DE1008881B - Machine for forming ampoules - Google Patents

Description

Ampoule Forming Machine The invention relates to a Ampoule forming machine.

Such machines produce glass ampoules with a cylindrical Bottom, a tapered upper end and an annular constriction between the top or shoulder of the ampoule body and the tapered one End. It is important that this constriction be properly shaped and concentric to the ampoule axis. Furthermore, the constriction should be evenly deep and their inner diameter are within certain prescribed limits.

In the known machine, the constriction is initially through a Flame formed on a specific, previously softened area of the glass tube is directed when it rotates around its axis with the chucks holding it. With a solid rib that is part of the machine, the depth of the Constriction regulated and given this the final shape. With other machines there is one stationary unit on one side of the machine for all chucks in common Rib or plate arranged so that the ampoules are partially exposed to the flame formed: constrictions successively touch the plate.

Neither of these methods and devices is satisfactory, since it is practically impossible to fix these chucks in such a way that a constant Position secured in relation to a fixed, independently supported constriction plate is. As a result, the neck plate or rib becomes some ampoule too tight, others too little constricted and in other cases constrictions formed, which are overly eccentric or misaligned with respect to the ampoule body are.

These difficulties arise with a machine in which in itself As is known, a number of vertical ampoules receiving food is provided which revolve around their vertical axes and in a horizontally curved path a constriction zone are performed, and in addition, heating devices for softening certain areas of the ampoules are provided prior to entry into this zone, according to the invention eliminated by means of a constricting disk, which in a substantially horizontal plane is freely rotatable and dependent on a control device from movement in and through the zone in the working position to the areas reached of the ampoules and thereby the desired constriction in each ampoule generated.

The constricting disk is according to one embodiment of the invention mounted on a support that is outside the horizontal circular movement path the lining is lying. This carrier can be moved horizontally around the constriction disc in contact with a preheated softened area of a glass tube or ampoule bring to. The chucks operate the mechanism, which the disc in the partial formed constriction leads. In addition, there are lining and constriction devices loosely connected to each other during a predetermined amount of the path of the feed, to ensure the completeness of the constriction. Then the device released from the lining and returned to their previous position in which they were touches the next chuck.

Due to the direct drive of the constriction disc by the chuck become the ampoules when the linings have the same diameter and are related are not arranged too irregularly on the machine axis, regardless of all normally minor inaccuracies in the position of the chuck in relation to the machine axis and evenly constricted.

In a further embodiment of the invention, the machine is with a Provided device, which allows a precise regulation of the depth of the constrictions.

Other advantages and purposes are evident from the description below emerged.

In the drawings. Fig. 1 shows in plan view a segment of a circular arranged row of chucks of the molding machine and the necking device in two positions (fully extended in the starting position, dashed near the other extreme position), FIG. 2 shows the view according to FIG. 1 at the middle Position of the constriction device, Fig. 3 in plan view the adjustment and steering device for the constricting disk, Fig. 4 is a vertical section along line 4-4 of Fig. 2, FIG. 5 a vertical section along line 5-5 of FIG. 2, FIG. 6 the side view, partially cut. the disc-bearing end of the device and Fig. 7 den Cross section along line 7-7 of Fig. 4. The device according to the invention is suitable z. B. for the known machine. The (upper and lower) lining takes a vertical standing glass tube and leads it through continuously on a circular path the necessary shaping zones. The chucks rotate around their axes while the places. the pipes, where constrictions are to be formed, surrounded by flames to preheat and soften the glass.

Some of the lower chucks 10 are shown in the drawings. The associated mechanism is not shown because it is built in the usual way is. The linings shown are in or in: near the necking zone, and ampoule A is softened by one or more burners B.

The constriction device shown in the drawings according to 'the The invention has a constricting disk 11 - the same is free about its vertical axis rotatable and is carried by one end of a frame 12, which to the limited Longitudinal movement is arranged on a horizontally pivotable support 13. This Support is adjustable in height in order to be able to adjust the disc as the position of the desired Einsc'hnürbereiches to the lower lining 10 requires. The device carrying the disc (Fig. 4) is designed so that it is the innermost Working position of the disc in relation to a pair of rollers 14 determines which on the cylinder surface or circumferential side of the chuck slide when these are one after the other move through the constriction zone. So will the ampoules when the feed is the same Have size and within moderate limits (but not necessarily exact intervals) of the: machine axis are arranged, always evenly from the constriction disc constricted. Once the disc has a constriction of a certain depth is set, the circular wall of the chuck directs the movement of the disc into the softened glass.

