DE903534C - Toggle press - Google Patents

Description

The invention relates to a toggle press, especially a toggle embossing press.

Known toggle presses are known, the feed device with constant Angular speed of the crank drive wheel driven by cranks and therefore are accelerated sinusoidally in a first approximation, so that acceleration or deceleration at every point of the stroke when entering the same amount with the opposite sign exhibit as with the decline.

The invention consists in that a gear with non-circular, preferably elliptical gears is switched into the drive of the feed device. This has the advantage that a faster and a slower movement phase occur within a period, so that z. B. the feed lasts shorter than the return, if z. If, for example, the faster phase is used for feeding strip material, more time is available for the punch stroke within the same duration of an entire period than before, so that the punch can be inserted correspondingly deeper into the die than in the known embodiments. In order to achieve the same penetration depth, the new press can be made smaller than a press without elliptical wheels.

In the example above, the acceleration curves give way and related parts to the extent that they differ from the approximate sinusoidal shape as they have further Have valleys and narrower peaks while maintaining the duration of the period. But it can also easily be achieved that the usual sinusoidal shape of the acceleration is changed in the opposite way, namely so that the elevations of the curve widens, but the valleys are getting narrower. In this case, the feed can be set to the slower, Relocate the rewind to the faster phase, as it can sometimes be an advantage can.

In the drawing is an embodiment of an elliptical gear pair shown.

Fig. I shows schematically two elliptical wheels for a feed device; Fig. 2 is a path-time diagram.

Two wheels C and D have the same elliptical circumference and are each supported at A and B in a focal point of their circumferential ellipses. The circles E and F with the radiuses of the major semiaxes of the ellipses are drawn in thinly for comparison. With the aid of the sectors i to 1: 2 drawn in at wheel C and the circle G described in uni A , it can be seen that this wheel has a constant angular velocity in the direction of the arrow N. The numbers i to i: ä mean constant angles or the time for wheel C, e.g. B. seconds after which the designated point has moved from a zero point to the point of contact Z. The arc of both wheels, which rolls off every second, changes. When comparing the circle H around B with the circle G one can see that the angular speed of the wheel D and thus that of the attachment point P of the push rod R on wheel D is not constant. In Fig. I, the stroke paths of the feed device are drawn, which belong to one revolution of the wheel D in the direction of the arrow M on the left. During one revolution, any point P on the circle K, starting from 12, revolves once in the direction of the arrow M; at the same time point Q (in Fig. i, left), at which the push rod is attached to the reciprocating part not shown for the sake of clarity, moves from 1: 2 (in Fig. i, left) to the right in the direction of the arrow U to the reversal point V, from here in the direction of the arrow W to the second reversal point X and back again to 12. The entire stroke is labeled L. At the time marks i to 12 you can see that the forward and reverse take different lengths. In the known machines, the travel time curve of a reciprocating part can be represented by curve S , the time being plotted on the abscissa and the stroke on the ordinate; with elliptical wheels, on the other hand, one obtains curve T.

If the axes of rotation of the two wheels are not in the focal points, but lie somewhere on the semi-axes of the ellipses, very different path-time curves of the reciprocating part can be obtained; z. B. it is achieved that the curve T deviates from curve S even more than drawn in FIG. 2, if the axes of rotation instead of A and B in FIG. I are both assumed below. It may be necessary to use special means to ensure that the wheels remain in mesh.

Claims (1)

PATENT CLAIM: Toggle lever press, especially toggle lever embossing press, characterized in that a gear with non-circular gears, preferably elliptical gears, is switched on in the drive of the feed device. Cited pamphlets: French Patent Nos. 6--6 513,769213, 971407.