A washing unit, planar washing machine and method for washing planar textile products. The washing unit (WU) comprises at least two rotating suction heads (13) and at least one washing nozzle (14), which is located between the suction heads. The washing unit is moved (A) in a reciprocating manner in a transverse direction (x) relative to a feed direction (y) of textile product (23) during washing process.

A washing unit, planar washing machine and method for washing planar textile products. The washing unit (WU) comprises at least two rotating suction heads (13) and at least one washing nozzle (14), which is located between the suction heads. The washing unit is moved (A) in a reciprocating manner in a transverse direction (x) relative to a feed direction (y) of textile product (23) during washing process.

A mattress cleaning system receives a mattress in a tank of wash liquid so that the mattress is fully submerged. A pressure applicator, for example a mechanical structure or a jetted flow of wash fluid, applies a cyclical compressive force to the sleeping surface of the mattress while the mattress is fully submerged so as to cause flushing of the wash liquid outwardly of the mattress through at least the sleeping surface of the mattress. When using a barrier to isolate one of the surfaces of the mattress on a first side of the barrier from remaining surfaces of the mattress on a second side of the barrier, use of a blower to create an air pressure differential between opposing sides of the barrier causes migration of the wash liquid through the mattress from the isolated surface of the mattress to the remaining surfaces for drying the mattress.

A mattress cleaning system receives a mattress in a tank of wash liquid so that the mattress is fully submerged. A pressure applicator, for example a mechanical structure or a jetted flow of wash fluid, applies a cyclical compressive force to the sleeping surface of the mattress while the mattress is fully submerged so as to cause flushing of the wash liquid outwardly of the mattress through at least the sleeping surface of the mattress. When using a barrier to isolate one of the surfaces of the mattress on a first side of the barrier from remaining surfaces of the mattress on a second side of the barrier, use of a blower to create an air pressure differential between opposing sides of the barrier causes migration of the wash liquid through the mattress from the isolated surface of the mattress to the remaining surfaces for drying the mattress.

A cleaning head is disclosed for use in a traversing shower system. The cleaning head includes a plurality of directional fluid nozzles for discharging a fluid, each of which is provided along a different direction toward a work surface such that no two directions cross one another between the cleaning head and a working surface.

A cleaning head is disclosed for use in a traversing shower system. The cleaning head includes a plurality of directional fluid nozzles for discharging a fluid, each of which is provided along a different direction toward a work surface such that no two directions cross one another between the cleaning head and a working surface.

A clothing ironing assembly for removing lint from fabric includes a steam iron that has a lint chamber is integrated into the steam iron. The steam iron has a sole plate and the sole plate has a plurality of steam openings each extending through the sole plate. The steam iron has a plurality of scraping elements each integrated into the sole plate to scrape lint from a fabric when the sole plate is rubbed across the fabric while ironing the fabric. Each of the scraping elements directs the lint into the lint chamber collect the lint. A lint screen is removably insertable into the lint opening to collect the lint directed into the lint chamber.

A clothing ironing assembly for removing lint from fabric includes a steam iron that has a lint chamber is integrated into the steam iron. The steam iron has a sole plate and the sole plate has a plurality of steam openings each extending through the sole plate. The steam iron has a plurality of scraping elements each integrated into the sole plate to scrape lint from a fabric when the sole plate is rubbed across the fabric while ironing the fabric. Each of the scraping elements directs the lint into the lint chamber collect the lint. A lint screen is removably insertable into the lint opening to collect the lint directed into the lint chamber.

The present invention is a fiber self-cleaning system. The fiber self-cleaning system of the present invention includes interlocking mats containing bores for receiving cleaning tubes, cleaning tubes for mounting with the mat bores having an open top, beveled interior chamber and at least one transverse side opening, fiber groups mounted within the beveled interior chamber of the cleaning tubes, a water and vacuum line operatively connected to the cleaning tubes to introduce water, chemicals and air to the fiber groups or to apply a vacuum force to the fiber groups, and a pump operatively connected to the cleaning tubes to introduce or suction out water, chemicals and dirt from the fiber groups.

The present invention is a fiber self-cleaning system. The fiber self-cleaning system of the present invention includes interlocking mats containing bores for receiving cleaning tubes, cleaning tubes for mounting with the mat bores having an open top, beveled interior chamber and at least one transverse side opening, fiber groups mounted within the beveled interior chamber of the cleaning tubes, a water and vacuum line operatively connected to the cleaning tubes to introduce water, chemicals and air to the fiber groups or to apply a vacuum force to the fiber groups, and a pump operatively connected to the cleaning tubes to introduce or suction out water, chemicals and dirt from the fiber groups.