RU2374959C1 - Protective material - Google Patents

Abstract

FIELD: personal demand items.

SUBSTANCE: protective material includes elastic fire-resistant cloth and consists of hexahedral sheets attached to each other according to shape of comb and arranged with upper ones overlapping lower ones. Each hexahedral sheet is attached as overlapping with its one lateral side to edge of neighboring hexahedral sheet and lower edge of the same side to upper edge of adjacent side of downstream sheet.

EFFECT: invention provides for improvement of ventilation under clothes made of fire-resistant cloth.

2 cl, 3 dwg

Description

The invention relates to coating materials, for example, for the manufacture of fire retardant workwear for metallurgists.

In the hot shops of metallurgical plants, in particular in the production of aluminum, workers have to work in close proximity to incandescent materials. It is known that aluminum melts at a temperature of 660 ° C, and the boiling point is close to 2500 ° C [Sevryukov NN, Kuzmin B.A., Chelishchev E.V. General metallurgy. M., Metallurgy, 1976. P.367]. When feeding the bath with alumina with a pneumatic hammer, break the crust, immerse the next portion of alumina into the melt and mix them [Sevryukov N.N., Kuzmin B.A., Chelishchev E.V. Ibid., S.428], while fiery particles and splashes of molten metal fly. In the magnesium method of refining aluminum, magnesium and zinc are distilled off at 900–950 ° C and, by tilting the furnace, aluminum is poured into ingots or weyber bars [Ibid .: C.441-443]. Thus, in the production of aluminum, high temperatures are used, while fiery particles, scattering or splashing, fall on the worker, burning clothes and causing burns to the body. The well-known fire-retardant fabrics from which fire-retardant clothing for metallurgists are made do not allow air to pass through, and under such clothes there is practically no ventilation, which causes the worker’s body to overheat and reduces its working capacity. It was established that the provision of protective, operational and other requirements for workwear is possible not only by the use of the necessary fabrics, but also by the use of structural elements [Yanchevskaya EA Designing clothes. M., Academia, 2005. P.268]. The absence of a fire-retardant material with breathability prompted us to develop a new constructionally protective material that allows ventilation under it.

Known protective flame-retardant textile material according to the patent of the Russian Federation No. 2203993, representing the basis of nylon fabric and applied to it a polymer fire retardant coating based on low molecular weight siloxane rubber.

The disadvantage of this protective material is its lack of signs providing improved ventilation under clothing made of fireproof fabric by imparting breathability to the protective material.

Known cover layer of protective clothing according to the patent of the Russian Federation No. 95119057, which is made of insulating thermo, fire and aggressive resistant material based on fiberglass with a fluoroplastic coating applied to it. Its front side contains a metallized coating, and the back - a flexible film-resistant heat-resistant coating, for example of fluoronite - 107 TP, and intermediate layers made of alternating non-woven or non-woven-piercing materials based on non-combustible fibers, such as armide, and insulating materials similar in properties and the composition of the coating layer.

The disadvantage of this protective material is its high cost, it does not show signs of improving ventilation under clothing made of fireproof fabric by imparting breathability to the protective material.

Known non-woven material according to the patent of Russian Federation No. 2278191, containing two layers, one of which includes a continuous web of threads, and the second consists of an arbitrary number of flat and thread-like pieces of various sizes, stacked one on top of the other or placed one between the other. On the outside of the material, loops of filaments and fibers of layer components are formed.

The disadvantage of this material is that if fire particles or splashes of molten metal get on it, it is destroyed. It does not show signs of improving ventilation under clothing made of fire retardant fabric by imparting breathability to the protective material.

Known protective material with a fire-retardant coating according to the patent of the Russian Federation No. 2294414, consisting of a fabric base and a flame retardant cured coating based on low molecular weight siloxane rubber, the fabric base containing a fabric of nylon, polyester and cotton fibers, while the base fabric contains a nylon thread , and in the weft - twisted cotton-polyester thread

The disadvantage of this protective material is that it does not show signs of improving ventilation under clothing made of fire-retardant fabric by imparting breathability to the protective material and improving ventilation under it.

The closest in technical essence and the achieved result to the proposed is a protective material according to the patent of the Russian Federation No. 2294414, which we take as a prototype, and its disadvantages are described above.

The technical result of the invention is to provide improved ventilation under clothing made of fireproof fabric by imparting breathability to the protective material.

The technical result of the invention is achieved by the fact that the protective material includes an elastic fire-resistant cover fabric and consists of hexagonal sheets fastened together in the shape of a honeycomb and placed on top of the lower sheets, each hexagonal sheet attached to the edge of one adjacent side of the hexagonal sheet and lower edge of the same side to the upper edge of the adjacent side of the underlying sheet.

