• 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:
    1439294 Moulding double walled pipes W HEGLER 10 July 1974 [22 March 1974] 30611/74 Heading B5A [Also in Division F2] A plastics tube comprising an outer annularly or helically corrugated wall, and a cylindrical inner wall, e.g. of 0À05 mm. thickness, fused thereto, is continuously made by extruding concentric tubes from extrusion die passages 1,4, into a continuous corrugating mould cavity defined by the co-operation of a pair of endless moving chains of mould halves. The tubes are urged outwardly in the cavity, respectively to define the outer and inner walls and, to prevent undulations being formed during cooling of the inner wall at its locations intermediate its fusion to the outer wall, air is admitted to between the extruding tubes at controlled pressure and temperature, which are respectively above atmospheric and at, or above, that of the softening point of the plastics. In the embodiment, the moulds are externally cooled, and the outer tube is urged against the corrugating cavity by vacuum admitted through mould passages 20, 21, and the innter tube is urged outwardly against the outer corrugated tube by air admitted at a raised temperature and a pressure, e.g. 15 to 30% above atmospheric, which is higher than that, e.g. 10 to 20% above atmospheric, of the air admitted between the exterior and interior tubes. The inner wall is pressed against the outer wall in passage over an extension 9, of the mandrel 6 of the die from which the inner tube is extruded. The air at pressures above atmospheric is heated by means (not shown), and admitted to within the tubes, via separate die inlets 12, 16, and passages 10, 7, the temperature and pressure of each air supply being measured by instruments 14, 13, and 18, 17, the temperatures being measured at the location of the instruments, but the presssures being measured at locations 15, 19, in the die, beyond which the pressure drop is insignificant.
    公开号:SU741790A4
    申请号:SU752111590
    申请日:1975-03-11
    公开日:1980-06-15
    发明作者:Хеглер Вильгельм;Петер Хеглер Ральф
    申请人:За витель;
    IPC主号:
    专利说明:

    The invention relates to the field of the manufacture of polymer pipes, in particular to the design of extrusion heads for the manufacture of two-layer polymer pipes with corrugated outer and pinch inner walls, and is an improvement of the invention according to the patent 320983. The main patent of the USSR 32098 is known for extrusion head for the manufacture of two-layer polymeric pipes containing two coaxial mandrels forming two annular slots for forming the outer and inner billet blanks which at the exit is provided with a mold A device made in the form of vacuum half-molds, equipped with means for continuous slabing and moving inside the restraint on the retaining piece, fixed in the mandrel, used for forming the outer tubular for cooking and provided with air channels, has a mandrel serving to form the inner smooth pipe and also equipped with a cable for air supply. However, this head does not allow to obtain high quality pipes. This is due to the fact that air is fed into the annular slots to form the outer and inner tubular blanks at the same temperatures and pressures, since the head does not allow for a thorough adjustment of these parameters. The purpose of the invention is to improve the quality of manufactured products. This goal is achieved by the fact that in the extrusion head according to patent No. 320983, containing two coaxial mandrels, there are two annular slits for forming the outer and inner tubular blanks and provided with an outlet formaquidim device, made in the form of vacuum half-forms, equipped with means for their continuous silicone fabric and displacements, inside of which, on a retaining rod fixed in the mandrel, a servant for shaping the outer tubular billet and provided with channels for the supply of air, has a mandrel serving forming an inner smooth pipe and also provided with air supply channels according to the invention; the retaining rod is made with a hole located along the central axis,
    air ducts made in the mandrel for forming the inner smooth pipe, the head provided with individual temperature and pressure regulators placed at the entrance to the central hole of the rod and into the channels for forming the outer pipe
    FIG. 1 shows a general view of the extrusion head in section; in fig. 2-4 shows the cross-section of double-layer pipes at different ratios of pressures of compressed air.
