DE4115632A1 - Overrun safety coupling for fibre material shearing machine - has chain drive to crank wheel through spring-loaded sliding sector which can be disengaged by contact with limit stop - Google Patents

Abstract

The machine has a cutter beam driven up and down by a connecting rod (19) coupled to a crank wheel (17) which is turned by a reversible electric motor through a chain drive (15). Sliding radially in the crank wheel is a coupling plate (23) with a toothed sector (24) which engages in the chain links over the working rotational arc of the wheel and drives the connecting rod and cutter beam. Over the working arc of the crank wheel the coupling plate is held outwards against the tension of coil spring (31) by a stop pin (28) bearing against the projection (25). On each side of the projection are depressions (26, 27) in the coupling plate. The stop pin can slide in a segmental slot such that, if the crank wheel over-runs, the stop pin is knocked to one side by a segmental stop plate (30) on the machine frame. When the pin leaves the projection (25) the coupling plate is driven inwards by the spring (31) and disengages the drive to the connecting rod. USE/ADVANTAGE - Overrun safety coupling prevents damage to machine. Chain tension can be simply adjusted by eccentric mounting of crank wheel.

Description

The invention relates to a stack cutting device a frame or housing that has a support table for the Stacked goods and guide parts above the support table for a lowerable press beam and one over a Safety clutch electrically driven cutting knife bar.

While with pneumatically or hydraulically operated larger stack cutters a stop safety device for the press bar and the cutter bar on fold way by control valves in the drive device is achievable, arise here with electrically operated Stack cutters greater difficulties.

The invention has for its object in a Stack cutting device with electrically driven Cutting knife bar an effective safeguard against it  to make sure that the cutter bar does not have its lowest working position and not above its top Rest position can be moved, resulting in a Zer malfunction of device parts.

The task posed is with a stack cutter device of the type mentioned according to the invention solved that the cutter bar over a connecting rod rod, a connecting rod and a chain drive with the elec trical drive motor is coupled, and that the safe Unit clutch is that one for the chain drive provided gear ring sector of the connecting rod on an in Connecting rod wheel radially adjustable and radial one is biased slide formed by means of one by a stationary stop from a rest stop unlockable locking body in its operating position is held.

The locking body of the safety clutch can be useful consist of a locking pin, which is in a circular arc shaped concentric guide slot of the connecting rod wheel is stored and usually in a recessed recess in front cocked slide engages, which to both Each side has a deeper recess for the locking pin connects, the locking pin from the connecting rod level beyond the effective range of at least one statio protrudes from the detent recess of the Slider can disengage.

The safety coupling designed according to the invention Stack cutting device can be space-saving in the An drive for the cutter bar insert and allowed an exact adjustment of the safety clutch by  an adjustment of the stationary stop. So it has to not the angular position of the connecting rod on the drive shaft no need to be adjusted, and also on the connecting rod Adjustments are made.

For the pretensioning of the slider, one can be useful Tension spring can be provided with one end on Slide and with the other end on a connecting rod part or is attached to the locking body. For the locking body two anchor points are provided, the two of geson derten and individually adjustable stop bodies or can be formed by a common stop body, the one anchor point in the area of the deepest Lower position and the other stop point in the area the highest lifting position of the cutter bar is effective. The safety clutch allows the connecting rod to be in one Eccentric body to store, for the purpose of readjusting the Chain tension is adjustable.

Below is an embodiment of an invention according to the trained stack cutting device based on the only the character representing essential parts of the invention tion explained in more detail.

In detail show:

Figure 1 is a schematic front view of the stack cutting device with the cutter bar, its storage and its drive device.

FIG. 2 shows a section along the line II-II in FIG. 1 on an enlarged scale compared to FIG. 1;

Fig. 3 the safety means comprise the part of the drive device in comparison to FIG 1 on an enlarged scale.

Fig. 4 is a representation corresponding to Figure 3 with the safety clutch triggered in the upper rest position of the cutting bar;

Fig. 5 is a representation corresponding to FIG. 3 when the safety clutch is triggered in the lowest working position of the cutting knife bar.

Fig. 1 shows the front view 10 shows the housing of a staple cutting device with the support table 11 and, arranged above the support table 11 the cutting knife bar 12 which is mounted lowerable in inclined guide tracks 13 on both ends in the lateral housing parts 10.1 and 10.2. The cutting blade bar 12 is driven by means of an electrical drive motor housed in the housing, of which only the motor shaft 14 can be seen in FIG. 1, via an endless drive chain 15 , a connecting rod wheel 17 mounted on an axis 16 with an integrated safety clutch 18 and one Connecting rod 19 , which is articulated on one of the two ends of the cutter bar 12 at a point 20 . With its other end, the connecting rod 19 is articulated eccentrically on the connecting rod 17 at a point 21 .

