DE2062176A1 - Injection moulder ram system - combines nozzle hold up and screw thrust movements in one mechanism - Google Patents

Abstract

An injection unit for injection moulding machines, comprising a first ram arrangement for moving and holding the injection nozzle in tight contact with the sprue of the mould and a second ram arrangement for moving the screw axially to effect the injection operation, in which the first ram arrangement consists of a pair of cylinders fixed to the injection nozzle unit and sliding on fixed pistons constituted by bars symmetrical about the nozzle, is constructed so that these cylinders of the first ram constitute also the pistons of the second ram, sliding relative to their cylinders which are linked to the screw by a yoke or bridge which also supports the drive motor for revolving the screw.

Description

Injection unit for injection molding machines The invention relates to a Injection unit for injection molding machines with a first feed device for the Injection unit for non-positive application of the spray nozzle to the sprue mouth of the Injection mold and with a second feed device for one in the injection unit rotatably mounted and axially displaceable screw for injecting the plastic material into the mold, two being symmetrical to the sprayT nozzle arranged Spars form the stationary piston of the first feed device on which with the feed cylinder connected to the injection unit are displaceable.

In injection molding machines it is necessary that immediately before during the injection process, the injection nozzle is driven against the injection mold and with the Sprue mouth is positively connected, so in the subsequent injection process and when maintaining the holding pressure, no material expulsion between the nozzle and Mold sprue takes place, because such a material expulsion is undesirable in any case, for example because with a previously dosed amount of material there is a loss of plastic material can affect the quality of the product.

The screw arranged in the screw tube of the injection unit is plasticized the raw material fed to it and conveys it in the direction of the spray nozzle, whereby a Rotational movement of the screw is required. During the injection process, the The screw is moved axially in the direction of the mold, so that the processed before the screw, Plasticized material can be injected into the mold and continue to be required Holding pressure can be initiated after filling the mold.

After the injection process has ended, the nozzle is adjusted by a certain Stroke retracted so that, among other things, the sprue is free, a heat transfer between Nozzle and injection mold are avoided and, if necessary, accessibility during demolding directs can be. The screw will now start rotating again so that the material can be reprocessed for the next spraying process can, in which case a shut-off nozzle allows the material to exit from the Nozzle prevented.

To carry out this movement necessary for the spraying process To be able to do so, a total of three drives are required, namely a feed device for the injection unit for non-positive application of the spray nozzle to the sprue mouth, a drive for rotating the screw for the purpose of plastic fixation and another feed device, around the screw piston to carry out the injection process and to generate it of the holding pressure to move axially. For moving the unit back and forth as well for the forward and backward movement of the screw piston, a translational one must therefore be used Movement are carried out, while a rotational movement during the plasticizing process the snail is required.

In the previously known injection molding machines there are usually three separate drive devices are used. This inevitably results a relatively large space requirement. In particular, the two feed drives there is the disadvantage that an arrangement is not readily possible the force application of both feed drives symmetrically to the spray nozzle axis guaranteed and also the simple and problem-free installation and changeover of the drive motor for the rotational movement of the screw is not easy either given.

In general, injection molding machines have a piston-cylinder unit powered slide with screw tube and spray nozzle provided on a is axially movable with the X, aschinenständer associated guide and the essentials Part of the injection unit forms, while-with an additional, also with the injection unit in connection standing piston-cylinder unit the screw is axially displaceable.

In a known embodiment, the slide engages eccentrically to the screw axis of the piston of the feed cylinder for moving the injection unit while the associated cylinder is attached to the machine stand. Here is a not inconsiderable disadvantage, however, in the fact that a considerable moment of force is exerted on the Guiding the injection unit and the actuating device for moving the Injection unit works. On the one hand, this results in increased stress the construction elements that result in greater wear and tear, on the other hand due to the eccentric attack on the slide there is a risk of tilting, so that in the operating position of the spray nozzle under certain circumstances the seal on the sprue mouth is no longer guaranteed and the spray compound can escape. To this in addition To counteracting undesirable Krart moments is a much stronger one Dimensioning of the guides of the injection unit and its drive required.

