RU2011099C1 - Flexible pipe line - Google Patents

Abstract

FIELD: transportation of working medium at high temperature. SUBSTANCE: pipe line consists of two flexible envelopes located coaxially. Envelopes are made of profiled band coiled spirally in opposite sides. Longitudinal edges of band of each envelope are made in form of ridges. Envelopes are mutually twisted about axis, each in direction of coiling. EFFECT: enhanced reliability. 2 dwg

Description

 The invention relates to air ducts for transporting a working medium of high temperature and can be used in exhaust systems of engines, power plants in ventilation systems of the metallurgical industry.

 Flexible pipelines (sleeves) are known, formed by spiral winding of a profiled tape with laying an asbestos cord profile in a groove to seal the joint of the tape edges.

 However, due to the one-sided direction of winding, the drawback of this design is the tendency of the folded tape to reverse deployment.

 Also known is the design of a flexible conduit consisting of two tapes spirally wound together with an asbestos cord in opposite directions in the form of coaxially located shells. This design mutually balances both shells and eliminates their spontaneous deployment. However, during the operation of these pipelines in severe conditions under the influence of high temperature and vibrations, a gradual destruction of the asbestos cord occurs and the pipeline loses its required tightness.

 The purpose of the invention is to increase the durability of the flexible pipe when working in harsh conditions.

 In FIG. 1 shows a flexible conduit; in FIG. 2 - sectional profiled pipeline elements.

 A flexible pipeline consists of coaxially located outer 1 and inner 2 flexible shells formed by spiral winding of a profiled tape, which are sealed at both ends using cups 3 and 4 on the nozzles 5. The edges of each profiled element are made in the form of half halves 6. Outer 1 and inner 2 shells are wound in opposite directions and, before fixing, are mutually twisted around the axis of the pipeline in opposite directions in the direction of winding until the gaps are completely selected and a tight elastic fit Nia windings to each other at the interface polugofrov 6 with cylindrical surfaces 7. After fixing the outer 1 and inner shell 2 is held to each other in a twisted state. The necessary tightness and rigidity of the pipeline are provided by the degree of mutual twisting of these shells.

 During operation, the flexible pipe allows any kind of movement of its ends due to the mutual displacement of the turns of the profiles, and the elastic springing of the edges of the tape, made in the form of a half-hemisphere 6. Its tightness is not violated, since the mutual elastic contact of the half-hemispheres 6 with a cylindrical surface 7 does not deteriorate, or even amplified on one of the shells 1 or 2 when twisting the ends. Since the proposed pipeline can have significant bending stiffness, this prevents its sagging at large distances between the connected pipelines.

 The shown advantages ultimately provide a significant increase in the reliability of the flexible pipeline with any kind of movement of its ends under conditions of high temperatures and vibrations. (56) Gusenkov A.P. et al. Unified Flexible Elements of Pipelines. Reference manual, M., Publishing house of standards, 1988, p. 25.

 Kryukov A.I. et al. Flexible metal sleeves, M., Mechanical Engineering, 1970, p. 6.

Claims (1)

 FLEXIBLE PIPELINE, consisting of two coaxial flexible shells of profiled tape, helically wound in opposite directions, characterized in that the longitudinal edges of the profiled tape of each of the shells are made in the form of zigs, and the shells themselves are mutually twisted around the axis each in the direction of winding.

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