A wipe structure of stitch bonded construction incorporating one or more substrate layers of an absorbent material with a barrier layer across a face side of the absorbent material and a preformed lightweight loop fabric disposed across the underside of the absorbent layers with loops projecting away from the absorbent layers.

A wipe structure of stitch bonded construction incorporating one or more substrate layers of an absorbent material with a barrier layer across a face side of the absorbent material and a preformed lightweight loop fabric disposed across the underside of the absorbent layers with loops projecting away from the absorbent layers.

A mop cover for cleaning surfaces, having a main body, configured and modified in such a way that the mop cover has an abrasive surface by which hairs and particles of dirt can be reliably picked up, wherein flock material is assigned to the main body, the flock material being disposed on a surface which can face a floor surface to be cleaned.

A mop cover for cleaning surfaces, having a main body, configured and modified in such a way that the mop cover has an abrasive surface by which hairs and particles of dirt can be reliably picked up, wherein flock material is assigned to the main body, the flock material being disposed on a surface which can face a floor surface to be cleaned.

A cleaning cartridge and a handling unit of a cleaning system are provided. The cleaning cartridge comprises an outer housing having a mouth; a cap for sealing the housing at the mouth; a stiffening component attached to the cap; and a cleaning element attached to the stiffening component, and the cartridge is receivable in and dispensable from the handling unit; the stiffening component has a compact position and an expanded position, and in the compact position, the stiffening component and cleaning element fit into the housing and the housing is sealable by the cap; and in the expanded position, the stiffening component expands the cleaning element to provide a cleaning surface.

A cleaning cartridge and a handling unit of a cleaning system are provided. The cleaning cartridge comprises an outer housing having a mouth; a cap for sealing the housing at the mouth; a stiffening component attached to the cap; and a cleaning element attached to the stiffening component, and the cartridge is receivable in and dispensable from the handling unit; the stiffening component has a compact position and an expanded position, and in the compact position, the stiffening component and cleaning element fit into the housing and the housing is sealable by the cap; and in the expanded position, the stiffening component expands the cleaning element to provide a cleaning surface.

An apparatus for cleaning mops comprising a top plate adapted to be engaged upon and spaced apart from a floor surface so as to form a cavity therebetween, an open face formed along an edge between the top plate and the floor surface and a plurality of protrusions extending from the top plate in a direction toward the floor surface, spaced apart along the open face, and a conduit extending between a proximate and a distal end, the proximate end extending through the top plate so as to place an interior of the conduit in fluid connection with the cavity, the distal end having a connector operable to be engaged in fluidic communication with an in-wall vacuum outlet. A method for cleaning a mop comprising passing a mop across a floor surface in proximity to an opening formed between a top plate and the floor surface, the top plate engaged upon the floor surface around a periphery thereof forming a cavity between the top plate and the floor surface, with the opening along an edge thereof into the cavity, agitating at least one element of the mop against at least one protrusion extending from the top plate into the opening; and drawing air and contents of the cavity through a conduit into an outlet of an in-wall wall vacuum system.

An apparatus for cleaning mops comprising a top plate adapted to be engaged upon and spaced apart from a floor surface so as to form a cavity therebetween, an open face formed along an edge between the top plate and the floor surface and a plurality of protrusions extending from the top plate in a direction toward the floor surface, spaced apart along the open face, and a conduit extending between a proximate and a distal end, the proximate end extending through the top plate so as to place an interior of the conduit in fluid connection with the cavity, the distal end having a connector operable to be engaged in fluidic communication with an in-wall vacuum outlet. A method for cleaning a mop comprising passing a mop across a floor surface in proximity to an opening formed between a top plate and the floor surface, the top plate engaged upon the floor surface around a periphery thereof forming a cavity between the top plate and the floor surface, with the opening along an edge thereof into the cavity, agitating at least one element of the mop against at least one protrusion extending from the top plate into the opening; and drawing air and contents of the cavity through a conduit into an outlet of an in-wall wall vacuum system.

A linear textile structure has at least two strands, wherein a first strand has microfibers and a second strand encloses the first strand, wherein the structure may provide a stable linear textile structure, by which the most effective cleaning possible can be achieved with minimum effort. Both strands can be brought into contact together at least in some sections and simultaneously with a surface to be cleaned.

A method for forming compression-bonding portions in a continuous body including a fiber bundle while conveying the continuous body includes: rotating a rotator to convey the continuous body; compressing a target part of each of the compression-bonding portions in the continuous body using a first compression-bonding apparatus and the rotator to form the compression-bonding portions of a first stage; and further compressing each of the compression-bonding portions of the first stage using a second compression-bonding apparatus and the rotator to form the compression-bonding portions of a second stage. At least one of the compression-bonding portions is positioned between the first compression-bonding apparatus and the second compression-bonding apparatus in the direction of rotation of the rotator when the second compression-bonding apparatus compresses the compression-bonding portion of the first stage.