CS201969B1 - Working rotor particularly for the appliances for treating and renewal of the pasture lands - Google Patents

Description

The present invention relates to a working rotor, in particular for pasture treatment and restoration equipment.

A number of machines, mainly agricultural ones, are provided with rotating working bodies. The most well-known and widespread are designed in such a way that the working rotor is formed by a support tube, provided with a series of gripping feet, between which the own working members, mostly of suitably shaped strip steel, are mounted on the pins. The entire rotor is then supported by bearings in the frame structure of the adapter or machine and connected to the drive system. Working rotors of this type are mainly used in agricultural machines, especially for forage harvesting, and in exceptional cases also in manure spreaders, where their function and strength dimension is fully satisfactory. When an obstacle is encountered on an occasional occasion, the respective working body is swiveled around the pin and thus the obstacle is overcome. However, the rotors of these constructions cannot be used in land with large terrain projections and frequent occurrence of foreign objects, such as stones, or for liquidation of shrubs and woods.

Embodiments are known which attempt to solve the problem of the disposal of thicker shrubby or woody vegetation. In these constructions, the mounting feet are replaced by triangular flanges and the working body itself is formed by massive forgings placed on the pins. This has achieved widespread usability, but at the expense of increasing vibration of the rotor and of the machine as a result of the imbalance of some working members is imbalance and the triangular flanges irregularly encounter an obstacle. Therefore, in other known embodiments, this problem is solved

201 969 such that circular flanges are arranged on the support tube, between which massive working members are rotatably mounted. This arrangement allows the machine to be used even under the most severe conditions or when hitting an obstacle that cannot be removed by the energy of the rotating workpieces, it is lowered and the workpieces are fully inserted into the flanges. The frictional resistance of the circular flanges is then small and the obstacle can be overcome without increasing the torque disproportionately. These working rotor arrangements are suitable for wood debris removal and shredding machines. The disadvantage of these arrangements is that the working organs go narrower than their pitch on the rotor, and even when the working organs are folded into the flanges, spaces are created where the functions of these organs cannot fully apply and the engagement surface is unevenly adjusted. This drawback prevents more versatile use, especially in pasture treatment and butt elimination devices.

The purpose of the invention is to provide such a working rotor, in particular for a pasture treatment and restoration device which largely removes the above-mentioned drawbacks and is universally suitable for removing woody and shrubby vegetation, eliminating anthills, minor terrain irregularities and the like.

According to the invention, the discs are provided with recesses and at least one hinge pin is provided between two adjacent discs with a bearing surface adapted to be in contact with the stop surface of the disc recess.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front elevational view of the working rotor; FIG. 2 is a side elevational view of a three-row rotor;

The working rotor consists of a support shaft 1, on which disks 2 of the indicated diameter D in the marked width H of two adjacent disks 2 are provided throughout the working engagement. In the resulting space of marked width H between two adjacent disks 2, at least one hinged pin 3. For production reasons, it is desirable that one pin 4 secures multiple pins 3 in the same row; then, in the space between two adjacent discs 2, where no stud 3 is mounted, a spacing tube 5 is provided on the stud 4. The studs 3 must be arranged along the circumference of the rotor discs 2 and the rotor length in at least two rows. the flails 3 are replaced by a counterweight. From the cost point of view, it seems advantageous to use a three-row rotor as shown in Fig. 2. For easier balancing, reducing vibration and improving rotor function, the discs 2 can be modified along the rotor in at least two sections and the individual sections rotated relative to a * so that the rows of hinge pins 3 of one section are arranged between the rows of hinge pins 3 of the other section, i. in the case of a three-row rotor rotated by 60 ° In the disks 2, recesses 6 are formed opposite to the direction of rotation of the rotor so as to allow insertion of the respective braid 3 into the recesses 6 on which the stop surface 9 is provided. preferably, the operable part of the replaceable part is formed by two abutment surfaces 8 and blades 7 whose rake angle A. is acute. When the pigtail 3 is lowered into the recess 6 so that the abutment surface 8 rests against the abutment surface 9, as shown in dashed lines in FIG. 2, one lip 7 of the hinge pin 3 exceeds the diameter D of the disks 2 and forms an impact angle that is blunt. In order to be able to abut the hinge pin 3 on the abutment surface 9 of the recess 6, the active portion of the hinge pin 3 with the abutment surface 8 must be wider than the space between adjacent disks 2, for example identical to the outer edge of the disks 2 as shown in FIG.

The working rotor according to the invention operates as follows: when the device (not shown) is operated, the working rotor rotates and the rotating Tilting pins 3 assume the position shown in Fig. 2 under the influence of centrifugal force. hinge pins 3 with respective blades 7 surface of the plot. If the cutting resistance on the cutting edge 7 is less than the kinetic energy of the pivoting pin 3, there is no forced change of its position. After the blade 7 hits the obstacle, the cutting resistance is increased so that the pin 3 is folded around the pin 4 into the recesses 6 of the disks 2 and the bearing surface 8 of the pivot pin 3 rests on the stop surface 9 of the recess 6. and the size of the operative part of the hinge pin 3 allows one of the blades 7 to exceed the diameter D of the disks 2, thereby producing an impact angle which is blunt. 1, similar cutting conditions are maintained with this pivoting of the bolt 3, but the cutting edge 7 exerts a greater cutting force due to the forced movement of the pivoting bolt 3 and reducing the engagement diameter while maintaining the working torque. If even this greater cutting force is not sufficient to adapt the obstacle, the action of the cutting resistance on the blade 7 of the pin 3 will lift the entire rotor and thereby overcome the obstacle. Upon tilting the pins 3 into the recesses 6 of the disks 2, an almost circular shape is formed which pushes the working rotor over an obstacle with minimal undesirable vibration, easily damped machine designs. After the obstacle has been adjusted or overcome, the pivoting pin 3 extends from the recess 6 by the centrifugal force and returns to the starting position. The width of the pivoting bolt 3 is selected such that the adjacent pivoting bolts 3 always overlap each other so that even when one of the bolts 3 is tilted, the untreated surface cannot be reached.

Claims (2)

SUBJECT OF THE INVENTION A working rotor, in particular for a pasture treatment and restoration machine, provided with discs on the support shaft, characterized in that the discs (2) are provided with recesses (6) and between two adjacent discs (2) by a pin (4) at least one hinge pin (3) provided with a bearing surface (8) adapted to contact the stop surface (9) of the recess (6) of the disc (2). Working rotor according to claim 1, characterized in that a cutting edge (7) provided with an acute angle (??) Is provided on the hinge pin (3) against the bearing surface (8).