RU199783U1 - Sponge with antimicrobial abrasive layer - Google Patents

Abstract

The utility model relates to devices for cleaning, washing, disinfection, namely, sponges for washing dishes, cleaning surfaces, cleaning premises, vehicles and household items, etc. A sponge with an antimicrobial abrasive layer contains an interconnected sorbent layer of polyurethane foam and a scrubbing layer of non-woven material with abrasive properties, the connection of the sorbing and scrubbing layers is made by an adhesive method by spraying glue followed by joining two layers, while the abrasive layer is made of polyester fibers with a thickness of 0 , 44-1.66 tex, 32-64 mm long, while the fibers are impregnated with a silver-containing solution on a pinch-sizing machine. The technical result consists in increasing the service life of the sponge.

Description

The utility model relates to devices for cleaning, washing, disinfection, namely, sponges for washing dishes, cleaning surfaces, cleaning premises, vehicles and household items, etc.

Various sponges are known for cleaning household items as well as for washing dishes. The utility model refers to the type of "multilayer" sponge, which contains several layers, for example, a "two-layer" sponge may contain a sorbent layer and an abrasive layer.

The closest analogue is a sponge (see patent for utility model No. 19736), containing, interconnected, a sorbent layer of polyurethane and a scrubbing layer of nonwoven material with abrasive properties, the connection of the layers is made by thermal duplication, while the sorbent layer is made of reticulated polyurethane in a foamed form with a density of 15 to 35 g / m ³ , with a compressive stress at 40% from 3 to 5 kPa, with a tensile strength from 100 to 150 kPa and with an elongation at break from 100 to 200%, and non-woven the material with the abrasive properties of the scrubbing layer is made containing polyamide and / or polyester fibers. The connection of the sorbing and scrubbing layers is made by thermal duplication by means of thermal action on the polyurethane layer with the melting of the surface of the latter, followed by its connection with a layer of nonwoven material with abrasive properties. The absorbent layer is made of polyurethane foam in the form of foam rubber.

The known sponge wears out quickly during washing, loses its original structure, which leads to a deterioration in its cleaning properties and the need to replace it. The disadvantage of the prototype is also the fact that the known sponge does not provide for antimicrobial effects, because in sponges after contact with food waste bacteria such as E. coli, Staphylococcus aureus, and Salmonella can live for hours or even days. A humid environment (the sponge stays wet for a long time) promotes the growth and reproduction of bacteria. Therefore, the sponges need to be changed frequently.

The task of the utility model is to develop a sponge with sufficient strength characteristics, which additionally provides an active substance that inhibits or suppresses the growth of bacteria and / or viruses. It is proposed to use silver ions, which exhibit antibacterial and antimicrobial effects, which will allow the sponge to be used for a longer period.

The technical result of the utility model is to increase the service life of the sponge.

The technical result is achieved by the fact that a sponge with an antimicrobial abrasive layer containing, interconnected, a sorbent layer of polyurethane foam and a scrubbing layer of non-woven material with abrasive properties, the connection of the sorbing and scrubbing layers is made by the adhesive method by spraying glue with the subsequent connection of two layers, when The abrasive layer is made of polyester fibers with a thickness of 0.44-1.66 tex, a length of 32-64 mm, while the fibers are impregnated with a silver-containing solution on a pinch-sizing machine.

The bonding of the sorbing and scrubbing layers with glue by spraying it, followed by bonding the two layers, provides a strong bond that increases the service life of the product.

The implementation of the abrasive layer of polyester fibers provides strength, wear resistance of the product.

Preferably the abrasive layer is made of polyester fibers with a thickness of 0.44-1.66 tex, since at a thickness of less than 0.44 tex of fibers, low abrasive properties, and at a thickness of more than 1.66 tex, the web loses its flexibility.

The preferred length of the polyester fibers of the abrasive layer is 32-64 mm, because with a fiber length of more than 64 mm, the surface of the nonwoven material acquires a rather uneven surface, which leads to a loose connection with the sorbent layer, and with a fiber length of less than 32 mm, insufficient interlacing of the fibers occurs, which can lead to breaks, and reduces the service life of the nonwoven material ...

Impregnation of the fibers on a pinch-oily machine with an aqueous solution of cluster silver makes it possible to produce a sponge with antimicrobial action, which will also increase the product's useful life.

The introduction of silver ions into the fiber base manifests itself in a bacteriostatic effect, in which the bacterial balance of the skin is not disturbed, but the reproduction of pathogenic bacteria is stopped. The silver-containing fibers are low-toxic, do not irritate the skin.

A sponge with an antimicrobial abrasive layer is made, for example, as follows. The sponge can be made of an elastically deformable two-layer thickness polymer material with abrasive properties in relation to the surface to be cleaned. The first layer is made of elastic polyurethane foam (for example, foam rubber), and the second layer attached to it, for example, with polyurethane glue, is made of non-woven abrasive material with a thickness less than the thickness of the layer of elastic polyurethane foam.

