DE589897C - Paper cutting machine with automatic spring compression - Google Patents

Description

Paper cutting machine, with automatic spring compression There are devices for pressing the stack of material in cutting machines for paper, cardboard and the like. has become known, which is usually carried out using an elastic member (usually if a spring is used) provide the necessary pressure.

Depending on the height of the stack of materials to be processed, the elastic member tensioned differently and thus the pressing pressure changed.

To protect the material to be processed from unnecessarily high pressure, Friction and locking gears have been developed that unite in a special way enable constant pressure for very different stack heights. It is also by interposing articulated chains between the press beam and its drive A balance of the various spring tensions has been sought, but all these institutions are multi-parted and thus involved and with those occurring working at high pressures neither permanently nor safely.

In contrast, the subject matter of the invention relates to the special design the press-fit device with elastic member in such a way that the by different high stacks of material caused various tensioning of the elastic member a two-armed lever is completely or almost completely balanced. This lever provides a simple means of achieving the balance and it is possible to convert existing levers on such machines for this purpose.

A special feature of the invention is the type of assignment the elastic member and the output on the press beam to the two-armed lever. In this the spring generates a torque, and the force derived from it remains approximately constant in that the effective lever arm length is opposite to the stress magnitude of the elastic member changes. In the example of the invention, a compression spring acts a handlebar that has a different distance due to the position of its pendulum area the direction of application of force from the pivot point results in high tension on short Lever arm and low tension on long lever arm. The torque remains in both Cases roughly the same and can be more effective from a lever arm with itself remaining the same Arm length can be transferred to the press beam.

A corresponding confusion between the changing and the constant effective lever arm is of course within the scope of the invention, as is a simultaneous one Change of the two effective I-lebelarme for the purpose of a downforce on the Press bar with approximately constant force. The application also falls in different ways species of the elastic member such. B. spring, compressed air, etc., under the subject invention.

The subject of the invention is shown in the drawing, namely the figure shows a device in which the springs are pressed in by the Drive are tightened.

The method of operation of the device is as follows: A crank drive 2, mounted in the machine frame i, revolving in the direction of the arrow 3, offset by the pull rod q. the angle lever 5 and via tie rod 6 the angle lever 7 in pendulum motion. With the hinge points and g of the levers 5 and 7, the spring supports io and ii are articulated. The springs i2, 13 transmit their tension via the tie rods 1q., 15 to the multiple links 16, 17 in the link points 18, i9, which in turn directly actuate the press beam 22 at the link points 2o, 2i. 23 is a material stack in full height, while the press beam at 22 'rests only on a very low material height. It is guided laterally at 2.4 in the machine frame, and the material 23 rests on the fixed table 25.

The special mode of action of the tension compensation of the springs occurs in the following way: The spring 12 is less tensioned than spring 13 in the two borderline cases shown, and it acts on the press beam 2a at a very low stack height, while at 23 the highest stack of material is processed. The link points 18 and 2o are relative to one another without changing the spring force, while the points i9 and 21 together with the bearing 26 form two different-armed levers with the effective lever arm components a and b. A double tension of the spring 13 (by high stack) compared to the spring 12 requires 'reducing the force to half in order to obtain the same pressures in both positions of the pressure beams 22 and 22'. The corresponding position of the link points i9 and 2I results in a - 1J2 b, whereby the equality of the press-in pressures is guaranteed for the two borderline cases of the stack heights. The ratio b: a changes as the stack height changes, namely the effective lever arm ca becomes larger and closer to length b, while it roughly maintains its length until finally the other end position, as shown by link 16, is reached . The spring tension decreases, and approximately the same press-in pressure is present during the change in the stack height.

A tangent position of the link points which is favorable for the most lossless transmission is not selected for the compensating element, but an area of the link points whose rays always form an acute angle e, e ' with the direction of force application.

Due to the particularly short connecting rod d, the difference is the Circular curvatures between the crank and the connecting rod radius are not great, which is why a Movement of the multiple link 5 only by the amount of the hatched amount the connecting rod 4. takes place and the springs only by a small 'amount during of the cut. This union with the compensating link becomes an even pressure not only for different stack heights, but also during of the cut achieved.

Claims (1)

PATENTANSPRÜCFI paper cutting machine with automatic spring compression, a compensating device for bringing about an approximately constant pressing pressure and angle levers, on whose arms on the one hand the force exerted by the spring and on the other hand, attack the reaction force exerted by the press beam, characterized in that that those arms of the angle lever on which the reaction force acts, approximately perpendicular to the direction of this force, while the other arms of the Angle lever on which the spring force acts, so obliquely to the direction of the Spring force are that the torque generating effective lever arm component in a manner known per se to bring about an approximately constant torque becomes smaller with increasing spring force.