前苏联专利SU725548A3 Method of thermoplastic tube manufacturing

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类似技术

同族专利

引用文献

法律状态

优先权

专利摘要:
A large-diameter hollow body, especially pipe such as waste or sewage pipe, consisting of a multiplicity of helical turns of an extruded thermoplastic synthetic-resin hollow strip heat-sealed together in laterally abutting relationship. The thermal butt welds are provided in planes transverse to the axis so that the inner surface has turns which are flush with one another. The turns themselves are hollow and of a generally rectangular profile with a substantially round (preferably circular) inner cross-section.
公开号:SU725548A3
申请号:SU731935404
申请日:1973-06-19
公开日:1980-03-30
发明作者:Георге Петцетакис Аристовоулос
申请人:Aristovoulos George Pettsetaki；
IPC主号:

专利说明:

awn 12, and ø storogGBGG6TYoD YH tormoznye opening 13 of rubber, pZhstm ssy i.T. p. (Fig. 1). The rollers 9 for winding can be adjustable to set x at different withdrawal speeds. The pressure rollers 14 of the pressure fixture 10 can be adjustable in the direction of the slider and the speed of 1/2. Instead of the pressure rollers 14 can use and n Loose-shaped clamping element. In all cases, the set-up works in such a way that the hollow plastic profile 3 heated to the molding and welding temperature is hammered by the threads 16 in rotation% 1 Tsuk: G with the winding capacity of the axle-tube 8, and the coils 16 of the hollow plastic profile 3 weld in Möste / 7. Witcr 16 is wound so that the lateral parts of the surface of the hollow plastic profile 3 fit snugly against each other at a withdrawal speed V, which is greater than the withdrawal speed 1/1. As a result, the turns 16 are pressed against each other in accordance with the difference and are welded. This is possible due to the fact that the internal cooling performed in the hollow plastic profile 3 supports the central part, which counteracts the compression. If the speed from the feed rate, the value of which can be considered as Vz, then during retraction, braking takes place on the brake opening of the 13 rollers 9 to the speed Fiv. As a result, weld a fine quality. Hollow plastic
the profile has a straight profile and a round internal shape in cross section (Fig. 4), with the side wall sections that are welded to each other (Fig. 5) are usually thinner than the free sections of the wall that form the outer and inner surfaces of the finished pipe. FIG. 5 by shading the cross cross-section, the wedge-shaped areas that during the welding process act as zones of reserves of heat and material, the dot-dash-dotted circle indicates the zone where, due to cooling, a hard shell is formed, which is necessary for axial reduction in welding.
The invention is not limited to the profiles shown, it can also be carried out if the profile has a roughly rectangular outer outline and a roughly circular inner outline in the cross section.
In the device (Fig. I) it is possible to additionally install special heats. 725548
for the lateral sections 19 of the surface of the hollow plastic profile 5. To cool the canopy (plastic mass profile 5 through tube 20 (Fig. 3), which is taken out from the mandrel 5 insulated, coolant, such as water, is fed into the extruded hollow plastic profile 3 along the length of the first coils 16. Thus, intensive cooling is achieved, which allows even plastic processing, which in M0 iv extrusion are still extremely liquid, and processing of which is considered in the manner described above whether
M. bs impossible. The tube, b, has a mouth 2 / and openings 22 distributed over its surface, through which the cooling liquid flows. The cooling liquid flowing back to low pressure in the direction of the direction 23, since hydrostatic pressure was created in the previous turns of the pipe.
Coolant supply. fluids can be carried out no-iia3HOMy and are produced by ancillary devices, which are explained above. What is generally cooled during the welding process is completely unorthodox, since it is always heated when welding. And according to the invention, only internal cooling allows the welding process to be carried out. It imparts to the hollow plastic profile a solidified intrazink peel, which allows the perception of the active components required for the welding process. axial direction of compressive forces. Despite this, the lateral portions of the hollow plastic profile due to the poor thermal conductivity of thermoplastic plastics retain the welding temperature.
After winding, the coils that are combined into the tube are compressed, as a result of which compression occurs. Squeezing the coils by pressing them against each other provides high-quality welding for two reasons. On the one hand, because the cooling fluid; "Cooling the hollow plastic profile of the arm is in cross-section a circular shape of the inner surface so that a supporting core or support crust is obtained which perceives the pressing forces, preventing crushing of the hollow plastic profiles during crushing. On the other hand, because the angular parts of the hollow plastic profile (which are wedge-shaped in cross section) (which are obtained by the fact that its circular cross section of the internal outline is inscribed in the external outline) are material inclusions that, in connection with the butt welding process, play the role of zones accumulation of material and heat. Despite internal cooling, they accumulate heat from extrusion, which, when pressed, acts as heat of welding. There may even be a mass transfer in the boundary layer and as a result, butt weld welds of excellent quality, which in the finished pipe can withstand any loads, even if the pipe laid in the zone of subsidence of the soil is subjected to bending.
The cooling of the hollow plastic profile should, of course, be carried out in such a way that the compression forces described above are perceived. The cooling fluid is supplied only under slight pressure so that the internal pressure from it does not cause undesirable deformations.
The proposed method can be carried out with all thermoplastic plastics commonly used for the production of pipes, for example polyvinyl chloride, polyamide, polyolefins or other plastic masses that can be pulled out. In order to provide a supporting central part of the profile for the entire reduction zone, it is proposed to cool the fluid not only through one turn, but through two or several turns.
Looking at what temperature the hollow plastic profile has yet at the time of entry into the winding position, it may be advisable to carry out additional heating to obtain the required welding temperature. For this, the lateral surface areas of the hollow plastic profile are heated additionally to the welding temperature when it enters the winding position. This can be achieved by heat radiation, convection or dielectric heating. But usually the heat from extrusion is sufficient for welding.
The invention is intended for the manufacture of pipes, especially pipes of large internal diameter from hollow plastic profiles, to dispense with flanges for welded welds overlap or kinematic closure.
Form la invention
A method of manufacturing thermoplastic pipes of predominantly large diameter, in which an extruded profile with a circular inner cavity and a rectangular outer cross section is wound onto a rotating mandrel, presses the coils against each other along the side surface and welds the coils, characterized in that, in order to improve the quality to obtain a hard shell in the internal cavity while preserving heat reserves in its walls for subsequent welding of turns, coolant is passed through the internal cavity of the profile s
A source of information,
taken into account in the examination:
1. Patent of Germany No. 1816374, cl. ZEA 35 23/12, 1971.