In a preferred embodiment, the hexagonal sheets are fastened with fire resistant threads or heat-resistant adhesive.

The essence of the technical solution is illustrated by drawings. Figure 1 shows a sheet of protective material, a front view from the front side. Figure 2 - detail - a hexagonal sheet, a view from the front side. Figure 3 is the same, rear view (from the inside). Figure 1-3 marked: 1 - the front surface of the hexagonal sheet, 2 - the upper left edge of the hexagonal sheet, 3 - the upper right edge of the hexagonal sheet; 4 - the left side edge of the hexagonal sheet; 5 - the right side edge of the hexagonal sheet; 6 - the lower left edge of the hexagonal sheet; 7 - the right lower edge of the hexagonal sheet; 8 - the back surface of the hexagonal sheet; 9 - zone of placement of the retainer (glue) on the back surface at the left side edge of the hexagonal sheet; 10 - zone of placement of the retainer (glue) on the back surface at the lower left edge of the hexagonal sheet.

A specific example of a technical solution. Under the word "fabric" is understood: woven material; a product made by weaving; a system of cells or waste products of animals and plant organisms (Ozhegov SI Dictionary of the Russian language. 22nd edition. M., Russian language, 1990. P.797). The word “material” refers to items that go into the manufacture of something (Ibid., P. 344). Therefore, the protective material according to the claimed design is made, for example, of the Piroviteks elastic fire-resistant protective fabric, intended for protection against open flame, electric arcs, sparks and splashes of molten metal (registration number AE. 44 N 00184 from 07/06/2006. Appendix to the sanitary -epidemiological conclusion No. 78.01.06.837. P. 000067.01.03 dated January 10, 03. Certificate of Conformity No. POCC. RU. AE 44. Н00184, valid for 01.10.08 No. 0142546). Since clothing made from this fabric does not allow air to pass under the clothing, which impairs ventilation under it, the design of the claimed protective fabric is hexagonal sheets fastened together in the shape of a honeycomb and placed on top and bottom lined in the same direction. Hexagon sheets fastened with heat-resistant adhesive. Each hexagonal sheet is attached by a portion 9 to the overlap of the reverse side of the left side to the edge of the front surface of the adjacent hexagonal sheet and the lower edge 10 of the same side to the upper edge of the front surface of the adjacent side of the lower sheet. In this sequence, the remaining hexagonal sheets are attached, forming a protective material with a gap-window under the lower right edge 7 above the lower sheet and with a gap-window over the upper side edge 2 under the right lower edge of the upper sheet.

The significance of the differences of the claimed material from the selected prototype is as follows. The implementation of the protective material from hexagonal sheets fastened together in the shape of a honeycomb and placed on top in the upper and lower layers in one direction, ensures free rolling of sparks and splashes of molten metal from the surface of the material, which increases the reliability of protection from damaging effects on clothing and body person. It is known that the main task of the fabric and construction of overalls is to exclude the possibility of adhesion of a drop of molten metal to the surface of the material [Zhilisbaeva P.O. Ibid., P.31]. The design of the claimed flame retardant material provides this task. The attachment of each hexagonal sheet with one side overlay to the edge of the adjacent hexagonal sheet and the lower edge of the same side to the upper edge of the adjacent side of the underlying sheet helps to maintain a window clearance between the sheets at one top and one opposite bottom edge covered by the top sheet. When the metallurgist moves through the lumen-window, air freely passes under the protective material, which improves ventilation under it. Scientific studies have established that under the influence of heat, a person’s working capacity decreases, and a decrease in working capacity during the work of a metallurgist associated with dangers is unacceptable, therefore, constant measures are required to limit the time and intensity of thermal effects on the human body [Zhilisbaeva P.O. Ibid., S.26-27]. The design of the claimed technical solution provides improved ventilation under the material. Attaching hexagonal sheets by sewing with fire-resistant threads or fastening with heat-resistant adhesive provides increased reliability of their attachment when working in high temperature conditions.

Thus, the claimed protective material in the aggregate of its features improves the quality of safety measures and leads to an increase in the productivity of metallurgists in hot shops and creates an economic effect.

The application of the invention is possible in the manufacture of model clothes, integumentary building or decorative materials.

Claims (2)

1. Protective material, including an elastic fire-resistant cover fabric, characterized in that it consists of hexagonal sheets fastened together in the shape of a honeycomb and placed on top of the lower sheets, each hexagonal sheet attached to the edge of the adjacent hex side sheet and the lower hex sheet edge of the same side to the upper edge of the adjacent side of the underlying sheet. 2. The protective material according to claim 1, characterized in that the hexagonal sheets are fastened with fire-resistant threads or heat-resistant adhesive.

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