FI71400B - DUBBELVAEGGIGT ROER AV PLAST - Google Patents

Description

1 71400

Double-walled plastic pipe

The invention relates to a double-walled plastic pipe with a cylindrical, smooth inner wall and a corrugated outer wall around it, which is connected from corrugated parts to the inner wall.

Such a tube is disclosed, for example, in U.S. Patent 4,202,568.

This type of pipe is currently used as drainage pipes located in the ground 10. Inner wall connected to the outer wall, the tube has a grid structure, which means that it has a good ring stiffness even if the walls are thin, so that the tube is a relative sturdy sales potential and the weight of the material, while its flow friction 15 is on its inner wall a smooth inner side due to small.

It is customary for the corrugated outer wall to be substantially trapezoidal in cross-section, the greater width then being at the bottom at the point where the outer wall is connected to the inner wall; the oblique sides of the cross-section-20 profile are straight and tilt at an angle of 5 to 15 ° to the cross-sectional plane of the pipe.

The pipes are preferably made of high-density polyethylene (PEH), which is a tough material. A more economical pipe would be made of polyvinyl chloride (PVC), 25 which, however, is a brittle material and has a higher modulus of elasticity than polyethylene. Combinations of different materials to be welded or glued can also be considered. It is made by extruding two cylindrical tubes forming the inner wall and the outer wall, respectively, concentrically with each other, after which the shaping jaws are pressed from the outside against the outer wall while the tubes are still soft to form the outer wall profile with vacuum from outside or overpressure. , 35 while the tubes are pressed against the corrugated portions of the outer wall where the walls converge.

2 71400

It has been found that double-walled, brittle plastic pipes of the type according to your above-mentioned structure here break in the impact strength tests from the inside either from one side or from the other side around the impact brush or corrugation brushes. This may be due to the fact that the corrugated, straight outer wall is so rigid that it is not affected by the impact, but is compressed into the inner wall and breaks it.

10 In conclusion, it would be possible to eliminate or at least reduce such a risk of crack formation due to impact by reducing only the material thickness of the outer wall relative to the material thickness of the inner wall, but then the stiffness of the pipe is reduced, which is again undesirable.

Crack formation may also occur farther from the point of impact. This is often caused by unfavorable resonance associated with the shock wave.

The object of the invention is to eliminate the risk of crack formation by maintaining the rigidity of the double-walled pipe under static load and also by maintaining the other advantages characteristic of double-walled pipes of the type referred to herein, which are achieved according to the invention by the features of claim 1.

In this case, the impact energy applied to the pipe is absorbed into the partially corrugated outer wall, because the corrugated brushes formed by the outer wall become flexible per se and therefore do not compress so well against the inner wall when shocks occur. In other words, the impact force imparts a certain bending stress to the corrugated outer wall instead of a compressive stress. The force on the inner wall then becomes more advantageous. When the dimensions and wall thicknesses of the profile are chosen appropriately, the formation of a fracture in the inner wall due to impact shocks and unfavorable resonances is reduced. In the tests performed with the pipes according to the invention, it has been possible to increase the impact resistance by an average of 50% compared to ordinary corrugated pipes made of the same material and having the same weight and stiffness.

Another effect obtained by manufacturing the pipe according to the invention is that two adjacent corrugated brushes can form a seat 10 for a sealing ring which is placed in the recess between the bristles so that it seals against the mounted sleeve or connecting pipe.

The invention will now be described in more detail with reference to the accompanying drawing, in which Fig. 1 shows a cut-away axial section of a double wall of a plastic pipe according to the invention, and Fig. 2 shows a profile variant in a corresponding manner.

The tubular wall shown in Fig. 1 already comprises a cylindrical inner wall 10 with a smooth inside and a smooth outer wall and a corrugated outer wall 11. In the recesses of the outer wall 11, both walls are connected to each other at 12. Material selection and manufacturing may be conventional and as described above with respect to the presently described structure of double-walled pipes of the type referred to herein. However, it is also possible to manufacture the tubes so that they have the desired properties by extruding a certain profile, from which the tube is then formed by a so-called winding method, whereby the brushes of the profile are screw-shaped.

The shape of the corrugated outer wall in the pipe constructed according to the invention differs from the shape of a pipe already known and conventional. After the softly rounded transition 13 from the corrugation recess 35 12, the outer wall 11 extends out of the inner wall 10 in a straight portion 14 which may have a standard 5-14 ° inclination of the tube with respect to the plane, after which it forms a relatively sharp but rounded outside shoulder 15 parallel to the inner wall 10. After the softly rounded displacement 16, the outer wall 5 continues as a straight part 17, which may have the same inclination as the part 14, and then turns into a flat upper part 19, substantially parallel to the inner tube, as a rounded part 18. The part of the corrugation brush or corrugation profile which is in the conventional double-walled pipe 10 transverse to the longitudinal direction of the pipe or slightly oblique to the cross-sectional plane of the pipe and which is straight in the conventional double-walled pipe is thus S- or Z-shaped in the pipe according to the invention. are between parts of the outer wall at a certain angle to each other 15. Theoretically, the outer wall could be defined so that the second derivative of its profile changes the character twice. Due to the described shape of the outer wall 11, the advantageous force reception 20 described above is obtained when the impact is applied to the wall of the pipe. When the distance between the inner wall of the exterior and interior of the ulokeen selecting a suitable size, the rigidity of the profile can be utilized in a progressive way, since the outer wall may be due to heavy stress when bent against the outer side of the relative ease of the inner wall 25.

The drawing of Figure 1 illustrates that a sealing ring 20 of rubber or other flexible material may be placed in the corrugated portion in the protrusions formed by the two adjacent corrugating brushes 30 to seal the in-situ pipe or connecting pipe 21.

The profile of the outer wall can be modified in different ways, and Figure 2 shows a conceivable variation. It is also possible that the outer wall 11 is made 35 with a plurality of projections on each side of the corrugating brush 5 71400 and that the necessary rigidity against static pressure is maintained in order to achieve the desired resilience, in which case if 5 ** yt can be deduced.

Claims (10)

1. A double-walled plastic tube, comprising an inner wall (10) and this enclosing corrugated outer wall (11), which in the wall valleys (12) are joined to the inner wall, characterized in that the portions (14, 17) of the outer wall (11), which forms side walls of a road valley, each of which is formed with at least one outwardly directed shoulder 10 (15) extending through the width of the road valley, located between the bottom of the road valley and the top of the road. Double walled pipe according to claim 1, characterized in that said wall portions (14, 17) have an S or Z shape forming a single shoulder (15). Double-walled pipe according to claim 1 or 2, characterized in that the shoulder (15) extends substantially parallel to the inner wall (10). Double-walled pipe according to any of claims 1 to 3, characterized in that the wall portions (14, 17) of the tiling (15) adjoining to the shoulder (15) are inclined towards the cross-sectional plane of the pipe, preferably at an angle of 5-15 °. Double-walled pipe according to any of claims 25 to 4, characterized in that rounded transitions are arranged between the shoulder (15) and connecting wall portions (14, 17). Double-walled pipe according to any of claims 1-5, characterized in that the distance between the wall valleys of the outer wall (11) is 0.02 - 0.2 times the outer diameter of the pipe. Double wall pipe according to any one of claims 1-6, characterized in that the corrugation axes of the outer wall (11) have a height which is 0.01 - 0.1 times the outer diameter of the pipe.