Non-woven abrasive material is understood as a material that has been produced by combing and laying in a certain way synthetic fibers, without the use of weaving technology. The production of such a material is as follows: a nonwoven fabric is made from polyester fibers on equipment consisting of a pinch-oiling unit, a carding machine, a forming machine, a needle punching machine and a winder.

The manufacturing process can be performed as follows. The synthetic fibers are fed to a plucking machine and laid in an even layer on a moving feeding table. From the table, the raw material moves to the feed rollers. The pinching process takes place between the feed rollers and the rotating pinching drum. The loosened raw material, in the form of fibers, flies under the guide plate and settles on the surface of the sieve drums, from where it is removed using the dispensing rollers and placed on the dispensing table, after which it is fed to the feed rollers of the next section, where the same process is repeated as in the first section. Dust sucked out of the loosened raw materials by sieve drums, with the help of fans, is removed to the dust chamber. The recovered fiber, cleaned from dust, is manually fed to the feeding table of the plucking and sizing machine, where the fiber is micromixed and intensively loosened.

When mixing different types of fiber on a pinch-oiling unit, a solution of a concentrated aqueous solution of bio-silver is used as a lubricant, for example. The terms "cluster silver", "nanosilver", "nanoparticles of silver", "bio-silver" are essentially synonymous. Cluster silver is a type of colloidal silver, but with a smaller silver particle size. The small size of silver particles determines its high efficiency, stability and safety, as well as the ability to produce with its use various ready-to-use products with long shelf life. The smaller average size of silver particles increases the efficiency of using silver and determines the aggregation stability of its solutions. This allows the use of drugs in the form of concentrated solutions, the shelf life of which is 1 year or more. The advantage of a concentrated solution is the ability to quickly prepare working solutions from it by simple dilution with water. Silver-containing solutions are known, see, for example, RF patent No. 2178775 "Method for increasing the antimicrobial effect of ionic silver solutions in water", RF patent No. 94042748 "Water-soluble bactericidal composition containing highly dispersed metallic silver, a method for producing this composition"; RF patent No. 2334681 "Method for producing a disinfectant solution based on silver ions"; “Study of the effect of cluster silver on microorganisms, destructors and bacteria Escherichiacoli / A.I. Piskaeva, A. Yu. Prosekov, Yu.Yu. Sidorin, L.S. Dyshlyuk et al. // Technics and technology of food production. - 2013. - No. 4. - S. 5-13.

Further, the fibrous mixture, through a lubricating device, for example, ZU-Shch2, is fed by a pneumatic conveyor to the storage sheds. The storehouses are intended for storage, aging and partial mixing of the prepared mixture before feeding it to a carding machine, for example, AIN-1800M. One of the AIN-1800 carding machines receives the mixture for the upper layer, and the other for the lower layers. The AIN-1800 unit is used for carding the fibers, obtaining multiple folded batt with a transverse fiber orientation, and fixing the base.

Further, from this fiber coated with bio-silver, a web is made, used in the production of fiber. A roll of finished fiber is installed on a special machine, which is tucked into special uncoilers. The machine is equipped with a braking system for uniform sheet tension. During work, a one-component polyurethane hot melt adhesive is applied to the surface of the fiber, perpendicular to the movement of the fiber. In this form, the sheet is rolled into the area where flexible polyurethane foam is fed. The operator feeds the finished "sandwich" into the roller press. After rolling, the operator cuts off a part of the fiber in the place of the foam rubber joint strip.

After leaving the roller press, sheets of glued foam rubber and fibers are placed in an additional pneumatic press. After that, a stack is formed and the final stage is the process of polymerization of the adhesive seam, which takes place, on average, in 24 hours. The quality of the sponge largely depends on the choice of the adhesive, it is important that it does not lose its properties and strength under the influence of moisture and temperature.

The use of a utility model in the form of a sponge for washing dishes is as follows: moisten the sponge with water, apply detergent to the sponge, clean the surface of the dishes or other object, rinse the sponge after use, squeeze out the water from the sponge and leave to dry.

The declared useful model allows you to achieve a longer service life of the sponge.

Claims (1)

A sponge with an antimicrobial abrasive layer containing an interconnected sorbent layer of polyurethane foam and a scrubbing layer of non-woven material with abrasive properties, characterized in that the connection of the sorbing and scrubbing layers is made by an adhesive method by spraying glue followed by joining two layers, while the abrasive layer is made made of polyester fibers with a thickness of 0.44-1.66 tex, a length of 32-64 mm, while the fibers are impregnated with a silver-containing solution on a pinching-oiling machine.