A washing machine including a tub, a drum configured to be rotatable inside the tub, a detergent supply device configured to supply a detergent into the tub, the detergent supply device including a storage area, a pump motor configured to pump a liquid in the storage area, and a discharge port configured to guide the liquid pumped by the pump motor into the tub; a user interface configured to receive a user input to request a cleaning of the storage area, and a controller configured to detect a cleaning condition of the storage area based on a load of the pump motor, and based on the user input being received, perform a cleaning process of the storage area.

A fluid flow system for a laundry appliance includes a blower that delivers process air along an airflow path having a heat exchanger. A drain channel receives condensate from the heat exchanger and fluid spray from a spray nozzle for directing lint particles to the drain channel and on to a sump for collecting fluid, including the condensate. A pump seat and a fluid outlet are integrally formed in a sump cover. A pump directs the fluid from the sump to the fluid outlet. A fluid level sensor detects at least minimum and maximum capacities of the fluid in the sump. When the fluid is below the minimum capacity, the pump defines an idle state. When the fluid reaches the minimum capacity, the pump defines an active state. When the fluid exceeds the maximum capacity, the pump directs the fluid to the fluid outlet.

A laundry appliance includes a rotating drum for processing laundry. A blower directs process air through an airflow path that includes the rotating drum. A heat exchanger is positioned within the airflow path that dehumidifies the process air. A fixedly-secured lint filter captures lint from the process air at a position upstream of the heat exchanger. A fluid spray system has spray nozzles that deliver fluid to a surface of the fixedly-secured lint filter. Each spray nozzle of the plurality of spray nozzles directs captured lint away from the fixedly-secured lint filter.

The present invention relates to a method for controlling a clothes treating apparatus, the method comprising: a circulation step of circulating air by operating a fan; a heat exchange step of opening a refrigerant pipe by controlling an expansion valve, and circulating a refrigerant by operating a compressor; a circulation termination step of terminating the operation of the fan when the dryness level of clothes stored in a receiving part reaches a predetermined reference dryness level or when the elapsed time of the heat exchange step reaches a predetermined reference time; and a return step of closing the refrigerant pipe by controlling the expansion valve, and returning the refrigerant and lubricant in the refrigerant pipe to the compressor by operating the compressor.

A laundry appliance includes a rotating drum for processing laundry. A blower directs process air through an airflow path that includes the rotating drum. A heat exchanger is positioned within the airflow path that dehumidifies the process air. A fixedly-secured lint filter captures lint from the process air at a position upstream of the heat exchanger. A fluid spray system has spray nozzles that deliver fluid to a surface of the fixedly-secured lint filter. Each spray nozzle of the plurality of spray nozzles directs captured lint away from the fixedly-secured lint filter.

A filter apparatus positionable outside a washing machine and connectable to a drain device of the washing machine. The filter apparatus includes a housing; a filter case in the housing and including an inlet and an outlet that are configured so that, with the filter apparatus positioned outside the washing machine and connected to the drain device, water from the drain device is flowable through the inlet into the filter case, and water in the filter case is flowable through the outlet out of the filter case; a filter detachably installable in the filter case so that water flowing through the inlet is flowable through the filter, and then to the outlet; and circuitry between the housing and the filter case and including a controller configured to control the filter apparatus, and a communicator configured to transmit information obtained by the filter apparatus to at least one of the washing machine or a user device.

A filter apparatus positionable outside a washing machine and connectable to a drain device of the washing machine, the filter apparatus including a filter case configured so that, with the filter apparatus connected to the drain device, water from the drain device is flowable through the filter case; a filter detachably mountable inside the filter case; a filtering flow path inside the filter case so that water passes through the filter while the filter is mounted inside the filter case; a bypass flow path inside the filter case so that water bypasses the filter; at least one sensor to obtain information about the filter; an opening and closing device to open and close the bypass flow path to guide water flowing into the filter case to the filtering flow path or the bypass flow path; and a controller to control the opening and closing device based on the obtained information.

A filter apparatus positionable outside a washing machine and connectable to a drain device of the washing machine, the filter apparatus including a filter case including a case inlet configured so that, with the filter apparatus connected to the drain device, water from the drain device is flowable through the case inlet into the filter case, and a case outlet configured so that, with the filter apparatus connected to the drain device, water in the filter case is flowable through the case outlet out of the filter case; a filter detachably mountable inside the filter case so that water flowing through the case inlet is flowable through a surface of the filter to filter foreign substances from the water, and then to the case outlet; a filter cleaning device configured to clean the surface of the filter; and a controller configured to control the filter cleaning device.

A fluid flow system for a laundry appliance includes a blower that delivers process air along an airflow path having a heat exchanger. A drain channel receives condensate from the heat exchanger and fluid spray from a spray nozzle for directing lint particles to the drain channel and on to a sump for collecting fluid, including the condensate. A pump seat and a fluid outlet are integrally formed in a sump cover. A pump directs the fluid from the sump to the fluid outlet. A fluid level sensor detects at least minimum and maximum capacities of the fluid in the sump. When the fluid is below the minimum capacity, the pump defines an idle state. When the fluid reaches the minimum capacity, the pump defines an active state. When the fluid exceeds the maximum capacity, the pump directs the fluid to the fluid outlet.

The present disclosure relates to a drain pump driving apparatus and a laundry treatment machine including the same. A drain pump driving apparatus according to an embodiment of the present disclosure and a laundry treatment machine including the same include: an inverter converting a direct current (DC) voltage from a converter into an alternating current (AC) voltage based on a switching operation and to output the converted AC voltage to a drain motor; and a controller to control the motor to, when a drain channel in a drain pump is clogged, be temporarily stopped in a period during which a speed of the motor increases and then to repeatedly rotate and stop in a first direction the same as a start-up direction, and to repeatedly rotate and stop in a second direction opposite to the first direction when the drain channel is clogged even after the motor repeatedly rotates and stops in the first direction. Accordingly, when impurities are introduced into the drain pump, the impurities can be removed in a simple manner.