    The head contains (1 mouthpiece 1), which, with the mandrel (2), forms an annular slot (3) for forming the outer tubular billet, and a mandrel (4) with a retainer. a rod 5 forming an annular gap 6 for forming the inner tubular billet.
    The retaining rod 5 is provided with a central hole 7 located along the central axis, connected to the channel 8 for supplying air to the inner space of the inner tube, insulated due to the extension of the mandrel 9 from the outer space. Between the mandrel 2 for forming the outer tube and the mandrel 4 for shaping the inner tube is an annular channel 10 for supplying compressed air to the inner cavity 11 of the outer tube located in front of the annular gap b. Air is supplied to the annular channel 10 through an inclined opening 12. With the help of a heating device (not shown in the drawing), the air is heated to the required temperature. The individual regulators 13 and 14 serve respectively for measuring the pressure and temperature of the air supplied to the internal cavity of the outer tube. In this case, the temperature measurement can be carried out directly at the place where the temperature controller is located, while it is advisable to measure the pressure in the inner part of the extruder head approximately in zone 15, since from this point the air flows through a channel with a relatively large the cross section and low aerodynamic resistance and through the extruder hot die, so that the air pressure from zone 15 to the exit from the annular gap 3 does not change very much. Into the central hole 7 of the holding rod 5, air is introduced through channel 16. Here, also, before the entry point, there are individual controllers 17 and 18 for measuring, respectively, the pressure and temperature of air supplied to the inner space of the inner tube, which is heated by the heating device. temperature The position of the air pressure measurement should be exactly the same in the inner part of the extruder head at about point 19.
    Leaving the annular slot 3, the tubular billet enters the forming device in the form of vacuum half-molds 20. After the half-molds are closed, the corrugations made in them are connected to the suction channel 21, through which air is sucked out of the half-molds, so that the outer pipe, by means of a pressure difference between an external pressure that lies well below atmospheric pressure and an internal pressure that lies approximately 0.5-3% above atmospheric pressure, is quickly pressed into the corrugation of the half-mold. In this case, the air flow delivered through the channel 10 is indicated by arrows 22 and enters the corrugations of the outer pipe. The half-molds 20 are cooled from the outside, so that the outer tube, as soon as it touches the inner walls of the floor of the mold, cools relatively quickly. The inner tube outgoing from the annular gap b after the exit expands if the pressure of the air entering from the channel 8 lies slightly higher than the pressure of air in the inner
     cavity 11 and it is in contact with the already hardened outer tube. Through the mandrel extension 9, the inner tube is smoothed against the outer tube so that both pipes are well welded to each other. At the same time, the mandrel extension 9 causes the slight excess pressure that is created due to the release of air from the channel 8
    0 unchanged.
    In order for the outer and inner pipe to be well welded with each other, it is necessary to strive to ensure that the inner pipe is more
    权利要求:
    Claims (1)
    [1]
    5 quickly adjoined to the outer pipe, that is, once the final molding of the outer pipe is completed, the inner pipe should already be adjacent in the second or third corrugation to the last pipe after the start of suction. With the subsequent movement of the half-molds, the outer pipe, which is adjacent to the water-cooled wall of the half-form, is rapidly cooled, the internal pipe, which is separated from the cooled half-forms by an air gap, is cooled at a much lower speed and therefore remains capable of plastically deforming for a long time. The air in the interior of the corrugations is slowly cooled by contact with the cooling outer pipe, and the pressure is also reduced at the same time. If the pressure is reduced more, so that in the inner part of the corrugations there is less pressure than in the inner part of the inner pipe, as shown in FIG. then the inner wall in portions 23 is drawn somewhat into the corrugations. If the air pressure in the interior of the corrugations increases as shown in FIG. 3, the inner wall in portions 24 is rounded somewhat outward. If the temperature and air pressure in the cavity of the outer and inner tubes are chosen correctly, so that when the inner wall solidifies, the pressure in the corrugations becomes equal to the pressure of the cavity of the inner tube, then, as shown in FIG. 4, the inner wall remains smooth and the aerodynamic resistance does not increase. Based on the experiments, it was established that the one shown in FIG. The 4th state is reached even when a thin film with a wall thickness of 0.05 mm and below is extruded as the inner wall. The thickness of the inner wall means not only significant material savings. Moreover, it is also achieved that the inner wall does not reduces the flexibility of the pipe, so that such a two-layer pipe is practically as well pressed as the well-known pipes with transverse corrugation without a second inner wall. This invention, by making a holding rod with a central opening connected to the air supply channel and having individual controls for the temperature and pressure of the compressed air, makes it possible to significantly improve the quality of the manufactured products. The invention The extrusion head for the manufacture of two-layer polymer pipes according to the patent of the USSR No. 320983, characterized in that, in order to improve the quality of the manufactured products, the retaining rod is made with a centrally located opening connected to the air supply pipe made in the mandrel for forming an inner smooth pipe, the head being provided with individual temperature and pressure controllers of compressed air placed at the entrance to the central hole of the rod and into the channels of the mandrel for forming the outer tube.
