DEVICE TO ADJUST THE LINEAR POSITION OF A SHUTTER

Abstract

A device is described for adjusting the linear position of one or more shutters (20) in an injection moulding system. The device comprises a body, comprising a cavity in which there can axially slide a movable element, and an adjustment element for adjustment of the axial position of the body with respect to a plate. The adjustment element is rotatably mounted between the body and the plate and comprises a threaded portion on which a corresponding thread of the body and/or of the plate is engaged.

Claims

1. Device (10) for adjusting the linear position of one or more shutters (20) in an injection moulding system, wherein a shutter can open and/or close a molten-fluid supply channel towards one or more mould cavities by translating along an axis (Z), the device (10) comprising: a body (14) comprising a cavity (16) in which there can slide axially a movable element (18), to which the one or more shutters (20) can be fixed; a fixed support plate (30), an adjustment element (60) for adjustment of the axial position of the body (14), wherein the adjustment element (60) is rotatably mounted between the body (14) and the plate (30), is connected to the body (14) and to the plate (30) so that it can be rotated clockwise and/or counter-clockwise so as to move linearly parallel to said axis (Z) in order to define the position of the body (14) along said axis (Z), and comprises a threaded portion (62, 64) on which a corresponding thread (36, 32) of the body (14) and/or of the support plate (30) is engaged.

2. Device according to claim 1, wherein the adjustment element (60) is mounted in a screwable manner in the support plate (30), and can be screwed clockwise and/or counter-clockwise inside the support plate (30) to move linearly and define an axial position of the body (14), the body (14) and the support plate (30) comprising threaded portions (36, 32) on which the adjustment element (60) is simultaneously engaged with corresponding threads (62, 64) of its own.

3. Device according to claim 1, wherein the threaded portions (36, 32) and the corresponding threads (62, 64) are concentric to said axis (Z).

4. Device according to claim 1, wherein the body (14) comprises an externally threaded male portion (34) which protrudes along said axis (Z) from an end of the body (14), on the male portion being present a thread (32) engaged by a thread (62) provided in a complementary female portion of the adjustment element (60).

5. Device according to claim 1, wherein the adjustment element (60) comprises threads formed on an external and internal side wall thereof.

6. Device according to claim 5, wherein said threaded inner side wall belongs to a pass-through or blind opening.

7. Device according to claim 1, comprising blocking means (76) for blocking the adjustment element (60) with respect to the plate and/or the body.

8. Device according to claim 7, wherein the blocking means (76) are mounted on the adjustment element (60).

9. Device according to claim 7, wherein the adjustment element (60) comprises deformable portions (70, 72) able to be pushed with pressure against the plate and/or the body to block the adjustment element relative to the plate and/or the body.

10. Device according to claim 1, wherein the body (14) comprises a female portion on which a thread (32) is provided and engaged by a corresponding thread (62) present in a complementary male portion of the adjustment element (60).

Description

[0028] The advantages of the invention will be even clearer from the following description of a preferred device, in which reference is made to the annexed drawing in which

[0029] FIG. 1 shows a three-dimensional view of the device;

[0030] FIG. 2 shows a cross-sectional view of the device;

[0031] FIG. 3 shows an enlargement of the dotted circle in FIG. 2;

[0032] FIG. 4 shows a variant of the device;

[0033] FIG. 5 shows enlarged a ring of the device.

[0034] In the figures: identical numerical references indicate equal elements, and parts are described as in use.

[0035] A device 10 for adjusting the linear position of a shutter 20 in an injection molding system 12 (shown only partially) is illustrated altogether in FIG. 1. The shutter 20 in a known manner can open and/or close a molten fluid channel supplying a mold cavity (not shown) by moving forward and/or backward along a Z axis.

[0036] The device 10 comprises an outer body 14 which delimits (see FIG. 2) an internal cavity 16 in which a piston 18 can slide axially and be directly or indirectly connected to the shutter 20. The linear displacement of the piston 18 involves the linear displacement of the shutter 20 along the Z axis.

