RU2635158C2 - Cleaning material - Google Patents

Abstract

FIELD: textile, paper.

SUBSTANCE: material comprises a textile carrier material that is at least partially provided with a microfoam polyvinylformal (PVF) in such an amount that the proportion of the PVF microfoam in the total weight of the cleaning cloth is less than 60 wt %, preferably less than 40 wt %, at the same time the carrier material does not contain polyvinyl alcohol (PVA) or contains PVA in an amount of less than 50 wt %, and the coating and/or impregnation from the PVF microfoam has a mass per unit area of 50 to 100 g/m². A method of obtaining a cleaning material is also described.

EFFECT: invention provides a creation of material which combines good cleaning properties and sliding properties with economical manufacturing and good resistance to washing.

6 cl

Description

The invention relates to a cleaning cloth with a textile carrier material and coated or impregnated on it. The cleaning cloth in an original way combines good cleaning and sliding properties with economical workmanship and good washing resistance.

In the household and professional cleaning, various types of cleaning cloths are known which are used to clean the floor or other areas. Cleaning fabrics can have a simple structure, being, for example, formed from a single-layer textile base. For a cleaning cloth, it is important that it removes dirt well from the area to be cleaned and again gives it away, if possible completely, during the spin cycle. Along with this, the water absorption and water loss of the fabric is important. On the one hand, water is necessary to soften adhering dirt, on the other hand, with its help, softened dirt or loose dirt particles, such as dust and so on, adhere to the fabric and are removed by the fabric from the surface to be cleaned. In addition, the sliding properties of the fabric are important to the user. It turned out that when cleaning large areas (for example, windows, blackboards, large tables, walls, car bodies), the cleaning cloth should be easy enough to slide in order to achieve good ergonomics and low energy consumption when wiping. In the case of smaller or heavier contaminated areas, on the contrary, users often prefer cleaning cloths with higher friction, so that adhering dirt can be better removed or, also, so that the cleaning process is better perceived by touch.

To increase the cleaning efficiency, it is known to supply coated or impregnated textile carrier materials. Thus, textile materials can be provided, for example, with a polyurethane (PU) coating or polyurethane impregnation. The application of the mass of PU coating or PU impregnation is carried out in this case according to the generally accepted practice of the prior art, consisting in the fact that the substrate is immersed in a solution of PU and dimethylformamide (DMF).

Another known method is the coating of microfoam PVF or impregnation with microfoam PVF textile carrier material consisting of fibers of PVA (polyvinyl alcohol). The result is good adhesion between the fibers and the coating / impregnation material, since during the coating / impregnation process, the surface of the fibers in the aqueous medium softens and a durable and washable physico-chemical compound on the surfaces between the carrier material and the coating material is achieved.

The object of the invention is to provide a cleaning cloth of the kind mentioned at the beginning, which combines good cleaning properties with good water absorption and gliding properties and at the same time has good washing resistance. Additionally, a very good cleaning effect should be achieved with a cleaning cloth.

In addition, the cleaning cloth should be able to rinse out again and again easily and well the collected dirt, especially loose particles of dirt. Due to this, for example, when cleaning chrome / polished surfaces, their scratching or damage to the collected sand can be prevented (for example, with fractions of quartz). In addition, the cleaning cloth should allow gentle cleaning of objects or surfaces. Finally, the coating or impregnation should show sufficient adhesion to the textile carrier material in order to have adequate mechanical resistance to cleaning, and especially to machine wash. By high machine wash resistance in the context of the invention, it should be understood that with the Eltra washing method defined in the Federal Bulletin of Public Health Bundesgesundheitsblatt - Gesundheitsforschung - Gesundheitsschutz, 10, 2007, page 1345, when using 7 g of Eltra as a detergent and disinfectant, the disinfection temperature 60 ° C, an exposure time of 20 minutes, a liquid module 1: 5 and a zone of action AB, there is a loss of mass of the cleaning cloth less than 5 wt.%.

This problem is solved according to the invention by means of a cleaning cloth containing a textile carrier material, which is at least partially provided with microfoam PVF in such an amount that the proportion of microfoam PVF in the total mass of the cleaning cloth is less than 60 wt.%, Preferably less than 50 wt.%, and which does not contain PVA fibers or contains PVA fibers in an amount of less than 50 wt.%.

The cleaning cloth according to the invention is characterized in that it has a textile carrier material not consisting of PVA fibers, which is equipped with microfoam PVF. In this case, PVF microfoam may be present as a coating and / or impregnation and have pore sizes less than 100 μm. Preferably, the microfoam is present both in the form of a coating and an impregnation, that is, along with the present gaps between the fibers filled with the PVF microfoam, there is also a covering layer of the PVF microfoam.

