FI64991B - SJAELVSTYRD AXIALKOMPENSATOR FOER ROERLEDNINGAR - Google Patents

Description

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Patwttl and Registry Board NihtMtolp ™ j. moon «. | ulk * un pm, -

Patent and registration regulations Anseku uttafd och uti.skrtftwi published 31.10.63 (32) (33) (31) Pyyd · ** / * tu © Ucuu »—Bojird priortt · * 07.05.75

Sweden-Sverige (SE) 7505335-5 (71) United Gas Industries Limited, 3 ~ UBentinck Street, London W1M6DH,

The present invention relates to a self-steering axial compensator for two-way coefficient, a self-steering axial compensator a put-joint and a bellows guide sleeve interposed around the bellows and fixedly connected to the second pipe joint, and a support ring fixedly mounted on the second pipe joint and adapted to move inside the guide sleeve and each of the adjusting screws screwed axially into the support ring; through corresponding holes in the end plate attached to the guide sleeve.

It is known that axial compensators comprise two pipe connections for installation between the ends of two pipelines, connected to each other by a bellows of variable length and guided relative to each other by a guide sleeve surrounding the bellows and one end fixedly connected to the other pipe connection and the other end slidably to the second pipe joint, wherein the slip between the guide sleeve and the second pipe joint is limited in the axial direction because one or more guide pins in the second (sleeve or together) part 64991 2 each move in the guide slots in the second part. In addition, inside the bellows, a protective tube is placed in the form of a telescopic tube formed of two parts of the tube, the outer ends of which are each connected to their own tube connection. Due to this structure, the two pipe joints are mutually non-rotatable and have a limited axial push relative to each other so that the axial expansion or compression allowed for the bellows is not exceeded.

However, in this construction of known axial compensators, it is cumbersome and time consuming to determine the relative axial adjustment of said mutually sliding parts before attaching a compensator, taking into account e.g. the current temperature values of the pipelines and the distance between the pipeline fixed points in different situations.

It is an object of the present invention to provide an axial compensator having the above structure with simple and convenient axial adjustment of sliding portions for adjusting the total length of the axial compensator before it is attached to the pipeline, taking into account the values in the pipeline and the distance between the fixed points.

This object is solved according to the invention by an axial compensator according to claim 1, characterized by at least one guide pin fixedly connected to the support ring and extending radially outwards through a guide slot extending axially in the guide sleeve and visible from outside the compensator.

The invention is illustrated in the accompanying drawing in an exemplary embodiment.

Figure 1 shows an axial compensator in partial axial section according to the invention.

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Figure 2 shows a cross-section along the line II-II in Figure 1.

Figure 3 shows a top view of the left end portion of the compensator shown in the figure.

Figure 4 shows the so-called kiinnitysdiagrammia.

According to Figures 1 and 2, the axial compensator comprises two pipe connections 1 and 2, between the opposite ends of which a bellows 3 of varying length are fixedly attached. · Inside the bellows 3, a telescopic protective tube formed by two pipe sections 4, 5 is attached between the pipe connections 1, 2. This pipe and bellows are made of stainless steel. A guide sleeve 6 is arranged around the bellows, one end of which is welded to a relatively thick fastening ring 7, which in turn is welded to the second pipe connection 1, the other end of the guide sleeve 6 sliding along the outside of the support ring 8, which support ring 8 is welded to the second pipe connection 2. The end of the latter guide sleeve supports an end plate 9 attached to it, which has a central hole in which the pipe connection can fit.

The guide sleeve 6 preferably has three guide slots 10 distributed on the surface of the sleeve, and each of them projects a radial guide pin 11 fixed to the support ring 8, the diameter of which is substantially equal to the width of the gap. The guide slot has a certain specified length. In addition, three axial adjusting screws 12 are preferably screwed into the support ring 8, which pass freely through each relatively large hole 13 provided in the end plate 9, i.e. the space between the screw and the wall of the surrounding hole is larger than the relatively small space between the support ring 8 and the guide sleeve. Between 6. The base of each adjusting screw 12 extends beyond the end plate 9. The adjusting screws 12 are at least closest to their base. The guide sleeve preferably has an outlet hole 14 which is directed downwards during installation.

