• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to welding, in particular to methods of joining pipes coated with thermal insulation, and can be used in the manufacture of systems of thermally insulated pipes. The aim of the invention is to increase efficiency by creating a method for making a connection based on the use of embedded wire heaters. To achieve the goal, the ends of the pipes covered with insulation protrude; The sheaths are interconnected by means of a connecting element. The latter is carried out in the form of a piece of plastic pipe that is welded to the shell. Welding is carried out by means of a plastic strip with heating elements in the form of wires through which current is passed. A plastic strip with heating elements is used to seal a longitudinal section of the connecting element. Thus, the connecting element is positioned between the shell tubes and is flush with them regardless of the tolerances on the diameters of the tubes. A weldable connecting element formed by strips is easily formed around the joints regardless of tolerances without the need for shrinkage. This removes the problems associated with sealing overlapping zones. 12 silt § Z Sd SP
    公开号:SU1355115A3
    申请号:SU833611160
    申请日:1983-06-28
    公开日:1987-11-23
    发明作者:Нергаард Педерсен Хане
    申请人:И.С.Меллер А/С (Фирма);
    IPC主号:
    专利说明:

    The invention relates to welding, in particular to methods of connecting pipes coated with heat insulation, and can be used in the manufacture of heat insulated pipe systems, for example, underground district heat supply systems. The purpose of the invention is to increase the efficiency by creating a method for making connections based on the use of embedded wire heaters.
    Figure 1 presents the pipe connection General view; in figure 2 and
    3 - welding strip and its parts, respectively, general types; on
    4 - one end of the welding strip, side view; figure 5 is a connecting element with welding strips, side view with a partial cut; figure 6 is a connecting element mounted on the pipe connection, side view with a partial section; figure 7 is a pipe connection with the installed connecting element, side view; Fig. 8 shows a welding strip intended to seal a longitudinal section of the connecting element, a general view; figure 9 is a pipe connection with an installed connecting element and with an installed welding strip, side view; figure 10 - mount the welding strip, cross section; figure 11 - the intersection of the welding strip, top view; in fig. 12 shows a device for mounting a welding strip attached in accordance with FIG. 10, general view.
    Figure 1 shows the ends of two pipes 1 and 2 to be connected, covered with x insulation. A caladen pipe consists of an inner steel pipe 3, covered with a layer of insulating material and enclosed in a protective tubular sheath 5 of plastic, for example, REN. The ends of the steel pipes 3 protrude from the respective ends of the insulated blocks and are shown already connected by a weld seam 6. A connecting element 7 of the shell is installed on the joint, through which the ends of the shell 5 are connected and a rigid and tight joint is formed.
    The connecting element 7 consists of a piece of cylindrical plastic 8. with a longitudinal gap
    9, both ends of which are provided with cuffs of plastic strip 10 superimposed on the outer surface of the pipe 8 so that the edges of the strip protrude beyond the edges of the pipe 8. In the area of the longitudinal section 9 there is a gap between the edges of the strip 10. And the edges of the strip are embedded in . conclusion
    The blocks 11, from which the wires of the electric heater 12 protrude. When installing the connecting element of the pipe 8, it opens along a longitudinal section and is put on the pipe
    connection, after which, as will be described in more detail below, the cuff strips 10 are welded to the edges of the sheath -5 tubes, for which the wires of the electric heater 12 are connected
    to the welding generator. In the connecting element there is an upper
    an aperture 13 subsequently used to fill the cavity of the connecting element with an insulating material.
    One of the bands of the cuff or welding strip 10 is shown in FIG. 2 separately prior to installation on the pipe 8 of the connecting element. It consists of an extruded strip section 14, at the ends of which extruded blocks 11 are made, which are plastic elements attached to the ends of the strip using any known type of welding. On one side of the block 11, the end of the wire 12 protrudes, and the other side is the end of the wire 15. FIG. 3 shows in more detail
    one end of the welding strip 10. The extruded strip 14 has a practically flat active surface 16 in which parallel copper wires 17 are embedded,
    located very close to the surface or under the surface itself 16. The strip 14 can be produced by extrusion together with wires 17, located
    parallel. The wires are located. two groups along the left and right edges of the strip with a gap between them M in the middle part of the strip. The opposite surface of the strip is made somewhat convex.
    When cutting from the extruded stripe of the segment 14, the wires 17 are also cut off.
    plastic areas are removed from the strip in order to expose the ends of the 18 wires. After that, lead blocks 11 are welded to the ends of the strip so that the ends 18 of the wires enter the lead element. This is ensured by the fact that transverse grooves 19 and 20 i enter the ends of the connecting wires 15 and 12, respectively, in the lead block. The ends 18 of the thin wires are soldered to the connecting wires, as a result of which the wire 15 in FIG. 3 is connected to all the wires 17 of the right wire group, and the wire 12 connected to all the wires of the left group is inserted into the groove 20. The strip assembly is shown in FIG.
