DD159835A3 - SYRINGE UNIT FOR INJECTION MOLDING MACHINES - Google Patents

Abstract

The invention relates to the arrangement of the injection unit in the injection unit of an injection molding machine. Preferably, the invention is applicable to large injection molding machines for plastic and Elastverarbeitung. The aim of the invention is to provide an injection unit, which is characterized by low material, design and manufacturing effort, is effectively used by variability. The task is to minimize the displaceable parts of the injection unit, consistently enforce the modular principle in terms of a simple exchange or a change of the drive. The solution is that the Traeger construction for the assemblies of the injection unit consists of a subset, which is firmly and loesbar connected to a rigid and torsionally rigid Traeger, being rigidly arranged on the pedestal of the plasticizing, while the injection cylinder and the plasticizing cylinder on the Carriers are slidably arranged over the length of the maximum stroke of the arrival and departure movement and are connected to the plasticizing drive via a sliding shaft-hub connection.

Description

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VEB Plastmaschinenwerk Schwerin Schwerin, 21.07.1981

Title of the invention

Injection unit for injection molding machines

Field of application of the invention

The invention relates to the arrangement of the injection unit, consisting essentially of the Piastizierzylinder with screw, the injection cylinder and the Piastizierantrieb, in the injection unit of an injection molding machine. Preferably, the invention will find application in large injection molding machines for plastic and elast processing.

Characteristic of the known technical solutions

In order to ensure a reliable low-wear operation of the moving parts of the injection unit and the transmission of the reaction forces and moments that balance the operating forces and the weight of the components, it is necessary that a precisely aligned, stable connection between the three modules Plastizierzylind.er, injection cylinder and Piastizierantrieb is produced.

In order to thermally separate the hot nozzle of the injection unit from the cooled injection mold, it is common for the injection unit to perform a low-stroke approach and retraction movement.

For assembly purposes, it is also necessary to move the end of the Piastizierzylinders with the injector from the fixed platen. For this purpose, a starting and Abfahrbewegung the Piastizierzylinders with a large stroke, necessary.-. , .-. ·· ... , . '. · ... '' ·.,. For this reason it is necessary to design the injection unit as the most compact displaceable unit possible. In some technical solutions, the plastication drive is firmly connected to the piston rod of the injection cylinder, so that it is moved both during the displacement of the piston during injection, as well as during the arrival and Abfährbewegung the injector.

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Various embodiments of this solution are shown in DE-OS 2,227,133, DE-OS 2,353,250 and DE-GM 7.235.519. A lack of these solutions is that the plasticizing is moved with each displacement of the screw or the injection unit. In other technical solutions, the Piastizierantrieb is firmly connected to the housing of the injection cylinder and the rotational movement is by an axially displaceable shaft-hub connection over transfer the piston rod or a special shaft or hollow shaft to the worm. Various versions of this solution are shown in DE-AS 1,812,961 and. DE-AS 1,908,530, DE-GM 7,135,155, DE-GM 7,247,800 and DE-GM 7,343,372. In these solutions, although the displacement of the plasticizing drive is switched off when the screw is displaced, it is still necessary to realize the approach and retraction movement,.

Furthermore, the V / P B29 F / 223312 is known as an earlier application, "It proposes to fasten the hydraulic drive assembly together with the plastication unit _f the injection cylinder and the worm drive motor as an integrated unit on a frame." This frame is by means of a sliding guide slidably and pivotally arranged as a whole relative to the pedestal. Although this allows substantial pressure lines advantageously be made rigid, in this solution, the plasticizer with the injection cylinder continues to be an integral unit, both being displaceable together, which in turn, as well as in the aforementioned. A solutions is a significant disadvantage,

The common drawbacks of all the solutions considered are the reason for this. Necessity. · The displacement of the Piastizierantriebes in particular for large injection molding machines for the following reasons proves to lack ο 'To meet the aforementioned requirements of the injection unit (stable aligned connections of the modules), all mitbewegten parts must form a compact injection unit in the above solutions. That requires

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a high cost of materials. The drive must be adapted as an integral part of the injection unit, which requires a special construction, which is expensive in particular for large injection molding machines, which are built in small quantities, compared to the use of gearboxes and engines in standard design.

An exchange or change of the drive in terms of a modular principle is expensive. The injection cylinder as a central module of an integrated unit is difficult to access. Conventional spur gears, which are often a significant source of noise in such units, transmitted by the compact design, the noise to other assemblies, so that secondary measures for noise reduction difficult v / earth. "The large weight and large dimensions of the sliding parts require a high Construction and material costs for the realization of the sliding guide.

