RU90328U1 - FABRIC NONWOVEN ATRAUMATIC - Google Patents

Abstract

1. A non-woven atraumatic canvas containing atraumatic and absorbent layers, characterized in that the absorbent layer is made of viscose fibers that form a bulk disordered structure with a surface density of 50 to 260 g and a thickness of 0.1 to 1 mm, and the atraumatic layer is made of polypropylene fibers that form a bulk disordered structure with a surface density of 15 to 70 g and a thickness of 0.2 to 15 mm with their content (% mass):! Polypropylene fibers 20-30 Viscose fibers the rest! 2. The canvas according to claim 1, characterized in that an ointment or a medicinal solution is applied to the atraumatic layer. ! 3. The canvas according to claim 1, characterized in that it is made needle-punched, followed by thermal bonding of the fibrous layers. ! 4. The canvas according to claim 3, characterized in that the needle-piercing density is from 20 to 200 punctures per 1 cm2 of canvas. ! 5. The canvas according to claim 1, characterized in that the fibrous layers are additionally bonded by calendering.

Description

The technical solution relates to the field of production of dressings intended for closing wounds and providing improved therapeutic and preventive care by simultaneously giving the product selective sorption with respect to pathogenic microflora and atraumatic properties that ensure the product does not stick to the wound and creates an optimal wound healing regimen.

A fabric (see, The Big Encyclopedic Dictionary "Polytechnic", M., "Big Russian Encyclopedia", 1998, p. 535) is a product formed by interweaving threads. The fabric can be characterized, in particular, by the linear density or thickness of the threads, the nature of the surface, density, type of weaving, etc.

It is known (RU, patent 2133627) that the dressing is made of a sheet of absorbent fibrous layer, an atraumatic vapor-permeable layer located above the absorbent layer on the side adjacent to the wound, and a fixing element located with the possibility of attaching the dressing to the skin and protected by a release agent used when used a layer, wherein the absorbent fibrous sheet layer contains cellulose, rayon, carbon-modified alumina, crosslinked polyvinyl alcohol, odifitsirovannuyu epichlorohydrin sodium carboxymethyl cellulose fiber. The non-traumatic vapor-permeable layer is made of either a knitted fabric based on a polyester yarn or a non-woven material containing polypropylene fiber and viscose fiber.

A disadvantage of the known dressings should be recognized as its relatively high cost with relatively low characteristics as a dressing.

Known (RU, patent 2189210) is a multilayer medical dressing containing a sequentially hydrophobic atraumatic permeable layer, a treatment layer and a layer of a polymer film. In addition, it further comprises an external protective breathable sorption layer located above the above, wherein the treatment layer and the polymer film layer are coaxially perforated. In a preferred embodiment, the atraumatic permeable layer is made of a material obtained by weaving fibers or perforating a nonwoven material, and the treatment layer is made in the form of a drug applied to a textile base with hydrophilic properties. It can also be made in the form of a biocompatible biodegradable polymer deposited on a textile base with hydrophilic properties, into which drugs are immobilized. In addition, the dressing may further comprise a microbial sorption layer located between the polymer film layer and the outer layer.

A disadvantage of the known dressings can be recognized as the complexity of its design, increasing its cost.

Known (TU 9393-015-527008501-2004) is a two-layer atraumatic dressing containing two layers, one of which is absorbent, and the other is atraumatic.

A disadvantage of the known dressing should be recognized as its low quality, due to the unbalanced composition of the threads forming the dressing.

The technical problem solved by the developed solution is to develop a new type of non-woven atraumatic fabric.

The technical result obtained by the implementation of the developed solution consists in increasing the mechanical strength while increasing the absorption of the liquid.

To achieve the indicated technical result, it is proposed to use a non-woven atraumatic fabric containing atraumatic and absorbent layers, the absorbent layer being made of viscose fibers forming a three-dimensional disordered structure with a surface density of 50 g to 260 g and a thickness of 0.1 mm to 1 mm, and the atraumatic layer is made of polypropylene fibers that form a bulk disordered structure with a surface density of 15 g to 70 g and a thickness of 0.2 mm to 15 mm with their content (% of mass):

polypropylene fibers 20-30 rayon fibers rest.

If necessary, ointment or drug solution may be applied to the atraumatic layer, and the absorbent layer may contain adsorbed aseptic substances. In a preferred embodiment, the web is needle-punched, followed by thermal bonding of the fibrous layers.

Preferred are viscose fibers with a thickness of 0.17 tex to 0.68 tex and a length of 30 mm to 65 mm and polypropylene fibers of a thickness of 0.15 tex to 2.2 tex and a length of 30 mm to 65 mm,

The use of viscose fibers allows you to absorb a large amount of wound exudate and provide air access to the wound.

The use of propylene fibers ensures non-adherence to the wound surface and does not injure nearby tissues when removing.

