DE19730178C1 - Internal- or external screw core extraction unit used with pressure injection moulding machine - Google Patents

Abstract

This new unit extracts the threaded core used in making plastic, pressure injection-moulded articles with screw threads (16). The thread core may carry external- (15) or internal threads. It is connected to a drive shaft moving back and forth along the linear ejection path (c). The core/shaft connection is solid in respect of rotation, tension and thrust. The shaft has an external lead screw (L) matching the core thread in pitch, and engaging a fixed internal thread (G). An elongate, spline spur gear (28) is fastened to the shaft, engaged by a drive gear (29) at all times during longitudinal shaft movements. In this new design, the spur gear (28) is the sun wheel of an epicyclic drive (P), with at least three driving planet wheels (29).

Description

The invention relates to a device for demolding of threaded plastic injection molded articles od. Like. According to the preamble of claim 1.

Such a device is in a trilingual office "HASCO transmission program" 11/92 (see pages 8-10) of the HASCO-Normalien GmbH + Co, D-58467 Lüdenscheid.

In the known device, one protrudes in the nozzle-side Tool area fastened and against rotation around your own Longitudinally secured high-helix lead screw with its thread free area for the reciprocating ejector side of the tool area and reaches there into a steep slope windemother.

With the high-helix nut is coaxial to it arranged spur gear rotatably, which over a binding gear  a spur gear fixed on a drive shaft drives. Around the drive shaft the necessary for the demolding process che axial mobility despite engagement of the spur gear Procuring the drive shaft in the binding gear shows that Binding gear on an increased axial length.

The tool, which is held in a spatially fixed manner on the nozzle side richly facing end of the drive shaft carries a formbil ends, internal or external thread, thread core, while the other end of the drive shaft is one by one Has external thread formed lead thread, which in a Corresponding internal thread in the tool room firmly held, threaded bushing engages.

The above mentioned HASCO brochure be written device works as follows:

If a threaded plastic injection molding should be removed from the mold, i.e. if the tool is still is closed, the tool area on the ejector side begins its opening stroke, resulting in a relative movement between fixed lead screw and moving lead lead nut. The steep thread set in rotation For its part, mother turns the gearbox described above binding the drive shaft. The drive shaft completes called by the lead thread arrangement, a combined Unscrewing and extracting movement to remove the thread core from the to move out the thread on the article side.

The above-mentioned in the pre-drawn HASCO brochure be Written device for demolding threaded verses hen injection molding has been in practice in many cases  lasts. The known device, in which a strongly smooth If you accept the new construction method, it will almost put you in tegral part of a tool form, the widest is designed for the respective application.

The invention has for its object the known device to evolve so that this is a locally variable one settable separate compact assembly that can form over it also allow a variety of applications should.

In connection with the preamble of claim 1 this problem is solved in that on the drive shaft-mounted spur gear the sun gear and at least three driving wheels meshing with the sun gear Form planet gears of a planetary gear, the axial length of the sun gear the linear path of the drive shaft corresponds, and the planet gears in a spatially fixed ge gearbox housing are stored, which also the Ge counter thread for the lead thread, and one with the Rotate the planet gear meshing hollow gear in the gear housing stored bar and is firmly connected to a rotary drive.

The invention makes use of the further development of known device of a planetary gear, which a compact construction allowed and also the possibility he opens, the entire device in a gearbox concentrate, which as a compact assembly is almost be arbitrary assignment, be it axial, inclined or skewed,  permitted with regard to the parting plane of a tool. If So a plastic part z. B. on any skewed ordered place should have a mounting thread, so can the compact device according to the invention in just this the required direction and in the ejector area of the tool.

Lead thread and counter thread are expedient axially between arranged between the thread core and the planetary gear.

One variant of the invention is that the thread core is releasably attached to the drive shaft. This note Male create the possibility, alternately if necessary Use thread cores of different diameters.

Another preferred form of the invention, in which Achieving a compact design of the diameter of the hollow gear can be kept relatively small, is that each planet gear is a two sub-gears different One-piece double wheel having a diameter, wherein the part wheel with the smaller diameter with the hollow gear and the part wheel with the larger diameter with the sun wheel combs.

Although all possible as a rotary drive for the hollow gear Chen drives, also electromotive drives for example wise, conceivable, an embodiment is preferred, at which the rotary drive of the ring gear from a fixed closed steep thread forming part of a screw drive is in which a steeply secured against rotation threaded spindle, driven axially back and forth, by the engages the side facing away from the thread core.  

The above-described embodiment is put into practice preferably realized so that the ring gear with its the end face facing away from the thread core on the thread core facing end face of the high-helix nut attached is.

