DE487977C - Automatic glass blowing machine - Google Patents

Description

Automatic glass blowing machine The invention is directed to a automatic machine for the production of glass objects in which a number moved by molds or sensors on a circular path and by a feeder measured glass gobs are supplied. So far the arrangement has been such that the circular movement of the mold carrier took place intermittently, so that each shape below of the eater stopped, who assigned her a glass post every time she passed. From it it follows that every form had to be stopped as often in its orbit as that Table has shapes. Mainly during these successive shutdowns did the movements for shaping the glass go on, e.g. B. opening and closing of the forms, the transfer of the parison, the blowing, the expulsion, etc. About these movements to carry out during the downtime of the mold carrier, one was almost forced to To use compressed air to help, as the purely kinematic means Poorly arranged movements in the intermittent movement of the table. To that It has already been suggested to avoid stopping and starting the machine, to let the mold carrier rotate continuously around a solid column with curved paths is equipped so that the required movements according to certain precisely determined kinematic laws going on. However, there were difficulties in filling of the shapes from the memory. One has this difficulty by certain means tried to overcome z. B. by delaying the table at the moment when the Pass the molds under the feeder, or by placing a funnel over the molds who had the task of guiding the glass into the mold, etc. These aids however, do not fully overcome the difficulties inherent in that there is a perfect synchronism between the action of the feeder and the Must bring about the passage of forms under him. A very slight advance or The molds lagging behind can lead to certain manufacturing errors will.

The invention eliminates this difficulty and ensures at all times an accurate recording of the glass, through a device that works simultaneously a uniform speed of rotation of the mold carrier and an instant the standstill of each form under the feeder is possible. This moment the standstill is enough to get a glass gob under favorable conditions to drop inside the form. The invention is characterized by that the mold carrier experiences uninterrupted movement, and with a carriage or the like, which periodically performs a reciprocating motion. This must exactly or approximated to an arc of the path overlap that of the midpoints of the forms is described. The movement itself must be the same Speed, but opposite to that of the shape that is being used for the purpose of filling located under the feeder opening. This ensures that the shape under the The feeder opening is almost stationary for the duration of the opposite movement.

The continuous movement of the mold carrier is preferably one circular. The intermittent movement of the carriage can therefore with a practically sufficient accuracy a straight line. Such a facility will be described below, for example. The facility includes Mainly three parts, namely a base frame, a carriage that can move in a straight line on the base frame, and finally one on the trolley standing mold carrier, which performs an uninterrupted rotating movement.

There are: Fig. 1 vertical longitudinal section through the device, according to the line AB in Fig. 2; Fig.2 Top view of the lower part of the facility; Fig. 3 vertical cross-section according to the line CD of Fig. 2; Fig.q. View and vertical section along the line GH in Fig. i; Fig. 5 Top view, with a mold just below the feeder opening, at the beginning of the glass pick-up; Fig.6 Top view according to the previous illustration, at the end of the glass holder. The machine comprises a base frame i which rests on wheels; and which carries the main drive means, an electric motor 2; of its movement by a belt q. transfers to a shaft 3. This shaft carries a worm5 and a pinion6 with straight flanks. The worm 5 meshes with the worm wheel 7 and the pinion 6 meshes with the gear wheel 8. The worm wheel 7 rotates about a pin g 'and carries a cam track g. A carriage = o, which rests on the rollers = i held by the base frame i, can only perform a linear movement on the base frame. The underside of this carriage = o carries two rollers 12, which are in the axis of the. Carriage displacement are arranged, namely at such a distance from each other that they are both in rolling contact with the curved path g of the helical gear 7 at any time. For this purpose, the diameter of the cam track g must be the same at all points, so that the two rollers 12 are constantly in contact with the cam track: The gear wheel 8, which engages in the straight-flanked pinion 6 of the shaft 3, is carried by a shaft 13, which is attached to the carriage = o. This shaft 13 gives the drum 14 a rotation through the worm 15 and the worm wheel 16. The drum = q. sits on a column 2o, which is attached to the carriage = o. The drum carries a certain number of shapes 17. The three parts which were explained above as essential for the construction of the machine can be seen, namely the base frame = which rests on the floor, the carriage = o, which rests in a straight line on the Can move the base frame and the mold carrier = q., Which is carried by the carriage = o and can perform an uninterrupted rotational movement.

