SU1537724A1 - Woven reinforcement skeleton for hoses - Google Patents

Abstract

The invention relates to the textile industry, relates to woven power frames for use as a power frame for heat resistant couplings and sleeves for pumping liquids under pressure, in particular with staples, and allows for increasing strength properties in the longitudinal direction of the fabric and increasing its bond strength with coating . The woven force frame is made of twisted main and weft threads, the number of overlappings of which is 10 ... 14 per 1 cm ^2, with a clearance area of 46 - 54%, and the ratio of the diameters of the main and weft threads is between 3.6 and 4, 4, with the main ones being synthetic yarns, and the weft yarns are cotton. 1 il. 1 tab.

Description

The invention relates to the textile industry, in particular to the production of technical fabric used as a power frame for flexible rubber-fabric hoses for pumping liquids under pressure, in particular alcohols, and can also be used in the manufacture of rubber products, such as heat resistant couplings.

The purpose of the invention is to improve the performance properties of the fabric by increasing the strength of the frame in the longitudinal direction and the strength of its bond with the coating.

The drawing shows the fabric construction.

Twisted synthetic base yarns 1, bound with twisted

cotton weft threads 2, form the overlap - the main (A0) and weft (Av). The number of overlaps per unit of tissue area was chosen to be 10-14 per 1 cm2, while the area of the lumen fields is 46-54%, and the ratio of the diameters of the main and weft threads is 3.6-4.4.

The proposed woven carcass allows the number of pads in the sleeve to be reduced by a factor of 2-3, while simultaneously increasing the resistance to hydraulic pressure by 2 times and to ensure solidity of the hands by increasing the bond strength of the rubber coated carcass by 1.7-2.0 times.

A decrease in the ratio of diameters and the number of overlaps below the lower limits leads to a decrease

Sl

00

J

to

-u

strength properties of the frame in the longitudinal direction, which with the existing two-layer imposition of the woven frame does not provide the required resistance to hydraulic pressure in the hose. In addition, there are technological difficulties in cutting fabric into strips; causing transverse displacement of the main thread, which does not provide the necessary margin of safety in the finished sleeve.

With an increase in the diameter ratio and the number of overlaps of the main and refined yarns by 1 cm2 above the upper limits, its strength with a rubber coating decreases due to a decrease in the areas of the lumen fields. The increase in the density of the woven carcass and its thickness cause a decrease in the flexibility of the sleeve.

Example 1. The woven power frame for the sleeves is formed by interlacing twisted main and weft threads. The main threads are twisted polyester with a diameter of 0.73 mm, weft threads are cotton with a diameter of 0.19 mm. The area of the lumen fields in the woven frame is 54%. The number of overlaps of the main and weft threads is 14 per 1 cm2. The ratio of the diameters of the main and weft threads is 3.6. The breaking load on the basis of a strip of fabric with a size of 30x200 mm is equal to 668 daN, the bond strength of the carcass with rubber rubber, / n .- is

3.3 kt c / cm,

P Z, the power frame for arms is formed by interlacing twisted main and weft threads. The main threads are polyester with a diameter of 0.76 mm, weft - cotton with a diameter of 0.19 mm. The surface area of the frame lumen is 48.5%. The number of overlaps of the main and weft threads is 13 per 1 cm2. The ratio of the diameters of the main and weft threads is 3.8. The breaking load on the basis of a 50x200 mm fabric strip is equal to 675 daN, the bond strength of a rubber-coated carcass is 2.9 kgf / cm.

The woven carcass, made according to examples 1 and 2, was tested in the manufacture of the hoses of the winding structure designed for pumping alcohols. The strength characteristics of the frame provide a 10-fold margin of safety in the sleeve.

five

0

five

0

five

0

five

0

five

The actual breaking pressure is 9.8 MPa. In addition, the proposed frame is characterized by high bond strength indicators with a coating of 2.9-3.3 kgf / cm, which ensures the integrity of the sleeve during operation.

PRI me R 3. The fabric for the power frame of the flexible hose is made of heat-resistant polyester twisted main yarn with a diameter of 0.82 mm and twisted cotton weft yarn with a diameter of 0.19 mm. The surface area of the frame lumen is 47.6%. The number of overlaps of the main and weft threads is 11.3 per 1 cm2. The ratio of the diameters of the main and weft threads is 4.3. The breaking load on the basis of a 50 mm x 200 mm fabric strip is 669 daN, the bond strength with a rubber coating is 2.5 kgf / cm.

PRI me R 4. The fabric for the power frame of the flexible hose is made of heat-resistant polyester twisted main yarns with a diameter of 0.87 mm and twisted cotton weft yarns with a diameter of 0.19 mm. The area of the frame clearance of the frame is 46.0%. The number of overlaps of the main and weft threads is 10 per 1 cm2. The ratio of the diameters of the main and weft threads is 4.4. The breaking load on the basis of a 50 x 200 mm fabric strip is 7 10 daN, the bond strength with a rubber coating is 2.2 kgf / cm.

The woven frame, made in accordance with examples 3 and 4, was tested in the production of heat resistant rubber-fabric couplings used for compaction of air communications on diesel engines. The service life of the coupling with the proposed power frame increased by 10 times (5000 hours versus 500-600 hours for known fabric). In addition, the use of the woven carcass as proposed in examples 3 and 4 makes it possible to increase the heat resistance of the coupling.

Technical characteristics of the proposed and known woven frame are shown in the table.

As can be seen from the table, the proposed woven frame has a lower capacity compared to the known fabric, increased breaking load on the base and bond strength, coated.

The proposed structure of the woven power cage allows, compared with the known fabric, a 2-fold reduction in the number of gaskets in the sleeve while simultaneously increasing the resistance to hydraulic pressure by 2.5 times and ensuring the cohesiveness of the sleeve by increasing the bond strength of the coated fabric.

Claims (1)

Invention Formula Woven frame for sleeves containing twisted main yarns and twisted weft yarns and having a clearance area of 46–54%, with the aim of improving the strength of the fabric in the longitudinal direction in order to improve the performance of the fabric and the strength of its coated bond, the main yarns are synthetic yarns, the weft yarns are cotton yarns, and the number of overlaps of the main and weft yarns is in the range 10-14 per 1 cm2, and the ratio of the diameters of the main 5 and weft yarns are in the range of 3.6-4.4. Tensile load of a strip of fabric 50x200 mm in size on the base, d N Surface density, g / m1 Thickness of fabric, mm Area of lumen fields per unit area of fabric, I The bond strength of the fabric with the coating of silicon, kgf / cm The ratio of the diameters of the main and weft threads The number of overlaps of the main and weft threads per 1 cm 675 275 0.9 669 230 0.8 710 245 0.76 770 283 0.94 450 209 0.81 48.5 47.6 46.0 44.5 55.6 nt } ° At