RU210568U1 - CLEANING CLOTH - Google Patents

Abstract

The utility model relates to a cleansing wipe. The napkin contains a non-woven base and an abrasive layer formed from polypropylene fibers deposited on the surface of the base from one of its sides. At the same time, the non-woven base of the napkin is made of polypropylene. The claimed napkin allows you to remove moisture from the surface of the object being cleaned without it being absorbed or absorbed by the threads or fibers of the specified base, which allows you to remove liquid contaminants or particles from the surface of the object without being absorbed by the fibers of the base along with particles of dust or dirt, which could cause additional surface contamination object when reusing said cleaning pad.

Description

FIELD OF TECHNOLOGY

The present utility model relates to cleaning agents used to clean various surfaces from contamination, in particular to a cleaning wipe with improved cleaning efficiency.

BACKGROUND OF THE INVENTION

Currently, cleaning wipes are widely used in various industries to clean the surface of various objects from contamination.

One illustrative example of a cleaning wipe is described in US Pat. No. 5,786,065 (published July 28, 2018). In particular, US Pat. No. 5,786,065 discloses a cleaning wipe comprising: a nonwoven backing and an abrasive layer formed from polypropylene fibers applied to the surface of the backing from one of its sides.

A disadvantage of the known cleaning cloth is that it does not provide a sufficiently high degree of cleaning the surface of the object from contamination.

Thus, the need for further improvement of cleaning wipes, in particular to provide a high degree of cleaning the surface of the object from contamination, is obvious.

Therefore, the technical problem solved by the present utility model is to provide a cleansing wipe, which at least partially eliminates the above disadvantage of the known cleansing wipe, which consists in providing an insufficient degree of cleaning the surface of the object from contamination.

DISCLOSURE OF THE ESSENCE OF THE UTILITY MODEL

The objective of the present utility model is to provide a cleaning wipe that solves at least the above problem.

The problem is solved in this utility model due to the fact that in the proposed cleaning wipe containing a non-woven base and an abrasive layer formed from polypropylene fibers deposited on the surface of the base from one of its sides, the non-woven base is made of polypropylene.

The cleaning wipe according to the present utility model provides the technical result of increasing the efficiency of cleaning the surface of an object from contamination. In particular, the increased efficiency of cleaning the surface of the object from contamination is due to the polypropylene non-woven backing of this cleaning wipe, due to which the non-woven backing acquires the ability to provide a wick effect, i.e. the ability to remove moisture from the surface of the object being cleaned without it being absorbed or absorbed by the threads or fibers of the specified base, which allows you to remove liquid contaminants or particles, for example, drops of contaminated water or oil drops, from the surface of the object without being absorbed by the fibers of the base along with particles of dust or dirt , which could cause additional contamination of the object's surface if said cleaning pad is reused. In addition, it should be noted that polypropylene also has high strength and resistance to impact and repeated bending, due to which, even with relatively long-term operation of the proposed cleaning cloth, its base structure is not disturbed, which could cause additional contamination of the surface of the object with fibers or parts. bases in the further use of the proposed cleansing wipes. It should also be noted that polypropylene has a high chemical resistance, due to which the contact of the base of the napkin with most types of contaminants, including chemical contaminants, does not lead to a violation of the structure of the base of the napkin, which could cause additional contamination of the surface of the object with fibers or parts of the base in the future. using the proposed cleaning wipes. In addition, the polypropylene nonwoven backing will dry quickly so that repeated use of the inventive cleaning wipe will not cause additional contamination of the surface of the object with liquid or fluid (e.g., water) left over from previous use of the inventive wipe, or after rinsing it, and/or additional contamination of the surface of the object with fibers or parts of the base formed as a result of the destruction of the structure of the base of the napkin under the action of moisture remaining in the specified base after the previous use of the proposed wet wipe or after washing it. It should also be noted that polypropylene also has bacteriostatic properties, due to which the multiplied bacteria that have settled in the nonwoven base of the proposed cleansing wipes will not be able to disrupt the structure of the base of the wipes and/or contaminate it with their metabolic products, which could cause additional contamination of the surface of the object with fibers or parts of the base formed as a result of said violation of the structure of the base of the napkin, and/or waste products of bacteria during the further use of the specified cleansing napkin.

