DE2125172C3 - Press such as extrusion press, drawing press or the like driven by a crank drive - Google Patents

Description

The invention relates to one driven by a crank mechanism Press such as extrusion press, drawing press or the like, Jessen crank on a dome tool slide related crosshead is articulated, with a handlebar guide, both sides of which Lifting axis lying link of the same length and each at one end on the press frame as well as on her ! wide end are articulated to a component connected to the tool slide, which is centered around a ! wipe the two pivot points on the handlebars Axis is pivotable.

Such a press is used, for example, for production of aluminum cans made from prefabricated cup-shaped blanks. Thereby two »Reciprocating tools arranged parallel to one another like one arranged on the tool slide Plunger or stamp and a sleeve that can be guided on this can be provided, in which case during This manufacturing process brought the blank into a position in front of the plunger, starting from the sleeve Hit drawing and smoothing tools provided housing ■ n pressed and then pressed through this housing by the plunger.

In such a press, the crank length must be large in relation to the crank length so that sufficient time is available for the blanks to be fed in sufficiently quickly. Due to such a large crank ratio, however, the connecting rod assumes extremely large angular positions with respect to the lifting axis and thus with respect to the tool, which is designed as a ram, for example. These large angles in turn cause extremely high lateral forces at right angles to the stroke direction, so that, despite appropriate guidance of the cross head, a straight movement of the tool, as is necessary for precise manufacture, cannot be achieved.
One has therefore switched to providing aids in such presses, which are supposed to absorb the inevitably occurring high side forces in order to force the desired linear stroke movement of the tool in this way.
ίο A press has become known from GB-PS 1 162 812 in which a handlebar support is used as an aid, as is generally found in the book "Kinematic and Gear Teaching" by K η, p. 110, fig. 950 to 954, is known. The connecting rod of the known press is articulated as usual on the one hand to the crank and on the other hand to the cross head, which is connected to the tool designed there as a push-button Are articulated at the end of the press frame and at its second end to one end of a component designed as an intermediate lever, which in turn is attached to the ram so that it can be pivoted about a pivot axis.

The pivot axis of the links, which are each of the same length, lies centrally between the two articulation points of the respective pair of handlebars.

If the well-known press is designed with a large crank ratio. so it inevitably becomes substantial Lateral forces come, it comes because of the distance between the point of introduction of the driving force on the tool slide on the cross head and the point or points of the support due to the handlebars to deformations, soft the desired linear movement of the tool can not be achieved with the desired accuracy. The use of a steering wheel guide is earlier has also been proposed for other machine tools for metalworking. So is one such a handlebar guide from US-PS 461 917 for a hammer has become known.

The invention is based on the object of improving the known presses of the type described at the outset in such a way that, even with extremely large crank ratios and correspondingly high side forces, a sufficiently precise linear stroke movement of the tool can be achieved by relieving the tool slide from these side forces, whereby there should also be no other constraints on the tool that can also cause manufacturing inaccuracy and, moreover, correspondingly high wear.
As a solution to this problem it is provided according to the present invention that the links are hinged at their second end to a component of the cross head which is articulated to the tool slide provided with a complete lateral guide in the press frame.

In the press according to the invention, the difficulties encountered in the known presses are avoided therefore obviously avoided, since the handlebar support does not only take place at a distance from the crosshead on which the drive force is introduced into the press slide, but directly at the cross head, which means a relief of the tool slide or its separate guidance from that by the connecting rod exerted side pressure results.

In a preferred embodiment of the invention it is provided that a connecting rod is provided between the cross head and the tool slide, at the end facing the tool slide a joint is arranged and the other end the in the connecting rod encompasses the circumferential surface of the disk-shaped component of the cross head, in the middle of which is the pivot axis running at right angles to the stroke axis and in which the to the pivot axis parallel articulation axes of the links are arranged

The invention and the preferred embodiment according to the dependent claim are below on one Embodiment further explained with reference to a drawing. It shows

F i g. 1 is a side view of a crank drive press for use in manufacturing of cans in the retracted position of the tool,

F i g. 2 shows a plan view of the press according to FIG. 1, partly in section,

F i g. 3 is a partially sectioned elevation of the lower end of the press in an enlarged illustration;

F i g. 4 shows a representation according to FIG. 1 omitting individual parts in which the tool in opposite F i g. 1 advanced position is shown.

F i g. 5 a fig. 4 corresponding representation in which the tool is in its foremost position is shown

F i g. 6 a fig. 5 corresponding view in which the tool compared to the position in FIG. 5 is withdrawn

F i g. 7 shows an enlarged illustration of the crosshead area in side view and FIG

F i g. 8 shows a section along the section line VIII-VIII in FIG. 7th

The drawing shows a press, on the frame 10 of which a drive motor 11 is attached. The drive motor 11 drives a pulley via a drive belt 13 12, which is firmly connected to a crankshaft 15.

