DE861956C - Method and device for drawing in solid and hollow bodies - Google Patents

Description

Method and device for drawing in solid and hollow bodies The invention relates to a method and a device with which solid and hollow bodies pulled in by hammering.

As is known, sleeves, steel bottles, etc. are made by rolling or hammering drawn in in the die.

In the hammering process, the workpiece is pressed into a joint with pressure, the scrap can be quite considerable with thin workpiece wall thicknesses. To remedy this deficiency, and in particular a beneficial effect on to achieve the fiber orientation of the material is suggested according to the invention, Pull out the material while hammering in the stretching direction or in to shrink back in the opposite direction. The counter-blow between joints or rotatable @! # Talzen workpieces hammered in the radial direction are the Invention processed accordingly so that the strokes except the radial simultaneously one that upsets the outer material from the end of the workpiece or towards the end of the workpiece exerting an axially extending force. The hammer joints used for this are attached in tool holders, which, designed as a one-armed lever, by eccentric moves "-erden, which j ° according to their direction of rotation either a hammer or Cause compression hammer movement of the joints. To do this, the rear Part of the one-armed lever (tool holder) in a rotatable bearing axially, below axial spring pressure, guided displaceably. For the purpose of setting of the hammer dies, the guide bearings are attached for the sake of tools so that their distance from one another can be changed. In Fig. I the device for Drawing in and upsetting of solid and hollow bodies in an exemplary embodiment in Section shown; Fig. 2 shows the device in side view and Fig. 3 the adjustment of the hammer ends.

The device consists of a stand i, in which the eccentric shafts 3 and! 3a sit with the gears 26.

The shafts 3 and 3 ″ carry eccentrics q. And 411, which rotate in the, tool holders: 5 and 5a. These tool holders have 6 insertion tools 7 at their front ends, which can be hammer dies or rollers Tool holder has a shaft g, which is guided in the rotatable slide bearings io and ioa. The slide bearings io and ioa have axes ii, which sit in the plug-in bearings 12 and i2a. These plug-in bearings 12 and i2a are fastened in the slot 13 with screws 14.

The adjustability of the bearings io, foa also enables tools 7 different sizes can be built into the Hä_mmerkopf 1,4a, iq.a. Have the tools a small height, the plug-in bearing 12 is up and that Insert bearing 12a adjusted downwards. This setting enables the tools 7 can be approached or removed from one another.

For the alignment of the tools to the center axis left at the ends the dies have a dome-like approach 13, whereby they pivoted in the hammer head can be. It is fixed by means of the wedges 15.

'Since the device is running at high speed, it is to be avoided from loud noise necessary, the tool holder always at an appropriate distance, to keep from storage io, foa. Therefore there is a coil spring on the shaft 9 24 pushed against the shoulder 16, which the tool holder permanently in the axial direction keeps under tension.

The workpiece 23 is clamped in the clamping device 17. This device sits on the bearing block 18, which can be adjusted on a sliding carriage 19 on the Maisch.inenbett 25. The screw 21, which sits in the stationary bracket 22, is used for adjustment. The screw is adjusted in the direction of the moving tools 7, the tools processing the workpiece 23 according to the tool shape. The adjustment of the bearings io takes place according to Fig. 3 in that they slide in the slots 27 of the plate 28 in the manner of a sliding block. The plate 28 is moved by the lever 29, which has a slot 3o in which a pin 31 seated on the plate 28 is guided.

The lever 29 carries a pivotable nut 32 through at the upper end which leads a screw 33 which is rotated by the handwheel 34.

In the extended position the dies are brought closer to each other and in. The dashed position of the plate away from each other or also opened.

According to Fig. I and 2, the machining of the workpieces proceeds as follows that the workpiece axis lies in the drawing or upsetting direction.

The device is driven by the motor 2o.

Claims (3)

PATENT CLAIMS: i. Procedure for drawing in solid and hollow bodies, the end of which in a counter-blow process between dies or rotatable rollers is hammered in the radial direction, characterized in that the blows except the radial one at the same time upsetting the outer material from the workpiece end or to; Apply axial force pulling out towards the end of the workpiece. 2. Apparatus for execution of the method according to claim i, characterized in that the hammer dies (7) are fixed in tool holders (5, 511); designed as a one-armed lever are and are moved by eccentrics (q., q. "), which depending on their direction of rotation cause either a hammer-pulling or an edging-hammering movement of the dies. 3. Device for carrying out the method according to claim 2, characterized in that the rear Part (9) of the one-armed lever (tool holder) in a rotatable bearing (io, ioa) axially, under axial spring pressure, is guided displaceably. q .. device according to claim 2 and 3, characterized in that for the purpose of setting the hammer dies the distance between the guide bearings (io, ioa) of the tool holder can be adjusted. Referenced publications: German patent specification No. 237 185.