RU190055U1 - FLEXIBLE PROTECTIVE SLEEVE - Google Patents

Abstract

The utility model relates to railway transport and relates to the design of a flexible protective sleeve of the cable of an electric locomotive intersectional electrical connection system. The material of the flexible protective sleeve is a tarpaulin cloth impregnated with flame retardant. The area of canvas canvas fabric is sewn using a sewing method, a reinforcing mesh of high-strength sewing threads with square-shaped cells, and the edges of the canvas are made with overlapping seams. In addition, each neck is made with a hem of the web edge with two stitches of a connecting overlay sewing stitch overlaid from the side of the folded edge of the web and the location of the folded edge of the web in the cavity of the tubular structure. Reinforcing mesh is made of kapron threads. The mesh dimensions of the reinforcing mesh are (35 ± 10 × 35 ± 10) mm. The useful model is aimed at providing high strength, durability while maintaining the flexibility of the protective sleeve when manufactured from traditional materials, such as canvas fabric.

Description

The invention relates to railway transport and concerns the design of the flexible protective cable sleeve of the system of intersectional electrical connections of electric locomotives.

The flexible protective sleeve of the cable system of the intersectional electrical connections of the VL10 electric locomotive is known (see Alyabyev S.A., Gorchakov E.V., Osipov S.I., Riedel E.E., Khlebnikov V.N. Design and repair of DC electric locomotives. The textbook for technical schools of railway transport. M., "Transport", 1977. 464 p., P. 280-283). Known flexible protective sleeve is made of canvas canvas fabric of rectangular shape with the formation of a single-layer tubular design by connecting two opposite edges of the longitudinal connecting stitching seam. The purpose of a flexible protective sleeve is to protect the cable of the intersectional electrical connections of an electric locomotive against the influence of external mechanical and climatic factors. This flexible protective sleeve is characterized by simplicity of design.

The disadvantages of the known flexible protective sleeve of the cable system of intersectional electrical connections associated with a single layer structure. The disadvantages are relatively low resistance to tensile loads, low resistance to tensile loads, low wear resistance, especially when the humidity of the canvas fabric is high under the influence of precipitation, when snow sticks, when ice forms, and when there is a high content of dust in the ambient air.

The closest in technical essence to the claimed utility model are flexible protective sleeves for cables of mechanical engineering, railway engineering, aircraft building, shipbuilding and military industry, designed to eliminate the negative impact of the environment and made of special fabrics such as fiberglass with silicone coating or silica fabric with coating based on silicone or polyurethane (see http://promtehformat.com/catalog/zaschita-rvd/tekstilnaya-zashchita-rvd/).

These protective sleeves have high strength, good flexibility and low weight and are single-layer and two-layer. The single-layer protective sleeve is stitched with a high-strength para-aramid thread with a steel core, which ensures reliability in tensile strength the same as a one-piece protective sleeve. The two-layer protective sleeve provides better resistance to mechanical stress, in particular to abrasion. The two-layer protective sleeve can rub over the outer layer, while the inner layer will continue to perform its direct function until complete failure.

A disadvantage of the known flexible protective sleeves compared with canvas fabric and nylon thread is the high cost of fabrics used and para-aramid yarn.

The technical result, which is achieved by the claimed utility model, is to provide high strength, durability while maintaining the flexibility of the protective sleeve of the cable of the electric locomotive intersectional electrical connections when manufactured from traditional materials such as canvas fabric.

This technical result is achieved as follows. The flexible protective sleeve of the cable of the intersectional electrical system of the electric locomotive is made of non-combustible, water-repellent high-strength textile fabric with the help of sewing seams with the formation of a tubular design with neck ends. As a material for a flexible sleeve, a tarpaulin cloth impregnated with flame retardant is used. The area of canvas canvas fabric is sewn using a reinforcing mesh of high-strength sewing threads with square-shaped cells, and the edges of the fabric are made with overlapping stitches, each neck is made with a hem of the edge of the fabric with two lines of a connecting overlay sewing stitch on the side of the folded edge of the fabric and the location of the folded edge of the blade in the cavity tubular design. Reinforcing mesh is made of kapron threads. The mesh dimensions of the reinforcing mesh are (35 ± 10 × 35 ± 10) mm.

The essence of the claimed utility model is illustrated by drawings, where:

in fig. 1 shows a photographic image of flexible protective hoses used on serial electric locomotives;

in fig. 2 is given a photographic image of a flexible protective sleeve of the claimed utility model;

in fig. 3 shows a flexible protective sleeve;

in fig. 4 shows section A-A in FIG. 3;

in fig. 5 shows a fabric of a fabric of a flexible protective sleeve with a reinforcing mesh applied from the sewing method of high-strength sewing threads with square-shaped cells and the edges of the fabric made with overlapping seams.

Due to the fact that the graphic images of the figures of the claimed utility model are not readable with the vertical arrangement of the long sides of the sheet, it was advisable to arrange the sheets with these figures horizontally, which made it possible to significantly enlarge the drawings.

The flexible protective sleeve 1 of the cable 2 of the intersectional electrical system 3 of the electric locomotive 4 is made of a non-flammable, water-repellent, high-strength textile fabric web 5 using sewing stitches 6 to form a tubular structure 7 with 8.1 and 8.2 necks at the ends. The material of the flexible sleeve 1 is a tarpaulin cloth impregnated with flame retardant. The area of the canvas 5 of canvas fabric is sewn using a reinforcing mesh 9 of high-strength sewing threads 10 with 11 square-shaped cells, and the edges 12.1, 12.2, 12.3 and 12.4 of the canvas 5 are made with overlapping seams 13, and the necks 8.1 and 8.2 are made with bending of the edge webs 5 with the overlap of two lines 14.1, 14.2 and 14.3, 14.4, respectively, connecting overhead sewing stitches 15.1 and 15.2 from the side of the folded edges 12.1 and 12.2 of the blade 5 and the location of the folded edges 12.1 and 12.2 of the blade 5 in the cavity of the tubular design 7. Reinforcing mesh 9 made caprono bubbled yarns 10. Cell 11 9 constitute reinforcing mesh (35 × 35 ± 10 ± 10) mm.

The main advantages of a flexible protective sleeve 1, made of a single layer of canvas fabric with a reinforcing mesh 9 of nylon thread:

- increased resistance to tensile loads;

- increased resistance to breaking loads;

- increased wear resistance;

- increased resistance to high humidity and temperature changes;

- ecological cleanliness;

- low cost.

Claims (3)

1. Flexible protective sleeve of the cable system of intersectional electric connections of an electric locomotive made of non-combustible water-repellent high-strength textile fabric cloth with the help of sewing seams with forming a tubular design with neck ends, characterized in that it is made of tarpaulin fabric impregnated with flame retardant, the area of which reinforced mesh of high-strength sewing threads with square-shaped cells is applied by sewing method, and the edges of the fabric are made with obmetochnymi seams, while ach podgibkoy neck provided with edge webs with the superposition of two lines connecting the applicator sewing seam from the hem edge webs and edge webs hem positioned in the cavity of the tubular structure. 2. A flexible protective sleeve according to claim. 1, characterized in that the reinforcing mesh is made of nylon threads. 3. Flexible protective sleeve according to claim. 1, characterized in that the dimensions of the mesh of the reinforcing mesh are (35 ± 10 × 35 ± 10) mm.

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