CS205644B1 - Extension system of the multiposition drawing machines for drawing the long thin-walled hollow cups - Google Patents

Description

BACKGROUND OF THE INVENTION The present invention relates to an extending system of multi-position drawing machines for drawing long thin-walled hollow plates, in particular on horizontal mechanical presses in a plurality of successive drawing operations, from semi-finished products made by re-extruding a wire cut or withdrawn from circular or sheet a plurality of separate ejector systems as a function of extending and further extending the ejector, wherein the movement of the ejectors to the operating position takes place according to the same function depending on the rotation of the crankshaft as the retraction of the ram ram from its bottom dead center.

In the currently available presses for the production of the longitudinal thin-walled hollow plates, horizontal design and meohaniok method of force generation, a similar system of technological operations is employed, using a starting material obtained practically in the same manner as the invention. , is performed according to a different function than the return movement of the press ram from its bottom dead center depending on the rotation of the crankshaft, and such a bend arrangement of the ejectors in groups according to the increasing length of the extracts.

Such an arrangement of ejectors has its adverse consequences, manifested mainly by defects in the insertion of the extract into the collets of the transfer, which ensures the transfer of the extract.

205 044 from the previous to the pulling position and so that due to the undrawn end of the extract (teohnologloká necessary), which my sentence! diameter than the usable part of the extract, there is a defective orlentaol extract in kleitln transfer when it is inserted into the collets and when the pulling rod into the cavity of the extract is bent, the fracture occurs and usually defects this 1 into the predefined drawing position with the destruction of tools machine operator. This drawback is mainly due to the fact that the working movement of the ejectors only takes place after the drawers have already left the extract and this is pushed into the collet transfer only by the ejector without being supported by the drawbar.

This drawback is overcome by the pull-out system of multi-position drawing machines for drawing long thin-walled hollow extracts, in particular on horizontal meohanioclean punches, where pulling of the punches ee takes place in vioe, peel or belt clipping, as required, include a plurality of separate ejector systems formed by, for example, a cam, a single-arm lever and a pulley engaging the cam and ejecting a rod for a plurality of operating positions depending on the instant distance of the invention 2. The method according to claim 1, wherein the course of the rod extending point is formed by equidletant e by moving to the point of the retraction point of the ram, both in the same dependence on the rotation of the crankshaft.

The arrangement according to the invention is similar to that described above, but the relative movement of the ejectors and the ram puller relative to the transfer collets is carried out so that the working movement of the ejector occurs immediately after the return movement of the ram and the drawbar starts. during the reverse speed and punches to their front position. By this arrangement, the extract is guided as it is pulled out of the pulling tool, namely that the extract is still on the pulling device 1 when it is being ejected. When the extended part (unstretched mouth diameter) is inserted into the collets of the transfer, the extract cannot be misfed into these collets, but the punch during its return movement is rigid enough to secure the colloidonol of the axis of the extract and the collet geometry. opened just by the unstretched part of the extract Anyhow, 1 asymmetrically. By dividing the drive of the ejectors into several eamoatmatic ee systems, we take into account the practical accuracy of the lengths of the separations by the individual pulling operations. Practically, this arrangement is achieved by providing a drive group consisting of a common shaft on which a plurality of turret circumferential cams is engaged by a single-arm or double-arm lever (depending on the stroke of the ejectors) and a rod carrying! own ejector, the backward movement of the system is spring-loaded. The kinematics of the whole of said system is arranged such that the resulting preaching movement of the ejectors during the course of the ram is identical to that of the ram and starts immediately after the retraction of the ram has begun.

The assembly of individual elements results from the figures, where in Fig. 1 is a longitudinal section of the relative position of the elements at the front dead center of the ram, in Fig. 2 also a section roughly half

205 644 of the ejector movement of the ejector and in FIG. 3 in the forward position of the ejector. Fig. K shows the travel path of the ram and the ejector on the step of rotating the cranks, the press shaft, and Fig. 5 shows the construction of the ejector drive.

The pusher 8 is pulled through the punch 4 through the pulling ring 2 ^{to the} appropriate length, the pusher being in the forward position (ram at the front dead center), displacements 20 necessary for safety reasons are artificially formed between the ends of the pusher ejector. Upon the return movement of the ram and the punch member 8, the displacement 20 is displaced when the ejector ejected by the ejector 1 is moved between the punch face a ^{and the} bottom of the ejector £. The extract 4e is disposed in the collets for transfer, which were opened in the direction of the arrows during the passage of the unstretched portion at the mouth of the extract 4 through the collets 4, but in this case the extract 2 is still guided in the geometric axis of the collets 4 (FIG. 2). Upon completion of the ejection (FIG. 3), in the drawing case, the displacement 20 is still between the punch face a and the bottom of the ejection cavity 6, creating a gap 21 between the expanded ejection £ and the stationary wiper ring 6. so that His axis coincides with the collet axis k.

In FIG. 4, the slide track 22 and thus the punch 4 ^{and the} track 23 of the ejector 1 are depicted in a diagram, depending on the degrees of rotation of the crankshaft. Furthermore, the rear dead center 18 of the ram and punch 2, the front dead center 16 of the ram and the punch JS correspond to the rear dead center 24 and the front dead center 25 of the ejector. The displacement 20 described in FIGS. 1, 2 and 3 is constant along the entire stroke of the ejector 8, so that part 19 of its path 23 is in fact an equidistant of the path 16 of the ram and the punch. The stroke 26 is determined by the length of the separator 5 relative to the ram stroke 27 and is selected such that the displacement 20 reaches a certain practically verified value. Therefore, for multi-position drawing presses, several systems of driving the extruder 1 are provided depending on the length of the separator 6.

5. The stroke 26 of the point 11 is determined by the ratio of the dimensions 13, 14, 15, determining the relative position of the lever 10, the cam 9 and the rod 12. The cam side 8 is relative to the with the dimensions 13, 14, 16 and stroke 26 of the point 11 formed so that the course of the track portion 19 of the point 11 is equidistant to the portion 16 of the slide return track 22.

Claims (1)

SUBJECT OF THE INVENTION Eject system of multi-position drawing machines for drawing long thin-walled hollow extracts, especially on horizontal mechanical presses, where the drawing of extracts takes place in multiple, immediately successive drawing operations from semi-finished products made by back extrusion of wire cuts or withdrawal from round cuts or a waist, including, if desired, several separate ejector systems, formed, for example, by a cam, a single-arm cam with a cam-engaging pulley and an extension rod, for a particular set of operating positions depending on the instantaneous length of the elevator; 1) of the retracting bar (12) is formed 205 644 equidistant with a displacement (20) to the part (16) of the travel (22) of the punch (3) as the ram ram is retracted, both in the same response to the crankshaft rotation.