An example of a surface cleaning head may include a main body, a neck pivotally coupled to the main body, a stabilizer, and a linkage pivotally coupled to the main body and the stabilizer. The linkage may be configured to cause the stabilizer to transition between an extended position and a retracted position in response to a pivotal movement of the neck.

A supporter and a vacuum cleaner having the same are provided. The supporter includes: a suction channel portion that includes one end removably connected with a vacuum cleaning unit and the other end connected with a suction nozzle, thereby guiding dirt drawn in through the suction nozzle to the vacuum cleaning unit; an accessory that is received in a receiving recess formed on one side of the suction channel portion; a hinge portion that is disposed in the suction channel portion and supports the accessory to pivot by a predetermined angle; and an unlocking portion that is disposed in the suction channel portion to lock and unlock the accessory with respect to the receiving recess.

An upright vacuum cleaner having a nozzle and a support movable between a projected state and a retracted state. The support, in its projected state, is adapted to support the vacuum cleaner in a self-standing position. The support is mounted to the nozzle and projects from the nozzle in its projected state.

A vacuum cleaner comprising a handpiece, a brush, a rod, and a pivotal assembly that connects the handpiece and the brush. The pivotal assembly comprises a pivotal tube and a pivotal saddle, the pivotal saddle being pivotally connected to the brush about a first axis such that the pivotal saddle is turnable back and forth relative to the brush; the pivotal tube and the pivotal saddle are pivotally connected about a second axis, the pivotal tube being provided with a joint portion, the brush being provided with a fitting portion, the joint portion and the fitting portion being capable of engaging with each other, so that the pivotal tube is locked and not pivotable about the second axis.

A reconfigurable surface treatment apparatus may include a wand and a pod removably coupled to the wand. The wand may have a first distal end that is configured to couple to a surface cleaning head and a second distal end that is configured to couple to a handle. The pod may include a suction motor assembly cavity, a battery cavity, and a dust cup cavity. The suction motor assembly cavity and the battery cavity may be disposed on opposing sides of a vertical plane, wherein the vertical plane extends along a central longitudinal axis of the pod. The dust cup cavity may be disposed between the suction motor assembly cavity and the battery cavity such that at least a portion of the dust cup cavity is disposed on each side of the vertical plane.

A station and a dust removal system including the same are provided. The station according to one aspect of the present specification is a station to which a cleaner including a dust bin and a body cover selectively opening and closing a lower part of the dust bin is coupled, including a coupling body to which the dust bin is coupled and forms a predetermined angle with a ground; a separating unit which separates the body cover from the dust bin; a driving unit which rotates the coupling body horizontally to the ground; and a dust storage unit which is disposed under the coupling body.

A surface cleaner and floor standing unit. The surface cleaner comprising an air treatment chamber and a dirt collection region, the air treatment chamber comprising a closure flap associated with an air treatment chamber air inlet. The dirt collection region collects dirt during a cleaning mode of operation of the surface cleaner. The floor standing unit comprises a dirt collection region which, in a surface cleaner emptying mode of operation when the surface cleaning apparatus is docked with the floor standing unit, receives dirt that has been collected by the surface cleaner. The surface cleaner having an openable door which, in the surface cleaner emptying mode of operation, is open whereby the dirt collected in the dirt collection region of the surface cleaner is transferrable to the dirt collection region of the floor standing unit, wherein an electromechanical actuator is drivingly connected to the closure flap.

According to an embodiment of the disclosure, a charging cradle for mounting and charging a wireless vacuum cleaner, may include: a cradle, and a cleaning station including an automatic cover opening/closing device physically connected to the wireless cleaner and disposed on the cradle. The automatic cover opening/closing device may include: a lower case, an upper case integrally connected to the lower case, a middle case coupled to each of the lower case and the upper case and configured to be movable away from the lower case or toward the lower case, the middle case being rotatably coupled to the lower case, a cover configured to open/close the upper case, a driver comprising a motor and meshing with the middle case and configured to provide a force for rotating and moving the middle case, and a mechanical device provided in the middle case and configured to open/close the cover in response to operation of the driver.

A robotic cleaning system may include a robotic cleaner having a robotic cleaner dust cup and a docking station having a docking station dust cup configured to fluidly couple to the robotic cleaner dust cup. The docking station dust cup may include a first debris collection chamber, a second debris collection chamber fluidly coupled to the first debris collection chamber, and a filter fluidly coupled to the first debris collection chamber and the second debris collection chamber.