DE1188793B - Process and tools for the production of a pressure-resistant plastic pipe - Google Patents

Description

Process and tools for the production of a pressure-resistant plastic pipe The invention relates to a method and the auxiliary means for production of pressure-resistant plastic pipes, consisting of a thermoplastic core pipe, the flanges at both ends of the core tube and the reinforcement layers over the Tube length made of glass fiber rovings or cords hardened in a thermoset.

Plastic pipes have the advantage that they are lighter than pipes Metal and are also corrosion-resistant. They have the disadvantage that if they are without Reinforcement or reinforcement are carried out, insufficient strength in the case of large ones Have internal pressures.

Thermoplastic pipes are already used to remedy these disadvantages Plastic with reinforcements made of glass fibers impregnated with synthetic resin or mats or metallic wires, but also with textile threads, etc. have been produced, with the Reinforcements from combined radial windings and axially laid threads are arranged are. Even with intersecting, helically applied spirals were already Plastic pipes, but mostly without a core pipe, produced, with the end loops of the windings placed around the front sides and also for attaching lids or other closure parts were used.

To reinforce the radial or helical winding were also already inserted longitudinal rovings made of glass fibers, which in turn go through a radial or helical winding made of rovings were held and for inclusion to serve the tensile loads. At very high internal pressures, however, it is also sufficient this measure is not sufficient, as there is no direct connection between the two end pieces is achieved, but only an indirect one via the synthetic resin layers and the flanges, Lids or end pieces can slip out of the reinforcement layers.

The essence of the invention is that the radial and axial reinforcements not only applied endlessly for themselves, but also the axial reinforcement for the definition of the flanges or end pieces is used. This manufacturing process has the advantage that the reinforcement windings of the pipes are continuous and fully automatic can be applied in one clamping on a special machine.

To carry out the process, the nozzles of the flanges, the each have a constriction on the side facing the flange part, with guide and diversion elements, which are in the form of round fluted bolts, tenons or Cams and slots as aids either directly or on the nozzle Rings are applied to the flange socket by pinning, shrinkage or pouring or welding are attached so that they are increased by Internal pressure generated traction is transferred directly to the cuffs. The bracket is by taking appropriate measures such as the number and dimensions of the fastening pins or the size of the casting collar, etc. so strong that the tensile forces caused shear stresses are absorbed. These diversion elements but can also be produced from sheet steel by stamping or pressing or drawing and designed as rings that attach to the pipe socket in the same way are. The deflecting elements are then designed in a curve, so that as few as possible Shear forces stress the reinforcement threads.

The longitudinal reinforcement threads or cords are around the guide and Deflection elements led around by rotating the tube according to the Wrapping scheme wrapped in the constriction of the flange so that it is the flange nozzle Enclose according to the angle of rotation and around the next selected elements again be returned, whereupon the winding process is repeated.

The addition of the longitudinal reinforcement can be continuous or in batches take place. The guide and deflection elements are then arranged accordingly.

According to the invention, the arrangement of the end loops in the Fillets of the neck part of the flanges achieve a thread guide which is good technical utilization of the strength of the threads or cords allowed, which is oriented essentially only longitudinally, d. H. so have no transverse strength.

Such plastic pipes with flanges, which with the listed Reinforcement technology are manufactured, have optimal strength properties.

In the manufacturing process, mandrels are used in a known manner used as an aid.

In the drawings are the arrangement of the elements, some design variants and the individual stages of production are shown, for example, and in the description explained in more detail. It shows F i g. 1 shows a partial longitudinal section of the pipe on the flange and in the lower half a partial top view of a longitudinal reinforcement without a cover layer, FIG. 2 shows the parts attached to a winding mandrel, not shown, FIG. 3 the first stage of the winding process, Fig. 4 the second stage of the winding process, F i g. 5 the third stage of the winding process, FIG. 6 the fourth stage of the winding process, 7 shows the example of a winding of the longitudinal reinforcement, FIG. 8 Version with molded Ring, Fig. 9 Version with a pin-on ring, FIG. 10 version with shrink-on Ring, FIG. 11 the form of a deflection and guide element made of sheet metal, FIG. 12 element ring encapsulated according to FIG. 11, FIG. 13 element ring with solid grommets according to FIG. 15, fig. 14 deflection and guide elements produced by hobbing, ring stretched, F i g. 15 made of sheet metal strips and compressed grommets in oval Form, Fig. 16 plan view of the deflected longitudinal reinforcement according to Fig. 15, Fig. 17 in Sheet metal strips embossed diversion elements, Fig. 18 guidance of the longitudinal reinforcement according to Fig. 17.

The training and construction of a pipe made of thermoplastic Plastic with metal flanges is shown in FIG. 1 can be seen. On the core tube 1 made of PVC, polyethylene, etc., the flanges 2 with their nozzles are at both ends 3 made of metal, which carry a cylindrical bore 4, pushed on. The ends the nozzle 3 are each provided with a cone 5. In front of the deepened chamfer 7 lies a wreath of guide and deflection elements made of grooves, bolts or cams etc. may exist, which are designed as described below. They have the purpose of securing the position of the longitudinal reinforcement 9 (Fi g. 4), which the flanges 2 connects with each other and absorbs the tensile forces arising between the flanges.

After the parts are pushed onto a winding mandrel not shown (Fig. 2), the manufacturing process goes as it is in the figures using the example is shown as follows: First, to compensate for the diameter differences the radial winding 11 is applied as known (FIG. 3). Then the axial Reinforcement windings9 continuous from a groove or a space between two guide and deflection elements 8, 81 to 89 starting in the selected opposite ones Gap between the elements of the other flange out (Fig. 1, 4).

