DE118330C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

With the paper cutting machines used up to now, the necessary power from the crank or drive shaft with the aid of multiple gear ratios, with smaller machines by means of a relatively large hand lever on the Transfer knife; depending on the size or Cutting length required by the machine in question a rise and fall of the knife 20 to 40 flywheel revolutions. The knife stroke, respectively. the cutting height will be the Because of the handiness mostly only half used, so that on the actual paper cut no more than .5 to 10, on the empty space and the return of the knife though 15 to 30 flywheel revolutions are not required. Because of this unfavorable distribution of work especially in manual operation, it consumes an unnecessarily large amount of time and at the moment of cutting, in which one needs the greatest strength, this is because of the previous one unnecessary flywheel revolutions are no longer sufficiently available. Hence it comes very much it often occurs, especially when cutting hard, tough papers, cardboard or the like. the knife gets stuck and only with very extraordinary effort through the Paper pulp can be driven through.

The present invention remedies these disadvantages by providing a very important translation through a peculiar use of leverage creates and causes by a second lever arrangement that the whole available Kraft only benefits the actual paper cut, at the expense of the blank and Decline. In order to limit the latter to a minimum of length of time the machine knife by a step or hand lever arrangement, which on the pulling crank acts, instantly pressed down to the paper stock, so that with the. first Flywheel rotation also starts cutting. As soon as the cut is finished, d. i. when the crank handle has made half a turn and the knife is in its lowest position is due to the peculiar design of the rear derailleur an automatic release of the same. The cutter bar returns under the action of a The counterweight accelerates back to its starting position, causing χ an accumulation of force is completely saved during the second half of the crank rotation.

In the drawing show: Fig. 1 the. Machine in the middle section, ..wherein the knife guide of the switching mechanism and the counterweight arrangement is shown, FIG. 2 shows a section along the line AB of FIG. 1, showing the drive shaft free without switching mechanism; Fig. 3 shows the cross section; Figures 4, 5 and 6 show individual parts illustrating the operation of the machine's switching mechanism.

The drive shaft a, stored in the frame frames bb , is a multiple crank axis,

here fourfold, trained; the four crank pins c are, as FIG. 6 illustrates in more detail, offset from one another by go °.

On each crank pin hangs a hook-shaped pull rod d at the top, which is provided with a nose at the bottom which engages freely falling into the teeth of an associated ratchet wheel e. The switching wheels (Fig. 4) are firmly connected to each other and against each other each ^to] / ₄ of the Zahntheilung offset, as illustrated in detail in Fig. 5. As a result of this design, the following movement process results: By rotating the drive shaft α , the tie rods d hanging on the four crank pins c move up and down in a regular order and cause their noses to collapse into the teeth of their switching gears e a constant rotation of the latter in such a way that that each tie rod begins its lifting action when that of the preceding one has almost ended. The 'ratchet wheels transmit their rotation to their common axis f, which with the aid of a crank g and a pull rod h adjustable by means of a rod lock pulls down the knife bar i with the knife k.

As shown in FIG. 1, the ratchet wheels e are only provided with teeth on one half of the circumference, while the other half is smooth. As a result of the fact that the ratchet wheels e are keyed onto the axis f in such a way that at the lowest position of the knife k the tie rod lugs are all already on the smooth part of the circumference of the ratchet wheels, i.e. are released, the knife bar i is immediately after the end of the Cut by the action of the counterweight / accelerated lifted up and turns the pulling crank g back into its starting position, as shown. Here the ratchet wheels e rotate freely with the smooth part of their circumference, through under the tie rod lugs until the knife has reached its highest position - the rest position - again.

In order to set the machine into operation, all that is required is a small turn of the axis of the crank handle so that the first of the draw hooks d engages the first tooth of its ratchet wheel e ; by turning the hand crank m on the flywheel η , the above-described operation is carried out. The initial rotation of the crank axle / is initiated in a simple manner by a lever linkage op q with a footstep arrangement, as shown in the drawing. Because the downward movement of the cutter bar i begins at the same time as this initial rotation, it is possible to set the knife from its maximum position onto the paper to be cut without losing any time by simply turning the crank axis f to this position by means of the footstep 0 Knife causes.

According to the size of the machine, the transmission ratios can be set in the switchgear by changing the eccentricity of the crank pin and the tooth pitch of the Choose larger or smaller ratchet wheels. The other accessories for the machine, as a paper table, Prefsbalken, saddle, etc., are arranged in a known manner and therefore in the drawing partly omitted.

Claims (2)

Patent Claims: 1. A paper cutting machine with switching mechanism drive for slow cutting and counterweight arrangement for rapid decline, characterized in that the traction crankshaft ff) is coupled to the drive shaft (a) only during the cut by switching wheels (eeee) seated on the former, which for this purpose only a part of their circumference are provided with teeth and are moved by pawls (dddd), which sit on offset cranks (cccc) of the drive shaft, while the pawls after the cut has been completed with the cutter bar raised and the drive disengaged over the toothless part of the ratchet wheels slide so that the cutter bar rises quickly in a known manner under the influence of a counterweight. 2. A paper trimming machine of the type characterized in claim ι, characterized in that the pulling crankshaft (f) can be rotated independently of the switching mechanism by a lever mechanism (op q) which can be moved by means of foot or hand pressure for the immediate placement of the knife on the paper pulp. 1 sheet of drawings.