权利要求:
Claims (1)
[1]
A method of manufacturing thermoplastic pipes of predominantly large diameter, in which an extrudable profile with a round inner cavity and a rectangular outer section is wound on a rotating mandrel, press the coils one against the other on the side surface and weld the coils, characterized in that, in order to improve quality by obtaining a hard shell in the internal cavity while maintaining heat reserves in its walls for subsequent welding of coils, coolant is passed through the internal cavity of the profile.

类似技术:

公开号 | 公开日 | 专利标题

SU725548A3|1980-03-30|Method of thermoplastic tube manufacturing

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US4033808A|1977-07-05|Apparatus for the production of hollow bodies, especially large-diameter ducts from thermoplastic synthetic resin

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US3126306A|1964-03-24|Attoxj

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同族专利:

公开号 | 公开日

ES216340Y|1976-12-16|

DE2308418B2|1976-04-08|

DE2308417A1|1974-01-17|

EG10963A|1976-11-30|

DE2308418A1|1974-01-10|

CA984315A|1976-02-24|

KR780000523B1|1978-10-26|

IT990665B|1975-07-10|

AU5644073A|1974-12-05|

IT990664B|1975-07-10|

BG26820A3|1979-06-12|

TR18528A|1977-03-16|

IL42376D0|1973-07-30|

ATA466973A|1975-09-15|

CH558904A|1975-02-14|

AU474215B2|1976-07-15|

ZA733496B|1974-04-24|

PH10963A|1977-10-13|

IL42376A|1976-08-31|

DD105417A5|1974-04-20|

CA1013110A|1977-07-05|

RO88506A|1986-02-28|

NL159324B|1979-02-15|

ES216340U|1976-08-01|

DD104468A5|1974-03-12|

RO88505A|1986-02-28|

SE401642B|1978-05-22|

KR780000524B1|1978-10-26|

HU169906B|1977-02-28|

US3917500A|1975-11-04|

CS193473B2|1979-10-31|

NL156346B|1978-04-17|

BR7304583D0|1974-08-15|

NL7308660A|1973-12-27|

AT330532B|1976-07-12|

US3926223A|1975-12-16|

NL7308659A|1973-12-27|

DE2308417B2|1975-10-30|

PL101465B1|1978-12-30|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

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US3811478A|1969-10-29|1974-05-21|S Ahlqvist|Tube wall|