When inserting the reinforcement threads 9, the pipe is around one of the winding scheme (F i g. 7) corresponding angle rotated so that the winding loops 10 around the Deflection and guide elements 81 to 89 placed and the flange connection 3 the angle of rotation loop around accordingly and be stored in the circumferential groove 7, wherein the winding axes are on level II-II, which are perpendicular to the center of the pipe III-III stands.

This wrapping process is repeated automatically until all Gaps between the elements 81 to 89 are filled and the entire length of the pipe 1 is covered with longitudinal reinforcements which hold the two flanges 2 together. The diameter differences between the integration 12 in the groove 7 and the Element heads 81 to 89 are filled with glass fiber rovings 13. After that, the pipe in its entire length between the flanges 2 again with an or several layers of rovings soaked in synthetic resin are wrapped in radial windings. To When the resin hardens, the finished tube is pulled off the winding mandrel.

The F i g. 7 is only intended as an example of a winding option in the Show principle. So z. B. the leadership of the threads in any chosen steps take place and the angle of twist of the pipe when winding after determining the Number of guide and deflection elements depending on the desired arc of the loop Flange neck in the fillet 7 can be selected.

The guide and deflection elements 81 to 89 are designed so that that in the longitudinal reinforcement threads as little or no transverse forces as possible and there are no sharp kinks. The training opportunities are through the following Examples shown: In F i g. 8 to 10 are diversion and guide elements as grooved bolts 81 and 82 according to FIG. 1 and following executed, which in a Steel ring6 pressed in and arranged offset so that they are each in the longitudinal direction considered standing on gap. The rings 6 are shown in FIG. 8 in the flange socket 16 cast or welded. The federal government or the weld bead 16 takes the tensile forces on.

F i g. 9 shows a fastening by a for absorbing the shear forces a sufficiently large number of pins 15, while Fig. 10 shows a shrunk-on ring 6, the diameter of the nozzle 6 and the inner diameter of the ring 6 according to remove too easily from the flange so that a tapered fit is achieved.

11 and 12 show an embodiment in which the deflection and guide elements 83 are pulled out of a strip of sheet steel, whereupon the strip with the fillet 71, which extends into the fillet 7 of the flange connection 3 sets, bent to the ring 61 and pressed. These shaped rings can also be poured into the flange socket 3 during the manufacture of the flanges 2. the Cams 83 have holes 17 for the passage of air, so that the metal or the plastic enters the hollow cams. This ensures perfect power transmission given. In addition, the surface of the cams does not need to be machined, because the sheet itself is smooth. The cams are analogous to the version F i g. 14th shaped and equipped with curvatures reaching around 900, the parts opposite to run.

But also a fastening by snapping the ring 61 according to FIG F i g. 13 by means of a projection 18 which engages in an annular groove is possible.

In Fig. 13 the execution of solid grommets 84 is shown, which are somewhat compressed, so that heads 88 according to FIG. 15 form.

15 and 16 also show a spout shape like FIG. 13, only that the cross sections of the grommets 87 are oval and the arrangement of the grommets 87 a kink-proof deflection of the reinforcing threads 9 is permitted.

F i g. 17 and 18 show a similar design, but are here the grommets 89 stamped out of thicker sheet metal.

In Fig. 14 shows a portion of a ring 62 in which the Deflection and guide elements are made in parts by hobbing.

In this type of training, the longitudinal reinforcements 9 are so tight and guided and deflected around the elements 85 and 86 so that they are also part-wise Place on the pipe 1 or the radial reinforcement 11.

The guide and deflection elements are in the drawings for clarity due to being shown at a slightly greater height.

Claims (7)

Claims: 1. Process for the production of pressure-resistant pipes made of plastic with a thermoplastic core tube and flanges made of plastic or Metal reinforced from glass fibers impregnated with synthetic resin, characterized in that that the reinforcement layers are applied in two-axial windings by on the surface of the core tube in a known manner first one or more layers are wound by radial windings and then one or more layers in parallel Longitudinal windings running to the central axis of the tube are applied endlessly in such a form be that the latter by any rotation of the plastic pipe at the ends Form loops that are passed around the guide and deflection elements into the neck-shaped Fillet of the flanges are embedded and the flange socket in any Enclose a selectable angle. 2. Aid for the production of pipes according to claim 1, characterized characterized in that the nozzle of the flanges made of metal or plastic is a recessed Have a fillet (7), which between the flange part (2) and the ring of guide and deflection elements (8) and which is dimensioned so large that the end loops (10) of the longitudinal windings (9) partially wrap around the nozzle (3) in it and in of the groove (7), the guide and deflection elements being designed in this way and are arranged that no or only slight transverse forces in the reinforcing fibers or threads occur. 3. Aid according to Claims 1 and 2, characterized in that that the guide and deflecting elements are attached to rings (6) or formed out of them that are pinned, shrunk on, or blown into the socket of the flanges or cast or welded. 4. Aid according to claim 3, characterized by offset arranged, grooved bolts which are pressed into the rings (6). 5. Aid according to claim 3, characterized by made of sheet steel drawn grommets (84, 87) or embossed cams, the sheet steel strips forming rings be bent together and attached to the flange connector according to claim 3. 6. Aid according to claim 3, characterized by sheet steel strips Curved out, curved beads, webs, ribs or angles (83), the have an opposite curvature in terms of parts. 7. The method according to claims 1 and 6, characterized in that that when using the guide and deflection elements (83, 85, 86) the longitudinal winding (9) is carried out continuously, but according to the curvature of the aid be applied partially to the pipe. Documents considered: U.S. Patent No. 2862541, 2718583.