RU226895U1 - Bellows compensator - Google Patents

Abstract

Bellows expansion joints are designed to compensate for axial thermal expansion, pressure differences in the working environment, and relieve vibration of various systems. In a bellows compensator containing two tips (2, 3) connected by an all-metal corrugated bellows (4), the profile of the protrusions and depressions of the corrugations of which is made along a radius. The removable elements are made in the form of bushings (5) with a protrusion (9) on the inner surface, congruent with the depression of the corrugation in which it is located, and are located in the depressions of the bellows corrugations (4) at intervals. A protective casing (1) covering a corrugated bellows (4) with removable elements, one end rigidly fixed to the tip (2). The free end of the protective casing (2) is made with an L-shaped limiter (7) of the axial stroke, which interacts with the L-shaped extension (8) made on the tip (3). The guide inner sleeve (6) is made telescopic, and both of its parts are fixed to the tips (2 and 3), respectively. The technical result achieved when solving the problem is the guaranteed alignment of the bellows during bending moments, the elimination of excess axial travel, and the uniform operation of the bellows along its entire length. 2 salary f-ly, 3 ill.

Description

Bellows expansion joints are designed to compensate for axial thermal expansion, pressure differences in the working environment, and relieve vibration of various systems.

A known bellows compensator with a telescopic casing contains a bellows, tips, a telescopic guide sleeve, consisting of left and right parts located coaxially inside the bellows, and made with a limiter. The protective cover consists of left and right parts. The outer and inner surfaces of the tips are stepped, while on their outer surface a groove is formed for fixing the casing and a surface for fastening the ends of the bellows. The left and right parts of the protective casing are made with an L-shaped narrowing. The limiters for the axial travel of the compensator are for the right part of the casing - the end of the first tip, and for the left part of the casing - an L-shaped narrowing of the right part of the casing (patent No. 185 102, IPC F16L 51/02, publ. November 21, 2018).

The specified technical solution does not ensure uniform operation of the bellows along its entire length.

A metal bellows expansion joint for protection against instability is known, comprising a metal bellows, each of the two ends of which is connected by a circular connecting pipe, and a shell is located outside the metal bellows. A reinforcing ring is located on the outside between adjacent protrusions of the metal bellows. The shell includes an inner shell and an outer shell, in which the inner shell helically winds the reinforcing rings with a strip material, the outer shell helically winds the inner shell in the opposite direction, and each of the inner shell and the outer shell has a helical spacing; the two ends of the outer shell are firmly connected to the reinforcing rings at the two ends through the inner shell, each of the reinforcing rings at the two ends is firmly connected to the inner head surface of the corresponding ring plate, and the inner holes of the ring plates are firmly connected to the connecting pipes. The anti-instability metal bellows expansion joint can effectively prevent the instability phenomenon of the column-shaped expansion joint bellows under high stress state and/or after successive deformation; and, meanwhile, the unexpected fatigue damage of the expansion joint caused by the uneven deformation of the bellows can be effectively avoided, so as to maintain the long-term normal operation of the pipeline system (Patent No. CN 204164575, IPC F16L 51/02, publ. 02/18/2015).

The specified technical solution is quite complex to manufacture.

A membrane bellows is known that includes a plurality of diaphragms with outer and inner edges, the diaphragms following one another in the direction of the central longitudinal axis of the membrane bellows, alternately welded together in the area of their inner edges and in the area of their outer edges, resulting in a configuration , similar to an accordion. The sliding guide device of the membrane bellows has at least two annular parts. At least two annular portions, each of which extends no more than 180° in a circumferential direction about the longitudinal axis of the membrane bellows, and each of which has a guide portion and a retaining portion projecting from the guide portion in a direction in the longitudinal axis of the retaining portion projecting in intermediate space located between two adjacent diaphragms. The guide portion extends radially beyond two adjacent diaphragms, between which the retaining portion projects, and has a guide surface directed away from the longitudinal axis of the membrane bellows to guide sliding along the inner surface of the membrane bellows. The pipe surrounding the membrane bellows runs along at least part of its longitudinal extent (patent No. TW 201727116, IPC F16L 51/02, publ. 08/01/2017).

