• 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 the manufacture of plastic ribbed pipes with a sleeve for connecting pipes to each other to form a pipeline. The purpose of the invention is to improve the quality of pipes and simplify the design. According to the invention, the sleeve is formed simultaneously with the extrusion of the tube in the device, in which the mandrel of the extrusion head and the core are surrounded by metal cooling molds. They move along endless trajectories to form a mold. The sleeve is formed by making a recess in the shape of the sleeve in some metal molds, as well as by pressing a plasticized material extruded through a nozzle inside the recess under the appropriate air pressure. The length of the rod and the distance from the air outlet to the nozzle are chosen at least equal to the length of the recess in the axial direction of the rod. The recess forming space on either side is bounded by annular channels between the surfaces of the rod and the molds. The channels form seals when filled with material. This makes it possible to qualitatively mold the sleeve on the pipe. 4 il.
    公开号:SU1598860A3
    申请号:SU884356490
    申请日:1988-09-20
    公开日:1990-10-07
    发明作者:Ярвенкуля Юри
    申请人:Упонор Н.В. (Фирма);
    IPC主号:
    专利说明:

    The invention relates to the manufacture of plastic ribbed tubes with an expanded part, i.e. a sleeve with which the pipes can be interconnected to form a pipeline.
    The purpose of the invention is to improve the quality of pipes and simplify the design.
    Figure 1 shows a device for manufacturing corrugated or finned tubes, a general view; figure 2 - part of the device in the manufacture of finned tubes, a longitudinal section; fig.Z - the same, in the manufacture of double-layer pipes, a longitudinal section; Fig, 4 - ready ribbed tube.
    The device for extruding plastic pipes contains metal molds 1 and 2 (Fig. 1), which are mounted so that they can move along two endless paths of movement and form with each other within the guide rails 3 zone of a cylindrical mold. The extrusion sleeve 4, connected to the extrusion head 5 of the extruder 6 by means of the adapter 7, is elongated and enters the molds 1 and 2 (in Fig. 1 it is shown how the already manufactured tube leaves the other end of the mold formed by metal molds 1 and 2).
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    A mandrel 8 (Fig. 2), consisting of a straight part and cone-extending part, is installed along the central axis of the device, and a rod 9 having a constant or equal diameter forms an extension of the mandrel 8. Cavities are formed in the end part of the rod 9 (not shown) for the cooling agent. The contours of the extrusion sleeve 4 and the mandrel 8 form an annular nozzle 10 between them to supply plasticized plastic material in the form of a tubular blank - a sleeve into the space 11 formed between the metal molds 1 and 2, the mandrel and the rod 9,
    For the manufacture of pipes with a ribbed outer surface, the inner surface of the metal molds 1 and 2 is provided with annular ribs 12, between which grooves 13 are formed for pressing plastic material in them with the final formation of ribs. The grooves 13 of the metal molds 1 and 2 can communicate with the atmosphere through the channels 15 extending from the bottom 14 of the grooves 13 to the outer surface of the metal molds 1 and 2 (Fig. 2).
    At least one pair of metal molds 1 and 2 at the location of the ribs 12 and grooves 13 is provided with one large notch 16, the side and bottom walls of which correspond in shape to the outer surface of a part of the pipe sleeve, and the notch 16 is deeper and longer in the axial direction
    devices than the grooves 13. The rod 9 is provided with a peripheral groove 17 formed on its surface and a channel 18 that communicates with a working fluid supply element (not shown) under pressure, for example, air means for pressing a part of the tubular billet in the recess 16 and which opens in the side wall 17. The channel 18 is provided with a valve 19. The groove 17 acts as a thermal barrier between the hot part of the rod 9, which is located at a minimum distance from the mandrel 8, and the cold part at the free end of the rod 9. The length of the rod 9 and the distance from the outlet of the channel 18 of the medium for feeding the pressurized medium to the nozzle 10 is chosen equal to the length of the forming recess 16 in the axial direction of the rod 9 with the possibility of limiting the space for forming the recess 16 on both its sides by annular channels 20 and 21 between the surface of the rod 9 and the inner surface of the press -forms 1 and 2 to form seals when the annular channels 20 and 21 are filled with material. Fig 2 shows that the plastic material
    5 1

    which fills the space between the metal molds 1 and 2 and the rod 9, forms seals almost near the front and rear walls of the recess 16 and that. The interval of positioning the groove 17 from the sealing point is greater than the length of the recess 16 in the axial direction of the device. The length of the rod 9 in the axial direction is equal to the length of the notch 16 in the same direction. Molds 1 and 2 are equipped with cooling facilities (not shown).