The presence of an abrasive layer on the surface of the base on one of its sides also contributes to the technical result formulated above, which consists in increasing the efficiency of cleaning the surface of an object from contamination, in particular due to the fact that the fibers of the abrasive layer can have an additional mechanical effect on solid pollutants or particles on the surface of an object so that they can be removed from said surface, while simultaneously providing the specified abrasive effect (also referred to in the art as a scrub effect), the fibers of the abrasive layer can capture liquid contaminants or particles from the surface of the object, thereby contributing to their removal from the surface of the object through the polypropylene non-woven base of the proposed cleaning wipes.

The implementation of the abrasive layer of the base of the proposed cleaning wipes from polypropylene fibers also contributes to the technical result formulated above, which consists in improving the efficiency of cleaning the surface of an object from contamination, in particular due to the fact that polypropylene fibers have a rounded shape, i.e. do not have sharp edges, and have a high strength factor, due to which such fibers provide mechanical action on solid contaminants or particles on the surface of the object, suitable for their removal from the said surface, and at the same time do not damage the surface of the object, which could lead to additional contamination of the surface of the object with solid particles of the material of the object, formed as a result of damage to the specified surface. It should also be noted that the high strength index of polypropylene fibers, from which the abrasive layer of the base of the proposed cleaning wipes is made, also prevents the destruction of these polypropylene fibers when using the proposed cleaning wipes and, therefore, prevents the possibility of additional contamination of the cleaned surface of the object with particles or parts of the fibers formed in the result of the destruction of these polypropylene fibers. In addition, the polypropylene fibers from which the abrasive layer of the base of the proposed cleaning wipes is made have a high resistance to impact and repeated bending and a high chemical resistance, which also prevents the destruction of these polypropylene fibers when using the proposed cleaning wipes and, therefore, prevents the possibility additional contamination of the cleaned surface of the object with particles or parts of the fibers formed as a result of the destruction of these polypropylene fibers.

Thus, as described above, the increased efficiency of cleaning the surface of an object from contamination provided by the proposed cleaning wipe is due to the fact that the polypropylene nonwoven base of the wipe in combination with the abrasive layer of polypropylene fibers provide the ability to remove combined contamination from the surface of the object, i.e. the possibility of simultaneous removal of liquid and solid contaminants or particles from the surface of the object.

According to another embodiment of the present utility model, the polypropylene nonwoven backing in the proposed cleaning wipe can be further impregnated with a cleaning agent. Impregnation of the base of the napkin with a cleaning agent also contributes to the technical result formulated above, which consists in improving the efficiency of cleaning the surface of an object from contamination, in particular due to the fact that said cleaning agent can additionally act on contamination on the surface of an object, for example can break down these contaminants and/or capture them, thereby facilitating their removal from the surface of the object using a polypropylene non-woven backing with its abrasive layer.

According to another embodiment of the present utility model, the polypropylene fibers that form the abrasive layer in the proposed cleaning wipe can be applied in an arbitrary manner. The arbitrary application of polypropylene fibers forming the abrasive layer of the base onto the surface of the base of the napkin also contributes to the technical result formulated above, which consists in improving the efficiency of cleaning the surface of the object from contamination, in particular due to the fact that such fibers have different orientations on the specified surface of the base and , therefore, are capable of exerting a multidirectional mechanical effect on the contaminants on the surface of the object being cleaned, thereby contributing to the more efficient removal of these contaminants from the surface of the object being cleaned.

