• 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:
    Use: manufacture of extruded products from thermoplastic plastic by heating the plastic, molding the preform with the aid of, for example, an annular nozzle, separating it, if necessary using an ambient nozzle directed to the place of separating the heated gas flow, feeding the preform into a press -forming the molds, molding the press article due to the application of the pressing force and the invention. The invention relates to the manufacture of extruded products from thermoplastic plastics, by heating the plastic, forming the workpiece with the aid of, for example, an annular nozzle, dividing, if necessary, using a surrounding nozzle, directed to the place of separation of the heated gas flow, feeding the workpiece into the mold, closing the mold, at least partially under the pressure of cooling the molded product with reduced energy consumption and an accelerated cooling process. SUMMARY OF THE INVENTION: The device comprises an extruder for heating a thermoplastic plastic, provided with an annular nozzle, for example, suitable for supplying plastic portions, which can be closed and surrounded, if necessary, by an annular nozzle to supply a cold or heated flow directed at the plastic separation point. gas, and at least one, made with the possibility of closing the mold consisting of a matrix and a molding mandrel. The matrix is placed with the possibility of installation, first under the nozzle and then coaxially with the molding mandrel. The mandrel and / or die are installed with the possibility of exerting on them and maintaining a pressing force. According to the invention, a carrier is installed in the matrix with the possibility of extension, the free surface of which in the raised position forms a part corresponding to the final shape of the pressed product. 2 hp ff. 4 il. forming the molded product by applying a pressing force and cooling the molded product at least partially under pressure. The device comprises an extruder for heating a thermoplastic plastic, provided with, for example, an annular nozzle suitable for supplying plastic in portions, made with WCO VJ el VI 1 o C)
    公开号:SU1757449A3
    申请号:SU894742150
    申请日:1989-10-11
    公开日:1992-08-23
    发明作者:Келлер Герхард;Изели Андреас
    申请人:Аиса Отомасьон Эндюстриэль (Фирма);
    IPC主号:
    专利说明:

    the possibility of closing and surrounding if necessary an annular nozzle for supplying a flow of cold or heated gas directed at the place of separation of the portions of plastic from the nozzle, and at least one mold made with the possibility of closing the mold consisting of a matrix and a molding mandrel; with the possibility of installation first under the nozzle and then coaxially with the molding mandrel, the mandrel and / or the matrix being installed with the possibility of exerting on them and maintaining a pressing force.
    It is known that thermoplastic plastic emerges from the annular nozzle, it is placed on the protrusion of the nozzle, and the plastic connection with the nozzle slot is still maintained, the plastic sticks to the protrusion, from which it is then removed when the mold is closed. In this case, there is a cooling of the workpiece even before it is fed into the mold. In addition, complications arise when removing thermoplastic plastic due to its adhesion and sticking to the projection of the nozzle.
    It is known that the blanks separated as a result of the closure of the nozzle are fed into the cavity of the mold. When dropped, they do not come into contact with the cooled walls of the mold. However, the blanks for a relatively long time, many times longer than the time they fall, remain in the cooled mold, namely, until the mold is moved from the nozzle to a position coaxial with the punch. At the same time, their contact surface with the cooled form is relatively large, so that on this surface they begin to cool, from which their ability to pressing and thus the quality of the manufactured pressed products suffer. If the nozzle and / or its locking element are not made with maximum accuracy or contaminants adhere to them, the separation of the workpiece does not take place exactly simultaneously over the entire circumference, the workpiece falls into the mold cavity not exactly in a given orientation, either by itself or in combination with adhering to the cooled wall of the mold by the cooling parts of the plastic leads to a product of uneven quality, i.e. marriage The same negative effect is observed with an uneven effect of possibly existing annular, aimed at the place of separation of the workpiece from the gas flow nozzle, causing uneven separation of the workpiece and, moreover, its acceleration in the non-coaxial direction so that the workpiece falls into the mold cavity in an uncentered position.
    The aim of the invention is to reduce energy consumption and speed up the cooling process by minimizing the contact of the preform with the cooled mold during the manufacture of pressed articles.
    The device superimposes the heated thermoplate plastic emerging from the nozzle onto the forming
    0 part of the mold, the surface lifted under the nozzle of the carrier element, due to a small distance, reaches a directional and thus centered feed, thereby preventing an undesired change in the position of the workpiece due to its uneven separation. This refers to the action of a possible annular gas flow. The blank is only part of the mold, so what is happening
    0 there, cooling has virtually no effect on the quality of the molded product. Due to the fact that the carrier is held in a raised position, the billet on all sides, except for the contact surface with a non-existent element, is bathed by warm air and comes into contact with most of the cooled mold only when the pressing process begins. Due to the fact that from the moment the billet is made before it is pressed, it is cooled only to an insignificant degree and practically only in places where the shape of the billet during final pressing no longer changes, the temperature of the heated
    5 plastics may be lower than in the implementation of known methods, which saves energy for melting and speeds up hardening, since it does not take a long time to cool. So
    In this way, the invention reduces energy consumption and speeds up the production process.