The combination of the invention as a planetary gear trained device with a steep screw drive Basically advantageous because both types of gearbox have a ho Enabling hen efficiency, which in further training of the Erfin can still be improved in that the steep gain nut is a recirculating ball nut of a ball screw drive.

The further training of a compact design also serves following inventive features, according to which in the planetary ge drives facing end face of the high-helix lead screw ko axial circular cylindrical cavity is embedded, in wel chem the free circular cylindrical pointing away from the thread core smooth end of the drive shaft and rotated there if necessary is stored.

Additional features of the invention are that the reciprocating drive for the high-helix lead screw from a piston-cylinder unit operated with pressure fluid forms is. Because the demolding movement is essential greater effort than the feed movement of the thread kerns into the mold cavity, is possibly with egg Ensure that the pistons are full surface is acted upon by the pressure fluid. So that's it too Select the direction of rotation of the high-helix lead screw accordingly.  

In addition, the invention allows - similar to that known device - (see above-mentioned HASCO-Bro cord) that the reciprocating drive for the steep winch spindle from the opening and closing movement of one Tool shape is derived.

The following is an embodiment of the invention shown it shows

Figure 1 is an axial longitudinal section through a device with two indicated mold plates of a plastic injection mold. the arrangement is shown before demolding,

Fig. 2 in the manner of representation according to FIG. 1, the voltage Anord after demolding,

Fig. 3 is a radial section corresponding to the section line labeled III-III in Fig. 1 and

Fig. 4 is an end view corresponding to the view arrow labeled IV in Fig. 1.

In the drawings, a device for demolding threaded plastic injection molded articles is generally designated by the reference number 10 .

With a drive shaft 11 , the shaft 13 carrying a threaded core 14 is rotatably, tensile and compressively releasably coupled via a plug-in coupling 12 . The thread core 14 has an external thread 15 , which has the internal thread 16 of the threaded set 55 of a plastic article A located in the mold cavity F between the two mold plates 17 and 18 .

The mold plate 18 belongs to the nozzle-side tool area, while the mold plate 17 is part of the ejector-side tool area. The parting plane between the mold plates 17 and 18 is denoted by T.

On the drive shaft 11 is a lead thread L out as an external thread attached. The lead thread L engages in an internal thread, which is referred to as the counter thread G. The mating thread G is worked into a collar-like projection 19 of a gear housing cover 20 of the gear housing 21 . The gear housing part 22 has a provided with axia len threaded holes 24 flange 23 , in which the flange 25 of the cover 20 is positively inserted and fastened with screws 26 using a cylinder pin 27 be.

On the side facing away from the threaded core 14 , the lead thread L is followed by a sun gear 28 of a planetary gear, designated overall by P. The sun gear 28 is a physical part of the drive shaft 11 . The sun gear 28 is axially long so that the axial length takes into account the pull-out movement of the threaded core (see FIG. 1 with FIG. 2) in the direction z. All gear elements of the planetary gear P represent spur gears.

With the sun gear 28 , three planet gears 29 designed as double gears mesh . Each planet gear 29 has two sub-gears 30 , 31 of different diameters. The partial gear 30 with a larger diameter meshes with the sun gear 28 , while the partial gear 31 with a smaller diameter meshes with a hollow gear 32 with internal teeth.

The ring gear 32 is to the central longitudinal axis of the Ge z overall arrangement rotationally mounted and rests with its threaded core 14 end face 33 facing away from the threaded core 14 facing end face 34 of a ball screw nut 35 and is there over a number of cylindrical pins 36 be on rotational entrainment solidifies.

The planet gears 29 run on axes 37 , each of which is held at one end in the cover 20 and at the other end in a bearing disc 38 . The bearing disk 38 is rigidly connected to the housing cover 20 via a number of cylindrical pins 39 and spacer bushes 40 .

The high-helix nut 35 has a nut housing 41 and a nut element 42 , which is connected in a rotationally fixed manner to the nut housing 41 via a feather key 43 .

From the threaded core 14 facing away from the housing end face 44 , a high-helix spindle 45 projects axially into the nut element 42 . In the end face facing the threaded core 14 , a circular cylindrical axial recess 46 is embedded, in which a smooth shaft end 47 of the drive shaft 11 engages on a sliding bearing.

Steep thread nut 35 with hollow gear 32 are supported on the inside of the housing via suitable rolling bearing elements 48 , 49 axially and via rolling bearing elements 50 .

The high-helix nut 35 and high-lead screw 45 has a screw drive is ausgebil det as a ball screw drive and designated overall by K.

To achieve a compact design, only a dashed line indicated by means of a pressure fluid operated, piston-cylinder unit 51 is flanged to the housing end face 44 . The unit 51 is provided with a cylinder 52 , with a piston 53 and with a piston rod 54 , which is rotatably, tensile and compressively connected to the high-helix lead screw 45 .