In some embodiments of the present utility model, the polypropylene fibers forming the abrasive layer in the inventive cleaning wipe and randomly applied to the surface of the wipe base may cover from 30% to 60% of the surface area of the wipe base. Covering from 30% to 60% of the surface area of the base of the napkin with polypropylene fibers forming an abrasive layer and randomly deposited on the specified surface of the base also contributes to the technical result formulated above, which consists in improving the efficiency of cleaning the surface of the object from contamination, in particular due to the fact that that the specified substrate surface acquires an optimal degree of roughness or roughness, suitable for removing solid contaminants or particles with various shapes and sizes from the surface of the object being cleaned. In particular, the authors of this utility model found that an arbitrary coating with abrasive polypropylene fibers from 30% to 60% of the surface of the base provides the optimal ratio between the number of these abrasive fibers on the surface of the base of the napkin, which directly affects the potential number of mechanical contacts between such abrasive fibers of the base. and solid contaminants or particles that are on the surface of the object being cleaned, and the distribution of these abrasive fibers on the surface of the wiper base (which also determines the distance between the abrasive fibers on the surface of the wiper base), which directly affects the likelihood of ingress of solid contaminants or particles with different the shape and dimensions of the recess or gap between said abrasive fibers and hence the force of mechanical action that will be exerted on such a solid contaminant or such a solid contaminant yu particle.

According to other embodiments of the present utility model, the proposed cleaning wipe may contain another abrasive layer formed from polypropylene fibers, which can be applied to the surface of the wipe base on its other side. The presence of abrasive layers on both sides of the base of the napkin also contributes to the technical result formulated above, which consists in improving the efficiency of cleaning the surface of an object from contamination, in particular due to the possibility of alternately using both sides of the base with an abrasive layer providing the above-described positive effects for cleaning one and the same object surface from combined contamination represented by a combination of liquid and / or solid contaminants or particles, or the possibility of using both sides of the base with an abrasive layer providing the above-described positive effects, to clean opposite surfaces of the object, for example, in the case of cleaning the slotted opening of the object.

In one embodiment of the present utility model, the polypropylene fibers that form another abrasive layer in the proposed cleaning wipe can also be applied in an arbitrary manner. Random application of polypropylene fibers, forming another abrasive layer of the base, on the surface of the base of the napkin also makes its additional contribution to the technical result formulated above, which consists in improving the efficiency of cleaning the surface of the object from contamination, for the reasons described above.

In another embodiment of the present utility model, the polypropylene fibers forming another abrasive layer in the proposed cleaning wipe and randomly applied to another surface of the wipe base may cover from 30% to 60% of the surface area of the wipe base. Covering from 30% to 60% of the area of the other surface of the base of the napkin with polypropylene fibers, which form another abrasive layer of the base and randomly applied to the specified other surface of the base, also makes an additional contribution to the technical result formulated above, which consists in improving the efficiency of cleaning the surface of the object from contamination. , for the reasons described above.

In another embodiment of the present utility model, polypropylene fibers forming an abrasive layer on one side of the backing, or polypropylene fibers forming another abrasive layer on the other side of the backing, can be applied to the corresponding surface of the backing in such a way that the specified surface may have areas with different density of application of polypropylene fibers. The different density of application of the polypropylene fibers forming the abrasive layer on the corresponding surface of the base also makes its additional contribution to the technical result formulated above, which consists in improving the efficiency of cleaning the surface of the object from contamination, in particular due to the creation of areas on the surface of the base aimed at ensuring that the appropriate mechanical effect on solid contaminants or particles with different shapes and sizes for their removal from the cleaned surface of the object.

It should be noted that the above-described embodiments of the present utility model can be combined with each other to obtain a common or single embodiment of the present utility model that combines the distinctive features of the execution of such combined embodiments, if such a combination is obvious to a person skilled in the art and / or is possible for its practical implementation in the proposed wet wipe, while any such single embodiment of the present utility model will provide the general technical result formulated above, which consists in improving the efficiency of cleaning the surface of an object from contamination, since the distinctive features of the execution characteristic of any of available for combination implementation options of the present utility model, contribute to the specified overall technical result.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings, which are provided to provide a better understanding of the essence of the present utility model, form part of this document and are included in it to illustrate the embodiments of the present utility model described below. The accompanying drawings, in conjunction with the following description, serve to explain the essence of the present utility model.

The drawing schematically shows a cleaning wipe according to the present utility model.

IMPLEMENTATION OF UTILITY MODEL

Some examples of possible implementations of the present utility model are described below, and the following description should not be considered as defining or limiting the scope of the present utility model.