The fact that the guide sleeve 6 is partly connected to a relatively thick fastening ring 7 which prevents the pipe connection 1 from rotating relative to it and the guide sleeve 6 and is partially guided to the support ring 8 prevents the longitudinal axis of the bellows 3 from bending and the axial guide slots 10. and limiting bellows expansion and compression.

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The described axial compensator is delivered to the installation site tuned (bellows somewhat stretched) and the other end of the guide slots 10 resting against the guide pins 11 and the end plate 9 near the outside of the support ring 8 and the bases of the adjusting screws 12 resting against the outside of the end plate 9.

Before the axial compensator is installed between the opposite ends of two pipelines, each with its own fixed point, the fastening length of the compensator, i.e. the total distance between the external end faces of the pipe connections 1, 2, is adjusted by the following measures and using the fastening diagram shown in Fig. 4. Its ordinate indicates the excitation reduction in mm and in abscissa the distance between the relevant pipeline fixed points, and the curves represent the temperature differences t ° C. Assume, for example, that the temperature of the pipeline during installation is + 10 ° C and that the estimated minimum temperature of the pipeline is -10 ° C, ie the temperature difference is 20 ° C, and that the distance between the fixed points of the pipeline is 50 m. 50 m, following a line parallel to the ordinate until it hits a curve showing a temperature difference of 20 ° C, reading 12 mm from the ordinate, which means that the length of the compensator must be reduced by 12 mm from the fully tuned position shown in Figure 1 and in solid lines in Fig. 5 · For said shortening, the guide sleeve 6 with the end plate 9 must therefore be pushed 12 mm to the left of the support ring 8 without unscrewing the adjusting screws 12. To do this, for example, a line 15 can be made on the guide pin and a length scale 17 glued to the zero-point pointer 15, after which the adjusting screws are gradually unscrewed, the end plate 9 following the screws and resting against the guide pins until the length scale "12" mm when the guide sleeve 6 is pushed, it has come to the pointer 15, whereby the end plate and the guide sleeve have reached the position marked with broken lines.

Thus, due to the described structure of the axial compensator and the described procedures, the installer can quickly and conveniently adjust the mounting length of the axial compensator at the installation site before welding the ends of the pipeline. If the pipeline is exposed to a higher temperature than when the compensator was installed, this is subject to increased pressure, whereby the end plate 9 first removes the bases of the adjusting screws 12 and then retracts the required distance from the adjusting screws. When the compensator then expands due to the temperature drop, the adjusting screws protruding outside the support ring 8 do not prevent the end plate 9 from being pulled as far as the support ring 8, because the holes 13 in the end plate 9 are so large that the adjusting screws pass unobstructed.

The axial compensator according to the invention also has the advantage that it can be placed in series in the pipeline without providing special, i.e. more than two actual fixed points, whereas known compensators instead often require a fixed point between the compensators.

The invention is not limited only to the application example described and shown in the drawing, as this can be varied within the scope of the invention. For example, the shape of the support ring may have a different cross-section and the inner protective tube may be missing. In addition, the screws 12 may be weakened by drilling a hole through the base into the body just below the base to reduce the bending force required to remove the screw bases.

Claims (2)

6 64991 An axial compensator for pipe systems comprising two coaxial pipe connections (1, 2) and a bellows (3) interposed therebetween, a guide sleeve (6) arranged around the bellows and fixedly connected to the second pipe connection (1), and a support ring (8) , which is fixedly mounted on the second pipe connection (2) and which is adapted to move inside the guide sleeve (6), and each of the adjusting screws (12) is screwed axially to the support ring (8) and passes the corresponding end plate (9) attached to the guide sleeve (6). through holes (13), characterized by at least one guide pin (11) fixedly connected to the support ring (8) and extending radially outwards in the guide sleeve (6) through an axially extending guide slot (10) and visible from outside the compensator. Axial compensator according to Claim 1, characterized in that the guide pin or guide pins (11) are provided at their outer end with a pointer mark (-15), and in that the guide slot (10) is provided with a longitudinal scale (17) running parallel to the guide slot. the zero point is outside the indicator mark (15) when the compensator is fully tuned.