RU2321693C2 - Interlaced cord for electro-technical industry - Google Patents

Abstract

FIELD: invention refers to textile industry and production of interlaced cords.

SUBSTANCE: it may be applied in different fields of technique preferably in electro-technique industry in quality of insulation material for wrapping windings of electric machines and for making up bundles of insulated electric wires and other objects. Interlaced cord for electro-technique industry is filamentous body of tubular shape formed by interlacing under angle of crossing from 30^o to^.80°, even number of fibers of braiding are divided on two equal parts, in each of them fibers of braiding are placed along spirals in right and left directions with lifting angle of screw line from 50° to 75°, on surface there are formed convex diamond-shaped cells presenting elements of design of interlacing "matting 2/2". Coefficient of packing of cord is in limits from 0,42 to 0,67, resistance to decoupling of one-loop unit of cord tightened with effort 5,0 kgs is no less then 200 gs.

EFFECT: provides insulation material.

Description

The invention relates to the textile industry and for the production of braided cords, which can be used in various industries, mainly in the electrical industry as an insulating material for bandaging the windings of electrical machines and for picking bundles of insulated electrical wires and other items. In addition, the cord can be used in the shoe industry as a shoe cord.

The main technical requirements for the quality indicators of braided banding and picking cords are high breaking load (not less than 22 kgf) and sufficient (not less than 200 gf) resistance to unfastening a single-loop cord unit, tightened with a force of 5.0 kgf.

Known braided technical cords (ShTL 7-200, ShTK 1-8, ShTK 1-26, ShTK-1,7-16, ShTK 1,7-40 ShTK 2,5-55, ShTK 2,5-70, ShKtkr -23, ШКТ-50, ШКТКр-50, ШКП-60, ШКПкр-55), made in the form of a tubular whisker formed by two-strand weaving at an intersection angle of 30 to 80 ° of an even number of chemical braid threads, divided into two equal parts , in each of which the braid threads are located in spirals of the right and left directions with a helix angle of rise from 50 to 75 °. Each single braid thread in alternating order overlaps two and in turn is overlapped by two braids of the opposite direction, with each subsequent braid of one direction being shifted relative to the previous and subsequent threads of the same direction by a step equal to 1 thread. The surface of the cords consists of elements of the weave pattern “twill 2/2”, rotated relative to the longitudinal axis of the cord by an angle equal to half the angle of crossing. The packing factor of packing cords, defined as the ratio of the actual technological density of weaving to the maximum possible, is in the range from 0.4 to 0.7. The picking cords are formed on double-strand braiding machines with spindles in the 1/1 pattern.

Resistance to unleashing a one-loop assembly of picking cords, tightened with a force of 5.0 kgf, is up to 190 gs [GOST 2297-90 "Braided technical picking cords"].

Bundling cords of chemical threads mainly correspond to the intended purpose, but they have a significant drawback - low resistance to untying a single-loop knot of a cord, tightened with a force of 5.0 kgf (up to 190 gf), which in some cases leads to their spontaneous untying during operation of the products, containing picking cords, and is the cause of technological failures and the creation of emergency situations.

Known also are two-strand braided synthetic cords for banding the windings of electric machines (ShPSB-1.5 / 1, ShPSB-1.5 / 2, ShPSB-1.5 / 3), made in the form of a filiform body of a tubular shape formed by double-strand weaving at an angle crossing from 30 to 80 ° an even number of polyester (dacron) braid threads, divided into two equal parts, in each of which the braid threads are located in spirals of the right and left directions with a helix angle of rise from 50 to 75 °. Each single braid thread in alternating order overlaps two and in turn is overlapped by two braids of the opposite direction, with each subsequent braid of one direction being shifted relative to the previous and subsequent threads of the same direction by a step equal to 1 thread. The surface of the cords consists of elements of the weave pattern “twill 2/2”, rotated relative to the longitudinal axis of the cord by an angle equal to half the angle of crossing. The tightness factor of the banding cords ranges from 0.4 to 0.7. Banding cords are formed on double-strand braiding machines with spindles in the 1/1 pattern. The resistance to unfastening a single-loop knot of cords, tightened with a force of 5.0 kgf, is not more than 180 gs [TU 8153-007-00302379-2000 "Synthetic braided cords for banding the windings of electric machines"].

Polyester yarn cords are generally suitable for their intended purpose, but they, like all textile yarn cords of chemical yarns, have low resistance to untie (up to 180 gf).

The aim of the present invention is the creation of a woven cord for industrial use from man-made filaments, which has sufficient resistance to untying a single-loop knot cord, tightened with a force of 5.0 kgf (at least 200 gf).