The drawing shows one embodiment of a cleaning wipe 10 according to the present utility model, which can be used to clean the surface of a physical object, object or product (for example, a piece of furniture, tool, dishware, glass, mirror, instrument, optics, screen or monitor , wooden or metal products, human skin, etc.) from contamination, which can be caused, for example, by the ingress of various kinds of pollutants onto the specified surface of the object being cleaned. It should be noted that contaminants that could potentially end up on the surface of an object to be cleaned using the cleaning wipe 10 can be any liquid contaminant or particle (for example, water droplets, oil droplets, chemical or pharmaceutical liquid droplets, organic droplets, or liquids and/or the like), any solid contaminants or particles (eg dust, dirt, organic solids, chemical or pharmaceutical solids, skin particles and/or the like) and/or any combination thereof, while pollutants can have different shapes, sizes, density and other indicators that affect the degree of contamination of the specified surface of the object.

As shown in the figure, the cleaning wipe 10 includes a base 1, which essentially forms the carrier layer of the wipe and is made of non-woven polypropylene material formed from interconnected polypropylene filaments or fibers.

By being made of polypropylene, the nonwoven base 1 acquires the ability to provide a wick effect, i.e. the ability to remove moisture from the cleaned surface of the object without its absorption or absorption by the fibers of the base, which allows you to remove liquid pollutants or particles (for example, particles of water or oil) from the specified surface to be cleaned without their absorption by the fibers of the base 1, including together with solid pollutants or particles (eg dust, smoke, soot, skin or dirt particles) that can be dissolved in said liquid contaminant particles. Thus, the use of the polypropylene nonwoven backing 1 in the cleaning wipe 10 helps to prevent additional contamination of the cleaned surface of the object when the cleaning wipe 10 is reused on said cleaned surface, while the polypropylene nonwoven backing 1 is easier to wash or otherwise clean from wet contaminants, taken away by the main 1 from the surface of the object being cleaned.

In addition, it should be noted that the polypropylene non-woven base 1 has high strength and resistance to impact and repeated bending, due to which, even with relatively long-term use of the cleaning wipe 10 and/or applying relatively large efforts to the cleaning wipe 10 on the part of the user, there will be a violation of the structure of the non-woven base 1, which essentially allows you to prevent additional contamination of the surface of the object being cleaned with fibers or parts of the base 1, which could be formed as a result of a violation of the structure of the non-woven base 1 and subsequently stick to the surface of the object being cleaned or stick to it during further or repeated use cleaning wipes 10 in relation to the specified cleaned surface.

It should also be noted that the non-woven base 1 made of polypropylene has a high chemical resistance, due to which the contact of the base 1 with most types of contaminants, including chemical pollutants, does not lead to a violation of the structure of the base 1, which also effectively prevents additional contamination of the surface to be cleaned. object by fibers or parts of the base 1, which could be formed as a result of a violation of the structure of the non-woven base 1 and subsequently stick to the surface of the object to be cleaned or adhere to it during further or repeated use of the cleaning wipe 10 in relation to the specified surface to be cleaned.

In addition, the polypropylene non-woven backing 1 will dry quickly, whereby the repeated use of the cleaning pad 10 in relation to the surface of the object to be cleaned will not cause additional contamination of said surface to be cleaned with a liquid or fluid (for example, water, oil, contaminated liquid and/or the like). p.), remaining in the base 1 after the previous use of the wet wipe 10 or after washing it, and / or additional contamination of the indicated surface to be cleaned with fibers or parts of the base 1, which could be formed as a result of the destruction of the structure of the base of the napkin under the action of moisture remaining in the base 1 after the previous use of the wet wipe 10 or after rinsing it.

As a supplement, it should be noted that the non-woven base 1 made of polypropylene also has bacteriostatic properties, due to which the multiplied bacteria that can settle in the non-woven base 1 will not be able to disrupt the structure of the base 1 and / or contaminate it with their metabolic products, which could cause, respectively, additional contamination of the cleaned surface of the object with fibers or parts of the base 1, which could be formed as a result of violation of the structure of the base 1, and / or bacterial waste products during further or repeated use of the cleaning wipe 10 in relation to the specified surface to be cleaned.