US3787552A|1970-12-21|1974-01-22|Alliance Rubber Co|Method and apparatus for forming thinwalled tubular articles|NL7906526A|1979-08-30|1981-03-03|Int Chem Eng Ets|METHOD AND APPARATUS FOR CURVATING TUBES.|

DE3036428C2|1980-09-26|1984-08-30|Fafco S.A., Bienne|Process for the production of cylindrical wound tube sections|

US4596619A|1982-05-17|1986-06-24|Hercules Incorporated|Process for lining composite vessels|

IT1152336B|1982-08-06|1986-12-31|Anthony Cesar Anselm|PROCESS AND EQUIPMENT FOR THE MANUFACTURE OF FLEXIBLE HOSES IN PLASTIC MATERIAL|

US4867671A|1986-10-11|1989-09-19|U.C. Industry Co., Ltd.|Apparatus for manufacturing resin tube|

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FI82133C|1988-08-17|1991-01-10|Kwh Pipe Ab Oy|SPIRALLINDAT ROER.|

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US5261988A|1989-09-22|1993-11-16|George A. Petzetakis|Making large-diameter pipe|

DE3931613C1|1989-09-22|1990-09-20|Petzetakis, George Aristovoulos, Piraeus, Gr|

US5099888A|1990-06-04|1992-03-31|Vassallo Research And Development Corporation|Impact protected, sealed, double-walled pipe body|

FI90230C|1991-01-15|1994-01-10|Skandinavisk Ecotech Ab|Wastewater or small treatment plant consisting of several clearing basins|

DE4123920C2|1991-07-19|1994-04-14|Bayer Ag|Method and device for manufacturing coiled tubes|

US5145216A|1991-07-23|1992-09-08|Vassallo Research And Development Corporation|Pipe connection assembly|

US5727598A|1993-04-30|1998-03-17|Advanced Drainage Systems, Inc.|Pipe wall segment and pipe having sidewall|

US5362114A|1993-11-09|1994-11-08|Levingston Jerry C|Pipe joint and method for forming same for threaded connection of profile pipe|

WO1995027867A1|1994-04-07|1995-10-19|Advanced Drainage Systems, Inc.|Process for forming pipe of improved construction|

US5505897A|1994-04-07|1996-04-09|Advanced Drainage Systems, Inc.|Method for forming a pipe|

US5454061A|1994-05-27|1995-09-26|Steward Plastics, Inc.|Apparatus and method for making flexible tubing with helically wound heating conductor|

US5848223A|1994-05-27|1998-12-08|Steward Plastics, Inc.|Double-walled flexible tubing product with helical support bead and heating conductor and apparatus and method for making|

US6021817A|1994-10-07|2000-02-08|Phillips Petroleum Company|Multi-layer plastic helical pipe and method for the production thereof|

US6306235B1|1997-10-16|2001-10-23|Nomaco, Inc.|Spiral formed products and method of manufacture|

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US6209607B1|1999-02-23|2001-04-03|The Lamson & Sessions Co.|Conduit-making apparatus with a multiple diameter winding drum|

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US6199676B1|1999-04-06|2001-03-13|Air Cruisers Company|Inflatable tubular structure with spiral seam|

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US10814091B2|2013-10-24|2020-10-27|Fisher & Paykel Healthcare Limited|System for delivery of respiratory gases|

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CN112972856A|2015-09-09|2021-06-18|费雪派克医疗保健有限公司|Zoned heating of breathing circuits|

US10041612B1|2017-03-15|2018-08-07|Arevo, Inc.|Curvilinear duct fabricated with additive manufacturing|

US10077854B1|2017-03-15|2018-09-18|Arevo, Inc.|Duct fabricated with additive manufacturing|

法律状态:

优先权:

申请号 | 申请日 | 专利标题

GR4860972|1972-06-21|

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