    Dp pre-installation of the cuff or welding strip 10 on the split pipe 8, the pipe is put on the mandrel 21, as shown in figure 5, On the ends of the pipe impose strip, which impose clamps 22, pressing the respective halves of the strips to the outer surface of the pipe 8. After that The connecting wires 15 of each strip are connected to the current source and through the wires 17 of the half strip that surrounds the pipe 8, proper heating current is passed through, resulting in a reliable welding connection of the strip to the surface of the pipes. . The connecting element 7 thus manufactured (Fig. 1) is delivered to the installation site on the pipeline. The connecting wires 15 may be cut off as having fulfilled their purpose, and shown in FIG. connecting element 7 has only connecting wires 12.
    The connecting wires 12 must be used to weld the strips 10 to the ends of the tubes of the sheath 5 after the connecting element is installed on the pipe connection. Figure 6 on the left shows the connecting element, not crimped at the ends of the tubes of the shell 5, with a relatively large axial clearance 9, since the diameter of the pipe 8 of the connecting element is slightly larger than the diameter of the pipes of the shell 5, However, the pipe 8 of the connecting element must be located between the ends of the pipes of the shell 5 with small gaps 23 between them.
    In order to weld the protruding halves of the strips to the ends of the sheath pipe, it is necessary to press the strips 10 against the outer surface of the ends of the sheath pipes and bring proper current to the connecting wires 12 from the welding generator. The right-hand figure 6 shows the best option for applying the required mechanical pressure to the strip 10,
    namely, a method using an inflatable sleeve 24 laid around the strip 10 and covered by a rigid annular element 25. The sleeve 24 inflated through the nozzle 26 presses the protruding halves of the strip 10 against the surface of the pipe shell 5 and around the entire circumference. In this case, the gap 9 is narrowed, and the pipe of the connecting element 8 is centered along the edges
    sheath tubes 5. Thereafter, the protruding ends of the welding strip are welded to the sheath tubes by feeding the welding wires 17 through the connecting wires 12.
    As a result, the compound shown at right in FIG. 7 is obtained. Axial clearance 9 is very negligible.
    large, the pipe 8 of the connecting element is installed flush with the tubes of the shell 5, and between the ends of the € 1 of the welding strips 10 a small portion of the annular groove 23 is visible.
    Thereafter, as shown in FIG. 7, the ends of the strips 10 are formed
    in such a way that a gap is formed between them - width a. The axial gap 9 is then covered and sealed with a welding strip 27 (FIGS. 8 and 9), which is similar to
    lanes 10 (figure 2). Optimally, strip 27 is cut from the same extruded strip as strip 10. Dimension a (Fig. 7) should be equal to the width
    the strip 27 so that this strip can be used not only to seal the axial clearance 9, but also the portions 23 left between the ends of the strip 10,
    By cutting off the ends of the strips 10, the lead-off elements 11 are also removed. These elements remain unwelded to the pipe surface and, by cutting them off, ensures that
    The joints on the joint of the strip 10 are reliably welded along the entire length.
    Fig. 9 shows a straight welding strip 27 superimposed on the gap 9, the ends of which also cover the gaps between the ends of the annular strip of 10 °. When welding the welding wires of the strip 27 is energized, it is welded. Optimally, the lead-outs of the lip 27 are of the design shown in Figures 8 and 9. In one block 28, a groove is made with a connecting wire 29 connected to all the i-welding wires 17 of both halves of the strip. In another output unit 30, there are two grooves in which the connecting wires 12 and 15 are located, respectively. Both grooves are open to one side, therefore the wires from the power supply are connected from one side. The welding strip of FIG. 2 could be used, however the strip of Figure 8 is preferred for a number of reasons.
    Typically, the length of the connecting element is less than its circumferential length and is about half that length. In the embodiment of FIG. 2, two groups of wires 17 are connected to the power supply separately. The voltage of the power source corresponds to the length of each or one group of wires, since the two groups are not simultaneously powered. In lane 27, it is preferable to load two groups simultaneously, which requires an adjustment of the voltage. If, as shown in Figures 8 and 9, the two groups of wires are connected by connecting wire 29 in series, and the length of each group is about half the length of the wires in Figure 2 and 3, the working length of the wires in both cases is approximately the same, with the result that the same generator without any adjustment or with very small adjustment can be used for welding both strips 10 and strips 27.
