DE140656C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

- JVr 140656 CLASS 496.

For punching, shearing, pressing, bending, straightening, drawing etc. of steel and other Material is often used in such machines, with which by one on their Main shaft arranged eccentric pin or ring a lifting movement of the tool holder is generated, and the size of the stroke is always equal to twice the eccentricity of the eccentric.

The size of the eccentricity is combined with the necessary, large size in these machines Working pressure a large moment of force on the main shaft, thereby rack wheels and others Propulsion means often have to be built so large and strong that their manufacture is large causes technical difficulties and significant costs.

The purpose of the present invention is now:

1. By significantly reducing the eccentricity the force momerite on the eccentric shaft and thus the driving wheels or to reduce other drive means and yet by adding the resulting small ones Single strokes to achieve a total stroke of any size.

2. To pull down the required driving force in that

a) the smaller and smaller number of wheels and shafts that allow offer a precise design, require a high degree of efficiency,

b) the jerky action of the tool on the material to be machined stressed fibers of the latter allowed to come to rest, reducing the working pressure can be less than a continuously acting tool must have. So it also becomes that through this circumstance Moment on the eccentric shaft reduced and manpower saved,

c) the driving force can be correspondingly smaller, since it is not only during the decline of the tool, but also during the total working stroke in the idle periods the single strokes accelerate the flywheel.

The present invention also enables that at always the same operating speed the total stroke height, as well as the number of total strokes of the tool to be processed Workpieces can be adjusted, in such a way that the smallest total stroke, the largest and the largest total stroke the smallest total number of strokes in the same time.

The tool can also be stopped, reversed or reversed at any time by means of a hand lever Operation are shifted, whereby the risk of rejecting the work pieces z. B. can be avoided by lapping, blending, etc.

Machines of this new type show normal wear and tear, as the in Question coming printing areas and bearings can be kept so large that the specific Pressure is brought to the lowest possible level.

There are machines known in which a step-by-step increment of the

Tool takes place, but fall with these, because the stepping through a locking gear happens, which acts on an eccentric that corresponds to half the total stroke, the advantages the direct drive of the tool carrier through a small eccentric, d. H. the more favorable force ratios and the same linear speed of each individual stroke. The drawings show:

ίο Fig. ι a cross section of the device, Fig. 2 is a view of the reversal,
3 shows a plan view of the device, FIG. 4 shows a plan view of the ratchet wheel after the ratchets have been removed,

5 shows a plan view of the switching disk after the ratchet wheel has been removed,

6 shows a plan view of the toothed segments after the switching disk has been removed.

The operation of the device shown in the drawing is as follows:

The pressure piece JE sits on the eccentric pin D (Fig. 1) of the main shaft C ^1. This makes the eccentricity α corresponding to each revolution of the main shaft C a working and a return stroke. Immediately below the pressure piece E is. the tool slide G is arranged with its extension screw F with a left-hand thread. Instead of the latter, any other extension means can be used, which z. B. wedge, plate, eccentric, spiral, etc. is. The extension screw F can by mediating the wheel attached to it .F ¹ and the gear H of the shaft H ¹ , the ratchet K, the double lever M with rotatably attached pawls L and JL ¹ , the pull rod JV and the lifting disc N ¹ either one Get left or right rotation. As a result of this rotational movement of the screw F , the same can either be exposed to the action of the pressure piece E or withdrawn. If, for example, the pawl L is working, the rotary movement of the switching will take place in the direction of the arrow towards u , and indeed the device is such that the switching takes place during the return stroke of the eccentric pin D. The left thread of the extension screw is therefore unscrewed from the tool holder G to the same extent as the eccentric return stroke, so that there is no space between the surface of the screw F and the lower surface of the pressure piece E. The companionway of the eccentric must therefore depress the extension screw F and with it the tool holder G.

During this work, the latch JL runs back empty to only the following To switch back stroke again.

These processes are repeated until the desired total lift height is reached.