A known compensator for metal pipelines contains an inlet short pipe, an outlet short pipe and a coupling, inside which are located both opposite internal ends of the short pipes, forming between themselves a compensation gap in which a bellows element is placed, having at least one corrugation and capable of stretching and be compressed in the axial direction under the action of an applied external force, the two ends of the bellows element are respectively connected in a sealed manner to the inner ends of the two short pipes, and at least one of the two ends of the coupling is a free end with respect to the two short pipes, the top of the bellows element corrugation is made with the possibility of contact with the inner surface of the coupling wall, the cavity of the bellows element corrugation is equipped with a liner mating with the cavity, a gap is formed between the surfaces of the cavity and the liner to allow deformation of the corrugation without exceeding its elastic limit, the outer surface of the wall of the liner mating with the cavity of the corrugation is made with the possibility of contact with the inner surface of the coupling wall, while the liner has a multi-segment design (patent No. 2208194, IPC F16L 51/02, publ. 07/10/2003).

The closest in terms of the totality of essential features is a bellows compensator for pipeline deformations, containing two pipes connected by an all-metal corrugated pipe, the profile of the protrusions and depressions of the corrugations of which are made along a radius, associated with an undercut at an angle and in straight sections, removable reinforcing half-rings, tightened with fasteners and installed in depressions of the corrugations, and the profile of the reinforcing half-rings is formed by two inclined to each other at an angle at two straight sections with the apex of the angle oriented towards the corrugation protrusion, on the side of the corrugation depression conjugate at a radius equal to the radius of the profile of the corrugation depression, and on the protrusion side - turning into a profile that coincides with the profile of the corrugation protrusion in its extremely compressed position, while the maximum thickness of the reinforcing half-rings in the peripheral section is equal to the corrugation pitch minus the amplitude of the compensating axial movement of the corrugation. The bellows compensator contains a safety casing covering a corrugated pipe with half rings and one end rigidly fixed to one of the nozzles, as well as a guide inner shell fixed at one end to the inner surface of one of the nozzles (patent No. 2122148, IPC F16L 51/02, publ. 20.11 .2008).

The specified technical solution does not provide the maximum amplitude of the axial travel of the compensator corrugations and is difficult to manufacture.

The technical objective of this technical solution is to increase its reliability and performance of the bellows compensator, to increase the compensating range of the amplitude of the axial stroke of the bellows.

The technical result achieved in solving the problem is the guaranteed coaxiality of the bellows during bending moments, the elimination of excess axial travel, and the uniform operation of the bellows and is achieved due to the fact that in a bellows compensator containing two tips connected by an all-metal corrugated bellows, the profile of protrusions and depressions the corrugation of which is made along a radius, removable elements installed in the depressions of the corrugations, a protective casing covering a corrugated bellows with removable elements, one end rigidly fixed to one of the tips, as well as a guide inner sleeve fixed at one end to the inner surface of one of the tips, free the end of the protective casing is made with an L-shaped axial stroke limiter that interacts with an L-shaped extension made on the second tip, the inner guide sleeve is made telescopic, and the removable elements are made in the form of bushings with a protrusion on the inner surface congruent with the cavity of the corrugation, in in which it is located, the bushings are located in the depressions of the corrugations at intervals.

The part of the guide of the inner sleeve fixed to the tip is made with a stop, and the bushings with a protrusion are made with a transverse section.

New features of the proposed technical solution are the implementation of the free end of the protective casing with an L-shaped axial travel limiter that interacts with the L-shaped extension made on the second tip, as well as the implementation of a telescopic guide inner sleeve, both of its parts are fixed to the corresponding tips, and removable elements in the form of bushings with a protrusion on the inner surface congruent with the depression of the corrugation in which it is located; the bushings are located in the depressions of the corrugations at intervals.

Making the end of the protective casing with an L-shaped axial stroke limiter prevents the compensator from stretching or compressing more than the required axial stroke; in addition, the L-shaped casing is a stabilizer that limits the bending of the bellows. Making the guide inner sleeve telescopic ensures that the bending of the bellows is limited, as well as the compression of the compensator due to the support of one part of the guide stabilizing sleeve against the other or the end of the tip, which increases the service life of the compensator. The main tasks of bushings with a protrusion are to stabilize the bellows, protect the bellows from bending, ensure uniform movement and operation of the bellows by limiting the compression of the compensator due to the support of one bushing against the other, thereby increasing the resource and service life of the compensator. Using all of the above essential features of the formula allows us to solve the problem.

The utility model is illustrated by drawings:

Fig. 1 - bellows compensator, cross-section;

Fig. 2 - bushing with protrusion;

Fi. 3 - bushing from the % angle.