The crankshaft 15 provided with crank webs 16 is on opposite sides of the press frame 10 stored in bearings 15 '. The crank webs 16 are connected by a crank pin 17, the extends through the bearing 18 of a connecting rod 19. The other end of the connecting rod 19 ends in a fork, the arms of which engage the circumferential surfaces of disk-shaped cross-head parts 21 and 22. The cross head parts 21, 22 are components of a linearly moving designated 20 Arrangement that is shown in detail in FIGS. 7 and 8 is shown. The pivot point and thus the center of this arrangement 20 is denoted by 24.

The components 21, 22 of the cross head are at their periphery with the end of one between the fork arms of the connecting rod 19 arranged connecting rod 23 in engagement (see Fig. 8). At the other end is that Connecting rod 23 articulated by means of a bolt 25 on a carriage designed as a carriage Tool slide 26 attached, on which a plunger 27 is arranged as a tool.

Details of the guide (30 to 36) of the tool slide 26 can be seen from the drawing.

The assembly 20 also includes upper and lower lever-shaped Handlebars 55 and 56, which absorb side pressures occurring. The handlebars are 55,56, respectively formed forked at their inner end, so that they accommodate the cross head parts 21 and 22 between them Can. The upper link 55 is at 37 and the lower link 56 is at 58 on the crosshead parts 21, 22 stored. The upper end of the upper link 55 is on a pivot 59 and the lower end of the lower Link 56 is mounted on a pivot 60 (see FIGS. 1 and 3), the pivot 59, 60 each in the press frame 10 are arranged.

As already stated above, the press shown is intended for the production of cans. In In this case, the press, which no longer relates to the actual invention according to the claims, can continue be designed, so with a second part 40 that is moved independently of the plunger 27.

Compare the drive and return parts 41 to 50 and 66 to 73.65 is the tool housing.

The mode of operation of the press shown and described is as follows:

In order to move the plunger 27 axially in the direction of the tool housing 65, the crank webs move 16 and the crank pin 17 connecting them circularly around the axis of the crankshaft 15. They move thus the connecting rod 19, the arrangement 2C (cross head), the connecting rod 23, the tool slide 26 and the plunger 27 from the in F i g. 1 into the retracted position shown in FIG. 4 shown partially advanced position. This is followed by a forward shift to that shown in FIG. 3 shown Position. After the ram 27 has moved through the tool housing 65 (see FIG. 5) a further movement of the plunger 27 in FIG. 6 ge showed position and then again in the in Fig. i position shown back.

During the described movement of the crank rod 19 are very large despite the changing Bends which the connecting rod 19 relative to the plunger 27 arranged on the carriage 26 has, the side pressures occurring through the from the cross head parts 21 and 22 and the handlebars 55 and 5f existing three-part cross-head structure and kept away from the tool slide. Durcr the arrangement of the links 55, 56 whose pivot pins are parallel to one another and are diametrically opposed to one another, at the same distance from the fulcrum 24 of the arrangement 20 arranged points by the cross head parts 21,22 through, as well as through the articulated articulation of the tool slide 26 on the Crosshead 21, 22 this relief of side forces is achieved, i. H. the desired through your own guidance The rectilinear movement of the tool slide 26 and the ram 27 that has arisen remains undisturbed.

In addition 6 sheets of drawings

Claims (2)

Patent claims: 1. Press such as extrusion press, drawing press or the like driven by a crank mechanism, its connecting rod is articulated on a cross-head connected to the tool slide, with a Handlebar guide, whose handlebars on both sides of the lifting axis are of the same length and each on theirs one end on the press frame and at its second end on one connected to the tool slide Component are hinged around a centrally located between the two articulation points of the handlebars Axis is pivotable, characterized in that the links (55, 56) with their second end are hinged to a component (21, 22) of the cross head, which with the «with a complete lateral guide (30 to 36) in the press frame (10) provided tool slide (26) connected is. 2. Press according to claim 1, characterized in that between the cross head (21, 22) and the Tool slide (26) a connecting rod (23) is provided on which the tool slide (26) end facing a joint is arranged and the other end in the connecting rod (19) encompasses the mounted peripheral surface of the disc-shaped component (21, 22) of the cross head, in the middle of which the pivot axis (24) running at right angles to the lifting axis lies and in which one the articulation axes of the links (55, 56) parallel to the pivot axis (24) are arranged.