Object of the invention

The aim of the invention is to create an injection unit, which is characterized by low material, design and Pertigungsaufwand, is effectively used by variability and offers optimal opportunities for secondary noise control.

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Explanation of the essence of the invention

The object of the invention is to minimize the displaceable parts within the injection unit and consistently enforce the modular principle, so that at any time an exchange, b'zw. a change of the drive through the use of gears and. Motors in standard design is possible and that the assemblies of the injection unit for assembly and repair purposes and for secondary noise control are easily accessible. ,

According to the invention the object is achieved in that the Piastizierantrieb, consisting essentially of a motor, a transmission and a clutch, is rigidly connected to the pedestal, which is fixed relative to the machine foundation · The injection cylinder and the Piastizierzylinder together over the length of the maximum stroke a WeI len-hub connection arranged displaceably relative to a carrier, said carrier with the base is easily detachable and rotatably connected.

The stroke of the shaft-hub connection corresponds to the maximum possible stroke of the arrival and departure movement of the displaceable on the carrier by means of driving cylinder plasticizing cylinder and the injection cylinder · and is also greater than the maximum injection stroke of the screw in the plasticizing cylinder.

Through the Einspritzzylind.er protrudes a sleeve, whose Schneckenseitiges end is attached to the clutch of the worm and the drive-side end of the hub * The sleeve is slidably mounted relative to the fixed intermediate shaft to the maximum stroke of the arrival and Abfahrbev / egung Injection cylinder, the displaceable plastic and the fixed bearing for the intermediate shaft driven by the plasticizing drive are supported on the support. As a result of its rigidity required for the support function, it has a correspondingly large cross section, as a result of which the resulting hollow space of the Box »or tubular support is used in whole or in part as an oil container.

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The support surfaces of the cylinder cover of the injection cylinder and the cylinder receiving the Piastizierzylinders are aligned horizontally on one level and form with the carrier a tense and thus play-free sliding. The sliding guide consists in detail of two guide rails, each with two V-shaped sliding surfaces, one of which is arranged horizontally. So that a play-free leadership realization is possible, each one of the sliding surfaces by means of a cup spring ο. ä, preloaded.

The guide rails form a unit with a cover plate and are designed for the oil reservoir as unscrewable lid.

To supply the two displacements of the injection cylinder with hydraulic fluid, two telescopic tubes are arranged parallel to the injection axis. The associated terminal blocks are flanged directly to the respective cylinder cover of the injection cylinder, while the fixed terminal block is firmly connected to the carrier.

embodiment

The invention will be explained in more detail below using an exemplary embodiment. In the accompanying drawing show:

1 shows a side view of the injection unit FIG. 2 shows a plan view of the injection unit FIG. 3 shows a sectional view according to section A-A according to FIG. 1 FIG. 4 shows a sectional view according to section B-B according to FIG

Figures 1 to 4 represent a 'possible embodiment of the injection unit according to the invention. The plasticizing drive consists z. By means of a '-drilling-driven' engine 1 and a muffler '. standard helical gearbox: 2 with foot mounting. According to the invention, the plasticizing drive 36 is arranged at the end of the injection unit on a separate base 34 in order to be able to replace it easily. The plasticizing cylinder 16 and the injection cylinder 9 are arranged on a box-shaped or tubular support 18. The carrier

18 is fixed on the machine foundation 20. The cross-section of the support 18 is dimensioned to be able to absorb the reaction forces and moments of the operating forces and the mass forces of the assemblies arranged thereon, whereby it deforms only to such a small extent that the requirement of a precise nesting of the components of the injection unit is ensured «For transmitting the reaction torque of the torque of the Piastizierantriebes 36 from the carrier 18 to the pedestal 34, this is fixedly and releasably attached to the carrier 18. By this arrangement, the load-bearing assemblies, the injection unit, consisting essentially of Piastizierzylinder 16, injection cylinder 9 and Piastizierantrieb 36 are designed in an open design material saving and. is easily accessible during assembly work ", only the reaction force of the injection force is transmitted from the Zyiinderaufnähme 15 of the Piastizierzylinder'16 via tie rods 42 directly to the injection cylinder 9."

