RU187476U1 - Tillage working body - Google Patents

Abstract

The utility model relates to the field of agricultural engineering, in particular, to the working bodies of tillage tools. The device comprises a cultivating paw, a spring-loaded C-shaped rack with an anvil on its back side, a pendulum striker and a limiter, the limiter lever is made in the form of the curvature of the rack and mounted on an adjustable sector of the frame with the possibility of changing the angle of its placement, which makes it possible to adapt the striker to the amplitude of oscillations C-shaped strut, depending on the type of soil, the spring-loaded hammer of the limiter is made in the form of a rod with a hemispherical head and a hemispherical guide mounted inside the cylinder drich case with a hemispherical guide at the end on which the coil spring is located. The technical result is to reduce traction resistance and at the same time increase the efficiency of surface loosening of the soil by increasing the degree of crumbling, increasing the reliability of the tillage implement. 1 ill.

Description

The utility model relates to the field of agricultural engineering, in particular, to the working bodies of tillage tools.

Known working body of the cultivator KPE-3.8, which contains a frame, a spring-loaded C-shaped rack and lancet paw (Karpenko A.N., Khalansky V.M. Agricultural machines. - M .: Agropromizdat, 1989). This device provides oscillatory movements of the lancet paws in the soil due to variable resistance and the spring device of the C-shaped rack, which allows to slightly reduce the resistance to movement of the cultivator paws in the soil and the traction resistance of the tillage unit as a whole.

A disadvantage of the known device is that the oscillations of the working body in the soil are unstable and strongly depend on its specific resistance, since the adjustment of the spring device of the C-shaped rack can be carried out only periodically when the tillage unit stops, and the potential energy of the spring device is not used during compression or tension its springs. As a result, the specific resistance to movement of the cultivator paw and traction resistance

of the cultivating unit are reduced slightly and there is no increase in the degree of crumbling of the soil and, consequently, an improvement in its quality

processing.

A cultivator is known in which the working bodies are mounted on elastic struts having turns oriented at an angle of 45 degrees in the direction of movement of the machine (A.S. 1535397 A01B 23/02, 1988).

The disadvantage of such racks is that they do not have the ability to regulate the elasticity of the racks depending on the hardness of the treated soil, which is why the turns are made thick, have a large mass and metal consumption.

The closest analogue of the utility model is the cultivator working body, which includes a frame, a spring-loaded C-shaped strut and a pointed arm, additionally containing a pendulum-type shock mechanism with a swinging lever mounted on the rear side, the upper side of which is fixed to the axis of rotation and is mounted on its lower side the drummer, while the axis of rotation of the swinging arm is mounted on the stand with the possibility of changing its position in height relative to the cultivator paws, and the length of the swinging arm of the pendulum is adjustable (UA patent No. 28178 IPC АВВ 33/00. Working body of the cultivator // Babitsky L.F., Tarasenko V.I., Kusenko Yu.Yu. Claimed 03.08.2007, published 26.11.2007).

The reasons that impede the achievement of the required technical result when using the known device adopted for the closest analogue include the fact that the design allows you to save the working body from breakdowns due to the spring-loaded strut, but the vibrations of the working body with one hammer, which occur, have small the frequency and unregulated amplitude of the oscillations, as a result of this, the crumbling of the soil practically does not improve, which is a significant drawback of this device.

The essence of the utility model is as follows.

The problem to which the claimed utility model is directed,

- increasing the efficiency of cultivation, depending on the type of soil by reducing the diameter of the lumps and increasing the yield of plant residues during their intensive crumbling, while increasing the degree of reliability and reducing the traction resistance of the implement.

The technical result is to reduce traction resistance and at the same time increase the efficiency of surface loosening of the soil by increasing the degree of crumbling and increase the reliability of the tillage implement.

The specified technical result in the implementation of the utility model is achieved by the fact that the tillage working body contains a cultivating paw, a spring-loaded C-shaped rack with an anvil on its back side, a pendulum hammer and a limiter. The limiter lever is made in the form of the column curvature and mounted on an adjustable sector of the frame with the possibility of changing the angle of its placement, which makes it possible to adapt the drummer to the amplitude of vibrations of the C-shaped rack depending on the type of soil. The spring-loaded striker of the limiter is made in the form of a rod with a hemispherical head and a hemispherical guide mounted inside a cylindrical body with a hemispherical guide at the end on which an expandable coil spring is located, which provides an increase in shock pulses arising between the anvil and the hemispherical head with a hemispherical and between this hemispherical etching with the hemispherical guide at the end on which the expanding coil spring is located.

The utility model is illustrated in the drawing.

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

Tillage working body contains a cultivating paw 1 (Fig. 1), a spring-loaded C-shaped rack 2 with an anvil 3 on its rear side, a pendulum hammer 4 and a limiter 5. The lever 6 (Fig. 1) of the limiter 5 is made in the form of the curvature of the rack 2 and mounted on an adjustable sector 7 of frame 8 with the possibility of changing the angle of its placement, and the spring-loaded striker 4 of the limiter 5 is made in the form of a rod 9 with a hemispherical head 10 and a hemispherical guide And mounted inside a cylindrical body 12 with a hemispherical guide 13 on a swarm is located expandable coil spring 14.

Tillage working body operates as follows. When the working body moves along the field, the loosening paw 1 deepening into the soil creates a bending moment on a spring-loaded C-shaped rack 2 with an anvil 3 on its back side. Oscillations of the spring-loaded C-shaped strut 2 arise, which are transmitted through the anvil 3 in the form of impacts to the hemispherical head 10 of the spring-loaded striker 4. The hemispherical head 10, together with the hemispherical guide 11 installed inside the cylindrical body 12, moves to the hemispherical guide 13 and a back impact occurs there. In this case, due to the expanding coil spring 14, the hemispherical head 10 returns to its original position and creates an impact on the anvil 3. As a result, a double shock pulse is created, which intensifies the self-oscillation process of the pendulum striker 4 on the spring-loaded C-shaped post 2. Also, the lever 6 of the limiter 5 is made in the form of curvature of the spring-loaded C-shaped rack 2 and mounted on an adjustable sector 7 of the frame 8 with the possibility of changing the angle of its placement, which makes it possible to adapt the hammer 4 to the amplitude of the vibrations of the C-image Second pillar 2, depending on the soil type.

This increases the reliability of the design, leads to a decrease in traction resistance of the tillage working body and an increase in the degree of crumbling of the soil.

Using the proposed tillage working body will reduce traction resistance and at the same time increase the efficiency of surface loosening of the soil by increasing the degree of crumbling.

Claims (1)

Tillage working body containing a cultivating paw, a spring-loaded C-shaped rack with an anvil on its rear side, a pendulum hammer and a limiter, characterized in that the limiter lever is shaped according to the curvature of the rack and mounted on an adjustable sector of the frame with the possibility of changing the angle of its placement, and The spring-loaded hammer of the limiter is made in the form of a rod with a hemispherical head and a hemispherical guide mounted inside a cylindrical body with a hemispherical guide at the end, on which Oh located unclenching twisted spring.

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