前苏联专利SU1371494A3 Extrusion head for joint extrusion of several plastic materials in the shape of hose film

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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:
A coextrusion die for the extrusion of a tubular film comprising a distribution channel system connected to separate supply means for several plastics materials, each distribution channel system comprising at least two arched channels (24, 25, 26) provided in different axial planes, the ends of each channel (24, 25) being connected to the middle portion of the following channel (25, 26) and the distribution channel systems being located at different distances from the centre axis of the die, collecting chambers (18-20) communicating with said distribution channel systems and an annular slot (36) communicating with the collecting chambers (18-20). The channels are formed from grooves in the surfaces of discshaped elements (12-15). The arched channels (24, 25, 26) are interconnected by channels (27) passing through said elements.
公开号:SU1371494A3
申请号:SU813349398
申请日:1981-10-28
公开日:1988-01-30
发明作者:Бендт Расмуссен Оле；Йенсен Берг
申请人:Оле Бендт Расмуссен (Фирма)；
IPC主号:

专利说明:

(21) 3349398/05
(86) PCT / DK 81/00023 (27.02.81) (22) 10.28.81
(31) 891/80
(32) 02.29.80
(33) DK
(46) 01/30/88. Bul № 4
(71) Ole Bendt Rasmussen (DK)
(72) Ole-Bendt Rasmussen and Berg Jensen (DK)
(53) 678.057.374.6 (088.8)
(56) Published for the Federal Republic of Germany No. 2847627, cl. In 29 F 3/04, published. 1979
US Patent No. 3649143, cl. 425-114, pub. 1972.
(54) EXTRUSION HEAD FOR JOINT EXTRUSION OF SEVERAL PLASTIC MATERIALS IN THE FORM OF A STRETCH FILM
(57) The invention relates to a device for the manufacture of tubular film. The purpose of the invention is to improve the quality of the tubular film and simplify the design of the extrusion head. For this, the extrusion head contains nutrients for at least two melts, an extrusion and a distribution section.
Recesses are made on the surface of the annular elements of the distribution section to form a labyrinth system of arcuate channels. Channels of the labyrinth system have two connecting channels at the ends. They communicate with the middle part of the adjacent distribution channel. The number of divisions of the distribution channels is selected to form at least eight outputs on the last distribution channel. The distribution section is made of elements of a truncated conical shape. The extrusion section includes collecting chambers with which the distribution channels are communicated. During operation, each type of melt passes through the labyrinth system. When this occurs, the division of the total flow of the melt into separate streams. The divided streams are evenly distributed around the perimeter of the collecting chamber. The streams are then merged into a common stream. Uniform flow distribution contributes to the quality of products. 5 3.p. f-ly, 4 ill. about
I
WITH
00
with

