SU884594A1 - Machine for making platforms on slopes - Google Patents

Description

I

The invention relates to agricultural machinery, in particular to machines for terracing slopes for planting forest crops.

A known machine for the formation of pads on slopes, consisting of a rotary working body, covering its frame, a drive mechanism and a base weight of 1.

The disadvantage of this machine is that when working on stony slopes, due to the occurrence of strong dynamic loads, the machine has low performance indicators both in performance and quality, and in operational reliability.

The closest in technical sense to the offer is a machine for the formation of sites on the slopes, including the baseline trailer; . a frame with a mechanism for lifting and lowering it, mounted on it by a rotor tool for working out the soil, made in the form of a disk with bucket-like tools and mounted behind it at an angle to the direction of movement by the blade, as well as a drive mechanism for the rotor tool (2).

A disadvantage of the known machine is that when the depth of development exceeds the height of the rotor bucket, the latter comes into contact with the uncleared part of the soil with its passive area, which eliminates further work. In addition, during the development of solid soils with stony inclusions, the reaction of resistance of soils to destruction by cutting, conducted directly by a rotary tool, is transmitted to the tractor, turning the latter. As a result, the pathway to the Christ does not always succeed in maintaining the horizontal line of the terrace, which reduces the quality indicators of the terrace.

The purpose of the invention is to increase the productivity and quality of work.

This goal is achieved by the fact that the machine is equipped with an end milling cutter installed in front of and coaxially with the rotary tool and having a diameter larger than the diameter of its disk.

FIG. Figure 1 shows a side view of a machine for forming slopes on a slope; in fig. 2 is the same, front view.

Maiiinna for the formation of plots on the slopes of co: a rotary working body 1, in front of which GOOCHO with face milling 2 is fixed to it. The rotor working body 1 and face milling 2 are connected to the gear 3, which in turn is pivotally connected to the tubular frame 4. On the frame 4, a blade 6 is fixed by means of a ring 5. The angle of installation of the blade 6 relative to the horizon is adjusted by the hydraulic cylinder 7, which is pivotally attached to the frame 4 at one end and the blade 6 with one end. The frame 4 in the longitudinal-vertical plane is carried out by the hydraulic cylinder 8. The transfer of the rotary working body 1 and the end mill 2 from the working position to the transport one and back is carried out by the hydraulic cylinder 9; and their drive is carried out from the tractor's PTO (not shown) by means of a cardan gear 10 located inside frame 4 and gearbox 3. The kinematic scheme of gearbox 3 is designed so that the rotary tool I and the end mill 2 rotate in opposite directions to each other . Rotary working body 1 consists of a disk II with a clam-like working bodies 12, and. the diameter of the end mill 2 is larger than the diameter of the disk 11 of the rotary working body 1.

Maschina works as follows.

The machine is set across the slope. The tractor's PTO (not shown) is turned on, and the rotation through the driveline 10 and the gearbox 3 are transmitted to the rotary tool i and the face milling cutter 2, which begin to rotate in opposite directions relative to the other. The frame 4 is lowered by the hydraulic cylinder 9 until the rotary working body 1 contacts the soil, after which the hydraulic cylinder 8 is used to rotate the working body 1 with the face milling cutter 2 vertically. During the forward movement of the aggregate, the cut soil is taken up by the bucket-like working bodies 12 of the rotary working body 1 and dumped into the bulk part of the terrace. As soon as the working bodies 12 of the rotary working body 1 are completely submerged in the soil, a face milling cutter 2 comes into operation, which, as it deepens, cuts the soil in front of the rotary working body I and throws it towards the embankment. As soon as the machine will take a horizontal position

The blade 6 by the hydraulic cylinder 7 (depending on the required profile) is set in the appropriate position by rotating the ring 5 relative to the longitudinal axis of the frame 4. When the machine is moving forward, the face milling cutter 2 in front of the rotary working body 1 spreads the soil into the embankment; the image of the groove of the segmental profile, eliminating the possibility of contact of the disk 11 of the rotary working body 1 with the undiluted part of the soil. The remaining monolithic part of the soil is rotary, the working body 1 loosens, loads into the bucket-shaped workers 12 and transports them to the embankment of the terrace. When developing the soil, the face milling cutter 2 and the rotary working body 1 rotate in opposite directions; therefore, the reaction forces perceived by them from cutting the soil are also directed in opposite directions, mutually balancing one another, excluding the possibility of the adverse effect of reactive forces on the machine. The final layout of the bulk part of the terrace cloth is carried out by the blade 6, which gives the terrace a finished profile. ; The use of the proposed machine saves about 3,000 rubles. per year and significantly improve the quality of work.

Claims (2)

1. USSR Author's Certificate No. 235435, cl. A 01 B 49/02, 1967. 2. USSR author's certificate No. 424514, cl. And 01 В 13/16, 1974 (prototype). 12. fPu.t