In another embodiment, the two slide guide bars are in and the slide guide includes the feed device. Here are the two Spars designed as two stationary pistons, on which one with the slide connected cylinder is displaceable, so that each between the guide rail and an annular space is created in the cylinder, which is used to move the carriage back and forth is acted upon by pressure medium from one side or the other. At the end of the slide there is a central cylinder with a piston for the axial movement of the screw is arranged.

The drive motor for the rotational movement of the screw is located between the screw and the piston-cylinder unit for the axial movement of the screw, whereby the thrust forces are inevitably directed via the drive motor. The former Embodiment has the disadvantage that this creates uncontrollable forces in the form overturning moments occur, which lead to increased stress on the machine to lead.

In the other embodiment # are determined by the arrangement of the engine for the rotational movement of the screw. Forces for the axial movement of the screw conducted via the engine, which lead to increased stress on the engine, and wgiterl, this design requires a special motor that is used in its dimensions are matched to the machine, making custom-made products will be required. The special motor naturally requires higher costs than one standard engine. Added to this is the occurrence of an error or damage to the Motor the disadvantage of poor accessibility.

The invention is based on the object of an injection unit for To create an injection molding machine that, on the one hand, has a symmetrical application of force both for the forward and backward movement of the unit as well as for the axial displacement guaranteed by the worm, but beyond that no longer the power transmission for the axial displacement of the screw via the drive motor for the rotational movement the screw directs and continues to allow for the rotational movement the Screw a standard motor of any type can be used.

Based on an injection unit of the type mentioned at the beginning of the two spars arranged symmetrically to the spray nozzle, the stationary pistons of the Form the first feed device on which feed cylinders connected to the injection unit are displaceable, the invention consists in that the connected to the injection unit Cylinder at the same time as a piston for each cylinder of the second feed device are formed, and that the cylinder with the screw via a common bridge are connected, which act as the carrier of the drive motor for the rotational movement of the screw serves.

The invention relates to the feed device for the axial movement the screw into the feed device for the spray nozzle, with a symmetrical one Force application both for the axial movement of the screw and for the movement the spray nozzle is guaranteed and also a simple and compact constructive solution is created.

This arrangement of the feed device for the axial movement the screw can be centrally located on the bridge that connects the two injection cylinders the drive motor for the rotational movement of the screw can be attached, whereby this is freely accessible and can be a standard engine because the power transmission as well as the axial displacement of the worm to no longer be directed via the motor needs.

The invention is illustrated below with reference to one in the drawing Embodiment explained in more detail.

In the drawing: FIG. 1 shows a partially sectioned view an injection unit with the feed devices for the aggregate and screw movement in the axial direction and with the drive means for the rotational movement of the screw and FIG. 2 shows the arrangement according to FIG. 1 in an end view.

In the embodiment shown in Fig. 1 are on the machine stand 1 attached two spars 2 running parallel to the feed direction, relative to those in the longitudinal direction of which a slide plate 3 can be moved. On the slide plate there is a tube 4, which receives the screw 5, and on its front, end, not shown, the spray nozzle is arranged. The screw 5 is inside of the tube 4 displaceable in the axial direction and rotatable about its axis. The postponement in the axial direction takes place via a bridge 6 in the one described in more detail below Way, and the rotational movement is generated by a motor 7 attached to the slidable Bridge 6 is attached. The spars 2 are at some distance from their rear Attachment 8 to the machine stand 1 is provided with a piston 9 that is also stationary, whose outer diameter is larger than the diameter of the spars, and on the respective one with the slide plate 3 attached feed cylinder 10 displaceable is. The feed cylinders 10 are sealingly on the bars at both ends 2 stored so that an annular space 11 is formed, which is optionally on the one or other side of the piston 9 can be acted upon with pressure medium, whereby the Feed cylinder 10 and thus the slide plate 3 with the screw tube on the Spars 2 can be operated for forward and backward movement. It must in any case be guaranteed that the annular space 11 of both piston-cylinder units either pressure medium is applied evenly to the forward or backward movement of the spray nozzle so that they run synchronously. For this reason, the pressure medium for the Backward movement of the spray nozzle via a connection 12 at the end of a spar through a Channel 13 conveyed in the rear part of the annular space 11, which is through a ring line 14 is connected to the annular space of the other piston-cylinder unit.