This goal is achieved by the fact that the braided cord for technical purposes is made in the form of a tubular threadlike body formed by two-strand weaving at an intersection angle of 30 to 80 ° of an even number of chemical complex braid threads, divided into two equal parts, in each of which the braid threads spirals of the right and left directions with an angle of rise of the helix from 50 to 75 °. The braids of each direction are grouped into parallel, equally interwoven pairs of threads so that each pair of single braids in an alternating order overlaps two and in turn overlaps with two braids, each pair of braids of one direction is shifted relative to the previous and subsequent pairs of threads the same direction of the pair by a step equal to 2 threads, with the formation of convex rhomboid cells on its surface, each of which contains sections in alternating order two adjacent braiding threads of one of the directions, limited by braids of the opposite direction, forming on the surface of the cord elements of the weaving pattern “mat 2/2”, rotated relative to the longitudinal axis of the cord by an angle equal to half the angle of crossing (15-40 °). The coefficient of compaction of the cord is in the range from 0.42 to 0.67. Resistance to unleashing a single-loop cord assembly, tightened with a force of 5.0 kgf, is at least 200 gf.

The proposed braided cord for technical use is made on double-strand braiding machines of 16, 24, 40, 32, 52 classes with spacing according to the “2/2” pattern, with a spool-reel with a single braiding thread on each spindle. The proposed cord can also be manufactured on single-strand braiding machines with spindles according to the 1/1 scheme, with a spool-spool with two-way braided thread on each spindle.

To confirm the technical result of the invention, experimental samples of banding cords of the proposed design were made. The main technical characteristics of the cords of the proposed structures are given in the table.

The data in the table show that the claimed banding cords in comparison with analog cords in terms of the resistance to untying a single-loop node (200 ... 300 gs) are more suitable for the purpose for banding the windings of electric machines.

The prototypes of the banding cords of the claimed structure (SHPBB-2/25, ShPSB-2/55, ShPSB-2/85) with a positive result were tested at the Yaroslavl Electromechanical Plant of OJSC "ELDIN" with mechanical banding of the stators of electric machines.

According to the test results, these cords are recommended for industrial use. The technical specifications TU 8153-049-00302379-2005 "Polyester braided cords for banding the windings of electric machines" were compiled, agreed and approved on the braided polyester banding cords of grades ШППБ-2/25, ШППБ-2/55, ШППБ-2/85, and on the process of their production - technological regulations.

Examples of specific performance of the inventive braided cords The name of indicators Braided Polyester Banding Cords SHPPB-2/25 ShPPB-2/55 SHPPB-2/85 Width (half-perimeter), mm 1.5 ± 0.05 2,50 ± 0,05 6.00 ± 0.50 Thickness mm 0.28 ± 0.02 0.47 ± 0.03 0.39 ± 0.06 Linear density, g / m 0.45 ± 0.02 1.00 ± 0.03 1.55 ± 0.05 Cord Density 0.44-0.56 0.53-0.67 0.42-0.53 The number of braided threads (class) 16 16 × 2 52 Density of weaving of braiding threads per 1 cm 9.0 ± 1.0 9.0 ± 1.0 8.5 ± 1.0 Cord Density 0.44-0.56 0.53-0.67 0.42-0.53 Breaking load of a cord, kgf, not less 25.0 55.0 85.0 Elongation at break,%, no more 28.0 28.0 28.0 Raw material composition and linear density of braid threads Polyester thread (lavsan) 27.7 tex, resistant to the action of refrigerant and alcohol varnishes [heat resistance class "B" (130 ° C)] Shrinkage of the cord in hot air at a temperature of 200 ° C and exposure for 15 minutes,% 20.0 ± 2.0 20.0 ± 2.0 20.0 ± 2.0 Heat resistance at a temperature of 150 ° C and exposure for 4 hours,%, not less than 99.0 99.0 99.0 Weight loss of cord in solvents,%, not more than:
R-22 (C H Cl F2)
Methanol (C H3 O H)
Petrol 1,0
1,0
1,0 1,0
1,0
1,0 1,0
1,0
1,0 Loss of mass of the cord in non-freezing oils during exposure for 8 hours at a temperature of 125 ° С followed by exposure in an oven at a temperature of 150 ° С for 8 hours,%, no more 2.0 2.0 2.0 Resistance to untying a single-loop knot of a cord, tightened with a force of 5.0 kgf, gf, not less 200,0 250,0 300,0 Note.
Cord structure designation:
ShPPB - braided polyester banding cord;
fraction numerator (2) - cord spiciness;
denominator of the fraction (25, 55, 85) - nominal breaking load of the cord, kgf.

Claims (1)

A braided cord for the electrical industry, made in the form of a tubular threadlike body, formed by weaving at an intersection angle of 30 to 80 ° an even number of braid threads, divided into two equal parts, in each of which the braid threads are arranged in spirals of right and left directions with an angle lifting a helix from 50 to 75 °, characterized in that convex rhomboid cells are formed on its surface, each of which in alternating order contains sections of two adjacent braid threads of one of the directions Nij limited braiding yarns counter direction, forming on the surface of the drawing cord elements weave "matting 2/2", while the coefficient of compaction column is in the range of from 0.42 to 0.67.