    The device works as follows.
    To produce a ribbed plastic pipe, the plasticized plastic material is fed through the nozzle 10 in the form of a tubular billet — the sleeves directly into the space formed between the metal molds 1 and 2 and the mandrel 8. When the metal molds 1 and 2, equipped with ribs 12 and grooves 13 on their forming surface are located at the point of the nozzle 10 (Fig.2), the plastic material completely fills the space between the metal molds 1 and 2 and the mandrel 8. After moving the metal molds 1 and 2 into ravuyu part is formed (forming) 0 seamless plastic tube 22 (FIG. 2) with a smooth outer surface and a smooth flat inner surface.
    After the notch 16 has reached the location of the nozzle 10, the sleeve has not yet been able to fill the entire notch 16 because of its too large volume, however this sleeve is currently forming a layer that is thicker than the usual wall thickness rod 0 9, and this is somewhat greater thickness due to the absence of edges. This state continues until the entire recess 16 passes through the nozzle 10 and the re-molding of the 5-pipe pipe begins to be reformed.
    When the recess 16 has passed the point of location of the nozzle 10, the groove 13 is set to its first position after the complete and final filling of the recess 16 with plastic material (Fig. 2). Since the sleeve ultimately completely fills the space between the metal molds 1 and 2 and the rod 9 in front of and behind the recess 16 in the channels 20 and 21, 55 an isolated zone is formed in the recess 16 itself. After the front wall of the recess 16 passes the point of location of the groove 17 of the rod 9, a jet of pressurized air that passes between the sleeve and the air blows out of the groove 17.
    the rod 9 in the directions shown in figure 2 by arrows, as a result of which the sleeve, which is currently located opposite the rod 9, is pressed against the walls of the recess 16. The air that is under the pressure 5 can be blown out of the groove 17 permanently, however the ability to regulate the air supply by the valve 19 so that the air flow is supplied only when the recess 16 is installed in the 10th groove. The channels 15 communicating with the atmosphere make it possible to remove the air that has accumulated and fill the entire space of the recess 16 from the recess 16 at the time of forming a part of the sleeve 23. The pipe 22 formed in the device 22 is cooled by a cooling liquid that passes through the channels (not shown) and enters the free end rod 9 into metal molds 1 and 2.20
    The cooled pipe 22 is cut along the center of the part of the sleeve 23, as a result of which two pipes are formed, each end of the pipe being provided with a sleeve. On the inside of the pipe 22, at the cut point, 25 is formed into a shallow groove 24 (FIG. 4), which is simply formed by giving the lower part of the recess 16 a corresponding shape. The presence of the groove 24 facilitates insertion of the end of the straight pipe, followed by pushing it 30 into the sleeve. If necessary, the pipes can be cut inside the device along the groove 24 by increasing the internal pressure of the pipe to a value at which the bursting limit of the pipe 22 is exceeded so that the part of the sleeve installed in the groove 24 can be removed through the channels 15. Thus the device makes it possible to produce high-quality pipes with bushings with the simplicity of their design.
    Instead of air pressure, or to increase the effect of air pressure during the pressing operation of the sleeve to the walls of the recess 16, you can use the suction effect 45, for which you need to connect the channels 15, which open in the recess 16, with a vacuum source.