This embodiment of the invention is in detail. designed as follows: The pivotable support 13 consists of a horizontal guide 15, a bearing bush 16 in the same, which extends beyond both ends of the guide, and a stand 17 which hangs from the guide. This stand comes with a Pin 18 pinned, which leads from the vertical shaft 19 upwards. These The shaft is rotatably mounted in the bearing 20 which has an external thread. Adjusting flange 21 and lock nut 22 are used to support the support and thus the washer 11 on the Set the desired height with respect to the base plate 23 and the chuck 10.

Frame 12, which directly carries the constricting disk, swings with support 13 in a horizontal plane and goes back and forth in the guide 15, so that the disc as the successive glass tubes move through the Constriction zone comes into contact with these. As stated above, the chucks are loosely connected to the frame 12 during the constriction. A coil spring 24 (Fig. 1) always returns the constriction device to its starting position when released by a lining when it moves out of the constriction zone will. The return to the starting position brings the frame into contact with one Shock absorber 24a.

Frame 12 has a tube 34 which slides in bearing bush 16. Of the The main part of the tube lies between the guide 15 and the chucks 10. The constriction disc 11 is attached to the inner end of the tube, with an L-beam 25, one arm 26 of which is clamped at the stirring end, while the other arm 27 is rotatable stored carries a finger 28 which directly carries the disc. The disc can. be carried by a depending pin 29, the upper end of which is supported by a Rolling bearing 30 (Fig. 5) worn: which in turn can be removed in any way is attached to the finger 28.

These elements, namely carrier 25, fingers 28, disk 11 and rollers 14, may only move horizontally. This is achieved by a rod 31 (Fig. 1, 2 and 7) which is attached to support 32, which is from the pipe 34 of the frame 12 depends. The bar extends horizontally to the rear a guide 33 (FIG. 7) carried by stand 17. A spiral compression spring 3411 surrounds rod 31 between carrier 32 and guide 33 and helps frame 12 yielding to hold in its innermost position to the ampoule machine. Coil spring 35, which surrounds bushing 16 and between guide 15 and that of tube 34 of the frame 12 depending support 32 is moved in cooperation with coil spring 34a the frame and thus the constriction disc against the ampoule chuck 10.

The constriction disk 11 must be cooled. For this purpose is pipe 34, which ends near the disc and is directed against it, on his the other end is connected to a flexible hose 36 which leads to a (not shown) Cooling air source leads.

The constriction disk 11 normally has that in FIG. 1 fully extended location shown, d. H. the disc is withdrawn, but is still in place near the previously softened shoulder of the ampoule or other object, that is made. This position results from the fact that frame 12 inwards is performed, whereby fingers 28 opposite to the clock display @ rsinn around his Spigot rotates. This retracted position of the disc 11 is achieved by setting a stop 38 at the inner end of a vertical rod 39 and the position of stop nuts 40 set on tube 34. The control rod 39 is in. Opening 41 of the flange 42 freely movable. This flange is held by the finger 28 carrying the disk and is screwed into the carrier 43 on guide 13. Knurled nut 44 is used for axial adjustment of the rod, and a lock nut 45 holds it in the desired position Location. In this way, stop 38 can be adjusted to suit the working conditions and the diameter of the ampoule or tube require.

When the device with a chuck 10 changes to that shown in FIG Position is moved, the distance between the axis of the chuck 10 and the axis is to which the device vibrates, shortened. Through this is moving Frame 12 in bearing bush 16 and guide 15 in the longitudinal direction on the axis of the oscillating movement there. In this case, the carrier 25 goes with the frame, whereby the carrying the disc Finger 28 rotates clockwise around its vertical bearing and the constriction disc gradually leads to the wall of the ampoule and into this in order to constrict it. The distance between the stop 38 and the ampoule is also shortened, as a result of which Spring 49 can move the disc against the ampoule.