    mmmmm
    .
    类似技术:
    公开号 | 公开日 | 专利标题
    SU741790A4|1980-06-15|Extrusion head for making two-layer polymeric tubes
    CA1314676C|1993-03-23|Pipe extrusion die with a cooled and vacuumed additional mandrel
    US2753596A|1956-07-10|Method and apparatus for making plastic tubing
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    FI88129B|1992-12-31|Process for extrusion of plastics pipes
    EP0096957B1|1989-05-24|Apparatus for producing multi-walled thermoplastic tubing
    US3280430A|1966-10-25|Apparatus for making corrugated plastic tubing
    HU206849B|1993-01-28|Apparatus and method for producing ribbed plastic tubes of plain internal surface
    US3385917A|1968-05-28|Method and apparatus for extruding plastics
    CN100471652C|2009-03-25|Device for manufacturing a double-walled thermoplastic pipe with a connecting sleeve
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    EP0483153B1|1994-08-31|Method for forming tubing utilizing suction and pneumatic pressure at the surface of the cooling plug
    GB948937A|1964-02-05|Method and apparatus for producing films of organic thermoplastic material having improved optical properties
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    US3320340A|1967-05-16|Controlled cooling of extruded plastic
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    US8178034B2|2012-05-15|Method and device for the continuous production of a plastic compound pipe comprising a pipe socket
    US3221084A|1965-11-30|Manufacture of polyethylene film
    US3742105A|1973-06-26|Method for producing a seamless tubing
    SU1530087A3|1989-12-15|Apparatus for production of spiral-coiled double-wall thermoplastic pipes
    FI87162B|1992-08-31|Process and device for producing gilled pipes
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    同族专利:
    公开号 | 公开日
    NL7409440A|1975-09-24|
    ATA440874A|1980-11-15|
    SE414732B|1980-08-18|
    FR2264648A1|1975-10-17|
    US3996323A|1976-12-07|
    TR18685A|1977-06-23|
    DK96575A|1975-09-23|
    IE40874B1|1979-08-29|
    BE826977A|1975-07-16|
    IE40874L|1975-09-22|
    ZA751812B|1976-02-25|
    JPS50140565A|1975-11-11|
    NO142612C|1980-09-17|
    DE2413878A1|1976-02-19|
    DE2413878B2|1977-09-01|
    CH602315A5|1978-07-31|
    CS191238B2|1979-06-29|
    SE7407554L|1975-09-23|
    NO142612B|1980-06-09|
    FR2264648B1|1978-02-17|
    NO742287L|1975-09-23|
    JPS5824253B2|1983-05-20|
    DE2413878C3|1978-04-27|
    DD119012A5|1976-04-05|
    CA1024311A|1978-01-17|
    GB1439294A|1976-06-16|
    FR69963E|1959-01-30|
    AT362928B|1981-06-25|
    引用文献:
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    AT325299B|1967-02-27|1975-10-10|Hegler Wilhelm|DEVICE FOR MANUFACTURING TUBES FROM THERMOPLASTIC PLASTIC|
