FI110715B - Thermally insulated pipe mesh, a method for positioning pipes and a means for connecting pipes - Google Patents

Description

! 110715 Insulated Pipe Network, Method for Pipe Laying and Means for Connecting Pipes No. 310,190, which relates to the use of hardened copper conductor tubes because such tubes have a special relaxation or recovery feature to counteract the axial stresses in the tube as a result of their heating and cooling.

As regards the features of the invention, reference is made to the claims.

According to the invention, it has been found that there is another material, namely aluminum, which surprisingly has similar properties. Aluminum tubes have been developed for other applications and are coated on the inside and outside ... with plastic material, which are so-called Alu-Pex tubes which ..... have been found to be surprisingly well-suited for the purpose in question.

. It is still necessary to keep the inner tube and the outside of the aluminum tube coated with a layer of plastic, but it has been found that these layers are also: relaxing, and for this reason a tube of this type is very useful for the present use.

Although copper tubes can be joined by brazing so that they are rigid against both compression and stretching, the corresponding joints of the tubes referred to herein are more difficult to form e.g. about it. for the reason that it is considered essential that the aluminum tube is not inside and outside the tube, while this tube should also be kept electrically insulated from the used connector parts for anti-corrosion reasons. These, in turn, must probably be made of metal, especially because they should be able to withstand the very high tensile forces that occur in pipes after they have cooled for an extended period of time.

Against this background, a special coupling or connector device has been developed to connect the pipes as described in more detail below.

It should be noted in this connection that the tubes are very well suited for use as conductor tubes in prefabricated insulated heat pipes of high length. A condition for easy handling and transportation is that the insulated tubes 10 can be wound on relatively small diameter coils and the conductor tube is well suited for this because it can easily be made of soft aluminum in the case of large tubes. Correspondingly, it is possible to use soft and flexible plastic as the outer sheath or jacket pipe, whereas the intermediate insulating layer should not be really soft because it is still preferable to use a so-called rigid system in which the foam insulation effectively holds the conductor in the center of the jacket or sheath. and transmitting axial forces between the conductor tube and the overhead tube; , ...: However, such rigid insulation can also be very flexible.

Thus, when pipes of this length can be manufactured to a relatively long length, correspondingly fewer pipe connections are required. Another and quite significant consequence is that in this case it is also practically possible to utilize an installation or placement technique which makes the pipe pass through the ground just as the pipes are known to be shot through the roadbeds 25. These techniques are now so advanced that they can also be used well when laying pipes underground, for example at 50 m lengths, which avoids the need to dig long ditches, as it is sufficient to dig holes every 50 m and pipe joints are formed in these holes.

In practice, it is well known to use plastic tubes as inner conductor tubes in area heat pipes, and it is also known that these tubes can be manufactured 3,101,715 and transported over long lengths wound on a coil. These tubes are relatively inexpensive but, in particular in their relatively simple form, have significant qualitative drawbacks. Oxygen diffuses inwardly from the environment through the plastic outer casing tube and the dielectric into the conduit 5, which in this way accelerates aging, and further through the conduit, thereby enriching the district heating water with oxygen, which corrosively affects the metal parts in the district heating network. In addition, water vapor diffuses through the conductor tube wall into the surrounding insulation, where the vapor condenses into water and tends to break the insulating effect. These disadvantages are already known and attempts have been made to coat the conductor tube with a diffusion shield, but this has not been very successful.

Against this background, the invention can be described as providing a particularly effective diffusion barrier, in the form of a real aluminum 15 tube, and further arranged to remain in contact, both inward and outward, to counteract the aggressive or corrosive properties or effects of this material. In addition, it is known that all of this is possible without the problems of expansion or contraction associated with and encountered in the long pipe sections, since: *: * · 20 materials have been found to be suitable elasticity and relaxation property: * · 'det. It is not generally known that this material has precisely these properties.

The invention will now be explained in more detail with reference to the accompanying drawings, in which:

Figure 1 is a diagram showing the location of a branchless district heating pipe, for example following a road.

Figure 2 shows the same in longitudinal section.