Analogously, the connection 21 in the second is used to advance the spray nozzle Spar acted upon with pressure medium, with the other part via a ring line 15 of the annular space 11 of the piston-cylinder unit pressure medium is supplied.

A piston 16 is attached to each of the feed cylinders 10, the outer diameter of which is greater than the outer diameter of the feed cylinder 10 is, and on each of which a so-called injection cylinder 17 is slidably arranged is.

The injection cylinders 17 are at the ends with respect to the feed cylinders 10 sealed so that the annular spaces 18 are formed be that optional pressure medium can be applied to the pistons 16 from one side or the other, in order to carry out an axial displacement of the screw to move back and forth to be able to. The annular spaces 18 of the two piston-cylinder units 16, 17 are through Ring lines 19 and 20 connected to each other, so that both units for synchronous Movement are evenly acted upon with pressure medium. The two injection cylinders 17 are rigidly connected to one another by the bridge 6 with the inventive Arrangement can be the translation movements of the injection unit that are independent of one anchor on the one hand and the screw piston on the other hand durehgeSUhrt, whereby through the symmetrical application of force to the moving elements acting on one side KraYte are avoided and above all the accessibility and changeability of the drive motor for the rotational movement of the screw poses no difficulties prepare more. By operating port 21 by means of a pressure medium, the Slide plate 3 with the screw tube 4 before initiation of the injection process in Moved towards the injection mold until the injection nozzle frictionally engages the sprue mouth the injection mold is in contact. The injection cylinder 17, which inevitably is the same Execute movement can independently of this movement by applying Pressure medium in the ring line 19 in the direction of the injection mold relative to the feed cylinders 10 are moved, the screw 5 inside the tube 4 executes an axial advance in order to move the material plasticized within the tube 4 by to fill the spray nozzle into the mold.

The invention makes it possible to use the motor 7 for the rotational movement of the screw 5 simply on the rear side of the bridge 6 to be attached, whereby - as can be clearly seen in particular in FIG. 2 - the engine 7 is freely accessible, which is also noticeable when replacing parts power. Furthermore, one is no longer dependent on the use of a special motor, rather, it offers the decisive advantage that commercially available motors are used can be. It is also possible to change the Motor type e.g. from hydraulic motor to electric motor without any significant structural end to make statements. Another very important advantage is that the nesting of two piston-cylinder units makes it more compact Construction is made possible by which the dimensions of the injection molding machine are reduced will. This results in an economic advantage that should not be underestimated, which is reflected not least in the cost savings.

- Patent claims -

Claims (1)

Claims: 1. Injection unit for injection molding machines with a first feed device for the injection unit for frictional contact the spray nozzle to the sprue mouth of the injection mold and with a second feed device for a screw that is rotatably mounted in the injection unit and can be moved axially for Inject the plastic material into the mold with two symmetrical to the 'injection nozzle arranged spars form the stationary piston of the first feed device which feed cylinders connected to the injection unit can be displaced, thereby marked that the cylinder connected to the injection unit (3,4,5) # connected (10) at the same time as a piston fWP each cylinder (17) of the second feed device are formed and that the cylinder (17) with the screw (5) via a 'common Bridge (6) are connected, which as a carrier of the drive motor (7) for the rotational movement serve the screw (5), 2. injection unit according to claim 1, characterized in that that of the feed cylinders (10) of the first feed device with the spars (2) formed annular spaces (11) and those of the injection cylinders (17) of the second Feed device with the feed cylinders (10) of the first feed device formed annular spaces (18) each with one another via ring tabs (14, 15 and 19, 20) are connected. 3. Injection unit according to claim 1, characterized in that the Drive motor (7) for the screw (5) centrally on the one facing away from the screw Side of the bridge (6) is arranged between the spars (2). Blank page