    The invention is illustrated by the example of a single embodiment of the device for
    5 for manufacturing the head parts of tubes, and it is possible to simultaneously connect the body of the tube to the head.
    FIG. 1 shows the open nozzle
    0 for feeding thermoplastic plastic and a carrier element, which is part of the mold matrix; in fig. 2 - the same, the nozzle is closed; in fig. 3 - matrix and molding mandrel; in fig. 4 - the same, in the position of pres5 sotani.
    FIG. 1 and 2 show a nozzle 1 for feeding thermoplastic plastic from an extruder (not shown) for heating the plastic. The nozzle 1 is provided with a locking element 2. It allows
    supply a certain amount of plastic in the form of an annular blank 3 The outlet of the nozzle 1 is surrounded by an annular nozzle 4 through which hot air can be supplied, for example, to facilitate the separation of the blank 3 by closing the locking element 2 and flushing the retained blank 3 to prevent it from cooling.
    The die 5 is axially mounted to the nozzle 1, which is a part of the mold for making the head of the tube b. The inner surface of the die 5 is made so that it corresponds to the outer shape of the head to be made of the tube b. Usually, the die 5 consists of several parts, one part 7 provided for a threaded neck head b of the tube In the matrix 5 between the top 8 and bottom 9 stops with a possibility of central and axial movement there is a bearing 10 In the upper, limited stop 8 of the final field zhenii carrier element 10 has a distance from the nozzle 1 that exiting from the last plastic is applied directly to the surface 11 of the carrier member 10.
    The distance between surface 11 and nozzle 1 is chosen such that there is just enough space for the required amount of plastic. However, it is also possible to install the surface 11 of the carrier 10 directly below the nozzle 1 and continuously lower the carrier 10 according to the amount of plastic supplied. In the center of the carrier element 10, an axial rod 12 is in a coaxial position, projecting beyond the surface 11 of the carrier element 10, which serves to center the exit of the nozzle 1. having an annular cross-section and forming a plastic blank 3, and during pressing the head part 6 of the tube prevents material from entering the outlet.
    Raising and lowering the carrier 10 and the rod 12 can be carried out by any known actuator (not shown), for example, using spring force, hydraulic or pneumatic actuators.
    The surface 11 can be made flat or in accordance with the configuration of the head part 6 of the tube. According to the preferred embodiment, the surface 11 of the carrier element 10 can be made concave or dish-shaped or with a raised edge. The surface 11 in the retracted position of the carrier element 10 (Fig. 4) forms that part of the matrix
    5 which forms the circumferential outer surface of the outlet of the head part 6 of the tube
    Fig 3 shows the lower end of the molding mandrel 13 The molding mandrel 13 is provided with a carrier 15 of the tube with a sleeve 15, in which with the possibility of axial
    displacement and with the possibility of displacement relative to it, a punch 16 corresponding to the internal shape of the head part b of the tube is installed
    The device works as follows
    The matrix 5 is installed under the nozzle 1 of the extruder. After opening the locking element 2 of the nozzle 1, a stream of heated thermoplastic plastic with an annular cross section
    leaves the nozzle 1 and with the open nozzle rests on the surface 11 of the carrier 10 The nozzle 1 remains open until the required amount of plastic comes out and preferably plastic protrudes beyond the surface 11 of the carrier 10 While the nozzle 1 is open, the rod 12 installed in the carrier 10 is in contact with the locking element 2 of the nozzle 1 and thereby from the inside
    directs and centers plastics coming out of the nozzle 1 in tubular form. By closing the closure element 2, if necessary, when exposed to a flow of heat coming out of the annular nozzle 4.
    gas supply of plastic is stopped and the annular billet 3 is separated with protruding edges. In Fig. 2 also it can be seen that, taking into account the whole mass of the billet 3, contact with the carrier element 10 and with the rod 12 is insignificant, strong cooling does not occur.
    Furthermore, unlike the matrix 5, neither the rod 12 nor the carrier element 10 is directly cooled. The slight cooling of the workpiece 3 at the points of contact is estimated as positive, since these places actually barely move during the pressing process, so the plasticity is very plastic in these areas.
    places not required.
    Due to the air insulation in the direction of the cooled matrix 5, the latter practically cannot transfer the cooling action to the workpiece 3. In cases when heated air leaves the annular nozzle 4, the preform 3 is washed, thus, by adjusting the air temperature, the temperature of the preform 3 is required in a particular situation, and if necessary, the preform can be heated in this way.
