RU2107520C1 - Method for manufacture of material used for production of overalls for protecting from strong toxic substances - Google Patents

Abstract

FIELD: protective overalls. SUBSTANCE: method involves producing composite nonwoven material with covering layer, underlayer and sorption intermediate layer based on activated carbon. Covering layer is produced from thermostable and incombustible filaments. Underlayer is made from incombustible synthetic and artificial filaments. Covering layer is subjected to teasing. EFFECT: increased efficiency and improved quality of protective overalls. 4 cl, 1 tbl

Description

 The invention relates to the creation of special protective clothing for working in hazardous conditions and protecting against potent toxic substances, and in particular from small drops of concentrated sulfuric acid, chlorine vapor, ammonia, nitrogen oxides and nitric acid and hydrazine derivatives.

 The introduction of new technology, the intensification of chemical processes and equipment is directly related to the creation of safe equipment, further improvement and improvement of working conditions, increase its productivity, reduce and eliminate occupational injuries and occupational diseases. One of the components that ensure safe working conditions is personal protective equipment of the filter type, namely overalls. It should reliably protect workers from the average impact of industrial corrosive environments, meet hygiene requirements and withstand the set wear periods, without significantly changing their protective and hygienic properties.

 A known method of obtaining a protective material intended for the manufacture of clothing that protects against potent toxic substances, in which form a composite non-woven material with a coating layer, a bedding layer and an sorption intermediate layer based on activated carbon. The known method is adopted as the closest analogue. The disadvantage of this method is the low physiological and hygienic indicators and insufficient level of protection against various types of toxic substances.

 The objective of the invention is to obtain a protective material having high physiological and hygienic characteristics and a high level of protection against potent toxic substances.

 This problem is solved due to the fact that in the method of producing a protective material intended for the manufacture of clothing that protects against potent toxic substances, in which a composite non-woven material is formed with a coating layer, the underlying layer and a sorption intermediate layer, based on activated carbon, the coating layer is formed from heat-resistant and non-combustible fibers, and the underlying layer is made of non-combustible synthetic and artificial fibers, and the cover layer is teased.

 In addition, the problem is solved due to the fact that the sorption intermediate layer is either in the form of a cotton woven base with particles of activated carbon discretely attached to it, or in the form of a grid of carbonized activated material, or in the form of carbon-filled paper, which is both heat-resistant and non-combustible fibers use, for example, phenylone or acetochlorin, and as non-combustible synthetic and artificial fibers use, for example, acetochlorin or viscose.

For the sorption layer, special sorbents are used: carbon-filled paper with a mass content of cellulose and coal in a ratio of 8: 2 ^o C2.5, or spherical activated carbon weighing 70-90 g / m ² , discretely fixed on a cotton fabric base, or a carbonized viscose net with a mesh size of 0.5-0.7 • 2 mm plain weave, and the integumentary, sorption and underlying layers are fixed to each other by a sewing method.

 As piercing threads, use lavsan, fluorone and CBM threads.

 The presence of pile determines the high protective properties of products from SDYAV. In addition, the presence of a pile carries out “masking” (covering) of the holes in the material from the piercing threads. At the same time, overalls are characterized by high physiological and hygienic indicators.

Example 1. From 48 g of acetochlorin fiber with a linear density of 0.4 tex cutting length of 70 ml form a fibrous canvas on the first carding machine of the sewing unit, the second canvas is formed on the second carding machine of the same unit of 85 g of phenyl fiber linear density 0.33 tex length cutting 60 mm. A layer of a special sorbent in the form of a cotton fabric with discretely fixed activated spherical carbon weighing 70-90 g / m ^{2 is} placed between two formed canvases. The fastening of the three-component structure is carried out on a knitting-piercing machine with lavsan threads.

Example 2. From 48 g of acetochlorin fiber with a linear density of 0.4 tex cutting length of 70 mm, a fibrous canvas is formed on the first combing machine of the canvas-sewing unit, the second canvas is formed on the second combing machine of the same aggregate from 85 g of phenyl fiber of linear density 0.33 tex length cutting 60 mm. A layer of a special sorbent in the form of carbon-filled paper with a mass content of cellulose and coal in a ratio of 8: 2 ^o C5 is placed between two formed canvases. Bonding of the obtained three-component structure is carried out on a knitting-piercing machine with lavsan threads.

Example 3. From 48 g of acetochlorin fiber with a linear density of 0.4 tex cutting length of 70 mm, a fibrous canvas is formed on the first combing machine of the canvas sewing unit, a second canvas is formed on the second combing machine of the same aggregate from 85 g of phenylon fiber of the linear density 0.33 tex length cutting 60 mm. A layer of a special sorbent is placed between two formed canvases in the form of a carbonized viscose mesh with a mesh size of 0.5 ^° C 0.7 · 0.2 mm plain weave. Bonding of the obtained three-component structure is carried out on a knitting-piercing machine with lavsan threads.

 Example 4. Fabricated as in examples 1-3, the canvas stitching cloth is teased in two passes on a pile machine (type IV-24-1-180Sh) from the side of the phenylone layer. The speed of passage of the nonwoven fabric was 12 m / min.

 The properties of the obtained material are given in the table.

 Materials teased in more than two passes have low physical and mechanical properties, while teasing in less than two passes is characterized by protective properties at the level of non-teared.

 The material is obtained on the AUVSh-18800 unit, the stitching machine class is 10, the number of combs in the dressing is 2, the number of threads in the dressing is 12,800, the width of the fabric obtained is 160 cm. The resulting fabric was teased using a IV-24-180Sh pile machine.

Claims (4)

 1. A method of obtaining a protective material intended for the manufacture of clothing that protects against potent toxic substances, in which a composite non-woven material is formed with a coating layer, an underlying layer and a sorption intermediate layer based on activated carbon, characterized in that the coating layer is formed of heat-resistant and non-combustible fibers, the underlying layer is formed from non-combustible synthetic and artificial fibers, and the cover layer is teased.  2. The method according to claim 1, characterized in that the sorption intermediate layer is either in the form of a cotton woven base with activated carbon particles discretely attached thereto, or in the form of a carbonized activated material network, or in the form of carbon-filled paper.  3. The method according to claim 1, characterized in that as heat-resistant and non-combustible fibers use, for example, phenylone or acetochlorin.  4. The method according to claim 1, characterized in that, for example, acetochlorin or rayon is used as non-combustible synthetic and artificial fibers.

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