A method of operating a laundry appliance in a drying cycle includes motivating a flow of process air from a drum of the laundry appliance across an evaporator of a sealed system. Refrigerant in the evaporator of the sealed system absorbs heat from the flow of process air and the refrigerant circulates through the sealed system. The method also includes receiving, by a controller of the laundry appliance, an input indicative of a characteristic of the sealed system. The method further includes determining, by the controller, a dryness level of articles in the drum of the laundry appliance based on the received input indicative of the characteristic of the sealed system.

A method for the determination of a laundry weight in a laundry treatment appliance. The method includes selecting a laundry program in the laundry treatment appliance; starting the selected laundry program; sensing a plurality of parameters indicating operating conditions of the laundry treatment appliance during the laundry program; and predicating a weight of the laundry present within the laundry treatment appliance based on said plurality of parameters by means of a data-driven soft sensor.

A laundry appliance uses a determination of a frequency of compressor temperature response, refrigerant mass flow rate, or both to determine accumulation of lint in a filter. Based on the determination, various corrective actions can be taken including notifying the user, shutting off the appliance, initiating an automatic cleaning sequence for one or more lint filters, and combinations thereof.

A dryer includes a heat pump system provided as a heat source for heating air supplied to a drum. The dryer includes a controller configured to perform operations that include selecting one of a plurality of operation modes in which initial driving frequencies are different from one another and inputting a drying start command to the dryer by a user, checking an outer temperature and comparing the outer temperature with a preset reference temperature T, performing the operation mode selected by the user, in a case where the outer temperature is equal to or more than the reference temperature T, performing an operation mode in which the initial driving frequency of the compressor is the highest of the plurality of operation modes, in a case where the outer temperature is less than the reference temperature T.

A dryer appliance and a method of operating the same are provided. In one aspect, the dryer appliance includes a drum rotatably mounted within a cabinet. The drum defines a chamber that is in fluid communication with a conditioning system of the dryer appliance. The conditioning system heats air circulating therethrough. A variable speed blower fan is provided to circulate air between the conditioning system and the chamber. A sensor is positioned at or proximate a drum exit of the drum. A controller of the dryer appliance receives an input indicative of the relative humidity of the air at the drum exit. Based on the received input, the controller determines a control command. The control command can be routed to a blower fan motor operable to drive the blower fan. The blower fan motor receives the control command and adjusts a flow rate of the air exiting the drum exit.

A dryer appliance and a method of operating the same are provided. In one aspect, the dryer appliance includes a drum rotatably mounted within a cabinet. The drum defines a chamber that is in fluid communication with a conditioning system of the dryer appliance. The conditioning system heats air circulating therethrough and removes water from the process air. A collection tank collects the water and a drain pump removes water from the collection tank intermittently when the water reaches a predetermined level. The frequency at which the drain pump removes water from the collection tank is utilized to determine the moisture extraction rate indicative of the rate at which moisture is removed from the clothes. The moisture extraction rate is utilized to control the mass flow rate of refrigerant in a heat pump sealed system or the process air flow rate through the closed loop air circuit.

A control method of a dryer according to an embodiment of the present invention in which a heat pump system is provided as a heat source for heating air supplied to a drum includes selecting one of a plurality of operation modes in which initial driving frequencies are different from one another and inputting a drying start command to the dryer by a user; checking an outer temperature and comparing the outer temperature with a preset reference temperature T by a control unit; performing the operation mode selected by the user by the control unit, in a case where the outer temperature is equal to or more than the reference temperature T; performing an operation mode in which the initial driving frequency of the compressor is the highest of the plurality of operation modes, in a case where the outer temperature is less than the reference temperature T.

A dryer appliance and a method of operating the same are provided. In one aspect, the dryer appliance includes a drum rotatably mounted within a cabinet. The cabinet defines an interior volume and a vent. The dryer appliance includes a closed loop airflow circuit along which process air is moved. The drum defines a chamber positioned along the closed loop airflow circuit. A conditioning system of the dryer appliance is also positioned along the closed loop airflow circuit and is operable to heat the process air flowing along the circuit. The dryer appliance includes a vent fan operable to move cabinet air disposed within the interior volume and not within the airflow circuit through the vent of the cabinet. The cabinet air can be vented to an outdoor space or other suitable space.

A dryer appliance and a method of operating the same are provided. In one aspect, the dryer appliance includes a drum rotatably mounted within a cabinet. The cabinet defines an interior volume and a vent. The dryer appliance includes a closed loop airflow circuit along which process air is moved. The drum defines a chamber positioned along the closed loop airflow circuit. A conditioning system of the dryer appliance is also positioned along the closed loop airflow circuit and is operable to heat the process air flowing along the circuit. The dryer appliance includes a vent fan operable to move cabinet air disposed within the interior volume and not within the airflow circuit through the vent of the cabinet. The cabinet air can be vented to an outdoor space or other suitable space.

A dryer appliance and a method of operating the same are provided. In one aspect, the dryer appliance includes a drum rotatably mounted within a cabinet. The drum defines a chamber that is in fluid communication with a conditioning system of the dryer appliance. The conditioning system heats air circulating therethrough. A variable speed blower fan is provided to circulate air between the conditioning system and the chamber. A sensor is positioned at or proximate a drum exit of the drum. A controller of the dryer appliance receives an input indicative of the relative humidity of the air at the drum exit. Based on the received input, the controller determines a control command. The control command can be routed to a blower fan motor operable to drive the blower fan. The blower fan motor receives the control command and adjusts a flow rate of the air exiting the drum exit.