SU782743A1 - Cutting device drive - Google Patents

Description

(54) DRIVE OF THE CUTTING MACHINE

The invention relates to the field of agricultural machine-building and can be used to drive the cutting device in harvesters and mowers. Known drive cutting device / made in the form of two shafts with two crank gear mechanisms p. . The disadvantages of such a drive are complexity, greater consumption of materials, low reliability of operation. Closest to the proposed drive of the cutting apparatus, the gear wheels with hubs mounted on the driving gear and the drive shaft are mounted with a finger connected by means of a connecting rod with a segment one, which is eccentrically mounted on the driven wheel. knife pj. However, this drive is intended to impart oscillatory movement to the single-blade cutting tool, which has a low durability and reliability. The purpose of the invention is to ensure the durability and reliability of the noBbiueHVie double-knife cutting unit. This is achieved by placing gears on the drive and driven shafts that have gears that engage with each other, the wheels are round and the drive wheels are eccentric relative to the shaft. with opposite eccentricities, with each pair of meshing wheels being connected to each other by means of plates mounted on the hubs. FIG. 1 shows the drive mechanism, top view; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows a section BB in FIG. 1. The drive mechanism contains a closed housing 1, in which the bearings have a drive shaft 2 eccentrically impressed on it: (and rigidly two identical round gears 5 and 4 with opposite eccentricities (indicated in the figure with a value) relative to the shaft axis. 3 and .4 are matched with driven wheels 5 and 6, which have the same number of teeth as in the leading ones. On wheels 5 and 6, fingers 7 and .8 are fixed and eccentric, the axes of which are parallel to the axis of rotation of the shaft 2, C with fingers 7 and 8 pivotally connected subcontroller 9 and 10 which are connected to blades 11 and 12,

On bearings 13 arranged on concentric with respect to the surface of the teeth of the wheels, cylindrical hubs are fitted with plates 14, which are interconnected by bolts 15 and keep the wheels at a constant center-to-center distance, ensuring their normal operation.

The plate is a rigid part with two large holes, the diameter of the latter being equal to the diameter of the bearings 13, by means of which they are connected to the cylindrical hubs of the gear wheels. The center-to-center distance of the holes in the plate for bearings 13 is equal to the center-to-center distance of the gear wheels.

The distance from the geometric center of the wheels 3 and 4 to the axis of rotation of the drive shaft 2 (the eccentricity of the wheels) is equal to each other and equal to the distance from the geometric center of the wheels. 5 and 5 to the axes of the fingers 7 and 8. At the same time, the gears are in engagement in such a way that, with the shortest distance between the axis of the finger 7 and the axis of the shaft 2, the distance from the axis of the finger 8 to the axis of the shaft 2 will be maximum. ,

The drive of the cutting apparatus operates as follows. The drive from the drive shaft 2 is transmitted to the gears 3 and 4 and from them respectively to the wheels 5 and 6. At the same time, fingers 7 and 8 will perform a rectilinear reciprocating motion, which through leads 9 and 10 is transferred to knives 11 and 12, not creating lateral efforts in their back

Wheels 5 and b make flat movements, where the axes of the fingers 7 and 8 make a straight-line reciprocating movement and simultaneously geometric geometrical centers of the wheels 5 and b make a rotation around the respective axes of the fingers with a radius equal to the eccentricity a.

The plates 14 perform a translational move and any point belonging to them moves in a circle with a radius a. Wheels 5 with respect to wheel b, leash 9 with respect to driver 10 and plates connected with wheels 3 and 5 with respect to plates connected with wheels 4 and 6, will make an opposition movement and balance each other. . The stroke of the knife will be equal to the four eccentricities of the gear, i.e. equals 4a.

The proposed cutting apparatus favorably differs from the known constructions, is reliable in operation, easy to maintain, compact, less energy-consuming, has a high degree of balance and is versatile in its application.

Claims (2)

1. Jacket front mounted universal ZhRB 4, 2. Technical description and operation manual, North Caucasus Intersectoral Center for Scientific and Technical Information, January 10, 1977, p. 11, 12. 2.Turbins B.I. and others. Reducing vibrations and noise in agricultural machines. Kl 0 Mechanical Engineering, 1976, p. 135, fig. 98a.