DE1285111B - Device for the automatic production and / or further processing of ampoules made of glass - Google Patents

Description

The invention relates to a device for automatic production and / or further processing of ampoules od. The like. Made of glass, whose neck, which melts during the manufacturing process, then in a workstation is opened again by heating.

Devices of this type generally have a carousel, that the workpieces step by step or continuously at different work stations moves past, which successively shape the ampoules from glass tubes.

The invention is based on the object of providing a device which ampoules that are not flawless, e.g. B. have jumps, from the manufacturing and / or ejects further processing device.

The solution to this problem is, according to the invention, that the workstation, in which the neck is melted again, a photoelectric scanning device is assigned, which determines whether a flash of light triggered by the bursting of the neck, arises or not, and that means for ejecting the ampoules is provided, which is electrically connected to the photoelectric scanning device and responds when there is no flash of light.

The invention makes use of the fact that only flawless Ampoules generate flashes of light when the neck is melted. With ampoules, the one Have crack, the air in them escapes through this crack, what has the consequence that a flash of light does not occur. Such ampoules are through the Ejecting device removed from the manufacturing and / or processing machine, while the other ampoules complete the manufacturing process on the carousel in normal Way to end.

The photoelectric scanning device can, for example, be a silicon cell be. The photoelectric scanning device is expediently an amplifier downstream. The ejecting device can have a lifting magnet that acts on the opener of a feed holding the ampoule can act. Preferably a The correct ampoule register is provided. The mouth of the ampoule is heated essentially punctiformly by a gas burner, whereby the ampoule is preferably heated below the neck by a gas burner.

In the drawing, an embodiment is shown schematically and by way of example of the invention shown.

The figure shows a section of a machine for the production of Ampoules, essentially the workstation in which the neck of the ampoules, which was melted shut during the previous work process, melted again will.

The ampoule 1 is inserted, with its neck 2 pointing upwards, in a chuck 3 that sits on a carousel (not shown). The latter rotates about an axis which, in relation to the figure on the left, must be thought of as a distance from the feed. In the work station shown, the ampoule 1, which rotates constantly about its longitudinal axis, is heated approximately punctiformly by a burner 4 at the upper end of its neck 2 and by a burner 5 below its neck. The air in the ampoule expands as a result and, after a short heating time, bursts the cap heated by the burner 4. This creates a flash of light. If the ampoule is defective, it has z. B. a jump, the air in it can escape when heated; The cap covering the neck of the ampoule does not burst open and there is thus no flash of light.

This fact is used according to the invention to remove defective ampoules from the work process. A silicon cell 6, which is electrically connected to a lifting magnet 8 via an amplifier 7 , is used for this purpose. The amplifier 7 works in such a way that it only emits a current pulse to the lifting magnet 8 when a flash of light is not generated. The lifting magnet 8 then pushes a pin 9 out horizontally by about 25 mm. The feed opener lever 10 strikes against it when it moves about the carousel axis, as a result rotates about its pivot point 11 and in the process opens the clamping jaws holding the ampoule. The ampoule can then fall through the feed 3, which has been opened for a few seconds, into a basket located at this station. If the ampoule 1 emits a flash of light when the cap is melted, the lifting magnet 8 does not perform any switching movement and the ampoule 1 enters the next work station (not shown).

It is advisable to accommodate the solenoid 8 in the work station that follows the one equipped with the photocell, and also to provide the amplifier 7 with a timing relay. The mode of operation would then be such that the increased current coming from the photocell triggers the time relay, which in turn actuates the lifting magnet (e.g. after 1 sec) when the ampoule arrives at the next work station.

Instead of the solenoid being operated every time the ampoule is damaged will and will not be actuated when a flawless ampoule enters the workstation runs through, he can also work in such a way that he does not with every faulty ampoule actuated and is only actuated when a faultless ampoule is in the station comes in. Of course, the device for actuating the feed must then differing from the illustrated embodiment, be designed so that they at Operation of the lifting magnet is prevented from opening the chuck.

In the electrical circuit, for example, the photocell parallel to a program-controlled switch (e.g. by the machine or a Clockwork), which is in the rhythm of the entry of the ampoules in the work station opens briefly. If a flash of light is generated, the circuit remains via the Amplifier closed; there is no flash of light when the switch is opened, so the circuit is open. These two states can be used to to control the solenoid accordingly.

Of course, the device according to the invention is not open the sorting out of ampoules is limited, rather other objects, especially bottles, are sorted in the manner described.

Claims (2)

Claims: 1. Device for the automatic production and / or further processing of ampoules or the like made of glass, the neck of which, which fuses during the production process, is then reopened in a work station by heating, characterized in that this work station has a photoelectric scanning device ( 6, 7) is assigned, which determines whether a flash of light, triggered by the bursting of the neck (2), arises or not, and that a device (8) for ejecting the ampoules (1) is provided, which is electrically connected to the photoelectric Scanning device (6, 7) is connected and responds when no flash of light occurs. 2. Apparatus according to claim 1, characterized in that the photoelectric scanning device has a silicon cell (6). 3. Apparatus according to claim 1 or 2, characterized in that the photoelectric scanning device is followed by an amplifier (7) . 4. Device according to one of claims 1 to 3, characterized in that the ejection device has a lifting magnet (8) which can act on the opener (9) of a feed (3) holding the ampoule (1) and is preferably located in the work station located downstream of the workstation to which the scanner is assigned. 5. Device according to one of claims 1 to 4, characterized in that a timing relay is switched on in the circuit. 6. Device according to one of claims 1 to 5, characterized in that a counter registering the correct ampoules is provided. 7. Device according to one of claims 1 to 6, characterized in that the mouth of the ampoule (1) is heated essentially point-like by a gas burner (4). 8. Device according to one of claims 1 to 7, characterized in that the ampoule (1), preferably below the neck (2), is heated by a gas burner (5).