DE431213C - Machine for grinding and boring drawing dies, especially diamond drawing dies - Google Patents

Description

Machine for grinding and drilling drawing dies, especially diamond drawing dies. The invention relates to machines for drilling drawing dies, in particular Diamond drawing dies, in which the workpiece holder can be moved back and forth by mechanical Action withdrawn from the rotating drilling needle at short intervals and through Spring action is pressed back into contact with the drilling needle. The return movement of the workpiece holder usually takes place in the previously known machines of this type in that a swing-out lever influenced by an eccentric counteracts a driving pin, bead or the like attached to the workpiece holder and then through the intermediary of the latter, the workpiece holder against the pre-pressing spring pushed back. Since the needle is now subject to constant wear while the machine is running and is therefore subject to shortening, with these machines one was previously forced to in the position of the on the l # titnel pin of the workpiece holder acting lever to change both the necessary stroke of the workpiece holder as well as maintaining the correct contact time between the iNadel and the workpiece or stone remains and the stone does not last too long with each stroke after a certain amount of work or has continued to remain in contact with the needle.

The invention aims to keep the operator from the continued To relieve the monitoring of the correct retraction movement of the workpiece elder. to for this purpose, according to the invention, the retraction of the workpiece holder is novel Way exclusively by frictional or clamping effect, through the mediation of a causes a driver which can be pressed against the workpiece holder and which can be moved back and forth. The latter takes the workpiece holder independently of it when it moves back axial position by friction or clamping effect with it at the end of the retraction movement release for the known feed by spring action and then again yourself to go back to the starting position. With this type of return movement of the workpiece holder also, if an axial displacement of the same results in the clamping acting driver needle wear has occurred when the workpiece holder is withdrawn always achieves the same stroke length, because the clamp gripping the workpiece holder Driver works just as well when it -the workpiece holder with respect to the needle further ahead or further recorded.

Appropriately, this return movement of the workpiece holder takes place on a stationary bolt - pivotable and displaceable lever application, which carries a finger-like pressure element that can be placed on the workpiece holder and the by eccentric. effect for the retraction of the workpiece holder necessary swinging and shifting or raising and lowering change the stroke length according to the degree of fineness of the needle tip, as well as for each Raise the ratio of the time the stone is in contact with the needle to the time it takes to move back To be able to control the necessary time, it is useful to use the pull-back lever acting eccentric as a double eccentric on a common, in the machine frame mounted axis adjustable.

Auf .der drawing is an embodiment of one according to the invention trained machine in Fig. t and 2 in two different positions in elevation shown. Fig. 3 shows a cross section through the machine along line. = 1-B and fig -. a top view of the drive shaft.

Figs. 5 and 6 show those used on a larger scale Eccentric in the cut.

On the machine frame a is in a block b is the drilling needle c spindle carrying superimposed d gei, which is set in rotation by a cord pulley e. Axially to the drilling needle c rests on adjustably mounted rollers f a cylindrical rod g, on the front, left linden tree of which the workpiece or the stone la to be pierced is cemented in the usual way. The rod-shaped workpiece holder g is provided on the top with notches i, in which a bow spring l attached to an adjustable holder k engages. By means of the latter, the workpiece holder, which is withdrawn from the drilling needle at certain short intervals by mechanical action, is always brought up to the needle c again.

