Stock material or miscellaneous articles – Pile or nap type surface or component – Particular shape or structure of pile
Reexamination Certificate
1997-11-21
2002-12-10
Juska, Cheryl A. (Department: 1771)
Stock material or miscellaneous articles
Pile or nap type surface or component
Particular shape or structure of pile
C428S088000, C015S208000, C015S209100, C015S210100
Reexamination Certificate
active
06491998
ABSTRACT:
The present invention relates to a wet cleaning cloth for cleaning porous stoneware areas.
Wet cleaning cloths for cleaning porous stoneware areas are known of mop-type design in which cord-like structures extend 10 to 15 cm from a carrier. The cord-like structures themselves are made of individually twisted or cabled cords. It is known that cloths of this nature are used as covers for cleaning devices to clean porous stoneware areas.
The disadvantage of such a design is that porous stoneware areas can not be cleaned adequately with such cloths.
Porous stoneware areas are understood to be, for example, non-glazed natural stone floors, which have small pores in the surface as a result of the manufacturing process. These pores may also be grooves which have been produced, for example, by the grinding or cutting processes during the manufacture of such flooring.
Porous stoneware areas are also understood to be ceramic tiles which have been manufactured or subsequently processed in such a way as to produce a porous surface. Cast stone floors may also have a fine porous surface depending on the manufacturing method. So-called fine stoneware may also have a porous surface. The size of the pores is very small, measuring millimeters or fractions of millimeters.
Such floors are in wide use in public buildings or in commercially used buildings such as banks, factory halls or similar which are usually subject to maintenance cleaning, mostly on a daily basis.
It is not possible to adequately clean porous stoneware areas with the mop-like wet cleaning cloths mentioned above. An attempt was therefore made to improve the cleaning result by adding chemicals to the cleaning water.
The improvement achieved was negligible since it was discovered that the chemical additives attack the stoneware areas over the course of time and also tend to clog the pores instead of cleaning them.
German laid open application DE-OS 39 26 524 discloses a cleaning device with a cloth bonded to an absorbing body. The cloth is plushlike and contains bundles of fibers each with approximately ten individual fibers which are bent in U-shape and bonded to the base fabric by means of latex. The bundles bent in a U-shape are arranged in such a way that the two arms of the U project away from the base fabric, creating two bundles with free ends. The base fabric is made of approximately 100 to 150 fiber bundles per square centimeter, thus providing about 200 to 300 free ends of fiber bundles. Each bundle is made up of approximately ten individual fibers so that, on average, there are roughly 2,000 to 3,000 fibers per square centimeter. However, due to the fact that ten fibers are brought together in a bundle, a bundle of this nature is to be considered as a single operating “bundled fiber”. During a cleaning process one bundle works like one thick fiber since the ten individual fibers are disposed very close together. For this reason only about 200 to 300 fibers are in operation, effectively i.e. the respective fiber bundles.
European Patent Application EP-0 468 301 discloses a device for cleaning surfaces with fiber pieces made of plastic attached to a planar carrier. One end of the plastic fibers is attached to the carrier, leaving the other end projecting freely from one side of the carrier. A structure made of absorbing and wipe-resistant material is attached to the other side of the carrier facing away from the fiber pieces. The fibers have a fineness of 5 to 30 dtex and project 4 to 35 mm from the carrier. The fibers are made of polyester.
From WO 90/14 039 a cleaning cloth is known onto which cloth a non-woven fabric is attached in several zigzag patterns arranged side by side. There is no non-woven fabric present between the zigzag patterns.
It is object of the present invention to provide a wet cleaning cloth with which porous stoneware areas can be cleaned simply and effectively.
According to the invention a wet cleaning cloth for cleaning stoneware areas having pores in its surface comprises a textile carrier having individual unbundled elastic fibers extending from one side of said textile carrier, said individual fibers are arranged at a certain distance from each other for avoiding bunches of fibers, the number of said fibers per square centimeter ranges from 1,000 to 2,600, said fibers extend from said carrier with a length ranging from 2 to 12 mm, and said fibers have free ends with a sharp edge resulting from a cutting treatment for cutting said fibers to said length.
It was found that with such fibers an excellent cleaning result on porous stoneware areas is achievable. The individual fine fibers can penetrate into the fine pores and “scratch out” the dirt particles in these fine pores. The fine fibers, in particular those made of plastic material, have, within the selected length range of 2 to 12 mm, a particular elasticity, which enables such a cloth to tolerate the pressures usually acting on the cloth during cleaning processes with slight deformation or bending of the individual fibers so that the free ends of the fibers dislodge and absorb dirt as they pass over the smooth stoneware areas. Deformed or bent fibers reaching an area with pores will relax as a result of their elasticity or rigidity, enter the pores and “scratch out” even the finest particles from them. The sharp edge end enhances the scratching process. This mechanical process renders chemical cleaning agents dispensable under normal circumstances, i.e. it is completely sufficient to clean such floors with water and without chemical additives. The fibers may be made of plastic fibers or be a mixed fabric whereby the proportion of plastic fibers in relation to natural fibers (e.g. cotton) predominates.
It was furthermore found out that the dirt particles attached to the fibers are gradually transported in the direction of the textile carrier away from the area to be cleaned by means of the water wetting the surface of the individual fibers and as a result of the movement of the fibers as they deform and relax. This process is possible for each individual fiber due to the certain distance among each other, leaving sufficient space for a deformation and relaxation movement of each individual fiber. This causes the dirt particles to be gradually moved towards the carrier. The dirt particles removed from the stoneware collect here. This is something which is very easy to recognize. The dirt particles can then be removed simply by washing out the wet cleaning cloth. In order to achieve excellent cleaning results on porous stoneware areas it is sufficient to merely moisten the wet cleaning cloth and not to have it wringing wet.
With that advantage not only chemical additives can be dispensed during daily maintenance cleaning but also considerably less water is required, i.e. that the quantities of dirty cleaning water to be disposed of are smaller amount. In addition, the absence of chemical additives has the enormous advantage that the durability of the surface subjected to daily maintenance cleaning is considerably increased. Should the floor be very dirty or be soiled with dirt which is not water-soluble, as in car showrooms with tire marks or an oily film, chemical additives can, of course, be added to the cleaning water.
The wet cleaning cloths have a very long serviceable life, particularly if water alone is used, since the fibers themselves do not form an insoluble bond either with the water or with the particles of dirt.
In an embodiment of the invention the fibers extend in a range between 4 to 10 mm from the carrier, and extend in particular 6 mm.
These fiber lengths have proved to be particularly advantageous for the usual floors in buildings, i.e. particularly good results can be achieved with these lengths.
In a further embodiment of the invention fibers in the range from 1,400 to 2,200 per square centimeter, in particular 1,800 fibers per square centimeter are present.
Particularly good results can be achieved with this fiber number or density whereby the selection can depend on the size and the number of pores present in the stone
Juska Cheryl A.
Pathol Limited
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