A cleaning apparatus, such as a sponge, scrubber and cloth used for cleaning having an embedded waterproof audio device. An aspect of an embodiment of the present invention also contemplates the cleaning apparatus having a cleaning portion attached to a decorative portion, where a waterproof audio device may be located within the decorative portion. Power for the audio device may be provided by a rechargeable or non-rechargeable battery, which is internally positioned within the waterproof audio device. The cleaning portion and the decorative portion can glow in the dark, have lights, and may be made of a variety of materials, colors, shapes and sizes.

A cleaning apparatus, such as a sponge, scrubber and cloth used for cleaning having an embedded waterproof audio device. An aspect of an embodiment of the present invention also contemplates the cleaning apparatus having a cleaning portion attached to a decorative portion, where a waterproof audio device may be located within the decorative portion. Power for the audio device may be provided by a rechargeable or non-rechargeable battery, which is internally positioned within the waterproof audio device. The cleaning portion and the decorative portion can glow in the dark, have lights, and may be made of a variety of materials, colors, shapes and sizes.

A medical assembly (100) includes a package (101) having an outer surface (102) with a major face (103) defining an aperture (701). An aperture-sealing label (702) selectively attaches to the outer surface to close the aperture and to be selectively peelable from the outer surface to expose the aperture. Five sheets (302,303,304,305,306) are arranged in a stacked configuration (309) within the package. Printed instructions (107) then define five steps (110,111,112,113,114) instructing when to use each sheet disposed within the package, and when to discard the each sheet disposed within the package, to clean a Foley catheter insertion site of either a male patient or a female patient, while reducing chances for causing a catheter associated urinary tract infection.

A wiping device, having a substantially rectangular support member having a longitudinal axis and two long sides, and a transverse axis and two transverse sides, on which a wiping cloth can be releasably fastened, wherein on the support member on at least one transverse side a pivotable fastening clamp is disposed so as to be pivotable about an articulation joint, for fastening of a fastening tab disposed correspondingly on at least one transverse side on the wiping cloth. The at least one fastening clamp is movable in a pivot plane which is disposed substantially perpendicular to the longitudinal axis of the support member.

A wiping device, having a substantially rectangular support member having a longitudinal axis and two long sides, and a transverse axis and two transverse sides, on which a wiping cloth can be releasably fastened, wherein on the support member on at least one transverse side a pivotable fastening clamp is disposed so as to be pivotable about an articulation joint, for fastening of a fastening tab disposed correspondingly on at least one transverse side on the wiping cloth. The at least one fastening clamp is movable in a pivot plane which is disposed substantially perpendicular to the longitudinal axis of the support member.

To provide a production method for a cleaning tool and a cleaning body with which the attachment of a holding tool to the cleaning body is facilitated. Provided is a production method for a cleaning tool provided with a cleaning sheet, and a holding tool for holding the cleaning sheet. The cleaning sheet is provided with: a base part; and a first fiber assembly which is bonded to the base part. The production process includes a step in which tensile force imparted to the first fiber assembly is released, and fibers in a state of having been stretched by the tensile force are shrunk to form bent regions in the base part.

To provide a production method for a cleaning tool and a cleaning body with which the attachment of a holding tool to the cleaning body is facilitated. Provided is a production method for a cleaning tool provided with a cleaning sheet, and a holding tool for holding the cleaning sheet. The cleaning sheet is provided with: a base part; and a first fiber assembly which is bonded to the base part. The production process includes a step in which tensile force imparted to the first fiber assembly is released, and fibers in a state of having been stretched by the tensile force are shrunk to form bent regions in the base part.

Cleaning articles including a heat engine incorporated therein. The cleaning article may include a substrate (e.g., a non-woven wipe) including one or more layers. The heat engine may be in the wipe or pad, and includes a reactive metal composition which upon contact with a salt water (e.g., saline) composition, reacts to produce heat. The cleaning article may thus produce water vapor and/or steam upon activation of the heat engine. A venting structure may be provided adjacent to or surrounding the heat engine that includes an impermeable material (e.g., impermeable to water and/or air or other gas), which includes one or more vents through the impermeable material. The venting structure directs water vapor and/or steam to a desired face of the cleaning article, away from the user. A heat barrier layer may insulate a user's hand from the generated heat, and/or a handle may be attachable to the pad.

(EN) The purpose of the present invention is to provide a water absorbent article that has high water absorbency and high flexibility and, when used as a cleaning sheet, shows excellent ability to collect waste and dust even on a wet floor, etc. The method according to the present invention for manufacturing a water absorbent article (1) is characterized by comprising: a fiber lamination step for laminating a flexibility-imparting layer (6) having water absorbency on a liquid-permeable surface sheet layer (5) to form a sheet body (35); an emboss processing step for embossing the sheet body (35), said sheet body (35) being in a non-wet state, to form a bulky part provided with a number of peaks and valleys in the sheet body (35); and a binder impregnation step for, after the emboss processing step, supplying a binder to the sheet body (35) from an external surface side and thus impregnating the sheet body (35) with the binder.

A method and system for the production of fibers for use in biocomposites is provided that includes the ability to use both retted and unretted straw, that keeps the molecular structure of the fibers intact by subjecting the fibers to minimal stress, that maximizes the fiber's aspect ratio, that maximizes the strength of the fibers, and that minimizes time and energy inputs, along with maintaining the fibers in good condition for bonding to the polymer(s) used with the fibers to form the biocomposite material. This consequently increases the functionality of the biocomposites produced (i.e. reinforcement, sound absorption, light weight, heat capacity, etc.), increasing their marketability. Additionally, as the disclosed method does not damage the fibers, oilseed flax straw, as well as all types of fibrous materials (i.e. fiber flax, banana, jute, industrial hemp, sisal, coir) etc., can be processed in bio composite materials.