    For high-quality welding of the welding strips of FIGS. 5 and 6, welding pressure must be applied, which is also true for the strip
    27 (Fig.9 and 10). As shown in FIG. 10, a rigid beam 31 can be installed over the gap 9, the ends
    which, using suitable connections, can be attached to the clamps covering pipes 2 and I, so that the gap between the beam 31 and the strip 27 can be inserted
    an inflatable sleeve 32, with which the welding pressure is applied to the strip 27.
    In order to ensure proper welding of the strip in the area under
    gap 9 should be installed
    a means for creating backpressure 33 (shown by dotted lines in FIG. 10). One variant of such a device is shown in FIG. 12. The ends of the beams 34 and 35 with their ends are secured in the insulating material of the pipes 2 and 1 directly under the sheath 5 pipes. After that, the beams are connected with a screw 36 that rests on
    the radius of the pipe 3. Along the beams can be created several such supports, ensuring the rigidity of the beams 34 and 35 of the back pressure.
    The problem of counter pressure does not arise when welding the annular bands 10, if they are mounted in the manner described above. When pre-installing strips 10 on the pipe of the connecting element 8 (figure 5)
    the necessary backpressure is provided by the mandrel 21, and when the connecting element 7 is installed on the pipeline (on the right in Fig. 6), the annular weld zone is rigidly supported by insulating foam material.
    If it is necessary to install the entire ring strips
    In the pipeline, by welding them in one operation, first to one and then to the other side of connection 23, a support ring should be installed under the ends of pipe 8. This ring in the preferred embodiment should be tightly inserted in the axial direction into the ends of the sheath tubes in order to center the tube B of the connecting tube.
    an item. It is also possible to use an annular element with a V-shaped cross section so that the ends of the pipe of the connecting element and the shell are somewhat deformed into a cone, and the welding strip can be set to flow.
    After installing the axial strip 27, the wires 12 and 15 are cut off, and the joints between the strips 10 and 27 are sealed with tapered inserts 37 (Fig. 10), which are welded into holes 38 that are specially drilled into the connected elements. Another insert 39 is installed so that to overlap the non-welded middle zone M (FIG. 3) of the strip 27; After these inserts are welded in, complete sealing of the joints is achieved both between the welding strips and between them and the joints 8 and 23.
    Another insert 40 is installed in the upper opening 13 after the connecting element is filled with foam insulation.
    From figure 10 it can be seen that, optimally, the active side of the welding strip 27 should be slightly concave so as to at least approximately correspond to the curvature of the surface of the pipe. The active side of the circumferential welding strip 10 should usually be flat, but the extruded material 27 of a concave-convex shape (FIG. 10), before bending it, corresponding to the bending of the strip 10 of FIGS. 1.2 and 5, acquires a flat convex shape (FIG. 5 ) For this reason, strips 10 and 27 can be completely cut from one extruded strip.
    Welding strips can also be produced without heating wires, which can be embedded into a separate thin and flat extruded strip that is superimposed on the welding strip before it is installed.
    权利要求:
    Claims (1)
    [1]
    Invention Formula
     The method of connecting pipes covered with insulation, made in the form of an external plastic pipe shell, mainly underground pipelines of the heat supply system, including the connection of the protruding ends of the pipe pipes, placing at these ends a connecting element in the form of a section of plastic pipe with a longitudinal section, welding this element to pipe ends and sealing longitudinal section,
    characterized in that, in order to increase efficiency by creating a method of making a connection based on the use of embedded wire
    5 heaters, for welding the connecting element to the ends of the sheath pipe on the outer surface of the ends of the connecting element and the adjacent ends of the pipe, shells impose plastic welding strips, which are made in the form of a flat strip, whose active side is concave and a series of longitudinal parallel heating wires embedded in it near its active side, on each end of which a lead is installed and welded
    0 an electrical unit in which the ends of the heating wires are connected, the strips are laid to form a gap that coincides with a longitudinal section of the connecting
    .- element, and feed the heaterb
    wires, and sealing is carried out by placing a separate welding strip, which is produced by cutting a mass welding strip with lead-out electric blocks from the said layer Q, in a longitudinal section and welding it to the outer surface of the connecting element, and prior to installation
     the connecting element above the section of the sealing longitudinal section is established by means of supports a longitudinal beam to create a counterpressure, the ends of which are threaded under opposite ends of the sheath pipe, and the beam is supported by at least one support supported by the pipe of the pipeline.
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    Editor P.Geershi
    Compiled by L.Nazarova Tehred M.Hodanich
    thirty
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    Proofreader M.Maksimishinets
    Order 5718/57 Edition 970 Subscription
    VNIIPI USSR State Committee
    for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5
    Production and printing company, Uzhgorod, Projecto st., 4
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    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    DK291182|1982-06-29|
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