DE488224C - Block shears with crank drive and movable upper knife - Google Patents

Description

The well-known block shears with crank drive, which cut from below after themselves the upper knife has placed on the block, have the disadvantage that the driving crankshaft must get a large crank arm, the drives fail as a result, which to cutting block is held by the knives for too long, and also with small sticks no shortening of the cutting time can be brought about. With these scissors, their knife sledge are inevitably related to each other and in which the movement of a crankshaft takes place in such a way that first the upper knife slide lowers onto the block, then the lower knife slide lowers the block cuts through and moves back into the end position, whereupon the upper knife slide stands out from the block, becomes the end to be cut off or cut off from the initiation of the cut to the return of the knife carrier to their starting position.

The invention relates to block shears with a fixed crankshaft and two levers

s5 arranged knives, in which a transmission link of special shape is inserted, which leads to a considerable reduction in the time of the Shear blade contributes to idle travel, thus allowing a crankshaft with very to use a small crank arm. This creates further advantages in a drive lie, which can get significantly smaller dimensions. Despite the shortened time on the one side is given more time to the flywheel or a directly acting drive motor for the power output when cutting. Then there is the possibility with this new design to hold the block to be cut only for the length of time between the knives, which is required for the actual separation process. After this is done, if the upper knife slide lifts off again, releases the cut block while the lower knife only moves into its end position. This way of working corresponds to the natural one Operations on a pair of scissors; because a cut piece of block must first be transported on be lowered, the advance plate or the otherwise existing facility again until the block to be cut off again strikes against the advance plate. So it is of course, if this block was held by the lower knife for a moment longer is called the cut piece. Then it is achieved with this new facility that at the entire system can be laid in sections in thin blocks, such that the existing overstroke after complete completion of the cutting process and Re-release of the block is put back for both the upper and the lower knife, In the case of thin blocks, the cutting time is automatically reduced, which is approximately the same as the Stick strength is proportional.

In the drawing, two embodiments of the new block shears are shown, and though:

in Fig. ι block shears in partial section in elevation and in
Fig. 2 in side elevation.

Figs. 3 and 4 show a further embodiment of the invention in partial section Elevation and side elevation.

Fig. 5 and 6 show an embodiment for the hold-down device of the scissors.

The top and bottom blades of the scissors are attached to levers 1 and 2. Both levers are pivotably mounted about axis 3. The axis 3 also forms the axis of the crankshaft 4, from which a double-armed lever 6 is driven by means of a connecting rod 5. This lever 6 is supported on the one hand in a pivot bearing 7 on the upper cutter lever, on the other hand it is connected to the lower cutter lever with the aid of two tie rods 8. This lever system has a self-contained interception of forces, so that the frame 9 of the machine remains unloaded. The table 10 and the drive are arranged on it. The lever 6 has an extension beyond the support point 7, which is designed as a rolling lever. The shape of the lever and the position of the plate 11 underneath it are chosen so that at the greatest cutting stroke, i.e. when the crank moves from the dead position α to the dead position b , about a third of this stroke with the movement of the lever 6 in the pivot bearing 7 in front of you goes and from then on the roller lever comes into contact with the plate 11, a constant change in the transmission ratio of this lever taking place as the point of contact progresses. If it is assumed that after a third stroke has been completed, the cutting of the block is complete, to make the remaining two-thirds stroke a much smaller distance from the crank to bring the knives into contact with one another than if the transmission ratio remained the same in the transmission lever 6 of the FaE would be.

So this makes it possible to work with a crankshaft from a small crank arm, what of is of fundamental importance for the entire structure of the machine.

The upper knife lever ι is with the help of a threaded spindle 12 or a similar device held at high altitude. This threaded spindle 12, which for this purpose is firmly inserted into the frame 9, by an electric motor 13 and by a worm drive 14 can be operated independently of the rest of the drive. the Connection between this threaded spindle 12 and the upper knife lever 1 is approximately made with the help of a nut and two pull tabs. In this way it is possible in order to reduce the time in the process, use the upper knife slide with the Moment at which the scissors are set in motion to cut, already towards the block lower and regardless of the other processes when cutting already when the Separation of the block has just been brought about to lift off from the block. From this device, the well-known automatically operating release device, as in the crankshafts is arranged, or the drive motor flywheelless scissors as a function be brought, so that the start of the shears from the motor 13 from is initiated automatically.

So that with each block of a certain strength always the lever 6 in the manner intended for it works that about a third of the stroke on the separation, the remaining stroke with accelerated Knife movement is going on, the plate 11 is set up to be raised and lowered, for example by one Eccentric 15 and a stop 16 from. This stop 16 abuts against one on the frame located projection 17 and brings automatically, while the upper knife lever when lowering on the block, the height corresponding to the block thickness, the plate 11 in the correct Position to the roller lever. The scissors are therefore always automatic for every block thickness a.

The scissors are driven in a known manner by a motor 18 which, during the Section, supported by a flywheel 19 which drives the wheel 20 arranged on the crankshaft. "Then there is an automatically operating one between this wheel and the crankshaft Disengagement device which, engaged by the operator, disengages automatically after a full turn of the crank. In order to increase the duration of the actual separation process when cutting thinner billets can shorten, with HiUe the threaded spindle 12, the upper knife to one of the strength of this stick corresponding smaller clearance can be set. This knife is then again in the ready-to-cut position over the stick. So the same with the lower knife is also the case, the precaution is taken that the point in the crank circle at which The clutch between the crankshaft and the drive wheel disengages through the crank arm takes place, can be laid at will. It can therefore be used in any position of the upper Knife lever for the lower knife lever that rest position can be set in which the cutting edge of the lower blade is level with the table of the scissors.

