Provided is a balance assembly applied in a household appliance. The balance assembly includes: a balancing body having a chamber defined therein; a balancer movably located in the chamber; a first wireless charging assembly; and an energy storage device located outside the balancer and connected to the first wireless charging assembly. The first wireless charging assembly is configured to receive a charging energy wirelessly transmitted by the household appliance. The energy storage device, the first wireless charging assembly, and the balancing body are mounted within a cavity of the household appliance. The chamber has a first conductive structure provided on an inner wall thereof, and the first conductive structure is electrically connected to the energy storage device. The balancer includes a second conductive structure movably connected to the first conductive structure.

Provided is a balance assembly applied in a household appliance. The balance assembly includes: a balancing body having a chamber defined therein; a balancer movably located in the chamber; a first wireless charging assembly; and an energy storage device located outside the balancer and connected to the first wireless charging assembly. The first wireless charging assembly is configured to receive a charging energy wirelessly transmitted by the household appliance. The energy storage device, the first wireless charging assembly, and the balancing body are mounted within a cavity of the household appliance. The chamber has a first conductive structure provided on an inner wall thereof, and the first conductive structure is electrically connected to the energy storage device. The balancer includes a second conductive structure movably connected to the first conductive structure.

A washing machine having a cabinet, a drum for receiving laundry from its open end where the drum is rotatable around its longitudinal axis within the cabinet, a balancer having a mass channel, and a balancing weight where the mass channel extends in a direction from the lateral surface of the drum to the inside of the drum and receives the balancing weight and the balancing weight is movable within the mass channel along the direction of the extension of the mass channel is disclosed. The invention also relates to a method of increasing the balance of a drum rotating along its longitudinal axis within a washing machine, the method determining the unbalanced load of the laundry received by the drum, and moving a balancing weight in a direction between the lateral surface and the longitudinal axis of the drum.

A laundry apparatus includes an exterior housing, a tub, one or more tub mounts rigidly mounting the tub to the exterior housing, a drum positioned within the tub and rotatable relative to the tub, a control unit, a motor, one or more load imbalance sensors, and a dynamic balancing assembly. The motor is communicatively coupled to the control unit and operatively coupled to the drum. The one or more load imbalance sensors are communicatively coupled to the control unit and configured to output a load imbalance signal to the control unit, the load imbalance signal being indicative of a load imbalance within the drum. The dynamic balancing assembly is includes one or more counterweight devices configured to be orbited about the primary rotation axis to counteract a detected load imbalance in the drum. The tub is unsupported by any displaceable suspension members extending between the tub and the exterior housing.

A laundry apparatus includes an exterior housing, a tub, one or more tub mounts rigidly mounting the tub to the exterior housing, a drum positioned within the tub and rotatable relative to the tub, a control unit, a motor, one or more load imbalance sensors, and a dynamic balancing assembly. The motor is communicatively coupled to the control unit and operatively coupled to the drum. The one or more load imbalance sensors are communicatively coupled to the control unit and configured to output a load imbalance signal to the control unit, the load imbalance signal being indicative of a load imbalance within the drum. The dynamic balancing assembly is includes one or more counterweight devices configured to be orbited about the primary rotation axis to counteract a detected load imbalance in the drum. The tub is unsupported by any displaceable suspension members extending between the tub and the exterior housing.

A washing machine includes a washing tub configured to accommodate laundry therein, a motor configured to rotate the washing tub, and a controller. The controller is configured to: determine a laundry amount and a laundry-tangled degree by using a plurality of types of data that are measured while rotating the washing tub at a specific rotational speed; set an allowable unbalance (UB) value corresponding to the laundry amount and the laundry-tangled degree; determine a UB value based on rotating the washing tub during a dewatering stroke; and control the motor to stop rotating the washing tub based on the UB value exceeding the allowable UB value.

A washing machine appliance may include a cabinet, a tub, a wash basket, and a controller. The tub may be positioned within the cabinet. The tub may define a tub outlet and a tub inlet. The wash basket may be rotatably mounted within the tub. The wash basket may define a chamber for receipt of articles for washing. The controller may be mounted to the cabinet and configured to initiate a washing operation. The washing operation may include flowing a volume of liquid to the tub, initiating a spin phase requiring rotation of the wash basket following flowing the volume of liquid to the tub, determining an out-of-balance (OOB) state within the wash basket, determining a user OOB preference following determining the OOB state, and adjusting the spin phase according to the determined user OOB preference.

A washing machine appliance may include a cabinet, a tub, a wash basket, and a controller. The tub may be positioned within the cabinet. The tub may define a tub outlet and a tub inlet. The wash basket may be rotatably mounted within the tub. The wash basket may define a chamber for receipt of articles for washing. The controller may be mounted to the cabinet and configured to initiate a washing operation. The washing operation may include flowing a volume of liquid to the tub, initiating a spin phase requiring rotation of the wash basket following flowing the volume of liquid to the tub, determining an out-of-balance (OOB) state within the wash basket, determining a user OOB preference following determining the OOB state, and adjusting the spin phase according to the determined user OOB preference.

A washing machine includes a drum, a drum motor coupled to the drum; a driving circuit and a processor. The driving circuit is configured to supply a driving current to the drum motor so that the drum motor rotates. The processor is configured to control the driving circuit to accelerate the drum motor from the first rotational speed to a second rotational speed based on a gradient of the fluctuating magnitude of the driving current supplied to the drum motor while controlling the driving circuit to rotate the drum motor at a first rotational speed.

A laundry treating appliance having a tub, rotatable drum, at least one transmitter coil, at least one ring shaped housing on the drum perimeter and having an annular channel therein and at least one balancing unit disposed in the channel. The balancing unit has a receiver coil configured to receive wireless power from the transmitter coil and an actuator powered by the receiver coil, a sensing element to detect a position of the balancing unit in the housing, a balancing control unit configured to control the positioning of the balancing unit by driving the transmitter coil to send power to the receiver coil to operate the actuator on a friction force element to change the friction between the housing and the balancing unit.