The carrier 18 is designed as a box to the area where the cylinder receptacle 15 is. Since the support 18 for the required rigidity must have a large cross section, the resulting cavity can be used as an oil reservoir 16 *

The area of the carrier to the cylinder support 17 is designed as an open U-shaped profile that tapers towards the end

Between the fixed Piastizierantrieb 36 and the displaceable injection cylinder 9 is an axially displaceable shaft-hub connection 37 for the transmission of. Rotary movement of the plasticizing drive 36 on the screw 21 with respect to the drive 36 on the one hand by the arrival and. Abf.ahrbewegu ng .'der ^ Plastisier- and. Einspritzzy. linder-16.-,; or «, 9 and on the other hand by the displacement of the screw 21 in the Piastizierzylinder 16. The axially displaceable shaft» hub connection 37 consists of a profiled intermediate shaft 25 ζ »B-« with an involute toothing and a corresponding labe 24. · Im'Innern the Injection cylinder 9, a sleeve 22 is arranged, whose one end on the

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Clutch 14 of the screw 21 is attached. At the other end, the hub 24 '24' of the slidable shaft-having connection 37 is attached. The sleeve 22 projects through the drive-side cylinder cover 11 of the injection cylinder 9, in which it is rotatably mounted and axially displaceable and sealed to the outside. On the sleeve 12, the annular, co-rotating annular piston 23, which is held by a tubular piston rod 13, is inserted. Through the rohrförrnige piston rod 13 project tie rods 33 which are bolted to the annular piston 23 and the clutch 14.

It is necessary to manufacture the inner profile of the hub 24 '24' accurately and then to connect the hub 24 with the sleeve 22 without delay and precisely aligned. Preferably, therefore, an adhesive bond, solder joint or a press fit is provided for connecting sleeve 22 and hub 24 '24 *. In the same vee iron, the connection of the sleeve 22 with the clutch 14 of the screw 21.

The intermediate shaft 25 of the axially displaceable shaft-hub connection 37 is the drive side supported by a support bearing 4, which also prevents the axial displacement of the intermediate shaft 25. The bearing 4 is fixedly connected to the carrier 18 and designed so that a reliable low-wear operation of the shaft-hub connection 37 is ensured. The intermediate shaft 25 is connected by a conventional, standardized as possible, easily releasable coupling 3 with the plasticizing 36. In addition, the clutch 3 should allow a certain misalignment. By the support bearing 4 and the clutch 3, the Piastizierantrieb 36 is easily solvable, requires no special accuracy requirements in its assembly and allows for various design variants. The particular advantage of the described arrangement of displaceable wave shaft hub connection 37 consists in the fact that their stroke is sized so ',' as the larger of the two strokes, - ^; neither as the stroke of the arrival and departure movement of the injection nozzle 39 or as the stroke of the screw in the Piastizierzylinder, the former stroke is usually the larger. .This makes it possible, according to the processing technology UQd assembly-related demands on the machine without additional Bauläiige perform both strokes.

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The plasticizing cylinder 16 and the injection cylinder 9 are connected to ensure the arrival and departure movement by a sliding guide with the carrier 18. At this slide high accuracy requirements are made because of their accuracy u. A, the exact alignment of the moving parts of the injection unit depends and thus the reliable puncture «For this reason, this compound designed as tense and thus play-free sliding guide is preferably this guide consists of two guide rails 30, each with two V-shaped sliding surfaces, 29a and 29b, one of which is arranged horizontally. A support thus has four sliding surfaces of which three rigid and. are arranged elastically biased, so that changes in distance are compensated by thermal expansion c The bias realized by a plate spring 27th

The displacement of the entire injection unit on the sliding guide relative to the carrier 18 to ensure the process-related arrival and departure movement of the injection nozzle 39 and, for assembly purposes is realized in a conventional manner with the usual driving cylinders 40. If the carrier 18 is provided as an oil container 26, a large opening is required in this «For this purpose, the cover plate 28 is designed with the two guide rails 30 as a screw-off lid. Here, it is necessary that the sealing surface 41 of the oil tank 26 is made as flat as required for the accuracy of the sliding guide.

In addition, the accuracy of Abstand.es between the horizontal sliding surfaces 29a and the sealing surface 41 of the lid must also correspond to the guidance accuracy. In order to assure the assembly, an accurate alignment, the. Assemblies · to.,.; reach, are provided on the individual sliding surfaces 29a and .29b adjusting »

The simplest way to align the movable assemblies to each other, is between the support elements ζ. Zwischen * between the cylinder support 15 (Fig. 3) and the sliding surfaces 29a _s 29b 'attached thereto.