[0037] The outer body 14 is slidably mounted on columns 22 to be linearly translatable along Z with respect to the system 12, and therefore define an adjustable end of stroke for the shutter 20. The outer body 14 comprises an upper circular neck 34 which protrudes upwardly along Z and is externally equipped with a thread 36.

[0038] On the top of the columns 22 there is mounted an upper support plate 30, fixed with respect to the system 12 and lying on a plane orthogonal to the Z axis.

[0039] The plate 30 has in its center a circular pass-through opening on whose side walls there is a thread 32. Such opening serves to house an adjustment ring nut 60 (see also FIG. 5), which is provided externally with a thread 62 and in turn comprises a pass-through or blind central circular cavity 66 on whose side walls there is a thread 64 (see FIG. 5).

[0040] The ring nut 60 is sized and mounted so that the thread 64 is engaged on the thread 36 of the neck 34 and the thread 62 is engaged on the thread 32 of the plate 30. In this way the ring nut 60 can be screwed clockwise and/or counter-clockwise inside the plate 30 to move linearly along the Z axis and simultaneously move the body 14 along the Z axis.

[0041] From the foregoing it is understood that the device 10 allows defining easily an axial position of the body 14 along Z, a condition that automatically establishes the upper stroke limit for the piston 18. It is enough to screw more or less the ring nut 60 into the plate 30 so that the ring nut 60, by reaction, moves the neck 34 up or down along the Z axis.

[0042] It is preferable to be able to lock the ring nut 60 in place after adjustment, to ensure precision and repeatability in the molding processes.

[0043] For this purpose, a preferred construction of the ring nut 60 (FIG. 5) provides for it to comprise two equal parallel threaded discs 70, 72 axially separated by a diametral connection 74, also equipped with a thread. A similar structure can e.g. be obtained by milling laterally a threaded cylinder. Disc 70 is the one on the opposite side with respect to the body 14, and has pass-through, internally threaded holes 76. By screwing a threaded dowel 90 (FIG. 3) into one or more holes 76 until the underlying disc 72 is touched by the dowel 90, the two discs 70, 72 can be slightly spread apart so as to press the threads 62, 32 one against the other. The thus enhanced friction between the threads 62, 32 achieves the locking of the ring nut 60.

[0044] More generally, a preferred solution for the ring nut 60 provides that it has a deformable geometry or portion. The deformable portion is capable to cooperate with an external element, e.g. a screw, capable of deforming the/a thread of the ring nut to ensure blocking thereof.

[0045] Or, another preferred solution for the ring nut provides that in the ring nut there are made e.g. one or more holes inside which one or more threaded dowels can be inserted. The dowels are able to spread apart the upper and lower flaps of the ring nut thus achieving its locking.

[0046] Another variant for locking the ring nut is shown in FIG. 4. For the ring nut the splayable/deformable structure of FIG. 5 is no longer necessary, and it can be a simple full ring nut, indicated with 60b. Through a hole in the plate 30 one or more dowels can be inserted to lock laterally the adjustment ring nut. Here a dowel blocks the position of the ring nut 60b by exerting pressure on the external thread of the ring nut 60b.

[0047] A further solution for locking the adjustment ring nut envisages the use of a further locking plate cooperating with one or more connection elements, for example plugs, able to lock the adjustment ring nut.

[0048] Or the plate 30 may have a splayable/deformable structure for locking a ring nut 60b (FIG. 4). In particular, the plate 30 comprises an outermost lip 92 integral with a base plate 94 except for radials openings in which a dowel 98 can be inserted along a plane orthogonal to the Z axis. The dowel 98 can divaricate the lip 92 with respect to the base plate 94, with the effect described above on the threads 32, 62, or interfere on/with the thread 62 to lock the ring nut 60b.