    The preform 3 is held in the upper position until the matrix 5 is aligned with the forming core 13. Since the dies 5 are usually mounted on a turntable, the dies 5 may be installed in one or several steps according to a given stroke, however, the danger of cooling the dough 3 too much does not arise, which is unavoidable if the dough 3 is directly supplied from the nozzle 1 to the durable matrix 5. When the molding mandrel 13 is in the lowered position, i.e. when its punch 16 comes into contact with the upper end of the rod 12, then as the molding mandrel 13 is further lowered, the bearing element 10 with the rod 12 is lowered to the bottom stop. At the same time, the sleeve 15 with the tube body 14 moves to the specified position in the die 5 , then only the punch 16 under the influence of the pressing force inside the sleeve further goes down into the matrix 5, and it moves the rod 12 relative to the supporting element 10. At the same time, the head part 6 of the tube receives its final shape and at the same time carries out its connection e with body 14 tube. The pressure punch 16 is held in this position to cool the press product.
    权利要求:
    Claims (3)
    [1]
    Claim 1. Device for manufacturing molded products from thermoplastic plastic, comprising an extruder for heating thermoplastic plastic, provided with a nozzle suitable for batch feeding of plastic, designed to be closed, means for separating plastic from a nozzle in the form of an annular nozzle for supplying, if necessary, heated gas and at least one that can be closed
    0 a mold consisting of a matrix with an axial rod and an axially movable molding mandrel, the matrix being placed with the possibility of installation, first under the nozzle and then coaxially with the molding
    5, the mandrel and the mandrel and / or die are adapted to exert and maintain a pressing force, characterized in that. that, in order to reduce energy consumption and speed up the cooling process, in the matrix
    0, with the possibility of extension, an uncooled support element is mounted with a working surface on the upper end to receive portions of plastic after separation from the nozzle, the working surface of which is 5 part of the forming surface of the matrix,
    [2]
    2, The device according to claim 1, characterized in that an axial rod is placed in the non-cooled element, made
    0 with the possibility of axial extension.
    [3]
    3. The device according to paragraphs. 1 and 2, characterized in that a rim is provided around the periphery of the working surface of the carrier element.
    2
    9
    FIG L
    Fig. 2
    FIG. .3
     BOS Ј Ј-L-IS jT and
    Fi.G.Ts
    类似技术:
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    SU588128A1|1978-01-15|Mould for blow-shaping of hollow articles with holed bottoms
    同族专利:
    公开号 | 公开日
    WO1989007516A1|1989-08-24|
    IN172372B|1989-07-10|
    ES2020347B3|1991-08-01|
    EP0328096A1|1989-08-16|
    CA1317733C|1993-05-18|
    DE3804464C1|1989-06-08|
    US4943405A|1990-07-24|
    JPH0761656B2|1995-07-05|
    JPH02503176A|1990-10-04|
    EP0328096B1|1990-12-27|
    引用文献:
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    CH638716A5|1979-07-12|1983-10-14|Karl Maegerle|METHOD FOR PRODUCING A MOLDED BODY FROM PLASTIC.|
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    ITBO20020226A1|2002-04-23|2003-10-23|Sacmi|EQUIPMENT FOR PRESSURE MOLDING OF ITEMS IN PLASTIC MATERIAL, SUCH AS CAPSULES FOR CLOSING CONTAINERS AND SIMILAR|
    FR2843909B1|2002-08-27|2006-02-24|Cebal|METHOD FOR MANUFACTURING A PLASTIC WORKPIECE HAVING A CLUTCH WITH A DISTRIBUTION ORIFICE INTENDED TO BE CAPPED BY A PLUG|
    CH696433A5|2002-11-04|2007-06-15|Maegerle Karl Lizenz|Method and apparatus for the production of Kunstsoff moldings, especially Ausgussteilen of packaging containers.|
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    FR2846594B1|2003-11-03|2006-07-21|Maegerle Karl Lizenz|METHOD AND DEVICE FOR MANUFACTURING PLASTIC MOLDED PARTS, ESPECIALLY BEAM-FORMING ELEMENTS ON PACKAGING VESSELS|
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    US7704067B2|2006-02-07|2010-04-27|Tiodize Company, Inc.|Method and mold for making non-metallic fiber reinforced parts|
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    US20090269431A1|2008-04-29|2009-10-29|Rexam Closure Systems Inc.|Compression molding an annular closure shell|
    JP5303733B2|2008-06-27|2013-10-02|東洋製罐株式会社|Compression molding apparatus and compression molding method|
    US7857370B2|2009-04-15|2010-12-28|Donna Heller|Vehicle barrier|
    ITMO20130351A1|2013-12-18|2015-06-19|Sacmi|APPARATUS AND METHOD TO FORM ANULAR DOSES|
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    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    DE3804464A|DE3804464C1|1988-02-12|1988-02-12|
    IN111CA1989|IN172372B|1988-02-12|1989-02-07|
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