RU2329429C2 - Pipe - Google Patents

Abstract

FIELD: transportation.

SUBSTANCE: damping layer is applied onto the inner adhesive layer, the former being made in the form of a pack of roving layer consecutively wound helically-crossed on the adhesive layer, a sealing layer, for example, in the form of tape, and helically-crossed and circular roving layer with a binder to increase dissipation and damping of the outside shock power in the damping pack and an reinforcing layer.

EFFECT: higher reliability at impact loads.

1 dwg

Description

The invention relates to pipes made of composite materials.

Known pipe containing the inner primer (adhesive) and reinforcing layers - patent RU No. 2095676 C1, F16L 9/133.

By its characteristics and the achieved result, this pipe is closest to the claimed one and adopted as a prototype.

The disadvantage of such a pipe is its low reliability under impact loads. In this case, the reinforcing layer is destroyed and the pipe fails, which is explained by insufficient dissipation (dispersion) and absorption of impact energy by the pipe wall.

The objective of the invention is to increase the reliability of the pipe.

This problem is solved by improving the pipe containing the inner, adhesive and reinforcing layers.

The improvement lies in the fact that the pipe is made with a damping layer located between the adhesive and reinforcing; the damping layer is made in the form of a package of sequentially wound spiral-cross layer of roving, a layer of sealing material and a spiral-cross and annular layers of roving with a binder.

The implementation of the pipe with a damping layer located between the adhesive and reinforcing layers, allows to increase the dispersion and absorption of impact energy acting on the reinforcing layer in it, thereby reducing the likelihood of destruction of the latter and thereby improve the reliability of the pipe.

The implementation of the damping layer in the form of a package of sequentially wound spiral-cross layer of roving, a layer of sealing material and a spiral-cross and annular layers of roving with a binder allows you to increase the dissipating and absorbing ability of the impact energy of the damping layer due to the sequential transfer of impact to hard (circular and spiral-cross ) roving layers, malleable (layer of sealing material) and reduced stiffness (spiral-cross) layer of roving, and thereby further increase Pipe reliability.

Below, with reference to the attached drawing, a description of the proposed pipe.

It contains an inner 1 (sealing-lining), adhesive 2 and reinforcing 3 layers.

The pipe is characterized in that it is made with a damping layer 4 located between the adhesive 2 and the reinforcing 3 layers (thereby providing increased dissipation and damping of the energy of the external impact by the pipe wall).

The damping layer 4 can be made in the form of a package of spiral-cross roving layer 5 sequentially wound on the adhesive layer 2, a sealing material layer 6, for example, in the form of a tape and spiral-cross 7 and an annular 8 layers of roving with a binder (thereby increasing dispersion and damping the energy of the external impact in the damping package).

The pipe can be made with any endings (not shown in the drawing). The pipe according to the invention (due to the increased dissipation and absorption of the energy of an external impact by the wall of the pipe) is characterized, in comparison with the prototype, by increased reliability in conditions of work with shock loads.

Claims (2)

1. The pipe containing the inner, adhesive and reinforcing layers, characterized in that it is made with a damping layer located between the adhesive and reinforcing. 2. The pipe according to claim 1, characterized in that the damping layer is made in the form of a packet of sequentially wound spiral-cross layer of roving, a layer of sealing material and a spiral-cross and annular layers of roving with a binder.