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The alignment of the entire Einspritzaggregat.es the closing unit via mutually displaceable wedges 31, 32 under the feet of the carrier 18th

To supply the displaceable injection cylinder 9 with hydraulic fluid are parallel to the injection axis next to the injection cylinder 9 on the side where the hydraulic unit 19 is located, two telescopic tubes 7 »8 arranged. The movable terminal blocks 5 and 10 are flanged directly to the respective cover 6 and 11 of the injection cylinder 9. The fixed terminal block 12 to the hydraulic unit 19 is connected via a support 38 fixed to the stationary support 18. In this way, results in a space-saving arrangement with short lines. The operation of the invention will be briefly explained below: In the working state, the Pla ^ stizierzy cylinder 16 together with the injection cylinder $. driven by the Pahr cylinder 40 in the direction of the closing unit; they perform only a slight shift at arrival and. Departure of the injection nozzle 39 for the thermal separation of the plasticizing cylinder 16 from the injection mold. In this state, the stroke hd of the slidable shaft-hub connection 37 allows the displacement of the screw 21 in plasticizing and injecting. If the piastizing cylinder 16 and the injection cylinder 9 are completely moved away from the closing unit for assembly purposes, first the screw 21 in the plasticizing cylinder 16 is brought into the front position. Thus, the stroke hd of the displaceable shaft-hub connection 37 is completely available for the shutdown of the plasticizing cylinder 16 and the injection cylinder 9. In completely worn position then there is no. Possibility .more, the snail. 21 im'PlastiZierZylindZer ..; .. 16, which is not necessary. In partially abfahrenem state, the displaceability of the screw 21 is completely retained in the Piastizierzylinder 16 as long as:. ...

  h = hd - hs. ·

where h · = 'already traveled way

hd = stroke of the displaceable shaft-hub connection hs = maximum stroke of the worm 21 in the plasticizing cylinder

the 16 mean »

The further the Piastizierzylinder 16 is traversed thereafter, the more the displaceability of the screw 21 is limited Thus, depending on the position of the Piastizierzylinders 16 in the worn state, the injection unit for experiments fully or partially functional.

Claims (5)

•• l υ £ Erfindungaanspruch 1. injection unit for injection molding machines, consisting essentially of a hydraulic unit, a plasticizer unit, an injection cylinder, a Piastizierantrieb and a support structure, for the aforementioned modules, characterized in that the support structure consists of a base (34), the fixed and detachable with a bending and torsion-resistant support (18) is connected, the Piastizierantrieb (36) consisting of a motor (1), a transmission (2) and a clutch (3), rigidly mounted on the pedestal (34), while the injection cylinder ( 9) and the Piastizierzylinder (16) are arranged displaceably on the carrier (18) over the length of a maximum stroke hd and are connected to the plasticizing drive (36) via a known shaft / hub connection (37). 2. injection unit according to item 1, characterized in that the stroke hd of the shaft-hub connection (37) of the maximum possible arrival and departure of the carrier (18) by means of driving cylinder (40) slidably mounted plasticizing cylinder (16) and. Injection cylinder (9) corresponds to and is greater than the maximum injection stroke hs of the screw (21) in the Piastizierzylinder (16). 3. injection unit according to item 1, characterized in that by the injection cylinder (9) a sleeve (22) protrudes, which is attached at one end to the coupling (14) of the screw (21) ', at the other end with the hub ( 24 '24 ^s ) of the shaft-hub connection (37) is connected and the opposite. Intermediate shaft (25) to the hub (hd) slidably 'arranged' is. . '. · ..'. · '- -. · .. ': ·' · ·, ·. ' 4. Injection unit according to item 1, characterized in that the displaceable injection cylinder (9), the displaceable Piastizierzylinder (16) and.das feststehende.Lager (4) are supported on the support (18) and. the cavity of the box or tubular support (18) is completely or partially formed as an oil reservoir. 5e injection unit according to item 1, characterized in that the support surfaces of the cylinder cover (6, 11,) of the injection cylinder (9) of the cylinder receptacle (15) and the Zylinaer support (17) of the Piastizierzylinders (16) are aligned horizontally on a plane and a sliding guide form, consisting of two guide rails (30) with two v-shaped sliding surfaces (29a, 29b), of which one (29a) is arranged horizontally. 6 »injection unit according to item 1 and 5 *, characterized in that each one of the sliding surfaces (29a, 29b) are preferably biased with disc springs (27). 7. Injection unit according to items 1, 5 and 6, characterized ~ net characterized in that the cover plate (28) together with the guide rails (30) are designed as unscrewable cover for the oil reservoir (26) « 8 »injection unit according to item 1, characterized in that for supplying the two cylinder capacities of the injection cylinder (9) with hydraulic fluid parallel to the injection axis two telescopic tubes (7, 8) are arranged and. that the associated terminal blocks (5, 10) are flanged directly on the respective cylinder cover (6, 11) of the injection cylinder (9) while, the fixed terminal block (12) is fixedly connected to the carrier (18).