The present invention relates to a faucet brush adaptor, faucet brush system, and faucet brush kit and assembly with related method of use. A brush end member includes a threaded interface that adaptively threads into a receiving threaded interface on a faucet head. The brush end member includes an inner region proximate the faucet dispensing regions allowing a ready pass-through of all faucet water flow without interference. The brush end member has an outer bristle region around said inner region allowing a user to use both the faucet and the brush simultaneously in a secure manner. The brush end member may be replaced and easily updated. Alternative brush end members include different types and locations of bristles while maintaining no interference with the faucet operation.

The present invention provides a cleaning unit, comprising: a columnar body part having a rotation guide opening formed on the outer circumferential surface thereof; a shaft installed to reciprocate a predetermined distance in the longitudinal direction thereof in a hollow formed in the body part; a drive part that protrudes from the shaft in the radial direction thereof; a brush part that has one side installed on the outer circumferential surface of the body part along the longitudinal direction thereof and rotates on the basis of the one side as a rotation axis; and a driven part that extends from the brush part toward the drive part, passes through the rotation guide opening, and is inserted into a rotation guide groove formed in the drive part. The rotation guide groove extends at a predetermined angle with respect to the longitudinal direction of the shaft, and as the shaft reciprocates, the driven part is guided to rotate by means of the rotation guide groove, and the brush is rotated by means of the rotation of the driven part. The cleaning unit may include a robot cleaner or a cleaner operated by means of a user's operation.

A surface cleaning apparatus comprising a cleaning head and a brushroll. The cleaning head includes a cleaning head body having an agitator chamber including an opening on an underside of the cleaning head body. The brushroll is rotatably mounted to the cleaning head body such that a portion of the brushroll extends below the underside for directing debris into the opening. The brushroll includes an elongated body extending laterally between a first and second end region, a slit opening extending between the first and second end region, angular stationary teeth extending proximate to an edge of the slit opening, and a cutting blade configured to be at least partially received within the slit opening and to move laterally between the first and second end regions. The cutting blade bar includes teeth that are configured to engage with the stationary teeth to cut hair.

A cleaning device according to the present disclosure includes a first infinite belt assembly and a second infinite belt assembly disposed along a first plane and a second plane, respectively, where each plane is parallel to a longitudinal plane of the cleaning device. The second infinite belt assembly is disposed proximal to the first infinite belt assembly such that a gap is defined therebetween to receive a kitchen tool. Each of the first infinite belt assembly and the second infinite belt assembly includes bristles extending from respective outer surfaces to contact the kitchen tool. A water supply manifold of the device supplies water onto at least one of the kitchen tool, the infinite belts assemblies, and the gap. A drive unit counter rotates the first infinite belt assembly with respect to the second infinite belt assembly.

An allergen reduction device may include a body, a dust cup removably coupled to the body, a plurality of agitators rotatably coupled to the body and disposed within respective agitator cavities defined in the body, a suction motor disposed within the body and configured to cause air to flow along corresponding cleaning airflow paths from the agitator cavities into the dust cup, a hot air outlet fluidly coupled to the suction motor, the suction motor being configured to urge the air through the hot air outlet along a heated exhaust airflow path, and a heater positioned within the heated exhaust airflow path between the suction motor and the hot air outlet, the heater being configured to heat the air that is urged from the hot air outlet.

Applicator devices and methods for dispensing solid and liquid materials therefrom are disclosed. The applicator devices provide for application of a wide variety of liquid and solid materials from a hand-held device in combination with a buffing element. The devices generally include a top portion that forms a housing and a bottom portion that defines a buffing element. The top portion incudes an interior side that defines an inner cavity configured to contain the liquid or solid material and an exterior side having at least a portion configured to be grasped by a user's hand. Attachment between the housing and the buffing element may be releasable so that various interchangeable buffing elements may be used in combination with the liquid or solid material contained in the housing of the device.

A cleaner head for a cleaning appliance including a housing having a front side, a rear side, and first and second sides which extend between the front side and the rear side, the housing further including a floor facing surface which extends between the front side, rear side and first and second sides which, in use, faces a surface to be cleaned. A floor engaging device is connected to the floor facing surface of the housing and which extends laterally between the first and second sides of the housing, said floor engaging device including a first portion for absorbing liquid from a surface to be cleaned; and a second portion positioned closer to either a front side or a rear side of the housing, said second portion being relatively stiff compared to the first portion.

Conventionally, cleaning of objects has been proposed by use of gloves wherein objects need to be pre-washed manually. However, the level of cleaning is not spotless. Electric scrubbers have also been proposed in solving scrubbing problem but are not efficient. Embodiment of the present disclosure provide a glove that integrates a detachable power-driven scrubber. The power-driven scrubber is configured to controllably rotate in one or more directions based on an activation of a sensor to clean an object. The glove further includes sensing mechanisms for controlled flow of water discharge and controlled flow of cleansing fluid dispense that enables the detachable power-driven scrubber to clean the object. Rotation of the detachable power-driven scrubber is controlled and driven by a drive shaft that transmits rotary motion/torque generated by a motor coupled thereto. A scrubber locking strap is provided on the glove for lock and release of the detachable power-driven scrubber accordingly.

A T-shaped brush head assembly for cleaning hard to reach surfaces includes a brush head, which in turn comprises a housing and a plurality of bristles. The bristles are attached to and extend from the housing. A first set of the bristles and a second set of the bristles are positioned proximate to a first end and a second end of the housing, respectively. The first set of the bristles is volumetrically larger than the second set of the bristles so that the brush head is substantially T-shaped. A user can grasp a handle, which is attached to and which extends from the second end of the housing, to manipulate the brush head to clean a surface.

A cleaning robot includes a housing assembly, a roller brush, a driving module, a dust box, a suction device, a power supply battery and two travelling modules. The housing assembly has a front end and a rear end, and a bottom of the housing assembly is recessed to form a mounting cavity. The roller brush is rotatably arranged in the mounting cavity and can be driven to rotate by the driving module. The two travelling modules are arranged at the rear end of the housing assembly and are spaced from the roller brush in a front-rear direction of the housing assembly.