Before describing how the machine works, let us assume that this works together with a feeder indicated by the dash-dotted line 18, Fig. 5 and 6 is indicated, in such a way that the center of the Forms 17 described circular arc goes through the center point = g of the feeder opening. It is also assumed that the carriage = o the position indicated in Fig. 5 take, d. H. that the machine is considered at the moment when a form 17 has just arrived under the feeder opening. It goes without saying that a certain constant Relationship between the speed of the worm wheel 7 and consequently the Curvature path g and on the other hand the speed of the table = L4.- exists. This Speed ratio becomes equal to the ratio of the number of shapes to the unit chosen, so in the present example as 6: i. As a result, the worm wheel does or the cam path g six revolutions, while the table = q. me one executes. There is also a certain coordination between the worm wheel 7 and the Mold carrier i4., In such a way that in the position in Fig. 5 the curve g is straight its effect on a role z2 begins.

At that moment, Fig. 5, begins when the whole is uniform and is continuously moved by the electric motor 2, rectilinear movement of the carriage = o and thus i also of the table = q .. The meaning of this movement corresponds the arrow f. The slope of the curvature path g is designed so that the weighing = o given speed exactly equal to the circumferential speed of the mean i point of the forms 17 is. These rotate in the direction of arrow f '. There the car themselves in the opposite sense; Arrow f, moves at the same speed, the resulting displacement of the shape 17, which is at the center = g, to zero or approximately to zero. This accuracy is equal to that with which one can trace the arc of the movement of the forms near the center point = g of a straight line segment; corresponding to the linear displacement of the carriage = o can equate. As a result of this = relative standstill of Form under the riser, the inclusion of the glass goes on exactly.

The straight movement of the carriage io continues. up to the position of Fig. 6, with the shape. 17 is always the focus. Thereon the roller 12 meets a circular section of the curvature path, so that the linear movement comes to a standstill. At that moment begins again the rotation of the form in relation to the feeder, since this rotation in relation to the middle pillar 2o has not stopped. During the whole straight line shift of the carriage io, the gear 8 remains, although it is shifted laterally over the pinion 6 has, however, always in engagement with this, and as a result it is uninterrupted Rotational movement has not been inhibited. After the curvature path g comes to a standstill has caused a shape opposite the center point, the symmetrical one leads to it Section of the curvature path g the carriage io back to its starting point. As soon the following shape 17 arrives at the center ig, Fig. 5, causes a new rectilinear one Displacement of the carriage according to the arrow f a relative standstill of this form. The duration of this standstill is sufficient to allow the mold to accept a new batch of glass from the feeder to allow.

As is known, a number of cams can be placed on the column 2o be attached to all desirable movements by rollers, levers, thrust gears bring about, through which the transformation of the glass collected by the molds 17 he follows. It is also understood that these movements, at which point of the To the extent they may go on, not through a standstill or through a untimely speed reduction of the mold carrier table are disturbed. Remarkable is that for the good effectiveness of the device is only required that the uninterrupted rotation of the table is a uniform one. The speed fluctuations which could be caused by possible changes in the supply of the motor, in fact affect to the same extent the drive of the car io, with the ratio the speeds remains unchanged.

The invention can be carried out in various variations, all of which fall within the scope of the invention insofar as the effect is on the composition a driving movement of the table or the corresponding part that makes up the molds carries, with a special relative movement of this table is based.

Claims (5)

PATENT CLAIMS: i. Automatic glass blowing machine with upright molds attached to a mold carrier continuously revolving around a fixed central axis, which are filled with measured glass gobs by passing them under the outlet opening of a feeder, characterized by a carriage or the like that receives the revolving mold carrier and which periodically moves to and fro Movement experiences whose path exactly or approximately superimposes a part of the circular path described by the center of the revolving forms and which takes place at the same speed but opposite to the movement of that form which just comes under the feeder opening, so that the form under the feeder opening during the duration of the opposite movement is almost stationary. 2nd machine according to claim i, characterized in that the reciprocating displacement of the car is going on in a straight line. 3. Machine according to claims i and 2, characterized characterized in that the straight back and forth displacement of the mold carrier by uninterrupted rotation of a single, everywhere having the same diameter Curved path is caused, which are arranged alternately against two diametrically Acts roles that are carried by the carriage supporting the mold carrier. 4th Machine according to Claims 1 to 3, characterized in that the devices for generating the reciprocating intermittent movement of the weighing and the uninterrupted Movement of the mold carrier receive their movement from a single drive shaft. 5. Machine according to claims i to 4, characterized in that the connection between the rotary movement of the cam track (g) and the rotary movement of the mold carrier (14) by straight-flanked, mutually displaceable, permanently in mutual engagement permanent gears takes place.