Surprisingly, the cleaning cloth of the invention has excellent washability. This is all the more unexpected since it has always been assumed that for high durability it is necessary that the PVA fiber must be coated or impregnated with a layer of PVA solution. Due to the chemical similarity of both materials, as well as due to the partial softening of the PVA fiber, the result is precisely a good chemical and mechanical bonding between the fiber and microfoam. For this reason, the cleaning cloth according to the invention is characterized by good mechanical resistance to cleaning and especially to mechanical washing.

But now the practical tests according to the invention have shown that also a PVA-free fabric base, such as, for example, PP / PES / PA, can enter into a good and especially resistant to washing compound with PVF, provided that the foam is present in the form of microfoam . By this means, in the cleaning cloth according to the invention, the proportion of PVA, in particular PVA fibers, can be less than 50 wt.% Or also less than 30 wt.%, Or also less than 10 wt.% And in particular also less than 5 wt.%. The cleaning cloth may also not have PVA, in particular not have PVA fibers.

Without adhering to a specific mechanism in the context of the invention, it is believed that the formation of “taut sails” in the microfoam structure makes a significant contribution to the good connection of the PVA-free fabric base with the PVF coating.

According to the invention, the textile carrier material is provided at least partially with microfoam PVF in such an amount that the proportion of microfoam PVF in the total mass of the cleaning cloth is less than 50 wt.%, Preferably less than 30 wt.%. The task of such a rather small fraction of PVF microfoam is therefore preferable because it turned out that in this way it is possible to significantly maintain the textile character and softness to the touch of the final cleaning cloth, although PVF microfoam has the property of losing softness in the dry state and thereby leads to a large extent refractory cleaning cloth.

Practical tests have shown that for the adhesion of microfoam PVF on a textile carrier material, for example on a nonwoven material, it is advisable when the carrier material is formed so that it has open pores. This provides an advantage, since in this way the PVA solution used to make the PVF microfoam can penetrate well through the carrier material and, for example, cover non-woven fibers or threads from all sides.

If a fairly dense carrier material is used, then good penetration of the PVF microfoam through the carrier material can also be achieved by using a PVA solution that has a fairly low viscosity. Microfoam PVF (polyvinyl formal), as is known to a person skilled in the art, can be formed by the reaction of PVA with formaldehyde. This reduces the water solubility of PVA. According to the invention, microfoam PVF has a water solubility at 100 ° C of less than 5 wt.%.

Practical tests have shown that the cleaning cloth according to the invention, in addition to its high resistance to washing, combines good cleaning properties with good water absorption and sliding properties. At the same time, good ability to rinse the collected dirt from the fabric is achieved.

It is acceptable that the textile carrier material is at least partially composed of microfiber material. This embodiment may be appropriate for some applications, since when using fibers of a hydrophobic material, due to the capillary effect of knitted microfiber fibers, there may also be a high water absorption capacity (for example, in% relative to the dry weight of the fabric).

According to one embodiment of the invention, the cleaning cloth has hydrophobic materials in combination with hydrophilic materials (microfoam PVF) and is thus generally amphiphilic. Such a cleaning cloth has a high cleaning effect on both oleophilic and hydrophilic dirt, which qualifies it as suitable for a variety of purposes.

Additionally, it is preferable in the use of PVF that it has a special absorbency due to the presence of free OH groups. The hydrophilicity of the PVF material is further increased due to the fact that it is used in the form of microfoams. Due to the finely porous structure of the microfoam, this material has an even higher hydrophilicity. Additionally, the PVF microfoam can substantially or even completely envelop the fibers and, in some cases, the threads of the textile carrier material, whereby a stable mechanical connection between the carrier material and the coating / impregnation can be achieved. This is especially preferred when hydrophobic materials are used as the carrier material, since the microfoam of PVF does not actually have good adhesion to such materials.

According to one preferred embodiment of the invention, the carrier material is obtained by combining a nonwoven material with PVF microfoam. Moreover, it is preferable that non-woven materials can be simply and economically manufactured and yet the cleaning cloth is characterized by excellent cleaning efficiency and resistance to washing.

When using a carrier material in the form of a knitted article or knitted article of high washing resistance, it further contributes to the fact that the knitted or knitted starting material already has high washing resistance per se due to the spatial adhesion of the threads.

Practical tests have shown that the coating and / or impregnation of PVF preferably has a mass per unit area from 10 to 150 g / m ² , preferably from 50 to 100 g / m ² . Moreover, the textile carrier material preferably has a mass per unit area of from 80 to 200 g / m ² , preferably from 90 to 180 g / m ² , in particular from 100 to 140 g / m ² .