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Fig. 3 is a longitudinal sectional view of the pipe joint in the inner conductor pipe as shown during the initial installation.

Figure 4 shows the same in the final installed state.

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Figures 5 and 6 correspond to Figures 3 and 4 showing a modified embodiment of a pipe joint.

Fig. 1 shows a portion of the soil for the purpose of drawing a branch 10-ton area heat pipe 2. As already mentioned and shown in more detail in Fig. 2, this pipe includes an inner conductor pipe 4 made of aluminum pipe 6 with inner plastic coating 8 and outer plastic coating 10. developed as a cold water pipe, but as mentioned above, it has been found according to the invention that the pipe has sufficient relaxation properties in both heating and heating such that it is very useful as an area heat pipe or in area heat pipes positioned without any axial compensators. The tube is .... surrounded by an insulating layer 12, which is conventionally provided with an enveloping plastic protective tube, which adheres to both the outer surface of the coating 10, which coating itself sufficiently adheres to the aluminum tube 6 and the inner surface of the casing tube 14.

The casing tube 14 is preferably made of a relatively soft plastic material so that the long tube portion can be wound onto a coil 16 which is 25 in diameter and realistic for ease of transportation.

The pipe can be placed in the usual manner, but "owing to its large and transportable length, it has been found particularly advantageous to install the pipe by firing it from a dug hole 30-18 into the next hole 20, perhaps 50 m or more even further away. advanced installation of 5 110715 smooth conductor pipes e.g. transverse to the road, and then only care should be taken that the outer pipe 14 is provided with a smooth and sufficiently durable outer surface.

5 The pipe sections can be joined in wells and the joints must be very tight and durable and require special measures as it is impossible to just weld the pipe ends to one another. It is inevitable that intermediate coupling members should be used which should fulfill various conditions, in particular they should provide a non-frangible attachment of the tube ends in the particular situation where the tubes 10 exhibit very strong pulling forces. This situation does not occur with conventional water pipes to the extent that it is associated with the heating pipes in question when these pipes, after heating for extended periods of time, have reached a relaxed state to neutralize the heating forces exerted by heating and then the same pipes with subsequent and very rapid cooling. repairs must be made, contracted, and thus form a powerful pulling force which is only neutralized by the new relaxation if .... · The pipe is then kept unheated for a relatively long period of time, and this is rarely the case. Cooling occurs relatively quickly and the tensile forces are at their peak immediately thereafter, i.e., it is immaterial whether the cooling period is long or short, in order to effectively maintain the joints. ·: In any case, the joints must be constructed in such a way as to withstand the maximum pulling forces in the pipes.

In practice, this means that the connector parts should preferably be made of iron or steel, that is, an electrically conductive material and

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The electrical connection to the aluminum tube 6 easily causes problems like cathodic corrosion. * Therefore, the connector parts should be connected to the tube ends without any electrical connection to the aluminum tubes.

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In addition, there is the difficulty that it is difficult to achieve complete tightness by contacting the clamping members against the pin head in the tube 6. The reason is that the plastic is relaxed at high temperature and that the stress corresponding to the residual stress is less than the compression due to cooling 5 in the plastic. This means that the pressure seal may be inert in the cold state after it has been kept warm for a long period of time and this situation should be expected to cause problems in connection with the invention.

Thus, there are quite a number of problems in forming a coupling that is advantageous in these various ratios and is relatively easy to construct, but the invention also provides a solution to this problem and reference is made to Figures 3 and 4.

The coupling device illustrated therein resembles a hose connector and includes a spacer flange 22 having a projecting cylindrical inner part 24 which is slidable into an end portion of a conductor tube 4 and provided with protruding portions 28 .... with folded outer portions 26 having annular grooves formed therein for flexible rubber O-rings 30.

A groove 32 is formed against the intermediate flange 33 with a protruding outer boundary member 34, which is preceded by an O-ring 36 capable of receiving the end of the tube 6 in an electrically insulated manner.

