TH2101004077A - Atmospheric water generator with defrosting system - Google Patents

Abstract

DEPCT65 Atmospheric Water Generator (AWG), including a frozen defrosting or reversing valve. on the AWG cooling cycle when activated. defrosting or reversing valves make the gas substances The hot pressurized refrigerant flows from the condenser to the evaporator of the cooling cycle for melting the frost created on the evaporator in one form The defrost valve is connected. with the refrigerant line connecting the compressor to the condenser and to one of (i) the refrigerant line connecting the refrigerant evaporation path to the evaporator, or (ii) the refrigerant line connecting the evaporator to the compressor. ---------------------------------------------------- ---------

Claims (6)

DEPCT65 1. Atmospheric water generator (AWG), which consists of the refrigeration cycle, which the refrigeration cycle consists of. compressor, condenser, evaporator, refrigerant evaporation pathway, evaporator, refrigeration line connecting compressor to condenser, condenser with path in Refrigerant evaporation, refrigerant evaporation method with evaporator and body Evaporator with compressor and defrosting valve defrost valve to be connected Alternatively, the refrigerant line and the refrigerant line connect the compressor to the condenser. and with one of (i) the refrigerant line connecting the refrigerant evaporation path to the evaporator or (ii) the refrigerant line connecting the evaporator to the compressor, where when activated The defrosting valve allows the refrigerant gas to be compressed. flow from the condenser to the evaporator 2. AWG according to claim 1, where the defrosting valve is the on-off valve operates at Connect the refrigerant line between the compressor and condenser to the refrigerant line. a cooler that connects the evaporative path of the refrigerant to the evaporator 3. AWG, which includes the refrigeration cycle. The refrigeration cycle consists of compressor, condenser, evaporator, refrigerant evaporation pathway, evaporator, refrigeration line connecting compressor to condenser, condenser with path in refrigerant evaporation, refrigerant evaporation path to the evaporator and the evaporator to the compressor and a reversing valve mounted on the refrigerant line connecting the compressor to the condensation and on the refrigerant line connecting the compressor to the evaporator, where when the compressor is activated and the reversing valve is in the first state The valve makes the gas hot at It is expelled from the compressor to the condenser and refrigerant at low pressure and cold. back to the compressor from the evaporator When the compressor is activated and the reversing valve is in the second state of this The reversing valve reverses the flow direction and heats the gas that has been Compressed from the compressor to the evaporator and refrigerant at low pressure and cool. back to the compressor from the condenser 4. AWG according to claim 3, where when the reversal pathway is activated, the condenser acts as the evaporator and the evaporator acts as the condenser. 5. AWG according to claim 3, which also consists of a connected unidirectional valve. Two refrigerant lines between the reversing valve and the compressor and the refrigerant line so that when the pressure of the refrigerant in the line entering the compressor is higher than the pressure of the refrigerant in the line leaving the compressor, then the refrigerant flows through valve in one direction until the pressure is equalized. 6. Methods for operating the AWG's stored water cooling and/or defrosting systems, which comprise the procedure (a) initiation of AWG operation in shutdown mode. where the AWG compressor and blower are turned off and condensation or water cooling does not occur, (b) detecting the water temperature and water level in the AWG's stored water tank, (c) Setting AWG at water cooling mode if the water temperature and water level at Detected in step (b) indicates that water is present in the storage tank. and the water temperature is too high Pre-defined values, (d) detection of water temperature and water level in the stored water tank of AWG, (e) setting AWG at water cooling mode. where condensation stops and the water in the storage tank is cooled if the water temperature and water level detectable in step (b) indicate that (i) water is present in the storage tank and (ii) that the temperature (f) detection of the water temperature and water level in the stored water tank of AWG if the water temperature detected in step (b) indicates that the water temperature water is at or low than the pre-set value, (g) setting AWG at water production mode where the water cooling ends and the water condensation process begins if the water temperature and water level in the storage tank detectable in step (f) indicates that the water level and water temperature are at or below the initial threshold. Change specified before, (h) AWG settings with mode disabled. If the water temperature and water level in the storage tank at Detectable in procedure, (f) indicates water is at or below the pre-specified temperature and the water tank is full, (p) AWG evaporator temperature measurement, (j) AWG setting at production mode. ice where the components of the AWG involved in Condensation of the water generator is operating. Condensed water freezes into ice on the evaporator and ice formation was monitored by at least one timer and/or by measuring the temperature of the evaporator. If the temperature measured in step (i) is below the freezing point of the water, (k) the ice estimation generated on the evaporator, (l) the AWG setting at defrosting mode. where the defrosting system is operating to melt the ice If the estimated amount of ice and the one ice is produced above the threshold previously stated, (m) the determination that the ice on the evaporator has been thawed; and (m) if on the step (m) it is determined that the ice has been thawed, then Steps (b) to (m) are repeated, if not AWG remains in defrosting mode. ---------------------------------------------------- ---------