DE318928C - Machine for grinding glass bottles - Google Patents

Description

Machine for grinding glass bottles. The invention relates to a machine for grinding glass bottles and the like, in particular for grinding bottle heads to the same diameter, so that each of the associated glass caps fits on all bottles and the bottle head and cap do not have to be specially cut for each other]). In the new machine, the bottle is inserted into a chuck through a rotating feed drum, and a grinding wheel grinds the head of the bottle, which is rotating around its axis, back and forth, preferably in a conical shape. The working edge of the grinding wheel is under the action of a diamond to always fit exactly, and an automatic control device with micrometer operation advances the grinding wheel according to its wear. All work processes of the machine take place automatically by means of eccentric movement members, so that the worker only needs to put the bottles to be ground into a feed channel. After the grinding has been completed, the lining releases the bottle, and the feed drum rotates so far that the next bottle is brought forward and comes into the working position, while the fully ground bottle falls into a container. At the same time, a new bottle falls from the channel into one of the cells of the drum in order to come into the working position the next time the drum rotates. In the drawing, the new machine is illustrated in an exemplary embodiment; namely, Fig. 1 is a side view, Fig. 2 is a plan view of the machine; Fig. 3 is an end view of the feed drum. The feed drum A has three cells Ax at the same angular distance from each other and of such a shape that when passing the end of a channel or the like in which the u grinding bottles a lie, a bottle can always fall into the empty cell. As the drum A rotates, the bottle a is brought into the grinding position in which the bottle mouth sits on a conical centering pin b and the bottle a is clamped against it at the bottom of the bottle by a chuck c, which was previously withdrawn. A spring c 'behind the lining c is used to compensate for slight differences in length of the bottles. The bottle a lies loosely in the cell Ax, the centering pin b and the chuck c lift it up a little in the cell Ax so that it can rotate freely in the cell Ax when the chuck spindle is driven by the pulley. . The movement of the chuck c is effected by levers d, dl, the rod e and a lever f which is controlled by a lifting disc g1 on the main shaft g, which is mounted in bearings g. The gripping parts b and c are given an uninterrupted rotary motion by means of the pulley h. The pulley lt drives the chuck c directly and the center. Trierzapfen b by a gear i, i '; i =, i3 finite exactly the same. Speed on. The wheels il, i 'sit on a constantly rotating shaft ix.

The grinding wheel 1 is located in a carriage kl and is driven by a pulley 1a3. The grinding wheel works during the grinding work / a on one Juices under the action of a handlebar Ir ', a lifting disc it and a lever o sideways back and forth. The handlebar k2 is finite adjustable a pivot pin k4 in the bearing. k 'connected at the end of the lever o. Therefore, if the Bottle a held in front of chuck c «#ird; so she turns immediately with me, Lind the grinding wheel k is then moved against the bottle a, for example by means of an eccentric g = and a fork lever in 'which acts on the saddle km; and grinds the conical surface of all of the bottle head smooth. The reenactment of the Grinding wheel for low wear can be driven by any micrometer works in 'ntit screw thread, the latter also adjusted by a handwheel in' will.

After the grinding process has ended, the lifting disc g1 returns the chuck c so that the bottle a is free. A clutch p, which engages the rotating ring of the feed drum A, is engaged and the drum A is given a third turn. The gradual movement is given to the Trominel A by a gear wheel r ', and. although by transmission from the clutch p, whose fixed or clockwise part receives drive from a gear r, r1. The drive wheel r sits firmly on the shaft in. The gear .r2 is set in rotation at the appropriate time by a cam q and a lever q1, which switch the clutch p, and its thumb r4 runs on the face of the bearing i * 'and keeps the clutch p engaged until the wheel r2 completes one turn, whereupon the thumb r 're-enters the recess, its seat, in the end face of the bearing r' and thus disengages the clutch p. The rotation of the gear wheel r 2 results in a third rotation of the wheel y3 and the drum A, whereby a new bottle is brought into the grinding position. The grinding wheel k made of carborundum (FIG. 2) now grinds the outer circumference al of the bottle head smooth. The accuracy of the cut can be ensured in a known manner by a teaching diamond.

The eccentric g2 (Fig. R) next to the lifting disc gl serves to move the grinding disc saddle km relative to the bottle head. Both eccentric organs g1, g = and also the cam q on the same shaft g are driven by a belt pulley v with the intermediation of gears t to t5: The lifting disk n next to the pulley v is used to move the grinding disk k in its axial direction and is fixed to the Wheel t1 connected, but loosely on, shaft g; it runs considerably faster - than wave g. The latter may, for example, make one revolution per minute, while the lifting disc executes ten, which results in ten axial movements of the grinding disc k. In this way, a bottle can be clamped, ground and put down with one revolution of the shaft g.

The drum fA (Fig. 3) takes the bottle a in a cell Ax in position z, brings it to position 2 for grinding and lets it fail in position 3. Is bottle a in position? sanded, it falls out in position 3 Drum A out and a new bottle enters drum A at position i, whereupon the processes are repeated in the same `verse. The drum A sits on two sleeves Al, AZ and is directly connected to your drive wheel r``, of which it is taken along by means of the hub .42.

Claims (3)

PATENT CLAIMS: r. Machine for grinding glass bottles The like, characterized in that the glass object (a) is transferred from a rotatable drum (A), a clamping chuck (b, c), in which it (ä) is centered and held for the grinding process, and is subsequently removed from the drum ( A) is resumed and removed. I 'q. Machine according to claim i, characterized in that the work processes of the chuck (b, c) and the drum (A) are carried out automatically by eccentric machine elements (g1, g2). 3. Machine according to claim z, characterized in that the clamping. of the grinding tool (k) is also conveyed by eccentric auxiliary elements at the appropriate time and the feed drum (A) is provided with cells (A # T) for receiving the object (a) to be ground: q .. Machine according to Claim 3, characterized that the chuck (b, c) holds the object to be ground (a) in a centered position and can be ground while it is in the cell (Ax) of the drum (A). Machine according to claim z, characterized in that the feed drum (A), the clamping chuck (b, c) and the reciprocating grinding tool (k) are provided by eccentric machine elements (g1, g2, n) are put into effect.