The canvas is made as follows. At the same time, a viscose layer is made by combing and a layer of polypropylene fibers is also made by combing. Then both layers are combined and connected by needle-punched with the number of punctures from 20 to 200 per 1 cm ² , after which thermal bonding is carried out by calendaring the fibrous layers.

The above method of connecting layers allows due to the penetration of polypropylene and viscose fibers into the mass of each other to provide high absorbency and non-invasiveness of the wound surface.

Below are examples of the implementation of the developed technical solution.

1. The non-woven atraumatic canvas contains atraumatic and absorbent layers. The absorbent layer is made of viscose fibers, forming a bulk disordered structure with a surface density of 50 g, a thickness of 0.1 mm, and the atraumatic layer is made of polypropylene fibers, forming a bulk disordered structure with a surface density of 15 g and a thickness of 0.2 mm at their content (% masses):

Polypropylene fibers twenty Viscose fiber 80.

Manufacturing technology is described above.

The mechanical strength of the obtained atraumatic canvas relative to the solution - the closest analogue (TU 9393-015-527008501-2004) is increased by 22%, the amount of absorbed liquid relative to the solution - the closest analogue (TU 9393-015-527008501-2004) is increased by 14%.

2. Non-woven atraumatic canvas contains atraumatic and absorbent layers. The absorbent layer is made of viscose fibers forming a bulk disordered structure with a surface density of 260 g, 1 mm thick, and the atraumatic layer is made of polypropylene fibers forming a bulk disordered structure with a surface density of 70 g and a thickness of 15 mm at their content (% of mass):

Polypropylene fibers thirty Viscose fiber 70.

The mechanical strength of the obtained atraumatic canvas relative to the solution - the closest analogue (TU 9393-015-527008501-2004) is increased by 26%, the amount of absorbed liquid relative to the solution - the closest analogue (TU 9393-015-527008501-2004) is increased by 12%.

3. The canvas is made according to example 1, but the thickness of the polypropylene fibers was 15 mm The obtained values of mechanical strength and absorbency are almost identical to the values of example 1.

4. The canvas is made according to example 1, but the canvas contains (5 masses):

Polypropylene fibers 25 Viscose fiber 75.

The obtained values of mechanical strength and absorbency are almost identical to the values of example 1.

5. The canvas is made according to example 1, but the canvas contains (5 masses):

Polypropylene fibers fifteen Viscose fiber 85.

The mechanical strength of the obtained atraumatic canvas relative to the solution - the closest analogue (TU 9393-015-527008501-2004) is reduced by 13%, the volume of absorbed liquid relative to the solution - the closest analogue (TU 9393-015-527008501-2004) is reduced by 16%.

6. The canvas is made according to example 1. But the absorbent layer is made of viscose fibers that form a bulk disordered structure with a surface density of 40 g, a thickness of 0.1 mm, and the atraumatic layer is made of polypropylene fibers that form a bulk disordered structure with a surface density of 15 g and a thickness 0.15 mm

The mechanical strength of the obtained atraumatic blade relative to the solution - the closest analogue (TU 9393-015-527008501-2004) is reduced by 15%, the volume of absorbed liquid relative to the solution - the closest analogue (TU 9393-015-527008501-2004) is reduced by 11%.

It follows from the applicants' experience that the technical result is achieved in all cases when all the ratios given in the utility model formula are observed. When deviating from at least one parameter from the ranges given in the independent claim, the technical result is not achieved.

In a preferred embodiment, the web is cut into strips ranging in size from 3 cm (± 0.5 cm) to 50 cm (± 0.5 cm), which are then applied with the atraumatic side to the affected area and fixed in any known manner. It is possible to produce material with a width of 3 cm (± 0.5 cm) to 50 (± 0.5 cm) and a length of 3 cm (± 0.5 cm) to 50 (± 0.5 cm).

Claims (5)

1. The non-woven atraumatic fabric containing atraumatic and absorbent layers, characterized in that the absorbent layer is made of viscose fibers that form a bulk disordered structure with a surface density of 50 to 260 g and a thickness of 0.1 to 1 mm, and the atraumatic layer is made of polypropylene fibers that form a bulk disordered structure with a surface density of 15 to 70 g and a thickness of 0.2 to 15 mm when their content (% of mass): Polypropylene fibers 20-30 Viscose fiber rest 2. The canvas according to claim 1, characterized in that an ointment or a medicinal solution is applied to the atraumatic layer. 3. The canvas according to claim 1, characterized in that it is made needle-punched, followed by thermal bonding of the fibrous layers. 4. The canvas according to claim 3, characterized in that the needle-piercing density is from 20 to 200 punctures per 1 cm ^{2 of} canvas. 5. The canvas according to claim 1, characterized in that the fibrous layers are additionally bonded by calendering.