Connected to this connecting element is an outer connecting sleeve 38, which may be crimped or pressed against the outer surface 10 of the inner conductor tube 4. Here. The sleeve has some annular bulges 40 which, when pressed by a direct cylindrical tool, cause the folded parts shown in FIG. 2 to form and which are immediately outside the bent parts 26 of the sleeve insert 24, whereby the tube 4 is deformed; in a similar way. In this way, the tube is mechanically locked into the sleeve, but this locking is further secured by the innermost said bulge shown at 42, which clamps the adjacent end portion of the outer sleeve 32 into the groove 32 of the sleeve without this very strong attachment causing any damage to the tube would cause a cos-5 bond to form between the aluminum tube 6 and the connecting member.

Following this interconnection and optionally associated pressure testing, conventional socket-coating and insulation of the space around the joint may be performed, the joints being located such that they protrude slightly from the ends of the respective insulating layers and outer casing tubes 14.

In connection with the invention, it has been found that in order to achieve a really effective connection of the pipe ends against excessive pulling forces, it is necessary to anchor the pipes to the end sleeves by several bends of the pipe wall. This is not possible using conventional connecting sleeves. This is accomplished by using the sleeve of Figs. 3 and 4, but to a greater extent by the embodiment of Figs. 5 and 6, wherein certain reference numerals represent the same parts as Figs. 3 and 4. Then, Figures 5 and 6 will be explained in more detail. and they illustrate a method of joining using, in particular: a constructed or shaped joint sleeve: In a first step, the tube 6 is fitted with an outer sleeve 38 whose base member 43 is loosely positioned around the tube, otherwise made into a relatively thin-walled cylindrical member 44 having a substantially larger internal diameter than the outer diameter of the tube 6.

Thereafter, the outermost portion 46 of the tube 6 is spaced to bring the outer diameter to the inside diameter of the cylindrical portion 44. Subsequently, a liner 24 is inserted into the mouth of the tube 30, which in its entirety is a reference numeral; In the connector shown in Fig. 47 protruding from the flange 48, the outer diameter 110715 8 corresponds to the inner diameter of the tube reduction, but the outer end portion 50 still fits into the unpressurised tube 6. The expansion may be done separately or directly by inserting the inner member 24. the heeled rounding of the reduction 46 5 is against the transition point between the parts 50 and 24 while the free end of the reduction is against the stop flange 48.

The outer sleeve 38 is then pushed out onto the abutment 46 and further encircles that portion of the connector member 47 located between the retaining flange 48 and the further extending polygonal flange 22. When the cylindrical portion 44 is pressed against this flange, the transition 54 between the portions 43 and 44 also protrudes against the reduction base 52.

Approximately in the center of the inner body sleeve 24 is a wide groove 56 and a corresponding groove 58 is machined into the sleeve immediately outside the counter flange. This means that by using a suitable tool, it is possible to effect the compression of the sub-areas of the cylinder part 44, as shown in reference numerals 60 and 62 in Fig. 6. . correspondingly deform the groove 56, and in this case should aim for it or. · ': 20 ensures that the respective pipe tapering portions 64 are tightly pressed against the sides and bottom of the groove 56 to achieve complete filling.

The compressed regions 62 provide independent anchoring of the outer sleeve 38 to the connector portion 47 and this results in the stabilization of the entire retaining clip 25.

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It can be noted that the length of the aluminum tube has as many as five changes in direction / * and that the diameter differences present correspond approximately to the wall thickness of the tube. The transition points between the various parts are provided with rounded angles of about 45 ° 30, and in total, it is possible to provide a pipe fastener with a strength so close to the extreme stress of the pipe that no further reinforcement of the fastener is necessary. However, specific conditions may exist for different pipe materials and dimensions, and it may be appropriate to modify the details of the joint, e.g., by adding an additional groove 56.

An annular groove is formed in the main portion 43 of the outer sleeve 38 as well as in the polygonal flange 22. These grooves can be used to engage the connector parts during joint treatment.

The connector parts are preferably made of iron and since the tube is electrically insulated both inside and outside, galvanic corrosion is thereby prevented. However, as shown in Fig. 6, an insulating ring 36 should be added to the joint at the pipe flange 48, since aluminum is exposed at the cut end of the pipe. For the same reason, this region should be kept free of moisture and for this reason a pair of sealing rings 30 are also attached to the outer surface of the inner member 24.