sn
13
The invention relates to a device for the manufacture of tubular film and can be used in the chemical industry.
The purpose of the invention is to improve the quality of the tubular film and simplify the design of the extrusion head.
Fig. 1 shows a schematic perspective view of an embodiment of the proposed extrusion head fed by three extruders; in fig. 2 shows a section A-A in FIG. on fig.Z - part of the system of distribution channels of the extrusion head in expanded form; 4 is another embodiment of the extrusion head according to the invention, longitudinal section.
Fig. 1 shows an extrusion head 1 for co-extrusion, which is fed through the supply pipelines 2 by the feeding means — three extruders 3. Each extruder 3 contains a hopper 4 for the material to be extruded. Extrusion head 1 has an annular extrusion gap 5 for extruding tubular film. The hoppers 4 are fixed on the housings 6 of the extruders 3.
Figures 2 and 3 show the extrusion head shown in Figure 1 in an enlarged scale. The supply pipe 2 is connected to the end face 7 of the extrusion head 1, its end 8 is inserted on the thread 9 into the hole 10 located in the end face 7 of the extrusion head 1. The supply pipe 2 is connected to the middle of the distribution section through the channel 11. The back end of the extrusion head 1 in which serves extrudable materials; it consists of disk-shaped annular channels 12-15 forming the distribution section, which can be fastened together and attached to the front end part 16 of the extrusion head 1 by tightening bolts 17, which are screwed into holes in the mentioned front end portion 16. The end face of said front portion 16 is an extrusion section, comprising three collecting chambers 18 - 20, which at its one end communicated with the distribution section and the opposite end - with an annular extrusion slot 5.
t
The position of the ring extrusion
slots 5 and, accordingly, the thickness of the extruded tubular film I regulate
four
by adjusting screws 21 and 22.
In the embodiment shown in figure 2,
extrusion head 1
internal and internal surfaces
has electric heating shirts 23.
Three distribution channels of the distribution section in principle
identical and therefore the following description only shows the middle channel with reference to FIG.
Channel 11 connecting pipe
2 supply with a distribution section, goes into the middle part of the first arcuate distribution channel 24. Each end of this channel 24 communicates with the middle part of the adjacent group of arcuate distribution channels 25. The ends of these channels 25, in turn, are connected to the middle part of another group of arcuate distribution channels
26. The ends of the distribution channels are connected to the collecting chamber 19 by means of the outlets 27.
To obtain a good distribution of the partial flows coming from
the outlets 27, in the wall of the collecting chamber 19, guide grooves 28 are formed, which are inclined with respect to the longitudinal axis of the extrusion head 1, and the depth of which is gradually reduced.
Distribution channels 24-26 are formed by recesses in the contacting surfaces of the annular elements 12-15, are located in planes,
perpendicular to the longitudinal axis of the extrusion head, and form a labyrinth system, placed with a radial displacement at different radial distances relative to the longitudinal axis of the extrusion head. The number of divisions of distribution channels 24 to 26 is selected with the possibility of forming at least eight outlets 27 of the last distribution channel 26 for connection by means of a transition channel with each collecting chamber 18 to 20. The choice of the number of outlets 27 is determined by the need for the most uniform
distribution of material flows. If at least eight outlets 27 are provided, then the flows of materials exiting these outlets 27 will quickly merge with one another.
by developing a single tubular flow.
The distribution channels 25 and 26 each have two connecting channels 29 arranged at the ends parallel to the longitudinal axis of the extrusion head 1 for communication with the middle part of the adjacent distribution channel.
The extrusion head shown in FIG. A consists of a fixed part, designated 30, two rotating parts 31 and 32 located between parts 32 and 31, three collecting chambers 33 35, each of which is connected to an annular extrusion slot 36 ,
The rotating part 32 is mounted on a central shaft 37 cooperating with driving means (not shown) mounted in the central drilling of the stationary part 30 of the head. The outer surface of the rotating part 31 has the shape of a gear wheel 38 which is in engagement with a gear (not shown), The guide ring 39 with the washer 40 attached to the fixed part 30 is inserted into the guide ring groove 41 of the part 32. Similarly, the guide ring 42 with the washer 43 attached to the fixed part 30 is inserted into the ring The guide groove 44 of the rotatable part 31,
The distribution channel system of the head depicted in Figure 4 corresponds to the systems in Figures 2 and 3, except that the arcuate distribution channels 24-26 are formed by grooves made in the conical surfaces of the inner member 45, two conical shell-shaped elements 46 and 47 and an external shell element 48 having an internal conical surface and a channel 49 connecting the supply pipeline 2 to the first arc-shaped channel 24,
Elements 45-48, containing a distribution channel system, are stacked together by means of a plate 51 containing a series of holes 50, and bolts 52 inserted into said holes 30 and attached to elements 45-48, due to the presence of a conical The chambers flows in a circular shape of the contacting surfaces of the target extrusion slot 5, in which the elements 45-48 for tightening the indicated they are joined, forming a layered part, forming a fixed part of the structure. After exiting the extrusion head,
just a little effort and therefore the use of TOHKifx and short bolts,
In the space between the outer 31 and inner 32 rotating parts there are two elements 53 and 54, one of which 53 with a fastener (not shown) with a small
Q is the cross-sectional area connected to the rotating part 31, and the second 54 using a similar fastening means (not shown) to the other rotating part 32,
5 When the embodiment of the head shown in FIGS. 2 and 3 is operating, the streams flowing out of the outlets 27 are lubricated as they pass through the zone in which the guide grooves 28 are located.
In the embodiment shown in Fig. 4, (STREAMS are smeared as a result of the movement of the rotating parts 31 and 32. These parts can also rotate in opposite directions or in one direction with different or the same speed of rotation. Alternatively, one part can rotate and the other is motionless.
The embodiment shown in Figures 2 and 3 could also contain rotating parts of the head and guide grooves could also be made in the walls of the collecting chambers shown in Fig. 4.
The extrusion head works as follows.
five
0
five
Each material to be extruded passes from extruders 3 inside the labyrinth system of distribution channels 24-26. When passing through the labyrinth system, the material flow is divided into two streams formed in the connecting channels 24-26. Thus, after three times the separation the number of streams is eight, with all eight streams evenly distributed around the periphery adjacent to the collecting chamber. After passing into the collecting chamber, the flows merge to obtain a tubular flow. From the annular exit of each collecting slot 5 a tubular flow of the bulge513
and cooled to form a thin tubular film.
The extrusion head embodiments shown in the drawings are intended for the manufacture of laminates consisting of three layers arranged parallel to the surfaces of the laminates. One

to, if the shown extrusion go Q longitudinal axis of the extrusion head
It can be modified so that one or two distribution channel systems would go into one collective chamber, it would be possible to make such products in which the segments of extruded materials are located near each other D one or more layers or extend from one surface to opposite.