    In addition to the manufacture of pipes with solid and solid walls and with external edges, it is possible to manufacture pipes with smooth and smooth external and internal walls or with hollow two-layer walls, and the external layer in this case is corrugated (Fig. 3). In this case, the device works in the same way as in the manufacture of finned tubes, except that the air flow under pressure is supplied from the groove 17 only when the recess 16 is set in the groove, as otherwise the wall can settle. Thus, after the forming recess 16 reaches the rod 9 and the edge 12 of the metal molds 1 and 2 takes its first position, a pressure difference is formed, which is eliminated even before the edge 12 reaches the groove 17 of the rod 9 .
    Instead of air, some gas or liquid can be used as the medium supplied from the groove 17. If the fact that the sleeve does not press against the walls of the recess 16 until the seal between the recess 16 and the nozzle 10 seals in the channel 21 is considered as an advantage of the pipe manufacturing process, it is still possible to design the device so that the spacing the grooves 17 from the nozzle 10 were less than the length of the notch 16 in the direction of the axis of the device and so that the molding of part of the sleeve 23 began already until the whole notch 16 passes through the nozzle zone 10. If necessary, the channels 15 can be left.
    The wall of the part of the sleeve 23 can be made of the same thickness as the wall of the part of the pipe by moving the metal molds 1 and 2 towards the front at a slightly lower speed compared to the usual speed of the molds 1 and 2 when the notch 16 is set to nozzle zone 10. As a result, the plastic layer on the surface of the mandrel 8 becomes particularly thick in the area of the notch 16. But with the obligatory condition that the plastic material is fed through the nozzle 10 at normal or normal speed. In addition, it is possible to manufacture double sleeves, i.e. short tube elements with sleeves opening in different directions at both ends. Such double sleeves are used as extension members.
    权利要求:
    Claims (1)
    [1]
    Invention Formula
    A device for extruding plastic pipes containing a cylindrical mandrel, a constant diameter rod forming the extension of the mandrel, molds provided with cooling means surrounding the core to form a mold with it and mounted to move along an endless trajectory the molds have at least one recess for forming a part of the sleeve, a nozzle for conveying tubular billet from the plasticized material between the mandrel, the core and the molds , means for pressing a part of the tubular billet in the recess, made as an element of supplying the working medium under pressure from the outlet to the inner surface of the tubular billet, which is limited by the recess, in order to improve the quality of the pipes and simplify the design , rod length and distance from the output
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    The orifices of the medium under pressure to the nozzle are selected at least equal to the length of the forming recess in the axial direction of the rod with the possibility of restricting the space for forming the recess on both its sides by annular channels between the surface of the rod and the inner surface of the molds to form seals when the annular channels are filled with material.
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    类似技术:
    公开号 | 公开日 | 专利标题
    SU1598860A3|1990-10-07|Apparatus for extruding plastic pipes
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    US4302170A|1981-11-24|Accumulator head having a piston with a self-wiping face
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    同族专利:
    公开号 | 公开日
    KR910005175B1|1991-07-23|
    AU598343B2|1990-06-21|
    FR2609932A1|1988-07-29|
    AU1182388A|1988-08-10|
    WO1988005377A1|1988-07-28|
    IT8847560D0|1988-01-21|
    FI884353A|1988-09-22|
    US4865797A|1989-09-12|
    NO884190D0|1988-09-21|
    FR2609932B1|1994-05-27|
    FI884353A0|1988-09-22|
    NO884190L|1988-11-16|
    FI88129C|1993-04-13|
    KR890700460A|1989-04-25|
    DE3701822C2|1989-06-29|
    FI88129B|1992-12-31|
    IT1219813B|1990-05-24|
    DE3701822A1|1988-08-11|
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    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    DE3701822A|DE3701822C2|1987-01-22|1987-01-22|
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