DE29601671U1 - Piston collecting press for agricultural crops - Google Patents

Description

Harsewinkel, 01.02.1996 Pat. 6239

CLAAS OHG limited liability general partnership, PO Box 11 40, 33426 Harsewinkel

Piston collecting press for agricultural crops

The invention relates to a piston collecting press for agricultural harvested material with at least one gearbox, the input shaft of which can be connected to the drive shaft of the towing vehicle via a flywheel, with a crank drive for driving the press piston and with two output shafts, one of which drives the packer and the other the feeder elements leading the harvested material to the packer. **"

It is known to protect piston collecting presses against overload. For this purpose, a slip clutch is first provided in the drive train from the towing vehicle to the flywheel. However, this clutch is not primarily used to protect the press against overload, but rather to protect the drive of the towing vehicle from the effect of the flywheel. The actual overload protection of the press itself is provided by a clutch that is arranged between the flywheel and the gear box of the piston collecting press. Such a clutch can be, for example, a pin clutch. Such a clutch interrupts the drive train from the flywheel to the gear box when the entire press is overloaded. The disadvantage of such a known overload protection for a piston collecting press has been found in practice to be that it is not sufficient to effectively protect individual components against overload.

The present invention is based on a piston collecting press of the type described in more detail above, the task of protecting the individual processing elements downstream of the gear unit effectively against overloading and

other to ensure that the restart of individual organs after an interruption in operation is guaranteed without overload.

The above-mentioned task is solved in a piston collecting press with two output shafts extending from the gearbox housing in that both output shafts are connected to the gearbox with an overload clutch each. The overload clutch assigned to the output shaft for the packer is expediently a wedge clutch, which switches off at a predeterminable torque and only switches on again after the output shaft speed has been reduced to a predetermined value. According to a key feature of the innovation, the overload clutch assigned to the output shaft for the feeder elements switches off in addition to its normal protective function for the feeder elements when the overload clutch for the packer switches off. It only switches on again as soon as the packer clutch switches on and the packer has reached the speed required for proper operation. It has proven to be advantageous that the packer is assigned a speed monitor that is activated when the wedge clutch is switched off. This monitor switches off the clutch for the feeder elements when the operating speed drops and only switches it back on when the packer has reached its operating speed again after its speed has dropped. The clutch for the feeder elements can be an electromagnetic clutch. In some cases, however, it has proven to be advantageous if this clutch is a hydraulically switchable clutch. Of course, a mechanically switchable clutch can also be used.

Alternatively, the piston collecting press according to the invention, in which an overload clutch is assigned to the shafts extending from the gear housing for driving the packer and for driving the upstream feeder elements, can also advantageously be designed in such a way that a speed and/or torque monitor is assigned to the shaft driving the packer, via which the drive of the feeder elements is switched off if a preset value is exceeded. In a piston collecting press equipped in this way, the drive for the feeder elements is switched off if the packer is overloaded, so that the packer can remove the material that has accumulated in front of it without further material being supplied. However, if the material is so heavily accumulated that the packer can work its way free even if the feeder elements are no longer feeding any more material, it is expedient to

if the overload clutch assigned to the packer shaft only interrupts the drive for the packer after the speed counter and/or torque monitor has switched off the drive for the feeder elements and the set limit value is still exceeded. In this way, damage to the packer is effectively avoided.

In the following, the invention will be explained in more detail using an exemplary embodiment and a single figure that schematically represents it. The entire press is provided with the reference number 1. It has a gearbox 2, which is connected via its input shaft to a flywheel 3, possibly with an overload clutch in between. The flywheel 3 is driven in a known manner by a towing vehicle (not shown) for the press 1. Starting from the gearbox 2, the piston is moved back and forth cyclically via a crank drive 5. In addition to the crank drive 5, the gearbox has two output shafts 6 + 7. The output shaft 6 is used to drive the gatherer 9 with the interposition of a wedge clutch 8, while the output shaft 7 is used to drive the cutting rotor 11 with the interposition of an electromagnetic clutch 10. The collecting screw 12 and the pick-up 13 are connected to the cutting rotor 11 in a drive-related manner. The cutting rotor 11 is assigned a stripper 14 and a counter-blade 15 in a manner known per se, whereby the counter-blades 15 can be disengaged if necessary. During operation, the feeder elements 11 to 13 continuously feed material into the channel 16. The material in the channel 16 is cyclically fed by the packer 9 into the pressing channel 17, where the material is compressed by the piston 4. The movements of the piston 4 and packer 9 are coordinated in such a way that harvested material is always fed into the pressing channel 17 when the piston 4 assumes its retracted position shown in the figure and releases the opening from channel 16 to the pressing channel 17. If the material now accumulates in the channel 16, the torque for driving the packer 9 increases. When this torque has reached a predetermined value, the wedge clutch switches off. At this moment, the speed of the packer 9 drops. The speed monitor 18 assigned to the packer 9 sends a signal to the electromagnetic clutch 10, so that this also interrupts the drive connection from the gear 2 to the cutting rotor 11. The wedge clutch 8 is constructed in a known manner so that it switches on again when a predetermined lower speed of the output shaft 6 of, for example, 100 revolutions per minute is reached. This means that the packer is put into operation again at this speed. The magnetic clutch 10 remains open in this starting state of the packer 9, however.