Comparing FIGS. 1 and 2 with one another, the functioning of the device 10 can be described as follows:

The piston 53 is opened from its full surface 54 with egg nem pressure fluid, for example hydraulic fluid, and consequently moves in direction b. The steeply threaded spindle 45 , which likewise shifts linearly in direction b and prevents rotation about the longitudinal axis z, sets the steep-threaded nut 35 and thus also the ring gear 32 in rotation, which also rotates the sun gear 28 indirectly via the planet gears 29 .

The rotatable with the sun gear 28 lead thread L, which cooperates with the housing-fixed counter thread G, performs a rotational movement in the loosening sense of the threads 15 and 16 and at the same time a linear pull-out movement in direction c. He should be noted that of course the thread pitch of the lead thread L and that of the external thread 15 of the thread core 14 must be identical.

Fig. 2 then shows the completed demolding, whereupon the article A after an opening movement of the two mold plates 17 and 18 can be ejected by suitable means, for example by ejector pins.

From the preceding description it is clear that the device 10 as a whole is a self-sufficient and largely independent of structural prerequisites for a tool shape to be installed in almost all positions. Incidentally, the drawings are kept approximately on a scale of 1: 1.

Claims (10)

1. Device ( 10 ) for demolding threaded ( 16 ) injection molded articles (A) made of plastic or the like., With an external ( 15 ) or internal thread-carrying core ( 14 ) which with a along the linear direction of removal (c ) axially reciprocating drive shaft ( 11 ) is connected in a rotationally, tensile and pressure-resistant manner, which carries a guide thread (L) designed as an external thread, which has the same pitch as the thread ( 15 ) of the thread core ( 14 ) to be removed from the mold and which engages in a spatially held, internally threaded counter thread (G), and with egg nem on the drive shaft ( 11 ) attached spur gear ( 28 ) which meshes with at least one driving drive gear ( 29 ) and relative to the latter together with the Drive shaft ( 11 ) is axially reciprocable, characterized in that the spur gear attached to the drive shaft ( 11 ) has the sun gear ( 28 ) and at least three with the sun gear ( 28 ) meshing driving drive wheels form the planet wheels ( 29 ) of a planetary gear (P), the axial length of the sun wheel ( 28 ) corresponding to the linear path (at c) of the drive shaft ( 11 ), and the planet wheels ( 29 ) held in a spatially fixed manner Gearbox housing ( 21 ) is mounted, which also forms the counter thread (G) for the lead thread (L), and a meshing with the planet gears ( 29 ) of the hollow gear ( 32 ) in the gear housing ( 21 ) rotatably mounted and with a rotary drive ( 35 ) is firmly connected. 2. Device according to claim 1, characterized in that the lead thread (L) and mating thread (G) are arranged axially between the thread core ( 14 ) and the planetary gear (P). 3. Apparatus according to claim 1 or according to claim 2, characterized in that the threaded core ( 14 ) on the drive shaft ( 11 ) is releasably attached (at 12 ). 4. Device according to one of claims 1 to 3, characterized in that each planet gear ( 29 ) has a two sub-gears ( 30 , 31 ) having different diameters one-piece double wheel, the sub-gear ( 31 ) having the smaller diameter with the ring gear ( 32 ) and the partial gear ( 30 ) with the larger diameter with the sun gear ( 28 ). 5. Device according to one of claims 1 to 4, characterized in that the rotary drive of the hollow gear ( 32 ) from a rotationally connected part of a screw drive (K) forming steep screw nut ( 35 ), in which a GE secured against rotation steep screw ( 45 ), driven axially back and forth, engages from the thread core ( 14 ) facing away. 6. The device according to claim 5, characterized in that the hollow gear ( 32 ) with its threaded core ( 14 ) from the facing end face ( 33 ) on the threaded core ( 14 ) send white end face ( 34 ) of the high-helix nut ( 35 ) is attached. 7. The device according to claim 5 or according to claim 6, characterized in that the high-helix nut ( 35 ) is a recirculating ball nut of a ball screw drive (K). 8. Device according to one of claims 5 to 7, characterized in that in the planetary gear (P) facing the end face of the high-helix lead screw ( 45 ) a coaxial circular cylindrical axial cavity ( 46 ) is embedded, in which the thread core ( 14 ) pointing free circular cylindrical smooth end ( 47 ) of the drive shaft ( 11 ) men and where it is possibly pivoted. 9. The device according to claim 8, characterized in that the reciprocating drive for the high-speed spin del ( 35 ) is formed by a piston-cylinder-unit operated with pressure fluid ( 51 ). 10. Device according to one of claims 1 to 8, characterized in that the reciprocating drive for the high-helix lead screw ( 45 ) is derived from the opening and closing movement of a mold.