RU176202U1 - The working body of the disk cultivator - Google Patents

Abstract

The utility model relates to the field of agricultural engineering, in particular to the working bodies of cultivators for soil treatment.

The device comprises spherical disks mounted on a common axis and assembled into a battery. Spherical disks freely mounted on a common axis at an angle of 15–20 ° are rigidly pairwise interconnected along the outer circumference by cutting knives with a cutting edge in the form of a logarithmic curve and the top of the cutting knife with the shape of the side surfaces in a logarithmic spiral with the possibility of adjusting the angle of the cutting knives and their quantities by means of mounting holes, locking fingers and bolted joints in spherical discs.

The technical result consists in increasing the efficiency of surface loosening of the stubble soil background in width and depth with the formation of a mulching layer during peeling.

Description

The utility model relates to the field of agricultural engineering, in particular to the working bodies of cultivators for soil treatment.

Known disk cultivator LDG-5, including a frame, support wheels, bars with four disk batteries, a hydraulic mechanism for lifting the battery and equalizer ("Agricultural Machines". - 5th ed. Rev. Rev. add. // Karpenko AN, Halansky V. M. - M .: Kolos, 1983.- 495 s).

The reasons that impede the achievement of the required technical result when using the known device include the unsatisfactory quality of mulching of the stubble background and incomplete cutting of weeds.

Also known is a disk harrow containing a frame and spherical disks. Spherical disks are arranged in rows at an angle of attack and an angle of inclination to a vertical plane. Disks of the first row are made with a smaller diameter, and disks of the following rows with a larger diameter. Disks of all rows have the same level of penetration (patent No. 2383118, АВВ 21/08, published on March 10, 2010).

The disadvantage of this harrow is that it has a large pulling force and mass, which does not provide the proper quality of crumbling the soil and embedding the stubble mass in the upper soil layer during processing. For aggregation, heavy tractors 3 and 5 are required, which negatively affects soil fertility. At higher soil moisture, the harrow becomes inoperative.

The closest analogue of the utility model is a tillage implement, including a frame and spherical disks (RF patent No. 2453086, publ. 20.06.2012).

The main disadvantage of the described tillage implement is its low reliability due to the presence of the required active drive on the working bodies and the necessary power consumption from the tractor for its operation. If it fails during loosening of stony soil, the quality of processing the stubble background with the formation of the necessary mulching layer will be reduced.

The essence of the utility model is as follows.

The device includes spherical disks mounted on a common axis, assembled into a battery, and spherical disks freely mounted on a common axis at an angle of 15–20 °, are rigidly paired together along the outer circumference by cutting knives with a cutting edge in the form of a logarithmic curve with the possibility of adjusting the angle the location of the cutting knives and their number by means of mounting holes, locking fingers and bolted joints in spherical disks, and the top of the cutting knife is made with the shape of the side surfaces along logarithmic spiral.

The problem to be solved by the claimed utility model:

increasing the efficiency of surface loosening of the stubble soil background in width and depth with the formation of a mulching layer during peeling, with an increase in the reliability of the device.

The technical result is to increase the efficiency of surface loosening of the stubble background of the soil in width and depth with the formation of a mulching layer during peeling.

The specified technical result in the implementation of the utility model is achieved by the fact that the working body of the disk cultivator includes spherical disks mounted on a common axis, assembled into a battery. Spherical disks freely mounted on a common axis at an angle of 15–20 ° are rigidly paired with each other along the outer circumference by cutting knives with a cutting edge in the form of a logarithmic curve, which contributes to the complete cutting of the stubble background and its movement to the inner surface of the hemispherical disks, where it rotates and mixing to form a mulching layer. The top of the cutting knife is made with the shape of the side surfaces in a logarithmic spiral and allows high-quality engagement of the knives with the soil without slipping. The ability to adjust the angle of the cutting knives and their number by means of the mounting holes, retaining fingers and bolted joints in the spherical disks provides the formation of a mulching layer at different processing depths.

The utility model is illustrated by drawings.

In FIG. 1 shows a General view of the working body of the disk cultivator, side view.

In FIG. 2 - shows a General view of the working body of the disk hoe, top view.

The working body of the disk cultivator contains mounted on a common axis 1 spherical disks 2 (Fig. 1), assembled into a battery (Fig. 2). Spherical disks 2, freely mounted on a common axis 1 at an angle of 15–20 °, are rigidly paired with each other along the outer circumference 3 by cutting knives 4 with a cutting edge 5 in the form of a logarithmic curve and the top of the cutting knife 6 with the shape of the side surfaces 7 in a logarithmic spiral adjusting the angle of the cutting knives and their number by means of the mounting holes 8 (Fig. 1), locking fingers 9 and bolt joints 10 in the spherical disks 2.

The working body of the disk cultivator works as follows. When the working body of the disk cultivator moves, the top of the cutting knife 6 with the shapes of the side surfaces 7 is inserted into the stubble background and rotates the spherical discs 2 along the logarithmic spiral 2. Cutting knives 4 rigidly connected to each other along the outer circumference 3 with the cutting edge 5 enter the soil in the form of a logarithmic curve formation to the required depth, regulated by a different arrangement in the mounting holes 8, retaining fingers 9 and bolt joints 10 in the spherical discs 2. This undergoes a qualitative undercut the formation of the soil with a stubble background over the entire width of the capture of knives 4 with hemispherical disks 2 and its movement on the inner surface of hemispherical disks, where due to pairwise freely installed on the common axis 1 of the spherical disks 2 at a angle of 15-20 ° there is a partial revolution of the formation and mixing with the formation of a mulching layer.

Using the proposed working body of the disk cultivator will increase the efficiency of surface loosening of the stubble soil background in width and depth with the formation of a mulching layer during peeling, with an increase in the reliability of the device.

Claims (1)

The working body of the disk cultivator, including spherical disks mounted on a common axis, assembled into a battery, characterized in that the spherical disks freely mounted on a common axis at an angle of 15–20 ° are rigidly paired together along the outer circumference by cutting knives with a cutting edge in a logarithmic form curve with the ability to adjust the angle of the cutting knives and their number through the mounting holes, retaining fingers and bolt joints in the spherical discs, and the top of the cutting knife you complete with the shape of the side surfaces in a logarithmic spiral.

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