The retraction of the tool holder takes place in such a way that the surface f of the wheel F ¹ rests on the surface g of the screw bearing. If the pawl JL ¹ is working, the rotation of the switching wheel K takes place in the direction of the arrow towards r. The extension screw F is therefore screwed into the tool holder G and is withdrawn from the action of the pressure piece E during this time because the surfaces f and g remain on top of one another. For control purposes, a switching disk 0 is located directly below the switching gear K , which is divided by segments P and P ^! is rotated. If, for example, this rotation takes place in the direction of the arrow u towards the pawl L , the latter completes its stroke, comes back and slides with its cam d over the slope η of the disk O. The pawl L can now, as it is on the outer edge Z of the Disk O slides, no longer engaging in the gap h of the indexing wheel K and consequently their movements have no effect on the indexing disk.

While the switching disk O triggered the pawl L , the pawl L ¹ , since the incline n ^{1 was} retracted, could fall into the gap h ¹ and move the switching wheel K in the direction of the arrow towards r. If the switching disk remains in the middle position, as can be seen in FIG. 2, neither of the two pawls JL or L ^{1 can} intervene and the switching mechanism runs freely.

A stop Q. is attached to the tool holder G for automatic switching. Adjustable lugs S and S ¹ now bring about an upward or downward movement of the rod Q ¹ and, with the same, the finger R , depending on the direction of attack, in such a way that the latter enters the path of the finger Af ^{1 during the upward movement and that of the finger Ai 2} during the downward movement. As a result of the movements of the fingers Ai ¹ and M ² back and forth, the finger R is moved by the finger in whose path it is standing. Connected to finger R is segment P ¹ . So segment P and with it the switching disk O is also moved, the bevels η and η ^{1 of} which actuate the pawls JL and JL ¹ in a known manner. The position of the switching disk O is limited by the lever T and manual engagement and disengagement is actuated. ^ Disc and wheel B, both keyed c on the input shaft, forward by wheel B ^1, the revolutions of the eccentric shaft C. ¹

Claims (5)

Patent claim ε: ι. Device on punching machines, scissors, presses and the like. For processing Metals by step-by-step progression of the tool, characterized that with each revolution of an eccentric shaft with a small stroke, there is a small stroke of the tool carrier, which the latter every time the ex- center is exactly the same as this decline, which work process is extended is repeated until the total stroke is reached, whereupon the tool carrier is automatically returned to begin the new overall stroke. 2. Apparatus for working metal by stepwise incrementing of the tool according to claim i, characterized in that a small means of an eccentric stroke of the high-speed drive shaft moving thrust piece (E) during the working stroke to An in-or to the tool carrier (G) extension ( F) acts, which is moved by means of a locking gear (LM or L ¹ M ¹ ) during the return stroke of the eccentric until the locking mechanism drive is switched over by a stop fQ,) and the extension piece is pushed back. 3. A switching device for the device according to claim 2, characterized in that an extension screw (F) screwed into the tool carrier is screwed back by the amount of one stroke during each return stroke of the pressure eccentric by a gear transmission (HF ¹ ) driven by a vibrating pawl and ratchet wheel, for the purpose further switching of the tool carrier. 4. A reversal to the device according to claim 2 and 3, characterized in that a switching disc (0), which can be rotated by toothed segments from the control shaft (Q ¹ ) , the tooth gaps influenced by the pawls either on the one hand covers and on the other hand covers or covers both sides and thereby either generates a movement of the extension piece in one or the other direction or causes the same to come to a standstill. 5. An automatic reversal to the device according to claim 2, characterized in that the shifting of the switching disk (O ) takes place by pushing open a stop connected to the tool holder (QJ on lugs (SS ¹ ) attached to the control shaft and by pushing open through this a finger (R) firmly seated on the control shaft is brought into the path of one of the fingers (M ¹ or M ² ) swinging with the pawls, whereby a corresponding rotation of the control shaft and by means of the toothed segments of the switching disk takes place. 1 sheet of drawings.