RU2514455C1 - Flexible reinforced hose - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: flexible reinforced hose comprises rubber-cord shell and clamping mechanisms. Note here that dome-like recesses are made at hose wall and composed by a sphere of one radius or by two conjugated spherical radii. Note also that said dome-like recesses may be made as a truncated cone with radius conjugation over the wall and the vertex.

EFFECT: higher reliability, simplified design, lower material input.

8 cl, 6 dwg

Description

The invention relates to devices for transporting liquids under high pressure, subjected to periodic exposure to vacuum, and can be used, in particular, in shipbuilding in ship pipeline systems.

A device is known for a flexible reinforced sleeve (AS 979777 SU, IPC F16L 11/08, publ. 07.12.82, Bull. No. 45), consisting of an inner rubber layer, a spiral, a power cage, a self-sealing end element, a reciprocal pipe flange, rings, flange, longitudinally-fixing element, nipple, outer rubber layer and fabric gaskets. Under the influence of rarefaction, a spiral perceives a force aimed at the loss of stability of the sleeve in the radial direction, thereby preserving its operability.

A disadvantage of the known sleeve is the design complexity and sophisticated manufacturing technology, as well as its low reliability.

Known flexible reinforced sleeve (patent 2322631 RU, IPC F16L 11/08, publ. 04/20/2008, Bull. No. 11) containing a rubber-cord casing and a clamping mechanism, and the sleeve additionally has a special vacuum insert, which is a rubber sleeve, the outer diameter of which coincides with the inner diameter of the rubber-cord casing or has a smaller diameter, while the vacuum insert is provided with vulcanized metal tips at the ends, and metal rings are vulcanized in the rubber array.

A disadvantage of the known flexible reinforced sleeve is the insufficient reliability of its operation, the complexity of the design, the complexity of manufacturing, as well as increased consumption of materials.

The technical result of the invention is to increase the reliability of a flexible reinforced sleeve, simplifying the design and reducing material consumption.

The technical result is achieved by the fact that on the wall of the flexible armored sleeve there are domed recesses in the form of a sphere with one radius or in the form of two conjugate spherical radii, and domed recesses can be made in the form of a truncated cone with a radius mate along the wall and apex.

Dome-shaped recesses can be made on the outer surface of the wall of the flexible reinforced sleeve or on the inner surface of the wall of the flexible reinforced sleeve, as well as simultaneously on the outer and inner surfaces of the wall of the flexible reinforced sleeve, while the domed recesses are located relative to each other so that the radial plane drawn under at any angle from the center of the cross section of the flexible reinforced sleeve, passes through the dome-shaped recesses.

The invention is illustrated by the following drawings:

figure 1 - flexible reinforced sleeve:

a) above the center line, dome-shaped recesses are made on the outer surface of the sleeve wall;

b) below the center line, dome-shaped recesses are made along the inner surface of the sleeve wall;

figure 2 is a fragment of the wall of a flexible reinforced sleeve: dome-shaped recesses are made on the outer surface and inner surfaces of the sleeve wall;

figure 3 - the shape of the domed recess in the form of a sphere (enlarged scale);

figure 4 - the shape of the domed recess in the form of two conjugate spherical radii (enlarged scale);

5 is a shape of a dome-shaped recess in the form of a truncated cone with a radius mate along the wall and bottom;

6 is a section aa a flexible reinforced sleeve.

A flexible reinforced sleeve contains a rubber-cord casing, the wall of which consists of a cover layer 1, a power cage 2, a sealing layer 3 and contains clamping mechanisms 4. Dome-shaped recesses 5 are made on the wall of the rubber-cord casing 5, which may have the shape of a sphere 6 formed by one radius R (Fig. .3) either formed by two conjugated spherical radii R ₁ and R ₂ (Fig. 4), or have the shape of a truncated cone 7 with a radius conjugation of R ₃ along wall 8 and apex 9 (Fig. 5).

The dome-shaped recesses 5 are constructed in design either by a cover layer 1 with a power frame 2, or by a sealing layer 3 with a power frame 2. Dome-shaped recesses 5 can be made on the outer surface of the wall of the rubber-cord shell (Fig. 1, a) above the center line, or along the inner the surface of the wall of the rubber-cord shell (Fig. 1, b) below the center line, or at the same time along the outer and inner surfaces of the wall of the rubber-cord shell of a flexible reinforced sleeve (Fig. 2). The domed grooves 5 are located relative to each other so that the radial plane 10 drawn at any angle from the center of the cross section of the flexible reinforced sleeve passes through the domed grooves 5. Saturation of the surface of the flexible reinforced sleeve with domed grooves 5 formed by the cover layer 1 with the power frame 2 or formed by the sealing layer 3 with the power frame 2, dramatically increase the strength of the sleeve wall of a traditional design without the use of reinforcing parts, since Gender is one of the most effective forms of thin-walled spatial structures. This allows us to simplify the design of a flexible reinforced sleeve.

Flexible reinforced sleeve works as follows.

When a working medium is supplied under pressure into a flexible reinforced sleeve, each dome-shaped recess 5 of any shape at the top experiences tensile stress, and near the base it experiences compressive stress, which prevents the flexible reinforced sleeve from deforming in the radial direction. When working under vacuum, on the contrary, each dome of the dome-shaped recess 5 of any shape at the top experiences compressive stress, and near the base it experiences tensile stress. This allows you to reduce the axial forces arising in the flexible armored sleeve, and to reduce the load on the clamping mechanisms 4. When working both under pressure and under vacuum, the power frame 2, reinforced with dome-shaped recesses 5 of any shape, does not allow the sleeve to deform in the radial direction, maintains stability and geometric dimensions, reduces axial forces and load on the clamping mechanisms 4, which increases the reliability of the flexible armored sleeve.

The domed recesses 5 are located relative to each other so that the radial plane 10, drawn at any angle from the center section of the flexible reinforced sleeve, passes through the domed recesses, which improves the reliability of the flexible reinforced sleeve, especially when applying a vacuum, because the folding line is flexible reinforced the sleeves will always pass through the domed recesses 5.

Thus, the proposed technical solution improves the reliability of the flexible armored sleeve, simplify its design and reduce material consumption.

Claims (8)

1. A flexible reinforced sleeve containing a rubber-cord casing and clamping mechanisms, characterized in that domed recesses are made on the wall of the sleeve. 2. The flexible reinforced sleeve according to claim 1, characterized in that the domed recesses are made in the form of a sphere with one radius. 3. The flexible reinforced sleeve according to claim 1, characterized in that the domed recesses are made in the form of two conjugate spherical radii. 4. The flexible reinforced sleeve according to claim 1, characterized in that the domed recesses are made in the form of a truncated cone with a radius mate along the wall and top. 5. The flexible reinforced sleeve according to claim 1, characterized in that the domed recesses are made on the outer surface of the sleeve wall. 6. The flexible reinforced sleeve according to claim 1, characterized in that the domed recesses are made on the inner surface of the sleeve wall. 7. The flexible reinforced sleeve according to claim 1, characterized in that the dome-shaped recesses are made on the outer and inner surface of the sleeve wall. 8. The flexible reinforced sleeve according to claim 1, characterized in that the domed recesses are located relative to each other so that a radial plane drawn at any angle from the center of the cross section of the flexible reinforced sleeve passes through the domed recesses.

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