The workpiece holder g is now withdrawn by a finger-like pressure element, or a pressure thumb, which can be pressed against the workpiece holder and which is attached to the upper end of a lever n. The lever rr is under the action of a tension spring o, which strives to press it and the pushing device nr against the workpiece holder g. By arranging a locking screw that extends through a slot in the pressure thumb; n2, the height of the pressure thumb can be precisely adjusted and readjusted if its pressure surface has been worn. The vertical lever n. Carrying the pressure thumb is swingable by means of a slot ni on a fixed horizontal frame pin n2 and is guided displaceably in its longitudinal direction in order to be able to move the pressure thumb back and forth in a straight line and to be able to place it on the workpiece holder g at the end of the stroke and lift it off it . The oscillating and sliding movement is communicated to the lever n by two pairs of eccentrics p, p 'and q, cl ", which are attached to a shaft held in constant rotation by means of the cord r -. One eccentric drive consists of an eccentric ring p , which is pushed onto the eccentric pi, which is firmly keyed on the shaft s, so that it can rotate, and can be clamped in any rotational position by means of a screw p2 Rotation of the double eccentric p, p 'of the He- i 1: e1 ra carries out a back and forth oscillation around the bolt 1a2 swingable, one-armed lever itl, which by the action of a spring tt 'is constantly held in firm contact with the two eccentrics (j, c11. Above this lever rtl, which with each revolution of the eccentric disks q, q' l is moved up and down, an adjusting screw ° vl is arranged in a lobe-shaped extension v of the lever Ti. During its upward movement, the lever itl pushes against the adjusting screw -z, 1 acting as a stop and thereby takes the lever n upwards against the action of the spring o, while simultaneously releasing the pressure thumb iii fromi the workpiece holder g. When the lever 0 is lowered, the lever; i goes downwards due to its own weight, supported by the action of the spring o, until the pressure thumb comes to rest on the workpiece holder again and is pressed firmly against it by the strong pulling action of the spring o.

If the 'machine is to be put into use, the shaft s is expediently turned by hand so that the eccentric pairs P, p1, q, q1 and the lever n assume the position shown in Fig. I, i.e. the pressure thumb ix out of contact with the workpiece holder g. Then, by inserting the bow spring I into a notch in the workpiece holder g, the stone h is brought into contact with the drilling needle c and then both the drive for the drilling needle and for the shaft s are engaged. After only a small partial rotation of the shaft s and the eccentric disks q, q1 attached to it, the lever falls and with it the lever n. Together with the pressure thumb ni, as shown in Fig. 2. The latter is pressed firmly against the workpiece holder g by the spring o. After a further small partial rotation of the shaft s, the outer eccentric ring p comes into effect and presses the lower end n3 of the lever ii, counter to the action of the spring t, to the left, as indicated by dotted lines in dep. The upper part of the lever swinging around bolt n2 is fit. thereby executes a right-hand movement, with the pressure diaiii dragging the workpiece holder g along with it by friction in the direction of the arrow. As soon as this movement is carried out, however, the two eccentric disks q, q1 have already rotated again by further rotation of the shaft s to such an extent that the one-armed lever itl is lifted. When it is raised, this presses against the adjusting screw v1 and also lifts the lever fit against the action of the spring o. The pressure thumb m is thereby brought out of contact with the workpiece age, which is then immediately moved towards the grinding needle d by the action of the bow spring 1 until the stone li rests against the needle c again Eccentric ring p '- again in the position of Fig. I. Since the shoulder n3 of the lever n. Is kept in contact with the eccentric ring p by the action of the spring t and is thus pulled to the right again, this partial rotation of the shaft s and of the eccentric ring p the upper end of the lever ri. with your pressure thumb nt removed from the workpiece holder nt a movement to the left and thus, without affecting the workpiece holder, back to the starting position according to Fig. i, whereupon the ` furs s lowering described and lifting and swinging the lever the pressing thumb it is again repeated. in performs always equal a long stroke and takes the Werkstückha lter g, regardless of whether this is due to needle wear, its axial position in relation to the pressure thumb during: lifting,.; of the latter has changed, always finite by the same path length; only the lifting zone is therefore relocated.

Of the two eccentric disks q, tjl acting on the one-armed lever, one, q, is wedged firmly on the shaft s, while the other q1, is arranged to be rotatable by a detachable screw q2. Depending on the mutual position of these eccentric disks q, q1, it can be achieved that the one-armed lever iil rests against the circumferential parts of the eccentric disks il, q1 of different heights for either a longer or a shorter period of time. The duration of the lift-off and the setting of the pressure duration in and thus the duration of the workpiece holder stroke and, in particular, the time during which the stone is in contact with the needle, can thereby be precisely adjusted within wide limits. To make this setting easier, a ring attachment q3 provided on the rotatable eccentric disk q1 has a graduation mark which can be set in relation to a scale provided on the fixed collar s1 of the shaft s (Fig. I).

