SU981770A2 - Apparatus for automatic control of dew point temperature - Google Patents

Description

The invention relates to techniques for air conditioning and can be used to create highly economical air conditioning systems with closers that control the parameters of the air in the zones quantitatively and qualitatively.

According to the main author. St. No. 754372, there is known a device for automatically controlling the dew point temperature of air supplied from an air conditioner to local closers, comprising a dew point temperature sensor connected through a regulator to actuators of valves located on the coolant supply pipes to the heat and mass transfer apparatuses of the air conditioner, and the controller task input is connected to the output of the optimization unit, the inputs of which are connected to the sensors for the enthalpy of the supply air, the temperature sensor of the dew point of the air supplied о from an air conditioner, a sensor of the total air flow rate and limit switches 75 of the actuators of the valves of local closers. The device also contains limit switches for actuators of valves located on the pipe-wires 30 of the coolant supply to the air conditioning heat exchangers, the contacts of which are connected between the inputs of the optimization unit and the outputs of the actuators of the valves located on the coolant supply pipes to the air-conditioning heat exchangers (1).

A disadvantage of the known device is the low accuracy of regulation due to the lack of consideration of the influence of air heating in the fan on the total energy consumption in the air conditioning system.

The purpose of the invention is to improve the accuracy of regulation.

This goal is achieved by the fact that the device further comprises temperature sensors installed at the inlet and outlet of the air conditioning fan and connected to the input of the optimization unit.

The drawing shows a schematic diagram of a device for automatically controlling the temperature of the dew point.

The device comprises a dew point temperature sensor 1 connected through a regulator 2 with actuators 3 and 4 of valves 5 and 6 located on pipelines 7 and. 8 supply of coolant to heat? mass transfer apparatus 9 and 10 of the air conditioner 11, while the input of the controller 2 is connected to the output of the optimization unit 12, the inputs of which are connected to the supply air enthalpy sensor 13, the dew point temperature sensor 1 of the air supplied from the air conditioner 11, and the total air flow sensor 14. and limit switches 15-20 of actuators 21-26, valves of local closers. The device also contains limit switches 27 and 28 of the actuators 3 and 4 of the valves 5 and 6 located on the pipelines 7 and 8 of the coolant supply to the heat and mass transfer devices 9 and 10 of the air conditioner 11, the contacts of which are connected between the inputs of the optimization unit 12 and the outputs of the actuators 3 and 4 valves 5 and 6 located on the coolant supply pipelines to heat and mass transfer apparatuses 9 and 10. The device includes temperature sensors 29 and 30 installed at the inlet and outlet of the fan 31 of the air conditioner 11 connected to the input do block optimization.

The device operates as follows.

At the smallest enthalpies of outdoor air, the controller 2, in accordance with the signal from the optimization unit 12 (with the closed limit switch 27), maintains the dew point temperature that is the minimum possible under the conditions of a given relative humidity in the room. As the enthalpy of outdoor air increases, first closes valve 5 on the air heater pipe 7, and, after opening the limit switch 27, the actuator 4 of valve 6 on the cold water pipe 8 to the irrigation chamber 10 is connected to the output of the regulator 2, and after closing the limit switch 28, the optimization unit 12 changes the task at the input of controller 2 in the direction of its increase. The increase in the task causes the limit switch 28 to open, however, due to an increase in the enthalpy of the outdoor air, it closes again and the task at the input of the controller 2 will again be increased from the optimization unit 12. After reaching the limit value (maximum under the conditions of permissible relative humidity), the irrigation chamber 10 switches to the polytropic mode air cooling. The sign of the dew point temperature in this mode is determined by the computing device of the optimization unit 12.

Optimization unit 12, using the computing and logical device included in it, analyzes the state of the air conditioning system based on a given algorithm and determines the sign of the additional effect on the input of the dew point temperature controller 2, which ensures the lowest total cost of energy consumption for processing and air movement.

The proposed device in comparison with the known allows more accurately take into account the total cost costs of air conditioning during optimization and due to this to get additional savings.

Claims (2)

located on pipelines 7 and. 8 supplying the heat carrier to heat and mass exchangers 9 and 10 of the air conditioner 11, wherein the input of the setpoint of the controller 2 is connected to the output of the optimization unit 12, the inputs of which are connected to the fresh air enthalpy sensor 13, the dew point temperature sensor 1 supplied from the air conditioner 11, the sensor 14 total air flow and limit switches 15-20 actuators 21-26, valves of local closers. The devices also contain limit switches 27 and 28 of actuators 3 and 4 of valves 5 and 6 located on pipelines 7 and 8 of the heat carrier supply to heat and mass transfer devices 9 and 10 of air conditioner 11, the contacts of which are connected between the inputs of optimization unit 12 and outputs of actuators 3 and 4 valves 5 and 6, located on the coolant supply pipelines to heat and mass exchange devices 9 and 10. The device contains temperature sensors 29 and 30 installed at the inlet and outlet of the fan 31 of the air conditioner 11 connected to the inlet one block optimization. The device works as follows. At the lowest enthalpy of the outside air, the regulator 2 in accordance with the signal from the SPR optimization unit 12 keeps the closed limit switch 27 as low as possible according to the conditions of a given relative humidity of the air in the room dew point temperature. As the enthalpy of the outside air increases, it first closes the valve 5 on the pipeline 7 of the heater, while, after opening the limit switch 27, the actuator 4 of the valve b on the cold water supply pipe 8 to the irrigation chamber 10 is connected to the outlet of the regulator 2 and after closing The limit switch 28 by the optimization unit 12 changes the setting at the input of the controller 2 in the direction of its increase. An increase in the reference value causes a paradise of the limit switch 28, however, due to an increase in the enthalpy of the outside air, it reappears and the task at the inlet of the controller again increases from the optimization unit 12 2. After reaching the limit value (maximum according to the conditions of permissible relative humidity), the irrigation chamber 10 switches to the mode of polytropic air cooling. The sign of the change in dew point temperature in this mode is determined by the computing device of optimization unit 12. The optimization unit 12 uses the computational and logic device included in it to analyze the condition of the air conditioning system based on a predetermined algorithm and determine the sign of the additional effect on the input of the dew point temperature controller 2, which provides the lowest cymac energy cost of air processing and movement . In comparison with the known device, the proposed device allows one to more accurately take into account the total cost of air conditioning costs during optimization and thereby obtain additional savings. The invention The device for automatic control of the temperature of the dew point by the author. St. } 754372, which is so that, in order to increase the control accuracy, it additionally contains temperature sensors installed at the inlet and outlet of the air conditioner fan and connected to the input of the optima 1 of the unit. Sources of information taken into account in the examination 1. USSR author's certificate 754372, cl. F 24 F 11/00, 1978.