As a base material for a textile carrier material, fibers of a hydrophobic material can be used in the context of the invention. The term “hydrophobic” in the context of the invention is understood in the usual sense. In the sense of the invention, materials are particularly considered hydrophobic in the case of which the water on the surface of the compact body formed from them has a contact angle greater than or equal to 90 °. The contact angle can be determined, for example, using a Krüss contact angle meter. However, fibers of a hydrophilic material were also found to be suitable.

Especially suitable were fibers that contain the following materials or which consist of the following materials: polyamide or polyester, rayon, hydrophobized viscose, hydrophilized viscose, modified polyesters, polyacrylonitrile, triacetate, acetate, polyolefins, such as, for example, polyethylene and polypropylene, polyvinyl chloride and / or mixtures thereof. Particularly preferred according to the invention is the use of polyamide, in particular polyamide 6 or 66, polyethylene and / or polyester, in particular PET and / or mixtures thereof.

Especially suitable according to the invention were fibers made of polyester, viscose, polyethylene, and especially mixtures thereof.

Staple fibers and / or endless filaments are preferred. According to one preferred embodiment, such a textile carrier material comprises a polyester, in particular PET, and / or a modified polyester. It can be used either as an exceptional raw material, or mixed with other fibers (for example, viscose).

The fiber titer used may lie between 0.05 and 3 dtex. For some applications, it is advisable when it lies in the microfiber range, that is, between 0.1 and 1 dtex. The preferred use of microfibers is that they show good cleaning results, are very soft and thereby offer a pleasant touch feel. For example, microfibers with a titer from 0.05 to 1.0 dtex, in particular 0.1-0.7 dtex, can be used.

When distributing the proportions of the textile carrier material and the coating / impregnation of the PVF, it turned out that a suitable choice of the proportions of the textile carrier material and the PVF microfoam can produce cleaning fabrics, in which case the textile character and softness to the touch of the carrier material are preserved, although the PVF microfoam in principle loses when dry, softness and thereby leads to a significantly difficult bending cleaning cloth.

Preferably, the cleaning cloth has a total area weight of 90 to 350 g / m ² , more preferably 200 to 300 g / m ² . While the cleaning cloth may contain fibers, preferably in an amount of from 60 to 200 g / m ² , more preferably from 100 to 120 g / m ² . The fibers used to make the textile flat substrate can be inexpensively provided in a variety of embodiments and colors, and PVA coating or impregnation can be applied without difficulty by conventional methods.

According to the invention, the flat substrate is preferably provided with a continuous coating or continuous impregnation. Preferred in this embodiment, the fact that a continuous coating or continuous impregnation strengthens the flat substrate and thereby increases its resistance. In addition, due to the high proportion of hydrophilic PVF, on the one hand, the removal of more liquid from the surface to be cleaned can be performed particularly well. On the other hand, this makes it possible that only a thin, uniform film of liquid remains on the surface to be cleaned during wiping. This allows, in particular on shiny surfaces, non-strip cleaning.

As a textile flat substrate, in principle, both reinforced and unstrengthened textile base materials can be used. In order to obtain a mechanically strong cleaning cloth, it is preferable, however, when the textile carrier material is at least partially mechanically, thermally and / or chemically hardened. Particularly in the case of non-woven materials, the hardening of fibers placed in a non-oriented or partially oriented manner can be carried out mechanically by means of needle piercing and / or thermally and / or chemically.

For the manufacture of a flat substrate can be used fibers and / or threads. The flat substrate is preferably present in the form of a nonwoven fabric, knitted fabric, knitted fabric, unidirectional fabric, mesh, woven fabric, knitted fabric, felt product, fibrous nonwoven fabric, needle-punched fabric, fabric, combinations thereof, as well as other flat structures. In the context of the invention, the use of nonwoven materials is particularly preferred. Nonwovens provide the advantage that they can be manufactured simply and economically.

Also, the mass per unit area of the cleaning cloth may vary depending on the desired application. For most purposes, unit mass values from 90 to 350 g / m ² , preferably from 180 to 230 g / m ^2, have proven to be suitable.

Depending on the purpose of the application, the textile carrier material can be finished so that it does not require complicated maintenance and / or is fire resistant. Thus, the fibers can be constructed from polymers, can contain additives, such as coloring pigments, permanently acting antistatic agents, fungicides, bactericides, acaricides and / or additives affecting hydrophilic or hydrophobic properties, in amounts up to 10 wt.%.

The textile carrier material may further comprise fibers (staple fibers or endless filaments), which fibers are dyed during manufacture, for example, by dyeing during spinning. The subsequent dyeing methods used for non-bonded fibers (dyeing of bales) or finished carrier material (piece dyeing) also proved to be suitable.

Due to the advantageous properties of the textile flat substrate, it is recommended to use it as a cleaning textile. So, for example, wiping cloths or floor rags can be made from it.