In addition, the cleaning wipe 10 also contains an abrasive layer 2 on one of the two opposite sides of the base 1. The abrasive layer 2 is formed from polypropylene fibers, which are applied randomly or randomly on the surface of the base 1 on one of its sides in such a way that the fibers have different orientations on the specified surface of the base and protrude, rise or protrude above the specified surface of the base with the formation of protrusions or bulges on it, between which recesses or depressions are also formed, into which solid contaminants or particles from the surface of the object being cleaned can get, so that these bulges will have multidirectional mechanical impact on solid contaminants or particles on the surface of the object being cleaned, thereby creating an abrasive effect or scrub effect that allows you to remove solid contaminants or particles from the surface of the object being cleaned, and will also capture liquid contaminants removing substances or particles from the surface of the object to be cleaned, thereby facilitating their removal from the indicated surface to be cleaned through the polypropylene non-woven base 1.

The polypropylene fibers forming the abrasive layer 2 have a thickness of several microns and can be applied to the corresponding surface of the base 1 in a molten state by blowing with air, so that when cooled, said melted polypropylene fibers stick together with the specified surface of the base 1 to form a single whole with it. .

It should be noted that the polypropylene fibers in the composition of the abrasive layer 2 have a generally rounded shape, i.e. do not have sharp edges, and have a high strength index, due to which such polypropylene fibers provide proper mechanical action on solid contaminants or particles on the surface of the object to be cleaned, suitable for their removal from the specified surface to be cleaned, and at the same time do not damage the specified surface to be cleaned, thereby preventing the possibility of additional contamination of the surface of the object with solid particles of the material of the object, which could be formed as a result of damage to the cleaned surface of the object.

In addition, due to the fact that the polypropylene fibers in the composition of the abrasive layer 2 have a high strength index, an index of resistance to impact and repeated bending, and an index of chemical resistance, they do not collapse during the operation of the cleaning cloth 10, which also prevents the possibility of additional contamination of the surface to be cleaned. object particles or parts of fibers that could be formed as a result of the destruction of these polypropylene fibers.

Thus, as described above, the combination of a non-woven base 1 made of polypropylene and an abrasive layer 2 of polypropylene fibers on one side of the non-woven base 1 in the composition of the cleaning wipe 10 allows not only to remove liquid contaminants / particles and solid contaminants / particles separately, but also to remove combined contamination from the specified surface to be cleaned, i.e. simultaneously remove both liquid contaminants/particles and solid contaminants or particles, including their mixtures, from said surface to be cleaned, which ultimately increases the efficiency or quality of object surface cleaning from various contaminants.

In one of the embodiments of the present utility model, the cleaning wipe 10 may contain another abrasive layer formed from polypropylene fibers deposited on the surface of the base 1 on its other side, i.e. from the side opposite the side of the backing 1 provided with the abrasive layer 2. Thus, in this embodiment of the present utility model, both opposite sides of the backing 1 can each be provided with an abrasive layer corresponding to the abrasive layer 2 described above, so that the abrasive sides of the backing 1 can be alternately used to remove contaminants from the surface of the object being cleaned or can be used substantially simultaneously to clean opposite surfaces of the object, for example in the case of cleaning the slotted opening of the object.

In some embodiments of the present utility model, the polypropylene fibers forming the abrasive layer can be applied to the surface of the base 1 on one of its sides or both of its sides in such a way that they cover from 30% to 60% of the area of the corresponding surface of the base 1, on which they are applied. Thus, it is possible to implement the present utility model, in which the polypropylene fibers forming the abrasive layer cover from 30% to 60% of the surface area of the base only on one of the two opposite sides of the base 1, and it is also possible to implement the present utility model, in which the polypropylene fibers forming the abrasive layer cover from 30% to 60% of the surface area of the base on each of the two opposite sides of the base 1. It should be noted that the authors of this utility model have found that the surface of the base 1, in which the abrasive layer is formed from polypropylene fibers , covering exactly from 30% to 60% of the area of the specified surface of the base, acquires the optimal degree of roughness or roughness, suitable for removing solid contaminants or particles of various shapes and sizes from the surface of the object being cleaned, i.e. solid contaminants or particles with different shapes and sizes, which are simultaneously present on the surface of the object being cleaned. In particular, the authors of this utility model found that an arbitrary coating with abrasive polypropylene fibers from 30% to 60% of the surface of the base 1 provides the optimal ratio between the number of these abrasive fibers on the surface of the base 1, which directly affects the potential number of mechanical contacts between such abrasive fibers backing 1 and solid contaminants or particles located on the surface of the object being cleaned, and the distribution of these abrasive fibers over the corresponding surface of the backing 1 (which also determines the distance between the abrasive fibers on the corresponding surface of the backing 1 on which they are applied), which directly affects the probability of getting solid contaminants or particles of various shapes and sizes into recesses or depressions between said abrasive fibers and, consequently, the force of mechanical action that will be exerted on such a solid contaminant in the substance or such solid contaminant to be removed from the surface of the object to be cleaned.