The installation of the joint can be well performed at the installation site, e.g., when cutting the pipe: but it is generally natural that the pipe element; The cutters are supplied with factory-fitted connectors, which minimizes the amount of joint work required.

; It has been mentioned that the diffusion-tight tubing is made of aluminum, but of course: the invention also encompasses other similar materials which may be found to have relevant properties as shown.

Claims (11)

Claims 110715 A heat-insulated pipe network, preferably an underground area heat pipe network having a heat-insulated conduit (4), characterized in that this pipe (4) is made of a diffusion-tight pipe formed by a suitable diffusion-tight aluminum pipe (6). provided with a plastic layer coating (8,10) on its outer surface, which galvanically insulates the pipe environment, and that the pipe pipe fittings (34, 38) are made either of non-electrically conductive material or by joining corresponding pipe ends 10 without aluminum pipe (6) and pipe fittings. galvanic connection. Pipe mesh according to Claim 1, characterized in that the used pipe fittings (24, 38) are formed such that they engage the opposite ends of the plastic-coated aluminum tubes (6) with a well-formed deformation of the tube ends and an electrically insulating ring ( 36). Pipe mesh according to claim 1 or 2, characterized in that: ': * · The pipe fittings are fitted with flexible sealing rings (30) to seal against the inner plastic coating (8) of the aluminum pipe (6). Method for placing thermally insulated pipes (4) in a pipe network according to claim 1, characterized in that the pipe (4) provided with an external flat pipe sheath (14) and transported to the work site in a coiled state is made to pass through the connection wells. (18, 20), which wells are spaced a considerable distance, e.g., 50 m or more apart. A method of joining pipe sections during pulling of the mu-1 of claim 1; a heat insulated pipe network, preferably an underground area heat pipe network, the method comprising securing the pipe connection sleeve (47) to the aluminum pipe (6) by using an inlet sleeve (24) extending from the end of the pipe and a surrounding external clamping member ) utilizing a connector portion having a substantially 5 cylindrical inlet portion having an outer diameter greater than the inside diameter of the tube (6) and having at least one point a substantially annular groove (56) with a corresponding groove formed in the projecting n portion of the connector member; ), or during installation thereof, the end portion of the tube (6) is expanded and thereafter the outer clamping portion (44) in the form of a cylindrical 10-element metal element is moved over the expanded tube portion and the projecting portion of the connector member so that e covers the expanded tubular member and part of the protruding portion of the connector member, whereupon the cylindrical member is deformed locally from certain areas to secure it to said grooves, wherein the cylindrical member 15 is further pushed against the base member of the tubular expansion. A method according to claim 5, characterized in that said base portion is stabilized by moving the cylindrical element from a predetermined position on the tube until the rearwardly extending v '20 of the cylindrical element abuts axially against the base portion of the extension, which is preferably conical. Pipe coupling sleeve for carrying out the method according to claim 5, comprising a sleeve sleeve (24) and a circumferential clamping member 25 (44), characterized in that the sleeve sleeve (24) has a cylindrical inlet section having one or more wide ring grooves (56) and outwardly. a protruding stop flange (48) disposed at a transition between this portion and the connector portion (47), the connector portion being provided with connector members for effectively interconnecting it with the other connector portion and having a cylindrical portion having a slightly larger diameter spaced outwardly from said stop flange and having a wide annular groove, while the outer clamping member (44) is manufactured from a relatively thin-walled metal sleeve having an inside diameter corresponding to the outer diameter of the cylindrical portion of the connector member. Connector sleeve according to claim 7, characterized in that the inlet 5 (24) has a free, protruding portion having an outer diameter reduced with respect to the other inlet portion, and an outer cylindrical portion having a correspondingly reduced inner diameter. Connector sleeve according to claim 8, characterized in that an electrically insulating ring (36) is disposed against said stop flange (48). Connecting sleeve according to claim 8, characterized in that the inlet portion (24) is provided with one or more sealing rings (30). 15 A pipe element made of aluminum or a similar material provided with a pre-mounted pipe connecting sleeve according to the method of claim 5. 13 Patentkrav 110715