A fiber sheet having both a bulky feel and softness is provided. A fiber sheet (1) is provided with a surface sheet layer (5) and a softness imparting layer (6). The fiber sheet (1) is subjected to embossing and a binder is applied to the fiber sheet (1). The softness imparting layer (6) is constituted by a plurality of fibers; and the fibers exist densely in a compressed state in a region of a boundary face between the surface sheet layer (5) and the softness imparting layer (6). Additionally, the surface sheet layer (5) is a paper material formed from pulp paper or a material including pulp as a principal raw material; and the softness imparting layer (6) is formed from crushed pulp or a material including crushed pulp as a principal raw material. Furthermore, the surface sheet layer (5) is manufactured by a paper making process; and the softness imparting layer (6) is formed by laminating crushed pulp along a flow of an airflow on a surface of the surface sheet. Moreover, depressions are formed via the embossing and, thereafter, the binder is applied.

The present invention provides cleaning solutions for removing ink, coating, varnish, adhesive, etc. residue from printing equipment. The cleaning solutions of the present invention comprise one or more solvents, preferably selected from acetoacetates, alcohols, glycol ethers, glycol esters, terpenes, and water, and are preferably free of surfactants. The cleaning solutions of the invention have a relative evaporation time (RET) of less than 60 seconds, and a ratio of the RET to the radius of the sphere of solubility of the resin in the ink to be removed of less than 6.

A cleaning device includes: a lens cover configured to cover an object lens of a camera provided in a machining area of a machine tool, the lens cover being transparent; a motor configured to rotate the lens cover; and a wiping member configured to, when the lens cover rotates, wipe at least an adhering substance that has adhered to a region of the lens cover in an angle-of-view of the camera.

A cloth accessory and methods for the use thereof are disclosed and described. In one aspect, the cloth accessory may include a cover member forming an enclosure with a cavity therein, and a cloth attached to the cover member. The cloth may have a first configuration wherein the cloth is retracted substantially into the cover member, and a second configuration wherein the cloth is extended substantially out of the cover member without becoming detached therefrom.

The present invention provides a method for reprocessing single-use medical devices. The method can include removing a coating from a single-use medical device, validating the removal of the coating, cleaning the single-use medical device, and applying a new coating to the single-use medical device.

Alkaline sprayable aqueous compositions are disclosed. In particular, sprayable alkaline aqueous chlorine compositions including a surfactant system for modifying the viscosity of the composition, are combined with an alkalinity source and a chlorine source. Methods of cleaning having reduced amounts of airborne particulates of the composition during spray applications are also provided according to the invention, namely reduction of airborne particulates having a micron size of 10 or less within a breathing zone of a user of less than or equal to 60 particles/cm.sup.3.

A fabric production method and a fabric, the production method includes the following steps: (1) selecting an impermeable fabric, an intermediate absorbent layer and a polyester brocade microfiber fabric; (2) sequentially performing alkali fiber-splitting treatment and degreasing treatment on the polyester brocade microfiber fabric; (3) cleaning the treated polyester brocade microfiber fabric ; (4) arranging the cleaned polyester brocade microfiber fabric as a surface material and the impermeable fabric as a base material, disposing the intermediate absorbent layer therebetween, and employing an ultrasonic laminating machine to laminate the three layers of materials into one; (5) slitting and crosscutting; (6) folding two ends of a strip of the composite material along a length direction thereof, and arranging a buckle, thus obtaining a semi-finished product; and (7) cleaning the obtained semi-finished product. The fabric has features such as powerful cleaning ability and good adsorption.

The invention is directed to a keycard sanitizer. The sanitizer employs one or more of three different methods to sanitize keycards turned in by customers: ultraviolet light projectors, sanitizer sponges, and sanitizer sprayers. A plurality of drying sponges and a sanitizer drain are also provided. Preferably, a detachable feeder tray and a detachable receiver tray are provided to feed keycards into a card entrance slot on the sanitizer, and receive keycards as they are expelled from an exit slot on the sanitizer, respectively. The sanitizer enables the management of a business to sanitize keycards and reissue the keycards to incoming customers, saving the expense of discarding and replacing used keycards.

A constructing-and-forging method for preparing homogenized forged pieces comprises: preparing preformed billets: cutting off a plurality of continuous casting billets, milling and smoothing surfaces of the billets to be welded, performing vacuum plasma cleaning operation to the surfaces to be welded, stacking the plurality of billets and sealing around the surfaces in a vacuum chamber by electron beam welding; forge-welding and homogenizing the preformed billets: heating the preformed billets to a certain temperature in a heating furnace and taking the heated preformed billets out of the heating furnace, forging the preformed billets by a hydraulic press, then using three-dimensional forging to disperse the welded surfaces such that composition, structure and inclusion of the interface areas are at the same level as those of the bodies of the billets. Cheap continuous casting billets are stacked and forge welded.

A method and apparatus for carrying a battery of a portable communication device. The battery carrier includes a body, a carrier sealing surface, and a wiper. The carrier sealing surface engages a battery seal while the battery is positioned in the battery carrier. The wiper is positioned on a support surface of a battery receptacle in the body. The wiper is aligned with battery contacts of the battery. The wiper wipes the electrical contacts when the battery is inserted into the battery receptacle.