes towards the bypass line 12, and when the outside air temperature drops to 30 ° C at the command of the outside air temperature controller 13 through the control circuit 15, it disconnects the device 14 from the circuit 7 controls the moisture regulator 5 three-way valve 10 and closes it along the control circuit 16 in the direction of the passage of water through the heater 2, ensuring its discharge along the bypass line 12 and the valve 10 into the return line 9. At this m thermoregulatory tor4 by the control circuit 6 will cover an appropriate amount control valve 11, eliminating undue hladopotreblenie system.

Thus, the system provides the thermal and humid treatment of the incoming air with less cold consumption and without an additional pump, which increases its efficiency and reliability.

Claims (1)

Invention Formula An air-conditioning system with automatic regulation of the parameters of the supply air, comprising a series of air coolers, a fresh air fan, a thermostat and a fresh air regulator, as well as a direct and return cold water line with a three-way control valve, a control air cooler, and a air cooler and air heater connected to line m cold water sequentially, characterized in that, in order to simplify and improve efficiency, the system additionally contains a control valve with a control valve bypass heaters, The outside air thermostat and switching device, in this case, the flow control valve is installed on the forward cold water line and is connected to the supply air thermostat in control, the inputs of the three-way control valve are connected to the air heater outlet and the bypass line, and the output with a return line cold water, an outdoor air thermostat is placed in front of the air cooler, and the switching device of the control circuits is connected to a moisture regulator, an external air thermostat and three-way control valve.