权利要求:
Claims (5)
[1]
1. An extrusion head for co-extrusion of several plastic materials in the form of a tubular film, containing feeding means for separately supplying at least two melts of extruded materials, a distribution section consisting of a series of annular elements forming a pair of contacting surfaces in which distribution channels for each type of material are made; an extrusion section comprising annular collecting chambers formed from a series of annular elements for melted materials c, which are communicated on one side with the distribution channels, and on the other through the supply channels - with a common annular extrusion gap, and - means for connecting the distribution and extrusion sections with
15
20
connecting channels for communication with the middle part of the adjacent distribution channel, the labyrinth system of distribution channels is placed with radial displacement at different radial distances relative to the longitudinal axis of the extrusion head, and the number of divisions of distribution channels of the labyrinth system is chosen with at least eight outputs on the last distribution channel for connecting by means of a transition channel with each collecting 25 chamber, the walls of which form anes annular elements with parallel and concentrically arranged surfaces.
[2]
2. An extrusion head according to claim 1, wherein the labyrinth distribution channel system is located concentrically with respect to the longitudinal axis of the extrusion head.
[3]
3. An extrusion head according to claim 1, wherein the distribution section is made
the elements are truncated-conical, arranged concentrically, and coal embeddings to form distribution channels are located on the surface of the elements.
[4]
4. An extrusion head according to claim 1, characterized in that
thirty
35
40
ensuring the contact of their end 5 at least one ring element.
forming a collecting chamber, mounted rotatably with respect to the distribution section.
surfaces, characterized in that, in order to improve the quality of the tubular film and simplify the design of the extrusion head, at least one of the contacting surfaces of each pair of annular elements of the distribution section is made with recesses to form a labyrinth system of arcuate distributions
dividing channels for each type of material communicated by its inlet with the feeding means, the distribution channels of the labyrinth system are located in a plane perpendicular to the longitudinal axis of the extrusion head, and have two ends parallel to each other
connecting channels for communication with the middle part of the adjacent distribution channel, the labyrinth system of distribution channels is placed with radial displacement at different radial distances relative to the longitudinal axis of the extrusion head, and the number of divisions of distribution channels of the labyrinth system is chosen with the possibility of forming at least eight outputs on the last distribution channel to connect through a transition channel with each collecting chamber, the walls of which us with annular elements arranged concentrically and parallel surfaces.
2. An extrusion head according to claim 1, wherein the labyrinth distribution channel system is located concentrically with respect to the longitudinal axis of the extrusion head.
3. An extrusion head according to claim 1, wherein the distribution section is made
the elements are truncated-conical, arranged concentrically, and coal embeddings to form distribution channels are located on the surface of the elements.
4. An extrusion head according to claim 1, characterized in that
at least one ring element.
forming a collecting chamber, mounted rotatably with respect to the distribution axle.
[5]
5. An extrusion head according to claim 1, wherein the transition channels are formed by inclined grooves with gradually decreasing depth.
Fig.G
AA 12 f1 2 f., 2526ff 15.
tt-da-a
SchM
Fick. 2
Phie. 3
Zii 25 2
50
0 38
J7
FIG. If

类似技术:

公开号 | 公开日 | 专利标题

SU1371494A3|1988-01-30|Extrusion head for joint extrusion of several plastic materials in the shape of hose film

US6305922B1|2001-10-23|Spiral fed multi-layer tubular die

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US5723157A|1998-03-03|Extrusion head for producing hose- or pipe-shaped preforms from extrudable plastics

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同族专利:

公开号 | 公开日

DK146217B|1983-08-01|

ZA811294B|1982-03-31|

US4492549A|1985-01-08|

MX154582A|1987-10-07|

ES499877A0|1982-12-16|

FI80850C|1990-08-10|

US4403934A|1983-09-13|

EP0046789B1|1984-11-28|

ES8301749A1|1982-12-16|

EP0092188A3|1985-10-02|

EP0092188A2|1983-10-26|

GR74093B|1984-06-06|

EP0092188B1|1990-10-24|

FI80850B|1990-04-30|

FI813344L|1981-10-26|

IE56626B1|1991-10-23|

AU551951B2|1986-05-15|

DK89180A|1981-08-30|

IT1138963B|1986-09-17|

IT8120028D0|1981-02-27|

CA1185761A|1985-04-23|

IL62224A|1985-08-30|

BR8107091A|1982-01-05|

WO1981002406A1|1981-09-03|

PT72589A|1981-03-01|

AT57651T|1990-11-15|

JPS57500374A|1982-03-04|

EP0046789A1|1982-03-10|

JPS6365013B2|1988-12-14|

DK146217C|1984-03-05|

BE887724A|1981-06-15|

PT72589B|1982-03-12|

AU6788881A|1981-09-11|

DE3177225D1|1990-11-29|

IE810378L|1981-08-29|

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FR1084310A|1952-06-17|1955-01-18|Lavorazione Mat Plastiche Sas|Extrusion head for multi-coated cables|

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FR1432131A|1965-04-22|1966-03-18|Barmag Barmer Maschf|Offset injection head for extruders|

US3418687A|1966-10-24|1968-12-31|Du Pont|Extruding apparatus|

US3475789A|1968-01-16|1969-11-04|Nrm Corp|Blown film dies|

US3649143A|1969-05-01|1972-03-14|Pierson Ind Inc|Composite tubular film apparatus|

US3756758A|1969-07-15|1973-09-04|Chemplex Co|Extrusion die for plastic film|

DE1953114A1|1969-10-22|1971-05-06|Barmag Barmer Maschf|Multi-layer tube extrusion head|

FR2136960B1|1971-05-10|1973-05-11|Fayet Andre|

US3809515A|1972-03-03|1974-05-07|Farrell Patent Co|Extrusion die for blowing plastic film|

US3947173A|1972-09-13|1976-03-30|Western Electric Company, Inc.|Apparatus for extruding concentric plastic sheaths|

GB1384979A|1973-04-05|1975-02-26|Farrell J J|Extrusion die for blowing plastic film|

US3890083A|1973-05-30|1975-06-17|Leco Industries Ltd|Extrusion devices|

US4039364A|1974-07-05|1977-08-02|Rasmussen O B|Method for producing a laminated high strength sheet|

GB1526722A|1974-07-05|1978-09-27|Rasmussen O|Method for producing a laminated high strength sheet|

US4017240A|1975-11-19|1977-04-12|Rubbermaid Incorporated|Die for extruding sheet material|

JPS5747013B2|1976-12-03|1982-10-06|

JPS5523733B2|1977-08-16|1980-06-25|

US4185954A|1977-08-23|1980-01-29|Kabushiki Kaisha Plastic Kogaku Kenkyusho|Die for extruding tubes composed of a plurality of layers|

US4182603A|1978-03-27|1980-01-08|Egan Machinery Company|Multilayer tubular extrusion die|

US4268239A|1978-05-30|1981-05-19|Mobil Oil Corporation|Tubular extrusion die|

US4201532A|1978-08-02|1980-05-06|Cole Robert J|Extrusion dies of spiral mandrel type|

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US4784594A|1983-03-11|1988-11-15|Mobil Oil Corporation|Single lip rotary tubular extrusion die|

US4946365A|1983-04-13|1990-08-07|American National Can Company|Apparatus for injection molding and injection blow molding multi-layer articles|

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US5037285A|1983-04-13|1991-08-06|American National Can Company|Apparatus for injection molding and injection blow molding multi-layer articles|

US4511528A|1983-04-13|1985-04-16|American Can Company|Flow stream channel splitter devices for multi-coinjection nozzle injection molding machines|

US5523045A|1983-04-13|1996-06-04|American National Can Company|Methods for injection molding and blow-molding multi-layer plastic articles|

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US5102323A|1988-08-31|1992-04-07|American National Can Company|Plastic resin multi-layer co-extrusion extruder with multi-port plug for selecting order of layers|

US5297946A|1989-07-21|1994-03-29|The Japan Steel Works, Ltd.|Multilayer parison extruder|

US5110276A|1989-12-28|1992-05-05|Farnsworth John T|Extrusion die assembly|

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CA2082437C|1991-11-14|1998-01-20|Peter C. Gates|Spiral fed multi-layer tubular die|

NL9201457A|1992-08-14|1994-03-01|Rollepaal B V Maschf De|Dividing head for forming a tubular profile from one or more streams of extruded thermoplastic plastic material.|

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US6343919B1|2000-02-28|2002-02-05|Ricardo Pablo Rodriguez|Modular plastics extrusion die|

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法律状态:

优先权:

申请号 | 申请日 | 专利标题

DK89180A|DK146217C|1980-02-29|1980-02-29|coextrusion die|

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