A door-lock for a home appliance is provided. The door-lock has a cam that cooperates with a hook and can rotate between two end positions and an intermediate hook holding position. A locking slider cooperates with the cam to lock it and an actuator-controlled locking pin can lock the locking slider. A switch is switchable between open and closed positions, respectively corresponding to the unlocking and locking positions of the locking pin. A cam support carries a trigger element and/or base plate and has a stop that locks the locking slider. A portion of the cam disengages the trigger element from the locking slider when the cam is in an end position opposite a hook release position. The locking slider can rotate beyond the cam locking position to push the locking pin toward the unlocking position with a protrusion when the trigger element is disengaged from the locking slider.

A dryer apparatus is disclosed comprising a container having a container inlet and outlet, a pump that is configured to motivate a first air-vapor mixture flow via the container inlet and via the container outlet, a heating device configured to heat the first air-vapor mixture, a selector with at least two states, a compressor that is configured to compress and motivate a part of the first air-vapor mixture flow as a second air-vapor mixture flow, to flow through a first heat exchanger and to flow through a second heat exchanger and a pressure reducing device that is configured to reduce the pressure of said second air-vapor mixture downstream said first heat exchanger. The selector is configured to direct most of the first air-vapor mixture to flow in a closed cycle through the container, or configured to exchange most of the first air-vapor mixture with air located outside the apparatus.

An electric appliance (100) is disclosed. The electric appliance has an electric load (205), and a driving element (215) for selectively energizing/de-energizing the electric load (205). The driving element (215) has a first driving terminal (A.sub.1) coupled to a first load terminal (T.sub.1) of the electric load, a second driving terminal (A.sub.2) coupled to a first power supply terminal (T.sub.N), and a control terminal (G) for switching on/off the driving element (215) thereby allowing said selective energization/de-energization, respectively. The electric appliance also has a switching element (230) for selectively coupling a second power supply terminal (T.sub.L) to a second load terminal (T.sub.2) of the electric load (205). The electric appliance (100) further has a detection arrangement (210,220) configured for detecting a first electrical quantity (V.sub.A1) at the first driving terminal (A.sub.1), and at least one between a second electrical quantity (V.sub.T2,CL,V.sub.T2,OP) at the second load terminal (T.sub.2) and a power supply electrical quantity (V.sub.MAINS) at the second power supply terminal (T.sub.L). The detection arrangement (210,220) has a coupling element (220) coupling the first driving terminal (A.sub.1) to the second load terminal (T.sub.2), and a control unit (210) coupled to the first driving terminal (A.sub.1), and to at least one between the second load terminal (T.sub.2) and the second power supply terminal (T.sub.L). The control unit (210) is further configured for determining dispersion of electric power towards ground in the electric load (205) according to the detected electrical quantities.

An electric appliance (100) is disclosed. The electric appliance has an electric load (205), and a driving element (215) for selectively energizing/de-energizing the electric load (205). The driving element (215) has a first driving terminal (A.sub.1) coupled to a first load terminal (T.sub.1) of the electric load, a second driving terminal (A.sub.2) coupled to a first power supply terminal (T.sub.N), and a control terminal (G) for switching on/off the driving element (215) thereby allowing said selective energization/de-energization, respectively. The electric appliance also has a switching element (230) for selectively coupling a second power supply terminal (T.sub.L) to a second load terminal (T.sub.2) of the electric load (205). The electric appliance (100) further has a detection arrangement (210,220) configured for detecting a first electrical quantity (V.sub.A1) at the first driving terminal (A.sub.1), and at least one between a second electrical quantity (V.sub.T2,CL,V.sub.T2,OP) at the second load terminal (T.sub.2) and a power supply electrical quantity (V.sub.MAINS) at the second power supply terminal (T.sub.L). The detection arrangement (210,220) has a coupling element (220) coupling the first driving terminal (A.sub.1) to the second load terminal (T.sub.2), and a control unit (210) coupled to the first driving terminal (A.sub.1), and to at least one between the second load terminal (T.sub.2) and the second power supply terminal (T.sub.L). The control unit (210) is further configured for determining dispersion of electric power towards ground in the electric load (205) according to the detected electrical quantities.

A washing machine is disclosed. The disclosed washing machine includes a housing, a tub disposed inside the housing and including a laundry loading port, and a door configured to open and close the laundry loading port, wherein the door includes a water collecting space provided to collect water flowing along one surface of the door when the laundry loading port is opened, and a water collecting cover portion provided to cover at least a portion of the water collecting space.

A washing machine is disclosed. The disclosed washing machine includes a housing, a tub disposed inside the housing and including a laundry loading port, and a door configured to open and close the laundry loading port, wherein the door includes a water collecting space provided to collect water flowing along one surface of the door when the laundry loading port is opened, and a water collecting cover portion provided to cover at least a portion of the water collecting space.

A multi-drum washing machine drainage control method, the multi-drum washing machine at least comprising a first washing drum and a second washing drum; the method comprising: when the first washing drum reaches a drainage process, determining whether the second washing drum is draining; if yes, then the first washing drum waits for the second washing drum to finish draining before starting to drain; and if not, then determining whether the first washing drum waits for the second washing drum to finish draining before starting to drain. Alternatively, when the first washing drum reaches the drainage process, determining whether the second washing drum is draining or dehydrating; if yes, then the first washing drum waits for the second washing drum to finish draining before starting to drain; and if not, then determining whether the first washing drum waits for the second washing drum to finish draining before starting to drain.

A steam treatment system (10) for textiles can include a detachable hanger (14) which is removably attachable to a steam unit (12). The steam unit (12) can include a vaporizing element (16) which is operatively connectable to a water source (18) and is designed to produce steam. A steam outlet (20) with a shut-off valve (22) can also be part of the steam unit (12). The detachable hanger (14) can be configured to support an article of textile such as a shirt, suit, dress, slacks, towel or the like. More particularly, the hanger (14) can include a support body enclosing a steam chamber (24) and a steam inlet (26) which is removably attachable to the steam outlet (20) of the steam unit (12). In this manner the detachable hanger (14) can be removably coupled to the steam unit (12) to allow steam to fill the hanger (14). The support body can also include a plurality of steam vents or apertures (30) which are oriented to transmit steam from the steam chamber (24) to the article of textile supported thereon. Such a steam treatment system (10) can find effective application in homes and service oriented businesses such as hotels and gyms.

A dryer appliance that includes a fire extinguishing system is provided. In one aspect, the dryer appliance includes a drum rotatably mounted within a cabinet. The drum defines a chamber for receipt of articles for drying. The dryer appliance includes a water inlet valve in fluid communication with a steam nozzle operable to deliver water into the chamber to form mist or steam. The dryer appliance also includes an extinguisher nozzle in fluid communication with the chamber of the drum and with the water inlet valve. Upon detection of a fire, water is provided to the extinguisher nozzle and the extinguisher nozzle directs a stream of water into the chamber to extinguish the detected fire.

A control method for a wall-mounted drum washing machine, which removes foams remaining in a detergent box and a conditioner box at a final stage of a spin-drying process of the wall-mounted drum washing machine, thereby maintaining the detergent box and the conditioner box in a clean state.