DE672965C - Crank press for punching metal blocks - Google Patents

Description

Crank Press for Punching Metal Blocks The invention relates to on a crank press for punching metal blocks, which are in a preceding the punching stroke Press stroke can be pushed into the punching die.

When the metal blocks are pushed in, as is usually the case, through the punch is to be effected itself, it must have a relatively large stroke, allow the punching stroke to follow its insertion stroke in the same direction of movement to be able to. This determines the stroke of the crank and the driving force required to move it considerably enlarged.

It has been suggested that the one required to push the block in Partial movement through an axial movement produced by means of a special drive mechanism To effect longitudinal movement of the punch die, which corresponds to the working stroke of the punch is opposite. Here, the means of movement for the perforated matrix must have a get relatively great resistance, since they have the necessary for punching have to absorb high pressure.

It is also known a press for the production of hollow projectiles, their hydraulic pressing device alternately in the working position by transverse movement Bears the stamp to be brought, one of which is for preprocessing, the other in the only one existing die to be lowered workpiece with the purpose of forming the projectile tip serves, while the second punch forms the punch that has the task of the To give Werkstfick the cavity. The transverse mobility of the two punches closes their rigid connection with the upper parts of the press used for movement direction.

The disadvantages of the known presses for punching metal blocks are avoided if according to the invention in the frame of the press next to the crank mechanism of the Perforating mandrel is a second crank mechanism for moving a special push-in punch is provided. The two crank mechanisms can have a common drive. The perforated die is expediently movable transversely to its axis so that it alternates can be brought in the axial direction of the pusher and the piercer.

The inventive design has the advantage that the punching press is relieved of the push-in stroke, so work in quick succession can. In addition, the operation of the press is simplified because the chaining of the work processes in the same press me the control same Drive required. The rigid connection of both working rams with the guide bodies the crank mechanisms that move them give these tools a large and unyielding Resistance to side bending forces acting on the tool tip.

By relocating the stroke axis of the push-in ram at an angle to that of the Piercing mandrel and by pivoting the punching die around one at the intersection of the two axes a transverse axis perpendicular to the plane passing through both axes becomes a special one good introduction possibility for the raw block created and by using the Push-in press as a push-out press a particularly easy removal of the pressed piece from the Press pot reached.

In modern presses, the inclined punch arrangement and the movable die has already been proposed, but it is not about piercing.

Some exemplary embodiments of the invention are shown in the drawing, namely Fig. z shows a longitudinal section through the press, Fig.2 to 4. a second Embodiment in different working positions, Fig. 5 a further embodiment.

In Fig. I, the press stand is denoted by i. 2 is the crank mechanism the pusher, 3 the connecting rod, 4. the movable crosshead and 5 the pusher. 6 is the crank drive of the piercing press, 7 is its movable crosshead, 8 is the piercing mandrel and g the punch die, which can be moved in the direction of the arrow io. The postponement can be used either hydraulically or mechanically, both through a separate control as well as by one depending on the press movements standing shoot.

In the position shown, the raw block is inserted and through The insertion of the push-in press is pushed into the perforated die g by means of the mandrel 5 been. After the push-in press has started up again, the punching die is made pushed in the direction of the arrow io into the position shown in dashed lines, and through When the punch press is engaged, punching takes place by means of punch B. After starting up the punch press returns the punch to the drawn position brought and ejected the hollow body, whereupon the same operation with a new block starts all over again.

In the embodiment according to FIGS. 2 to 4, the push-in press is arranged in relation to the punch press in such a way that the direction of movement of the former is inclined to that of the latter. ii is the common press stand, 12 the crank drive of the push-in press, 13 its movable crosshead and 1q. the piercer. The crank drive of the punch press is denoted by 15, its movable crosshead by 16 and the piercing mandrel with 17. The punch die 18 is pivotable about the axis of rotation ig. 2o is an ejector for the perforated metal block, which is provided with a return spring 2i. 22 is the feed roller table for the raw blocks 24 and 23 is the discharge roller table.

In the position according to Fig. 2, the raw block 24 rolls over the feed roller table 22 in the perforated die 18 and is thereupon by the push-in mandrel 1q. bumped into it. After the push-in press has moved back, the perforation die 18 is in the position according to Fig. 3 swiveled and in this position the block is perforated. After the perforation has been completed and after the piercing mandrel has moved back, the piercing die is in the position according to Fig.q. swiveled and ejected the ingot by engaging the push-in press, which runs over the roller table 23. The spring 21 leads after the fall of the mandrel 1q. the ejector 2o back to its starting position. In the position shown in Fig. Q. the tools are expediently cooled and cleaned of scale. Then the Hole die 18 swiveled back into the position according to Fig. 2, whereupon the next The pressing process begins.

The push-in press and punch press can have a common motor or be driven by a separate motor or drive. Further can, for example, as shown in Fig. 5, several hole matrices in a row to be ordered. The locking of the punch die in any position can be done by the main drive be derived. The push press can also be designed as an upsetting press, without changing anything in the invention.

Claims (3)

PATENT CLAIMS: r. Crank press for punching in the punch die metal blocks pushed into a press stroke preceding the hole stroke, thereby. characterized in that in the frame (i) of the press next to the crank mechanism (6) of the piercing mandrel (8) a second crank mechanism (2) for moving a special push-in ram (5) is provided, and that the perforated die or several perforated dies (g) are movable in this way are arranged so that they alternate in the axial direction of the ram - (5) and the piercer (g) can be brought. 2. crank press according to claim i, characterized in that the two Crank drives (2, 6) one have a common drive. 3. Press according to claim i, characterized -characterized, that the stroke axis of the push-in ram (1q.) is directed obliquely to that of the piercer (i;) and the press pot (i8) about one at the intersection of both axes to that of both axes going plane vertical transverse axis (i9) is pivotable.