The structure of the connecting rod 17 with the integrated safety clutch 18 is shown in FIGS . 2 and 3. The Pleuelrad has on its periphery a guide web 22 for the drive chain 15 which prevents lateral slippage of the chain 15 from the Pleuelrad 17 and a sliding th of the drive chain 15 over the circumference of Pleuelrades 17 allowed. At one of the eccentric articulation point 21 of the connecting rod opposite circumferential area, a flat slide 23 is supported radially adjustable in the connecting rod wheel. On the slide 23 , a rail sector 24 is ausgebil det, the drive position shown in FIGS . 1 to 3 Re of the safety clutch 18 protrudes over the circumference of the connecting rod 17 and is thereby in engagement with the drive chain 15 . At its inner end, a central locking trough 25 and on both sides thereof two additional locking troughs 26 and 27, which are located radially outward relative to the central locking trough 25, are formed for a locking bolt 28 on the slide 23 . The locking bolt 28 is adjustable in an annular slot sector 29 of the connecting rod wheel 17 and protrudes beyond the connecting rod wheel into the effective range of a stationary body 30 Pers. The ring sector-shaped stop body 30 is arranged in a manner not shown on the device housing along a concentric to the connecting rod axis 16 circular path and forms with its two ends 30.1 and 30.2 each have a stop for the locking bolt 28th

The slide 23 is mounted in the connecting rod 17 in the radial direction biased inward. The bias is effected by means of a tension spring 31 which is connected at one end to the slide 23 via a bolt 32 and at the other end at a point 33 to a part rotating with the connecting rod 17 or to the locking bolt 28 .

Figs. 1 to 3 show the shifter 23 of the safety coupling 18 in its operating position in which its toothed sector 24 communicates with the drive chain 15 in engagement, and thus the Pleuelrad 17 mitge from the drive chain 15 taken. The reversible drive motor is so controlled that the drive of the cutting knife bar 12 is switched off after reaching the upper rest position of the cutting bar 12 ( Fig. 1-3) and also after reaching its lowest working position. Thus, over-rotation of the Pleuelrades 17 should be of the cutting knife bar 12 moves about its upper rest position also be, gene SUC, acting in accordance with Fig. 4, the locking pin 28 on the abutment end 30.2 of the stopper body 30 is pushed out of the catch recess 25 and in its guide slot 29 adjusted. Characterized the slider 23 is released and by the bias of the tension spring 31 radially inwardly pulled until it meets with its locking recess 26 on the shifted locking pin 28 . The tooth sector 24 of the slider 23 is withdrawn behind the circumferential web 22 of the connecting rod 17 and thus coupled out of the drive chain 15 . If the electric motor continued to run, the drive chain 15 would then slide over the circumference of the connecting rod 17 without taking the connecting rod 17 with it.

In the same way the security Fig would mutandis. 5 actuated clutch 18 and the toothed sector 24 of the slide 23 disengaged from the drive chain 15, when the drive should the cutter bar is not switched off in the deepest work position of the cutting. In this case, the stop end 30.1 of the stop body 30 would move the locking pin 28 counterclockwise.

The formation of the safety clutch 18 in the connecting rod 17 allows the connecting rod 17 to be supported with its axis 16 in an eccentric sleeve 34 shown in FIG. 2, which by its rotation provides a sufficient adjustment of the center of the connecting rod 17 for tensioning the drive chain 15 the output shaft 14 ( Fig. 1) of the drive motor allowed.

Claims (6)

1. stack cutting device with a frame or housing ( 10 ), which has a support table ( 11 ) for the stacked goods and above the support table guide parts for a lowerable press beam and a safety coupling electrically driven cutter bar ( 12 ), characterized in that the Cutting knife bar ( 12 ) via a connecting rod ( 19 ), a connecting rod ( 17 ) and a chain drive ( 15 ) with the elec trical drive motor is coupled, and that the safety clutch ( 18 ) consists in that provided for the chain drive ( 15 ) Sprocket sector ( 24 ) of the connecting rod ( 17 ) on a connecting rod ( 17 ) radially adjustable and radially inwardly biased slider ( 23 ) is formed, which by means of a stationary stop ( 30 ) disengageable locking body ( 28 ) in its operating position is maintained. 2. Stack cutting device according to claim 1, characterized in that the locking body of the Sicherheitskupp development ( 18 ) consists of a locking pin ( 28 ) which is mounted in an arcuate concentric guide slot ( 29 ) of the connecting rod ( 17 ) and normally in a recessed recess ( 25 ) of the biased slider bers ( 23 ) engages, to each of which a deeper receiving trough ( 26 , 27 ) for the locking pin ( 28 ) connects, and that the locking pin ( 28 ) from the connecting rod plane out into the effective range at least one stationary stop ( 30 ) protrudes, which can disengage it from the locking recess ( 25 ) of the slide ( 23 ). 3. Stack cutting device according to claim 1 and 2, characterized in that for the bias of the slide ( 23 ) a tension spring ( 31 ) is provided, which has one end on the slide ( 23 ) and the other end on a connecting rod part or on the locking body ( 28 ) is attached. 4. Stack cutting device according to one of claims 1 to 3, characterized in that two stop points ( 30.1 , 30.2 ) are provided for the locking body ( 28 ), one of which in the region of the deepest lowering position and the other in the region of the highest lifting position the cutter bar ( 12 ) is effective. 5. Stack cutting device according to one of claims 1 to 4, characterized in that the connecting rod ( 17 ) is mounted in an eccentric body ( 34 ) which is adjustable for the purpose of adjusting the chain tension. 6. Stack cutting device according to one of claims 1 to 5, characterized in that the connecting rod ( 17 ) in its not from the tooth sector ( 24 ) of the safety clutch occupied circumferential area for a sliding guide of the drive chain ( 15 ) is formed.