A washing bag for washing an object includes a bag body, an opening unit and a plurality of bristles. The bag body includes an inner surface, a containing space and an opening part. The containing space is used for containing the object. The opening unit is located on the opening part. The plurality of bristles are located on the inner surface. Via the abovementioned structure, when the object is in the containing space, the plurality of bristles touch the object.

A washing bag for washing an object includes a bag body, an opening unit and a plurality of bristles. The bag body includes an inner surface, a containing space and an opening part. The containing space is used for containing the object. The opening unit is located on the opening part. The plurality of bristles are located on the inner surface. Via the abovementioned structure, when the object is in the containing space, the plurality of bristles touch the object.

The shoe shining device is configured for use with a shoe. The shoe shining device is a mechanical device that buffs the shoe. The shoe shining device comprises a shell, a drive mechanism, and a buffing structure. The shell contains the drive mechanism and the buffing structure. The buffing structure is a rotating structure that buffs a shoe placed within the shell. The drive mechanism moves the buffing structure within the shell such that the buffing structure has access to all the surfaces of the upper of the shoe. The drive mechanism provides the motive forces necessary to operate the buffing structure.

The shoe shining device is configured for use with a shoe. The shoe shining device is a mechanical device that buffs the shoe. The shoe shining device comprises a shell, a drive mechanism, and a buffing structure. The shell contains the drive mechanism and the buffing structure. The buffing structure is a rotating structure that buffs a shoe placed within the shell. The drive mechanism moves the buffing structure within the shell such that the buffing structure has access to all the surfaces of the upper of the shoe. The drive mechanism provides the motive forces necessary to operate the buffing structure.

A single handheld brush includes an elongated body, first and second ends and an interior. The interior embodies a cavity, wherein, in use, fluid may be stored. The first end includes a brush head mounted on a brush base portion having a first face and a second face and a passage that runs through the brush base portion and is open at both ends, and the second end includes a scraping tool. The brush also has a flow path running from the cavity, to an aperture in the brush base portion, such that fluid in the cavity may flow along the flow path and be expelled from the aperture, and a valve closure located adjacent the first end. The valve may be moved from an open position wherein the flow path is open, to a closed position wherein the flow path is shut and vice versa.

A single handheld brush includes an elongated body, first and second ends and an interior. The interior embodies a cavity, wherein, in use, fluid may be stored. The first end includes a brush head mounted on a brush base portion having a first face and a second face and a passage that runs through the brush base portion and is open at both ends, and the second end includes a scraping tool. The brush also has a flow path running from the cavity, to an aperture in the brush base portion, such that fluid in the cavity may flow along the flow path and be expelled from the aperture, and a valve closure located adjacent the first end. The valve may be moved from an open position wherein the flow path is open, to a closed position wherein the flow path is shut and vice versa.

A device to clean a shoe sole includes a handle portion having a first end and an opposing second end, and is configured to store a cleaning fluid therein. The device also includes a tread brush coupled to the first end of the handle portion, a grooming brush coupled to the opposing second end of the handle portion, where the tread brush includes an orifice that is in fluid communication with a reservoir of the handle portion. The tread brush comprises tread bristles facing outward relative to a first side of the handle portion, and the grooming brush comprises grooming bristles facing outward relative to an opposing second side of the handle portion. In addition, the tread brush comprises a tapered end that is configured to fit between treads of a shoe.

A device to clean a shoe sole includes a handle portion having a first end and an opposing second end, and is configured to store a cleaning fluid therein. The device also includes a tread brush coupled to the first end of the handle portion, a grooming brush coupled to the opposing second end of the handle portion, where the tread brush includes an orifice that is in fluid communication with a reservoir of the handle portion. The tread brush comprises tread bristles facing outward relative to a first side of the handle portion, and the grooming brush comprises grooming bristles facing outward relative to an opposing second side of the handle portion. In addition, the tread brush comprises a tapered end that is configured to fit between treads of a shoe.

Footwear (1) having a vamp (2), an insole, a midsole (3) and an outsole (4), wherein a plurality of spaced apart magnets (5) are located adjacent said outsole (4) so that in use said magnets (5) provide a gripping force between said footwear (10) and a ferrous metallic surface upon which said footwear (1) is placed.

A shoe disinfecting device has a base and a lid defining an interior compartment to hold liquid disinfecting solution. The lid is upwardly biased (e.g., spring loaded) from a compressed position to an extended position and includes openings for passage of solution between the interior and a lid upper surface. Pressurization of the solution within the interior, responsive to forces depressing the lid from the extended to the compressed position, causes expelling of the solution through the openings and onto the upper surface. Upon release of the depressing force, biasing of the lid from the depressed to the extended position creates a vacuum within the interior and pulls remaining solution from the upper surface back into the interior. A removable disinfecting liquid container is in fluid communication with the interior via a liquid pump controlled to pump solution from the container to maintain sufficient quantities of solution within the interior.