and this until the packer 9 has reached its operating speed of, for example, 140 revolutions per minute. At this moment, a signal is sent out via the speed monitor 18, which serves as a control signal for switching on the electromagnetic clutch 10. After an interruption in operation, the feeder elements 11 to 13 are therefore only switched on again when the packer 9 has emptied the channel 16. This means, on the one hand, that the packer can initially only empty the goods in the channel 16, without further goods being conveyed. On the other hand, this means that the feeder elements 11 to 13 can start up without great effort, since there is no longer any accumulation of goods at their discharge end.

In the above-described embodiment, the speed of the packer drops to 100 revolutions before the wedge clutch 8 switches on again. Alternatively, the press can also be operated in such a way that if the speed of the packer drops slightly due to overloading, the wedge clutch 8 does not switch off initially, but rather only the electromagnetic clutch 10 is switched off, controlled by the speed monitor 18, which can also be a torque monitor. This gives the packer 9 the opportunity to clear the material jam in front of it without feeding in any more material. This succeeds in almost all cases, so that after the packer operating speed is reached, the speed monitor sends a signal to the electromagnetic clutch and this is switched on. This ensures continuous operation. However, if the jam is so severe that the speed of the packer continues to drop and/or the torque to be transmitted continues to increase, the wedge clutch 8 interrupts the drive to the packer 9.

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Claims (9)

Protection sayings 1. Piston collecting press for agricultural crops with at least one gearbox, the input shaft of which can be connected to the drive shaft of the tracting vehicle via a flywheel, with a crank drive for driving the press piston and with two output shafts, one of which drives the packer and the other the feeder elements leading the crops to the packer, characterized, that both output shafts (6 + 7) are connected to the gearbox (2) via an overload clutch (8+10) each. 2. Piston collecting press according to claim 1,
characterized, that the overload clutch (8) assigned to the output shaft (6) for the packer (9) is a wedge clutch which switches off at a predeterminable torque and only switches on again after the output shaft speed has been reduced to a predetermined value. 3. Piston collecting press according to claims 1 and 2, characterized in that that the overload clutch (10) assigned to the output shaft (7) for the feeder elements (11 to 13) switches off, in addition to its normal protective function for the feeder elements, even when the overload clutch (8) for the packer (9) switches off, and switches on again as soon as the packer clutch (8) switches on and the packer has reached its speed required for proper operation. 4. Piston collecting press according to claims 1 to 3,
characterized, that the packer (9) is assigned a speed monitor (18) which is activated when the wedge clutch is switched off and which switches off the clutch (10) for the feeder elements (11 to 13) when the operating speed drops and only switches it back on again when the packer (9) has reached its operating speed again after its speed has dropped. 5. Piston collecting press according to claims 1 to 4, characterized in that the coupling (10) for the feeder elements (11 to 13) is an electromagnetic coupling. 6. Piston collecting press according to claims 1 to 4, characterized in that the coupling (10) for the feeder elements (11 to 13) is a hydraulically switchable coupling. 7. Piston collecting press according to claims 1 to 4, characterized in that the coupling (10) for the feeder elements (11 to 13) is a mechanically switchable coupling. 8. Piston collecting press according to claims 1 and 2, characterized in that the shaft (6) driving the gatherer (9) is assigned a speed and/or torque monitor (18), via which the drive of the feeder elements (11 to 13) is switched off if a preset value is exceeded. 9. Piston collecting press according to claims 1, 2 and 8, characterized in that the overload clutch (8) assigned to the shaft (6) only interrupts the drive for the gatherer (9) after the speed and/or torque monitor (18) has switched off the drive (electromagnetic clutch (10)) for the feeder elements (11 to 13) and the set limit value on the speed and/or torque monitor (18) has already been exceeded.