DE1901069A1 - Coaxial multiple pipe arrangement - Google Patents

Description

OR.-INQ. PIP ... INS. M. SC DIPl ..- PHYS. DR. DIPL.-PHVS.

HÖGER - LEGAL RIGHT-GRIESSBACH - HAECKER

PATENT LAWYERS IN STUTTGART

A 36,981 h
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U.S.Ser.STo. 697,747 ^

WoKL

Vacuum Barrier Corp., Massachusetts, U.S.A.

Coaxial multiple pipe arrangement

The invention relates to a coaxial multiple pipe arrangement with at least one inner tube and at least one outer tube that extends from the inner tube through a longitudinal direction between the tubes extending spacer is held at a radial distance.

The invention also preferably relates to a coaxial pipe arrangement in the form of a flexible transmission line for cryogenic liquids. Here, concentrically spaced tubes are provided, between which an annular insulating space is available. This isolation room can accommodate isolation and / or be evacuated. However, the pipe assembly can also be used for other purposes, such as electrical Cable.

A coaxial tube assembly, whether rigid or with some degree of flexibility, requires a bracket between the tubes, by means of which the tubes are held in a substantially concentric position with respect to one another. Unfortunately results in a bracket consisting of a solid body bridging the distance between the pipes and forms for this reason a way for a thermal leakage flow and /

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or electrical losses. These losses are all the greater the larger the minimum cross-sectional dimension of this construction and the larger the contact area with the pipe walls. In addition, the installation of a bridging stiffening structure makes the evacuation of the insulating annular space after the production of the pipe arrangement difficult.

In a known embodiment of a spacer means k is a rectangular or rectangular cross-section Uses plastic tape that is spirally wrapped around the inner tube and has a thickness about that of the corresponds to the minimum radial dimension of the annular insulating space, and also has a cross-sectional size that is a Prevents collapse. Such bands are used in particular where the outer tube continuously around the with Band-provided inner tube is formed around it.

The invention is now based on the object of creating a construction in which the resultant by the holder Losses are significantly reduced and also the amount of tape material required per unit length of the pipe arrangement is significantly reduced. This task is carried out according to the Invention in the pipe arrangement mentioned at the outset is achieved by that a flat ribbon is used as the spacer that is twisted around its own axis before or when it is placed on the inner tube in such a way that, for example, the tape is twisted by 180 ° with every quarter turn is present around the inner tube, from which it then follows that a band of uniform width and approximately equal to maximum radial dimension of the annulus between the tubes Pipes at most icant-wise at spaced intervals touches, namely a continuous strip edge first touches the inner tube and then with the next twist the Outer tube or at least points in the direction of the outer tube,

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a process that is now repeated over the entire length of the pipe arrangement. Also touches the opposite edge of the Band alternately first the inner tube and is then directed towards the outer tube or touches this with the entire length of the Pipe arrangement at points which lie between the contact points of the first-mentioned edge, these latter points usually in the circumferential direction around the inner tube opposite the points of contact of the first-mentioned edge with the inner tube are offset. The inner tube can be smooth or also corrugated and further with or without an insulating sheath. If the inner tube is corrugated, there can also be a the pipe surrounding reinforcing wire, for example a stranded wire or the like, be attached. This can also be similar Outer tube be smooth or corrugated and with or without an inner lining, preferably made of insulating material.

Yfurther features and advantages of the invention emerge from the following description in connection with the drawing, which contains an embodiment of the invention. In the drawing demonstrate:

Fig.l is a longitudinal section through a first embodiment of the 'Invention,

FIG. 2 shows a longitudinal section through the pipe arrangement according to FIG. but rotated by 180 ° compared to Fig. 1,

3 shows a plan view of a modified form of the belt,

4 is a plan view of a further modified form of the Band,

Figure 5 is a cross section to illustrate the arrangement of the Band according to Figure 4 in the embodiment according to Fig.l,

Fig. 6 is a longitudinal sectional view of a further embodiment of the invention,

FIG. 7 shows a cross section through the arrangement according to FIG. 6, but with the insulating covering on the inner tube being omitted. _A. ^.

