TH22353B - Air conditioning system - Google Patents

Abstract

DC60 (08/06/47) Air conditioning system It has a pump motor that will suck up the refrigerant with a high boiling point and Low boiling coming from the outdoor unit to flow into the separation room of refrigerant. There are two exits, where one outlet flows into the indoor unit and the second outlet flows into the heat absorbing chamber, while the refrigerant flows into the indoor unit to create heat exchange. This allows the refrigerant to generate gas vapors, which draws the ambient heat in the room to evaporate. Refrigerant that is gas vapor will be sucked by motor suction to flow out of the indoor unit for forwarding. To the room to absorb heat The refrigerant that is sucked from the indoor unit by the suction motor will Flows into the side of the room to absorb heat The refrigerant that exits the adjustment valve will Flows into the top of the room to absorb heat Air conditioning system It has a pump motor that will suck up the refrigerant with a high boiling point and Low boiling coming from the outdoor unit to flow into the separation room of refrigerant. There are two exits, where one outlet flows into the indoor unit and the second outlet flows into the heat absorbing chamber, while the refrigerant flows into the indoor unit to create heat exchange. This allows the refrigerant to generate gas vapors, which draws the ambient heat in the room to evaporate. Refrigerant that is gas vapor will be sucked by motor suction to flow out of the indoor unit for forwarding. To the room to absorb heat The refrigerant that is sucked from the indoor unit by the suction motor will Flows into the side of the room to absorb heat The refrigerant that exits the adjustment valve will Flows into the top of the room to absorb heat

Claims (4)

1.The air conditioning system consists of a pump motor (1), which draws the high boiling and low boiling refrigerant coming from the outdoor unit (2) with the built-in coolant passing through the humidifying tower (21) by The pump motor (1) will suck the refrigerant flowing into the refrigerant separation chamber (4) Refrigerant separation chamber (4) with two outlets. Where the first (5) outlet (5) is connected to the tuning valve (6) to adjust the amount of refrigerant before it enters the evaporator (7) and the second (8) outlet (8) is the adjustment valve. (6) to adjust the amount of reagent It is cooled before it flows into the heat absorbing chamber (9), the suction motor (10) that will suck the gaseous refrigerant out of the evaporator (7) for transfer to the absorption chamber. Heat (9) the outdoor unit (2) that receives the refrigerant flowing from the heat absorbing chamber (9) the refrigerant pipe (3) that connects the system to create a heating cycle. cold It is characterized by having a heat absorption chamber (9) divided into two vertically composed of - one (11) heat absorption chamber with side inlet (12) at Will receive The cold is flowing from the suction motor (10) and there is a top inlet (13) that receives the refrigerant. Exit adjustment valve (6) - second (14) heat absorbing chamber with upper inlet pipe (15) that will receive the refrigerant. The exit from the adjusting valve (6) is separated from the refrigerant flowing into the upper inlet (13) of the first heat absorption chamber (11), where the end of the inlet pipe. Above (15) are installed nozzles (19) - a number of conduction tubes (16) inside of the heat absorption chamber (9), they are positioned horizontally through which the conduit (16) passes. It enters between the first (11) and second (14) absorption chambers, where within each of the aforementioned carrier tubes (16) a number of propellers (17) are placed. Along the length of the intake hose (16) and at the carrier (16) in the suction chamber Chamber one (11) is equipped with a top inlet pipe (13) inserted into the intake pipe (16), where the top end of the top inlet (13) is fitted with a nozzle (18). Located at which the aforementioned nozzle (18) will inject Spray refrigerant to force the propeller (17) to spin around itself. 2. Air conditioning system According to claim 1, where the suction motor (10) will suck the refrigerant flowing at In the evaporator (7) comes out both liquid refrigerant and gas vapor refrigerant. 3. Air conditioning system According to claim 1, where nozzle (19) will spray the refrigerant coming from Refrigerant separation chamber (4) to achieve recombination between refrigerants. The high temperature liquid flowing out to the outlet side of the intake pipe (16) with the refrigerant injected. Ejected from such a nozzle (19) 4. Air conditioning system According to claim 1, where each propeller (17) has an angle of impeller with degrees Different for better combination of gas-vapor refrigerant with refrigerant