In other embodiments of the present utility model, polypropylene fibers forming an abrasive layer can be applied to the surface of the base 1 from one of its sides or both of its sides in such a way that the corresponding surface of the base 1 can have areas with different density of application of polypropylene fibers. Thus, it is possible to implement the present utility model, in which the surface of the base 1 has areas with different density of application of polypropylene fibers that form the abrasive layer, only on one of the two opposite sides of the base 1, and it is also possible to implement the present utility model, in which the surface The substrate 1 has areas with different density of application of polypropylene fibers forming the abrasive layer on each of two opposite sides of the substrate 1. Thus, areas with different density of application of the polypropylene fibers forming the abrasive layer on the corresponding surface of the substrate 1 allow proper mechanical action on solid contaminants. substances or particles having different shapes and sizes and simultaneously present on the surface of the object to be cleaned, ensuring efficient and rapid removal of such solid contaminants from the said surface to be cleaned.

In addition, in the cleaning wipe 10 shown in the drawing, the base 1 is additionally impregnated with a cleaning agent, which can be used as any liquid or fluid cleanser known in the prior art on an aqueous, alcohol or other suitable basis, capable of breaking down solid contaminants and/or liquid contaminants or capture such contaminants, thereby facilitating their effective and rapid removal from the surface of the object to be cleaned using the polypropylene nonwoven base 1 provided with the abrasive layer 2. It should be noted that in the case where the surface of the object to be cleaned is the skin surface on body, such as on the hands, the cleanser can be any commercially available skin cleanser.

When using a cleaning wipe 10, it must be applied by pressure to the surface of the object to be cleaned by the side that is equipped with an abrasive layer 2, with the subsequent movement of it along the cleaned surface of the object while maintaining the pressure exerted by the user on the napkin 10. If the cleaning Since the napkin 10 is provided with an abrasive layer on both its sides, the user can alternately press the napkin 10 to the surface of the object to be cleaned with each abrasive side to ensure its movement along the surface of the object to be cleaned under the action of the pressure exerted on the napkin 10 by the user.

The above embodiments serve only to provide an understanding of the essence of the present utility model and are not restrictive, while other possible implementations of the present utility model will be clear to a person skilled in the art upon reading the above description. The scope of this utility model is defined by the attached claims of the utility model.

Claims (8)

1. A cleaning wipe containing a non-woven base and an abrasive layer formed from polypropylene fibers deposited on the surface of the base from one of its sides, characterized in that the non-woven base is made of polypropylene. 2. A cleaning wipe according to claim 1, wherein said base is further impregnated with a decontaminating agent. 3. Cleansing wipe according to any one of paragraphs. 1, 2, in which the polypropylene fibers of the specified abrasive layer are applied in an arbitrary manner. 4. The cleaning pad according to claim 1, wherein the polypropylene fibers of said abrasive layer cover 30% to 60% of the surface area of the backing. 5. Cleansing wipe according to any one of paragraphs. 1-4, additionally containing one more abrasive layer formed from polypropylene fibers deposited on the surface of the base from its other side. 6. The cleaning pad according to claim 5, wherein the polypropylene fibers of said further abrasive layer are randomly applied. 7. A cleaning pad as claimed in claim 6, wherein the polypropylene fibers of said further abrasive layer cover 30% to 60% of the surface area of the backing. 8. Cleansing wipe according to any one of paragraphs. 1 and 5, in which polypropylene fibers are deposited on the corresponding surface of the substrate in such a way that said surface has areas with different density of application of polypropylene fibers.

Images