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In the embodiment according to Pig. 1 and 2, 10 is a helical corrugated inner tube and designated by 12 · a helically corrugated outer tube. Such pipes are common made of copper and have a certain flexibility over a correspondingly large radius. Is helical wrapped around the inner tube 10 a length of flat tape 20, which may be made of metal or plastic, in the latter Case preferably made of polytetrafluoroethylene. This band has a uniform width with an incline of approximately 45 ° relative to the axis of the tube assembly.

The band 20 is twisted by 180 ° around its own axis every 90 ° of its wrapping around the inner tube 10 so that the one or the other of the opposite edges touches the inner tube edge by edge once every 90 ° for the individual twists.

Thus, the edge 21 of the band 20 is directed radially outwards at points A, C, E, G, I, K, M, while it is directed radially inwards _{at points B 1} D ₁ F ₁ H _{1 JjLjN and that} Inner tube 10 touches.

The opposite edge 22 of the band is thus directed radially inwards at points AjC, EjGjI, K, M and touches the inner tube 10 and is directed radially outwards at the points in between, namely B, D, F, H, J, L, N.

It also follows that wherever there is one of the edges is directed radially inward, this insert into one of the wave troughs 30 between the wave crests 32 of the inner tube 10 try. This is at points B, F, J, N in Fig.l and the case at D, H, L in FIG. 2, although for the sake of clarity the Drawing of the band in a more approximately symmetrical spiral

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shows at these points.

Usually the band is of such a width that it is in front of ·? preferably, but not necessarily, touches the outer tube at all twisting points. In any case, "forms the band a spacer that keeps the two tubes concentrically spaced.

The slope of the belt can also be different from 45, and the belt can be along at shorter or longer intervals be twisted along its length as shown in the drawing, depending on the level of the desired load-bearing capacity between the two pipes. In any case, as shown in the drawing, there is a bridge between the two Tubes in relation to the spacer are only present at points A to N, inclusive, where the band is radial is oriented, the sections of the tape between these points always at a distance from the outer tube as a result of the twisting of the tape are.

If, for example, the outer tube has an inner diameter of 31.623 mm and the inner tube has an outer diameter of 20.193 mm, the band can be 7.239 mm wide and 1.016 mm thick. When using cryogenic liquids at a vacuum below 5 x 10 Torr, the heat leakage flow is reduced to just 1.0 kgCal. per hour per meter *) if the measurement is made between room temperature and - 195 »5. For larger conduits, the bandwidth can increase up to 10.16 mm, and a larger thickness can also be used, which can increase up to 2.54 mm and more depending on the radial dimension between the two tubes. *) 1.2 Btu per hour per linear foot

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Me application of the construction according to the invention is not restricted to corrugated or corrugated tubes ", but can also be used with smooth, i.e. cylindrical tubes.

In the case of a corrugation, the inner tube can have an outer, tubular, braided reinforcing sleeve 50 (see Fig. 6), as is often used in other spacer constructions to increase the compressive strength. In this connection, reference is made to W USA patent specification 5,240,234.

Pig. 3 shows a modified form of the band 20a. This is similar to Fig.l and 2, but with the difference that its edges are provided with staggered cutouts 40 and at such intervals that the cutouts touch the inner tube in the assembled state at the points at which the twisted band approximately radially across the ring path
space between the pipe path extends. The cutouts can have a slightly larger radius than the inner tube with regard to the contact angle shown in FIG. the

Embodiment using cutouts results in an increase in ι. - '

Stability of the tape, as the tape can adapt more to the surface of the pipe at the points of contact.

4 shows a further modification of the shape of a band 20b, in which the cutouts 40 are not arranged offset, but occur periodically at opposite points of the band, so that it does not matter which particular side of the band faces the inner tube as both sides are now notched. FIG. 5 shows the band according to FIG. 4 as it is arranged in the tube construction according to FIGS.

