DE613633C - Beading machine for beading the floors into the jacket of galvanic elements - Google Patents

Description

The subject of this invention is a new type for the beading machines, which for Sinking of the bottoms into the cup shells gal-. vanischier elements, especially those for Flashlights and anode batteries, serve. Because such cups are used in large quantities are, for the bottom beading, especially the cup, whose longitudinal seams are electrical have been welded for some time

to machines in use in which the cups are automatically fed to the beading roll will. The present invention now relates to machines with plate-like feed.

The plate, which bears a number of spikes on which the cups are put, the time required for beading in the effective area of the beading roll must be achieved with each mandrel stay. So it is moved unevenly.

For this type of movement, jerky drive by means of a ratchet wheel has so far been used. But then you are forced to use very precise holding locks so that the The mandrel stops in the correct zone of the bead roll. Otherwise it will be beaded in only inadequate. Also, resilient adjustment of the role does not release you from this Advancement. But this leads to the fact that even small wear and tear of the stop lock. Defects result, i.e. careful maintenance of these parts is necessary, which, however, in the companies, which use such machines can seldom be granted. Often times are occurring Defects are looked for in other places for days, and so time and material are lost.

The type of drive, as it has the machine according to the invention, offers complete remedy. The plate is not moved in jerks, but in swellings, so that its speed changes roughly according to the curve in FIG. The time of low speed is always the time in which a mandrel with a cup is in the area of the beading roller. At the same time, the drive roller of the dome is in contact with a drive belt, so that the mandrel already enters the active area of the sieve roller at full speed. So the bead is always correctly formed, even if the time values of the speed waves change somewhat due to wear, because, as FIG. 2 shows, the angle m enclosing the tolerance can cover almost half the distance between two spikes. The resilience of the belt acting on the tension roller of the dome allows the mandrel to continuously step into the area of the bead roller and leave it continuously. Shock or jerk effect does not occur.

3 shows a section through the machine, restricted to the essential parts. The plate carrying the thorns // and with them the cups gets its drive from the drive shaft 1 via a worm gear 2, 3 and in series with it between

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Drive g, ζ and worm gear connected swell gear, for example elliptical and eccentric gear, whose speed and swell number is equal to the number of mandrels of the divider.

A is the axis of the plate. Each mandrel comes before it comes into the area of the sink roller R, with its cord roller 4 in drive contact with the drive cord 6 pulled by the drive roller 5 and thus reaches the working area of R. R at full speed of its axis, but slowly turning the plate the bevel gear 7, 8 driven. During this time, the mandrels on the opposite side of the R are also loaded with sleeves and bases. On each mandrel there are disks 9 which, sliding on inclined planes in the loading zone, raise the sleeves a little so that the floors can be easily inserted. The thrust washer 10 located in front of the roller R then presses the base and the sleeve down. Disk 10 is shown in Fig. 3 for the sake of illustration in a diametrical position to R ; in reality it stands shortly before R.

The mandrels are pierced axially. In Fig. 4 it is shown how the mandrels "after leaving R, 'about 90 ⁰ behind R, come with the'Bbohrung over the pump cylinder 11, the piston of which is pulled up in time with the plate movement by a cam 12 against a spring tension, creates a blast of air which pushes the bottomed cups off the mandrel.

This type of ejection is now used according to FIG. 4 to the cups through the Bring channel K into the receiving sleeves 13 of a potting machine. The potting machine, which again carries a corresponding number of such receiving sleeves in a plate that rotates around axis 15, leads the cup under 'a casting nozzle and throws them then off.

This combined system provides the cups with bases and potting the floors with pitch in the same operation.

Claims (2)

Patent claims: i. Beading machine for beading the floors into the jacket of galvanic elements using several mandrels carried by a plate, which are guided past a beading roller, characterized in that the plate carrying the mandrels continuously revolves in such a way that that always, as soon as a mandrel approaches the effective area of the beading roll, 'a small speed of rotation and as soon as the mandrel leaves the active area of the roller, the normal speed of rotation again occurs, and further characterized in that during the time of a drive belt, the mandrels in the area of the beading roller keeps turning. 2. Machine according to claim 1, characterized in that the provided with the bottom Cup, thrown off by a puff of air, through a channel that runs through the Beading machine coupled with a potting machine, to the receiving sleeves of the potting machine reach. For this purpose ι sheet of drawings