According to one embodiment of the invention, for example, a printed pattern of an abrasive cleaning agent, for example polishing particles, is applied to the coated or impregnated with PVF microfoam side of a textile flat substrate. Polishing particles could be formed, for example, by silica. Due to these particles, a cleaning cloth with a light abrasive effect is taught. The abrasive cleaning agent may be applied to the textile carrier material in a simple printing method in a variety of ways. Thus, an additional cleaning effect as well as a decorative effect can be achieved for the textile structure.

For some applications, it may be appropriate when the cleaning cloth is brushed, emery, combed or calendered.

It is also possible to pretreat the textile carrier material. In this case, we can talk, for example, about packing, calendering or partial embossing. When using colorless microfoam PVF also after coating or impregnation, the packing in particular may remain visible for a long time and exhibiting resistance to washing.

For professional cleaning, it is preferable to design the cleaning cloth in different colors in order to mark the use of the fabric in only one cleaning area (for example, in the sanitary field). In the present invention, the dyeing of the fabric can be carried out, for example, as follows.

Use a textile carrier material, already partially or fully dyed. In combination with the colorless PVF coating, the base color of the carrier material is still visible.

Alternatively, it is also possible to mix the PVA solution used to produce the PVF microfoam with a coloring pigment. In this case, a colorless and, thus, more economical carrier material can be selected, and the color of the cleaning cloth can be completely omitted or selected and adjusted only at the next step of coating or impregnating PVF. This has especially logistical advantages. Also in this case, the dye can be selected so that it can be introduced into the PVF material so as to remain resistant to washing for a long time and especially without shedding.

An additional object of the present invention includes a method for producing a cleaning cloth according to the invention, which includes the following stages.

First, as a base material, a textile flat substrate is obtained or provided that does not contain PVA or contains PVA in an amount of less than 50 wt.%. Then, using conventional application methods, for example, the plus application method, the doctor method, the spray application, the “tip” application, with the help of a slot nozzle or a wide slot nozzle, an aqueous solution containing PVA is applied to it as a textile base material.

Impregnation of the textile base material with an aqueous solution of PVA has proved to be particularly suitable. Depending on the desired thickness of the coating or impregnation, the excess PVA can be wrung out, removed with a doctor blade, sucked off or otherwise removed. The base material thus treated can be added to an aqueous salt solution and / or an aqueous salt suspension, for example, sodium sulfate solution, and then introduced into an acidic formaldehyde solution. In aqueous saline, water is removed from the PVA solution and the PVA coagulates. In an acidic formaldehyde solution, PVA is crosslinked in PVF.

According to one preferred embodiment, the PVA aqueous solution and / or PVA aqueous suspension contains additional additives, such as, for example, coloring pigments or other additives or particles, such as the aforementioned abrasive cleaning agent. The PVA solution preferably contains a proportion of PVA solids in the range of 1 to 10 wt.%, Preferably 3 to 7 wt.%.

Using the method of the invention, it is possible to easily and with high productivity produce a textile structure that has a PVF coating or a PVF impregnation. The PVF-containing coating or the PVF-containing impregnation can penetrate into the textile base material, as a result of which it (a) is firmly fixed in the textile base material.

Claims (6)

1. A cleaning material comprising a textile carrier material that is at least partially provided with PVF microfoam in such an amount that the proportion of PVF microfoam in the total mass of the cleaning cloth is less than 60 wt.%, Preferably less than 40 wt.%, Characterized in that the textile carrier material does not contain PVA or contains PVA in an amount of less than 50 wt.% and the coating and / or impregnation of microfoam PVF has a mass per unit area of from 50 to 100 g / m ² . 2. The cleaning material according to claim 1, characterized in that the textile carrier material is formed from polyamide or polyester, viscose, modified polyester, mixed fabric from polyester, mixed fabric from polyamide, polyacrylonitrile, triacetate, acetate, polycarbonate, polyolefin , such as, for example, polyethylene and polypropylene, polyvinyl chloride, glass fibers, mixtures thereof, or mixtures of at least one of these materials with at least one other material. 3. A cleaning material according to claim 1 or 2, characterized in that the textile carrier material is a non-woven material. 4. Cleaning material according to claim 1 or 2, characterized in that the textile carrier material has a mass per unit area from 90 to 180 g / m ² . 5. The cleaning material according to p. 3, characterized in that the coating and / or impregnation of microfoam PVF has a mass per unit area from 50 to 100 g / m ² and the textile carrier material has a mass per unit area from 90 to 180 g / m ² . 6. A method of obtaining a cleaning material according to one of paragraphs. 1-5, characterized in that either receive an aqueous solution containing PVA, or provide the presence of such a solution and this solution is applied to a textile flat substrate that does not contain PVA or contains PVA in an amount of less than 50 wt.%.