In Fig. 6 the diameter of the outer tube s 12a is also enlarged so that around the inner tube in a helical or spiral manner

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Mig loosely wound multilayer insulation layers52 are housed which are described, for example, in US Pat. No. 3,240,234, and alternating layers made of aluminum-coated plastic and fiberglass. The inner pipe, which is reinforced and wrapped with insulating material, is then wrapped with the twisted tape 20, 20a and 20b. Then another insulating layer is wrapped around the tape and then this assembly through the outer tube 12a enclosed. The insulating layers 52 and 54 are thereby only at the points of the radial orientation of the tape pressed together in such a way that the optimal density of the wrapping in all the remaining, annular space between the tubes remains as further explained in U.S. Patent 3,236,406. '

7 shows a loosely wound multilayer insulating layer which is only arranged outside of the wound tape 20, so that the pressure on these layers is essentially only on occurs at the points of radial orientation of the tape. Instead of omitting the layer 52 insulating the inner tube as shown in FIG. the layer 54 insulating the outer tube can also be omitted, the insulating layer 52 of the inner tube together can be maintained with or without the reinforcement sleeve 50.

The result is that, according to the invention, a spacer has been created that can easily be positioned between two pipes while continuously producing the same using it a minimal amount of material can be arranged for the spacer means. In certain circumstances, especially for larger pipe constructions, two or more separate, twisted ribbons are spaced on the inner tube, having the same pitch and either the

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have the same or different twist intervals.

The construction according to the invention also facilitates the formation of a vacuum in the annular space between the two pipes, regardless of whether there are insulating layers there or not, because the spacing system results in minimal obstruction, a much smaller pail on each pail than if it were not twisted Ribbons is in place. Furthermore, the required stiffness against compression due to the twisting is at a much thinner band than those that are built in without twisting around their own axis *

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Claims (1)

A 36,981 h - 9 - 8.1.1969 Claims ίλ .J Coaxial multiple pipe arrangement with at least one inner pipe and at least one outer pipe which is held at a radial distance from the inner 'pipe by a spacing means extending in the longitudinal direction between the pipes, characterized in that the spacing means is at least one continuous band (20) is, which is twisted about its own axis and so alternately rests with opposite edges (21, 22) against the circumference of the inner tube (10) at points of contact. 2. Multiple pipe arrangement according to claim 1, characterized in that the tape is a flat tape (20) whose Width is preferably a multiple of its strength. 3. multi-pipe assembly according to claim 2, characterized _marked: characterized in that the band (20) has a uniform width, and preferably a uniform thickness. 4. Multiple pipe arrangement according to one of the preceding claims, characterized in that the band (20) consists of Plastic is. 5. Multiple pipe arrangement according to one of the preceding claims, characterized in that the band (20) between adjacent points of contact are directed radially outwards. 6. Multiple pipe arrangement according to one of the preceding claims, characterized in that the band (20) is wound helically around the inner tube (1.0). 7. Multiple pipe arrangement according to claim 6, characterized in that the band (20) through 180 ° per quarter turn a screw turn is twisted. 8. Multiple pipe arrangement according to claim 6 or 7, characterized in that the pitch of the screw turns - 10 909836/0224 A 36,981 h - 10 - h-24 - 8.1.1969 is about 45 °. 9. Multiple pipe arrangement according to one of claims 6-8, characterized in that the band (20) extends along the turns only extends radially outward at those points that are at a circumferential distance from one another. 10. Multiple pipe arrangement according to one of the preceding claims, characterized in that the band (20) has cutouts (40) at the points of contact with the inner tube (10). 11. Multiple pipe arrangement according to claim 10, characterized in that that further cutouts (40) opposite to the cutouts (40) at the points of contact with the inner tube (10) are attached. 12. Multiple pipe arrangement according to claim 10 or 11, characterized in that the cutouts (40) are part of a circle are. 13. Multiple pipe arrangement according to claim 12, characterized in that that the radius of the cutouts (40) is greater than the radius of the inner tube (10). 14. Multiple pipe arrangement according to one of the preceding ^ claims, characterized in that the inner tube (10) and optionally also the outer tube (12) are corrugated, preferably are helically corrugated, the radially outwardly directed points of the band (20) in the wave troughs are arranged between the wave backs of the inner tube (10). 15 «multiple pipe arrangement according to one of the preceding claims, characterized in that the inner tube (10) has a loose outer sheath (52), which is preferably has a plurality of insulating layers. - 11 - 909836/0224 A 36,981 h - 11 - 8.1.1968 16. Multiple pipe arrangement according to claim 15 »characterized in that that the envelope (52) is compressed only at the points where the edges (21, 22) of the Band (20) are directed radially outward. 909836/0224 - / ζ Blank page