The bellows compensator consists of a protective casing 1, right and left tips 2 and 3, respectively, a corrugated bellows 4, removable elements 5, and an inner sleeve guide 6.

The external protective casing 1 is made of metal and/or composite materials, covers the corrugated bellows 4 with removable elements 5 and protects them from external mechanical damage, gives the product an aesthetic appearance and increases the service life of the compensator. One end of the protective casing 1 is rigidly fixed to the tip 2, and its other end 1 is made with an L-shaped limiter 7 of the axial stroke, which prevents the compensator from stretching or compressing more than the required axial stroke; also, the L-shaped shape of the casing is a stabilizer that limits the bending of the bellows .

Tips 2 and 3 are made of metal and/or composite materials. The tip 3 is made movable with an extension 8 to perform the limiting function by interacting with the L-shaped limiter 7 on the protective casing 1. The extension 8 of the tip 3 is also a stabilizer that limits the bending of the bellows by interacting with the inner surface of the casing 1. When the compensator is compressed, the L-shaped the limiter 7 of the casing will rest against the weld seam of the tip 3.

Corrugated bellows 4 is made of flexible high-quality stainless steel. It can be either single-layer or multi-layer and ensures the tightness of the product when the temperature of the transported medium in the pipeline changes, and compensates for its elongation or compression. The profile of the protrusions and depressions of the bellows 4 corrugations is made along a radius. With its ends, the corrugated bellows 4 is rigidly connected to the tips 2 and 3, forming a damping and compensating device.

In the depressions of the corrugations of the corrugated bellows 4 there are removable elements made in the form of guide stabilizing bushings 5 with a protrusion 9 on the inner surface congruent with the depression of the corrugation in which it is located. The height of the bushings 5 is selected to ensure the required compensating capacity of the compensator, as well as taking into account the uniform operation of the bellows. The bushings 5 are made of metal and/or composite materials and are located in the depressions of the corrugations at intervals. The bushings 5 are made with a cross section 10 to ensure its assembly with the bellows 4. The number of bushings 5 can vary depending on the intensity of the bellows and the fluid.

The main tasks of the guide stabilizing bushings 5 are to stabilize the bellows 4, protect it from bending, ensure uniform movement and operation of the bellows 4 due to the compression limitation of the bellows compensator due to the emphasis of one bushing 5 on the other, thereby increasing the resource and service life of the product.

The guide stabilizing inner sleeve 6 is made telescopic from metal and/or composite materials and consists of two parts. One part of the sleeve 6 is fixed on the inner surface of the tip 2, the second part of the sleeve 6 is fixed on the tip 3. To limit the stroke of the second part of the sleeve 6, a stop 11 made on the first part of the sleeve 6 can be used, or, in the absence of the specified stop, the end of the tip 2.

The main tasks of the sleeve 6 are the direction of movement of the transported medium in the pipeline, the protection of the bellows 4 from small solids entering the space between the corrugations of the bellows 4, the limitation of the bending of the bellows 4, the limitation when compressing the compensator due to the emphasis of one part of the sleeve 6 on the other or the tip 2, and This design also eliminates the occurrence of potential differences due to the homogeneity of the materials.

Thus, all the features of the formula were used in the design of the bellows compensator, which made it possible to solve the problem and achieve the specified technical result, ensuring high performance characteristics of the product.

The bellows expansion joint can be manufactured on standard equipment using known materials and technologies.

Claims (3)

1. A bellows compensator containing two tips connected by an all-metal corrugated pipe, the profile of the projections and depressions of the corrugations of which are made along a radius, removable elements installed in the depressions of the corrugations, a safety casing covering the corrugated pipe with removable elements, one end rigidly fixed to one of the tips , as well as a guide inner sleeve fixed at one end on the inner surface of one of the tips, characterized in that the other end of the safety casing is made with an L-shaped axial stroke limiter that interacts with an L-shaped extension made on the second tip, the internal guide the sleeve is made telescopic, both of its parts are fixed to the corresponding tips, and the removable elements are made in the form of bushings with a protrusion on the inner surface congruent with the depression of the corrugation in which it is located, the bushings are located in the depressions of the corrugations at intervals. 2. The bellows compensator according to claim 1, characterized in that the part of the guide of the inner sleeve, attached to one of the tips, is made with a stop. 3. Bellows compensator according to claim 1, characterized in that the bushings with a protrusion are made with a transverse section.

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