The process of cutting a thinner billet is as follows:

The upper knife lever is lowered onto the block, at the same time the clutch of the crankshaft is engaged, whereby the lower knife immediately starts moving and starts cutting. The rest position of the crankshaft is on the crank circle, measured approximately at point c. As the crank runs through arc c, b , the cut takes place which, when it reaches C ₁ , is completely completed. The upper knife lever can already be lifted off again when the crank is in point b , thus releasing the cut block. Reached the point C _1, the lower knife is again reached in level with the cutting table, s that also can pass freely yet to be cut by the shear block mouth. The processes that are still taking place in the scissors, while the crank _{moves back from C 1} via α to c to its starting position, have no effect on the actual cutting duration, but merely represent idle times that are completely outside of the cutting process, as they are with the further transport of the billets to be cut collapse. The smaller the billet to be cut, the shorter the actual cutting time, since the sheet c, C ₁ is reduced in size by the same amount.

There can also be an inevitable connection for the suspension of the upper knife lever with the crank mechanism of the scissors (Fig. 3 and 4), so that the placement of the Upper knife carriage and the premature lifting after the cutting process go yourself. For this purpose, a lever 21 is mounted in the frame of the scissors, on the one hand by one lug 22 is connected to the connecting rod 5, on the other hand by lugs 23 is connected to the upper knife lever 1. The time to touch down and take off the upper knife lever is now determined according to certain laws. An arbitrariness here, which would allow the separate electric drive according to embodiment 1 and 2, is naturally no longer available and thus also not the favorable use of time that is offered there.

Due to the direct connection of the upper cutter lever via the lever 21 to the crankshaft, a certain path is also prescribed for the upper cutter lever when the crankshaft rotates. If a block of great thickness is cut, the upper knife lever first lowers onto the block, whereupon the lever 21 in the elongated hole of the tab 23 carries out the further movement during the cut. If these scissors are set to a correspondingly thinner block by moving the disengagement point of the crankshaft from α to c, then in this crank position the upper knife initially leaves the required passage dimension for the block. When the crankshaft is engaged, the upper knife lever lowers onto the block. The lower knife lever starts cutting immediately because it was in the ready-to-cut position. In crank position b the cut is done, in crank position C ₁ the lower knife is lowered again and the upper knife is already set to the free passage again. The remaining sheet C ₁ , a, c is therefore put back by the crankshaft without any loss of time for the actual cutting process in order to bring the knives back into the ready-to-cut position. With these scissors, the internal processes regulate themselves completely automatically after the operator has only selected the rest point of the crank at a corresponding point on the crank circle, depending on the strength of the stick. This is an adjustment process that can be carried out in a few moments.

In order to obtain an exactly perpendicular cut, the block must be prevented from doing so will bend under the shear pressure. The cut end of the block will be enough between the upper knife and the table held, wherein the acting on the drive wheel 20 tooth pressure at the lever end ι expresses it accordingly. So that the piece of block lying on the lower knife is also held in place is, a hold-down device (Fig. 5 and 6) is provided, which consists of a lever 24, the is mounted on the upper knife lever in point 25. This lever stands with a second lever 26, which is mounted in point 27 on the lower knife lever, in connection. The connection is through the rod 28 is made. In its rest position, the lever 24 rests on a shoulder 29 of the upper knife lever, with its pressure surface at the same height as the cutting edge of the Upper knife is located. The lever 26, which is placed on the side of the knife lever, carries with it its outer end exactly to the center of the crankshaft. As a result, the upper knife lever can be moved unhindered, together with the hold-down device lowered down to the block can be. A movement of the lower knife lever initially has no effect either on the change in position of the hold-down lever. Only when the lower knife lever touches the block with its cutting edge, a slide 30 lies in the outer end of the Lever 26, whereupon the further movement of the lower knife lever hold-down and Knife levers continue to move at the same distance, thus securing the block to be cut hold between them. The slide 30 is controlled by a stop from the knife lever 2. The hold-down works completely automatically and adapts to every stick thickness without the operator having to make any adjustments to him.

Claims (5)

Patent claims: ι. Block shears with crank drive and movable Upper knife, in which the knife carrier designed as a lever at the same time with the drive shaft a common Drehbzw. Have pivot axis, characterized in that one of the crankshaft (4) driven by a push rod (5), to the knife lever (i, 2) actuating intermediate lever (6) affects the cutting process of the scissors so that the knife lever only a certain Carry out the movement processes caused by the crank drive during the rest of the stroke on the other hand experience an increase in speed. 2. Block shears according to claim 1, characterized in that the lever (6) in addition to the Pivot point (7) has an extension which, after a certain part of the crank travel is transferred in point (7), with its rolling point on a plate (11) of the upper knife lever occurs and with constant increase of the transmission ratio the Bringing the rest of the stroke off. 3. Block shears according to claim 1 and 2, characterized in that the plate (11) compared to the rolling lever for each block thickness at the resulting altitude of the Upper knife lever assumes such a position that always one and the same wanted Stroke distribution between pivot point (7) and roller lever is present. 4. Block shears according to claim 1, characterized in that between the upper knife lever and the crank mechanism is directly connected by a double-armed lever (21) that has the Placing the upper knife lever on the block and withdrawing this knife lever already undertakes before the lower knife has reached its retracted position. 5. Block shears according to claim 1, characterized in that the on the upper knife lever rotatably arranged hold-down device with an actuating lever arranged on the lower knife lever is in connection, in such a way that a hinge point producing the connection with the center of the pivot axis of the Knife lever collapses as well as a latch the outer end of the lever (26) at the moment, when the cutting edge of the bedknife is level with the table of the scissors, hold on. For this purpose ι sheet of drawings BERLIN. GiMÜCÜT IN .BSR