    GB1201528A|1968-06-06|1970-08-05|British Insulated Callenders|Improvements in or relating to the manufacture of insulated electric cables|DE2637995C2|1976-08-24|1983-05-26|Hegler, Wilhelm, 8730 Bad Kissingen|Process for the production of double-walled plastic pipes with an annularly corrugated outer wall and a smooth inner wall|
    CA1083766A|1977-02-07|1980-08-19|Gerd P.H. Lupke|Apparatus for producing thermoplastic tubing|
    US4181487A|1977-12-23|1980-01-01|Milton Kessler|Vacuum sizing apparatus|
    US4288905A|1977-12-23|1981-09-15|Milton Kessler|Method of fabricating vacuum sizing apparatus|
    DE2832350A1|1978-07-22|1980-01-31|Wilhelm Hegler|DEVICE FOR PRODUCING PIPES FROM THERMOPLASTIC PLASTIC WITH CROSS-PROFILING|
    DE2840174A1|1978-09-15|1980-03-20|Oltmanns Ziegelwerk|PLASTIC PIPE|
    IL55798D0|1978-10-25|1978-12-17|Drori Mordeki|Fluid distribution devices particularly useful for drip irrigation and mathod and apparatus for making same|
    DE2933304A1|1979-08-17|1981-04-02|Hegler, Wilhelm, 8730 Bad Kissingen|IRRIGATION HOSE AND METHOD AND DEVICE FOR PRODUCING IT|
    US4312383A|1980-04-21|1982-01-26|Dayco Corporation|Hose construction and apparatus for and method of making same|
    DE3027045A1|1980-07-17|1982-02-11|Hegler, Wilhelm, 8730 Bad Kissingen|FLAT-HOLLOW BODY, ESPECIALLY VENTILATION AND DRAINAGE OR ABSORBER PLATE|
    CA1194663A|1983-05-27|1985-10-08|Lupke, Manfred A. A.|Calibrator for use in the manufacture of double walled thermoplastic pipe|
    US4500284A|1983-09-16|1985-02-19|Lupke Manfred Arno Alfred|Forming single wall bells in double wall pipe|
    US4846660A|1984-07-18|1989-07-11|Contech Construction Products Inc.|Apparatus for producing double wall pipe|
    US5124109A|1984-07-18|1992-06-23|Contech Construction Products Inc.|Method for producing a double wall pipe|
    SE446954B|1985-03-12|1986-10-20|Uponor Ab|SET FOR EXTRUDING A DOUBLE WALL PLASTROR AND EXTRACTING TOOL FOR EXTENDING THE SET|
    DE3513708C2|1985-04-12|1994-04-21|Drossbach Gmbh & Co Kg|Extrusion head for producing double-walled plastic pipes with cylindrical inner pipe and cross-corrugated outer pipe|
    US4770618A|1986-01-15|1988-09-13|Lupke Manfred Arno Alfred|Extrusion die for two-ply plastic tubing|
    US4936768A|1986-03-25|1990-06-26|Lupke Manfred Arno Alfred|Extrusion die for externally ribbed plastic tubing|
    US4712993A|1986-03-25|1987-12-15|Lupke Manfred Arno Alfred|Extrusion die for externally ribbed plastic tubing|
    SE461293B|1988-05-30|1990-01-29|Uponor Nv|ROUTES FOR LINING OF MARKETING PIPES|
    US5683647A|1992-06-29|1997-11-04|Tokai Rubber Industries, Ltd.|Process for producing resin hose|
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    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    DE2413878A|DE2413878C3|1974-03-22|1974-03-22|Process for producing a double-walled plastic pipe with a corrugated outer wall and a smooth inner wall and a device for carrying out this process|
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