In a similar way, it also has an eccentric that is firmly keyed on p1 rotatable eccentric ring p, which can be clamped by means of screw p2, has a ring shoulder p3 with graduation, the opposite of a scale provided on the fixed collar s2 is adjustable. The collar s2 can, as shown, with your firmly wedged inner Eccentric form one piece or be attached separately on the shaft s. Depending on the setting of the eccentric ring p to be effected by rotation firmly wedged eccentric p1 can a smaller or larger one Total eccentricity of the double eccentric and swing of the lever fa and thus also achieve a smaller or larger stroke of the workpiece holder g. The workpiece holder stroke can thereby be precisely adapted to any degree of fineness of the needle tip.

If the workpiece holder to be put out of action to allow for example, a regrinding or replacing the needle, then by rotation of a w at a Hubdaumen provided lever x of the one-armed lever u1 in the in Fig. I-dotted lines position raised in which these and so that the raised lever and the pressure thumb can no longer be influenced by the eccentric disks q, q1.

The pressable on the workpiece holder g and this by friction or Clamping effect adjusting: the employee does not necessarily need to be applied from above to put on the workpiece holder ä, it can also just as well move away from the Place it firmly against the workpiece holder from the side or from below. The pressable one However, the driver can also be given a variety of other shapes and movements. For example Instead of the pressable thumb shown, a workpiece holder could also be used Step between gripping movable clamp pliers, the legs of which move backwards closed and automatically when moving forward for the purpose of releasing the workpiece holder be opened. It could also be in the form of a coaster brake in a wedge-shaped manner Pocket of the pivotable lever n incorporated a ball acting as a driver be, which in the one pivoting movement of the lever n by rolling in clamps the narrower part of the wedge-shaped pocket firmly to the workpiece holder while they in the other pivoting movement of the lever n in the further part of the spherical Bag rolls and then the workpiece holder for manipulation by the pre-compression spring releases.

By deriving the movement of the pressable Il_itnehmer in von the adjusting elements (eccentrics), which are attached to a shaft mounted on the machine itself are attached, which is a very special part of the door of the new machine, this an extremely compact design. By eliminating the otherwise outside of the Machine for moving the workpiece holder to be attached gear is simultaneously the monitoring of the machine is also simplified due to the increased clarity of the same.

Claims (3)

PATENT CLAIMS: i. Machine for grinding and drilling in front of drawing dies, especially diamond drawing dies, with a rotating one opposite. Drilling needle moving back and forth workpiece holder, characterized in that a friction or clamping member (m) is provided which brought into contact with the holder, counter to the action of the known pre-compression spring, the return movement of the holder concerned, in order then: to release the holder again for the spring action. 2. Machine according to claim i, characterized by one on a stationary bolt (1a2) swingably and displaceably mounted, spring-influenced lever (s), the one the pressure thumb (in) that can be placed on the workpiece holder and that of the action of constantly rotating eccentrics (p, pl, q, q1), one of which (p, p1) a pivoting of the lever (n) for the purpose of withdrawing the workpiece holder and the other (q, q1) a shifting of the lever (n) for the purpose of pressing and lifting of the pressure thumb (in). 3. Machine according to claim i and 2, characterized in that that the two eccentrics (p, p1 and q, q1) influencing the lever (s) are on one in the machine frame mounted common drive shaft (s) arranged in their the swing stroke of the lever (s) influencing eccentricity (size) by training as nested double eccentrics (p, p1) and in their the axial displacement of the lever (n) regulating eccentricity by rotating two eccentrics arranged next to one another (q, q1) (shape) are adjustable. .. Machine according to claims i to 3, characterized in that between the shoulder (v) with adjusting screw (v1) of the lever (n) and the pair of eccentrics (q, q1) a stop lever (n) is switched on, which can be lifted and locked by a thumb (w) of a shift lever (x) can to prevent the downward movement of the lever (s) and thus the entrainment of the workpiece holder (g). 5. 14 machine according to claims i to -., Characterized in that that the pressure thumb (m) is adjustable in height on the lever (s) attached.