RU222486U1 - ROTOR OF SOIL TILLAGE MILL - Google Patents

Abstract

The utility model relates to the field of agricultural engineering and can be used for soil cultivation.

The technical result of the utility model is the simplicity of the design and the relatively low metal consumption of the rotor, reducing energy costs for tillage.

The technical result is achieved due to the fact that a knife holder is attached to the rotor holder at an angle α=15...17° to the rotor radius with two screws with countersunk heads with M8 and M4 threads.

The tillage cutter works as follows. As the implement moves forward, the cutter rotor begins to rotate counterclockwise, digging into the soil with knives to a predetermined depth. The rotor knives, moving along the trochoid, perform a plane-parallel movement. Due to the fact that the knife holder is installed at an angle of 15° to the radius of the rotor (rotor holder), the soil pressure (reaction forces) on the knife walls is reduced, which helps reduce energy costs for tillage. The hidden screw heads prevent plant debris from clinging to the rotor, which also helps reduce energy costs for processing. When the knife encounters an obstacle (stone, slab, reinforcement, cobblestone, root, etc.), the screw with M4 thread is cut off, working as a fuse, keeping the knife from breaking.

Description

The utility model relates to the field of agricultural engineering and can be used for soil cultivation.

A rotary tillage implement is known, to the flange of which working bodies are attached, the racks of which are located at right angles to the radius of the rotor (RF patent No. 2606287, class A01B 39/16, 2017). The disadvantage of this technical solution is the occurrence during operation of the cutter of “peak” loads of a moment of resistance arising from the action of soil reaction forces on the side surface of the knife stand. This leads to uneven running of the unit, increased energy costs for soil cultivation, and winding of weeds on protruding parts located above and below the flange.

The closest to the claimed technical solution is the rotor of a tillage cutter (patent for invention RU No. 2626924 c1, class A01B 33/06, 2017), containing a working element, the mounting surface of which makes an angle of 72-74° in the plane of rotation with a radius, wherein the front edge of the L-shaped knife stand is located on the bend line of the holder at a distance exceeding the thickness of the latter. The disadvantage of this design is the high metal consumption of the rotor and the complexity of the device, which contribute to the winding of weeds around the rotor.

The technical result of the utility model is the simplicity of the design and the relatively low metal consumption of the rotor, reducing energy costs for soil cultivation.

The technical result is achieved due to the fact that the knife holder is installed at an angle α=15-17° to the rotor holder, while the knife is secured to the knife holder with two countersunk head screws with thread sizes M8 and M4.

Screws with countersunk heads ensure a low degree of soil sticking and winding of plant residues onto the rotor of the cutter during operation, which reduces energy costs for tillage. A screw with a thread size of M4 additionally serves as a safety device against breakage of the knife when it is cut off when it encounters an obstacle.

The angle α=15...17° of installation of the knife stand to the direction of movement helps to reduce the angle of crumbling of the soil, which significantly increases the process of cutting (tearing) the soil, rather than removing it and shifting it. With this value of angle α, there are no “peak” loads on the knife stand, the smooth running [3] of the cutter is improved, and the moment of resistance of the knife with the soil is reduced, which ultimately leads to a reduction in the cost of tillage.

Consequently, the distinctive features of the utility model compared to the prototype meet the “novelty” criterion.

The utility model is illustrated by drawings, where in Fig. 1 shows the rotor - side view; in fig. 2 - the same, top view; in fig. 3 shows a photograph of the rotor.

The rotor of the tillage cutter consists of a vertical shaft 1 to which the rotor holder 2 is attached. A knife holder 3 is welded to the rotor holder to which the knife 4 is attached using screws 5 (M4 and M8). Bolted connection 6 provides fastening of the shaft 1 and the rotor holder 2.

The tillage cutter works as follows. As the implement moves forward, the cutter rotor begins to rotate counterclockwise, digging into the soil with knives to a predetermined depth. The rotor knives, moving along the trochoid, perform a plane-parallel movement. Due to the fact that the knife holder 3 is installed at an angle of 15° to the radius of the rotor (rotor holder), the soil pressure (reaction forces) on the walls of the knife is reduced, which helps reduce energy costs for tillage. Concealed screw heads 5 prevent plant debris from clinging to the rotor, which also helps reduce energy costs for processing. When the knife encounters an obstacle (stone, slab, reinforcement, cobblestone, root, etc.), the screw with M4 thread is cut off, working as a fuse, keeping the knife from breaking.

This technical solution reduces energy costs for tillage; protects rotor knives from damage.

Information sources:

1. Patent for invention of the Russian Federation No. 2606287, class. A01B 39/16, 2017.

2. Patent for invention RU No. 2626924 c1, cl. A01B 06/33, 2017.

3. Blokhin V.N., Study of the process and working body for caring for the interbush zone in berry fields. Dissertation for the scientific degree of Candidate of Sciences. tech. Sciences / All-Russian Selection and Technological Institute of Horticulture and Nursery Growing - Moscow, 1993.

Claims (1)

A rotor of a tillage cutter containing a vertical shaft with a rotor holder attached to it, to which a knife holder is welded, and a knife attached to the knife holder, characterized in that the knife holder is installed at an angle α=15-17° to the rotor holder, while the knife secured to the knife holder with two countersunk head screws with thread sizes M8 and M4.