RU2499942C1 - Compensating branch pipe - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: compensating branch pipe contains two-corrugated rubber-cord casing on which edges flanges are fixed by bolts. Inside corrugations of rubber-cord casing there installed are metal rings with a gap Δ=1-20 mm relative to the inner diameter of corrugations interconnected by one or several couplings.

EFFECT: providing form and stability of compensating branch pipe due to exclusion of damage to sealed layer during operation.

3 dwg

Description

The invention relates to rubber products and can be used on pipelines operating under conditions of action of both excess pressure and vacuum.

Known pressure-suction sleeve (V. A. Lepetov, L.N. Yurtsev / Calculation and design of rubber products, Chemistry. - 1987. - S.167-168), containing an internal rubber chamber, fabric gasket, intermediate rubber layer, fabric sheath and wire spiral for stability under vacuum.

A disadvantage of the known sleeve is the complexity of the design and technology of its manufacture, and also the lack of stability of the form under the action of vacuum.

The closest in technical essence and the achieved technical result prototype is a compensating branch pipe of the company Frenzelit (prospectus of the company Frenzelit Werke GmbH 2012 http://www.frenzelit.ru/4245_aeue_html), containing a coating layer that carries the frame, a hermetic layer, a vacuum ring, rigidly fixed to hermetic layer.

A disadvantage of the known prototype is that in the zone of attachment of the vacuum ring to the hermetic layer in operation with pulsating, vibrational and peak loads, stress concentration occurs, fatigue damage of the hermetic layer, as a result of which the tightness is violated, the vacuum ring unfolds and the pipe loses stability.

The objective of the invention is to eliminate this drawback, the technical result of which will be to ensure the shape and stability of the compensation pipe, eliminating the displacement of metal vacuum rings under vacuum, eliminating damage to the pressurized layer in operation.

The specified technical result is achieved due to the fact that the compensation pipe containing a two-ribbed rubber-cord shell, on the sides of which flanges are bolted, differs in that metal rings with a gap Δ = 1-20 mm relative to the inner diameter of the corrugations connected between one or more screeds.

The invention is illustrated by drawings:

figure 1 - section of the compensation pipe;

figure 2 - place a in figure 1 fastening screeds of metal rings;

figure 3 - axonometric projection of the compensation pipe with metal rings.

The compensating branch pipe contains a rubber-cord two-corrugated shell 1, on its sides 2 bolts 3 fasten flanges 4, 5, two metal rings 6, are installed inside the corrugations of the rubber-cord shell 1 with a gap Δ = 1-20 mm relative to the inner diameter of the corrugations and are interconnected by one or more screeds 7 (figure 2, 3). The gap Δ depends on the size of the pipe. Cotter pins 8 fix the couplers 7 on the rings 6.

The pipe works as follows.

In operation, a pipe installed between the flanges of the pipeline retains its shape when rarefaction occurs due to metal rings 6 with ties 7. Couplers 7 prevent the rings from being turned relative to each other.

The tests showed that when working with a vacuum of up to 0.08 MPa, the compensation pipe according to the invention retains its shape and stability, while the compensation pipe according to the prototype even at a vacuum of 0.04-0.05 MPa changes its shape ("folds") . Prototype nozzles have withstood the test under conditions of cyclic loading (20 thousand cycles) on the action of a vacuum of 0.08 MPa. After testing on the inner surface of the nozzles no defects and abrasions were found.

The use of the present invention will improve the reliability and durability of the operation of the compensation pipe in a vacuum.

Claims (1)

Compensating nozzle containing a two-ribbed rubber-cord casing, on the sides of which flanges are bolted, characterized in that metal rings with a gap of 1-20 mm relative to the inner diameter of the corrugations, interconnected by one or more ties, are installed inside the corrugations of the rubber-cord shell.

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