The extent of the forward movement of the disc and therefore the depth of the The ampoule constriction produced in this way is caused by the adjustable stop 46 (Fig. 3, 6 and 7) steered. The stop is carried by an adjusting rod 47, extending horizontally through slot 48 in a horizontal extension of flange 42 extends. The spiral spring 49 on this rod 47 acts on this extension a yielding pressure from flange 42, which moves the disk forward tries. Adjusting nut 49a controls the position and pressure of the spring on the extension from flange 42. The control rod 47 for stop 46 is screwed into support 50 and goes through guide 51. At the outer end, the rod carries an adjusting nut 52. The rod is secured against inadvertent rotation, which would affect the adjustment of the stop 46 would change, secured by spiral spring 53, which rests against carrier 50. The spring strength is adjusted by means of the adjusting ring 54.

From the foregoing it can be seen that stop 38 is immediately above Disk 11 (Figs. 1, 2 and 3) premature movement of the disk in the direction of the ampoule can be prevented and adjusted under the action of spring 49, around the disc in preparation for its movement into contact with the glass pretty much keep close to the ampoule. When the device moves from the position shown in Fig. 1 moves into that according to FIG. 2, the distance between the stop 38 and the axis is of the chuck 10 is reduced and the spring 49 rotates the finger carrying the disc gradually clockwise around its vertical axis. In this way it forms and the disc gradually deepens the constriction down to the amount that extends out the setting of the stop 46 is determined. The device moves with the Feed further to essentially the position shown in dashed lines (Fig.l). Shortly thereafter, the chuck moves out of contact with the rollers 14, whereupon the spring 24 the device in the fully extended position shown (Fig. 1) so that it can be taken with the next feed.

The two rollers 14 (Fig. 2, 3 and 6) are attached to arm 55, which is adjustable in the longitudinal direction of the frame by means of slots 56 and screws 57 is. This adjustment is necessary to account for differences in the size of the chucks and to compensate for their distance from the axis of rotation of the constriction device.

This constriction device can serve to cover the entire constriction to effect or, if necessary, to complete a constriction, which was initially or partially generated by a flame or flames, which be directed against the glass tubes while they are with the chucks turn. Further modifications are possible within the scope of the invention.

Claims (9)

PATENT CLAIMS: 1. Machine for forming ampoules, consisting of a series of ampoule-carrying chucks (10), which are equipped to rotate around their vertical axes and to move in a horizontally curved path through a constriction zone and are intended to receive vertically arranged ampoules (A), as well as from heating devices (B) for softening certain areas of the ampoules before entry into this zone, characterized by a constriction disc (1i) freely rotatable in a substantially horizontal plane and one actuated by the chucks as a function of their movement in and through the zone Device to bring the disc in working position to the softened areas of the ampoule and in this way to create an annular constriction in each ampoule. 2. Machine according to claim 1, characterized in that the constriction disc (11) carrying device from a rotatable on a fixed vertical pin mounted support (13) and one carried by this support and with the same rotatable frame (12) equipped with means which engage in the path of the chuck, and springs (34a, 35) for adjustment of the frame. 3. Machine according to claim 1 and 2, characterized by a adjustable device (49) that adjusts the amount of movement of the disc (11) in the direction of steers towards and away from the ampoules. 4. 1 machine according to claim 2 and 3, characterized in that the adjustable device (49) for steering the The amount of movement of the disc (11) in the direction of the ampoules from an adjustable There is a stop (46) and a spring (49) to the device, which the disc carries, and to press the disc (11) against the stop (46). 5. Machine after Claim 2 to 4, characterized in that the one carrying the constriction disc Device consisting of a horizontally pivotable finger (28), which disc (11) and frame (12) connects. 6. Machine according to claim 5, characterized in that that the horizontally pivotable finger (28) directly touches the constriction disc (il) wearing. 7. Machine according to claim 5 and 6, characterized in that the innermost End position of the disc (11) is steered adjustable by a stop. B. machine according to claim 7, characterized in that the stop (38) for fixing the Initial position of the disc (11) with a Sbellstab (39) is attached to the To be able to adjust the stop (38) in any desired position. 9. Machine after Claim 7 and 8, characterized in that the stop for delimiting the movement finger and washer from an adjustable nut attached to the frame (12) (46) consists, against which an extension (42) of the rotatably mounted finger (28) sets.