RU215219U1 - Vibroimpact cultivator section - Google Patents

Abstract

The utility model relates to agricultural engineering. Vibro-impact section of the cultivator, containing a spring-loaded elastic C-shaped tine with a paw in its lower part and a vibro-impact mechanism, which is made in the form of a spring-loaded movable impact mass located on the vertical axis of the elastic cantilever lever, fixed on the back side of the C-shaped elastic tine and movably connected with a paw fastening located in the lower part of the rack and an elastic inclined lever connected to the shank of the elastic cantilever lever, also from the lower expanding spring and the upper spring of the shock mass. The stiffness of the lower expanding spring, mounted on the vertical axis, is less than the stiffness of the upper spring of the impact mass. The utility model provides better loosening of the soil layer. 1 ill.

Description

The utility model relates to agricultural engineering, in particular to devices for tillage.

Known for the developed design section of the cultivator, which contains a working body, holder, longitudinal spring and C-shaped rack. The spring has the possibility of stepless adjustment of the compression of its lower coils. A C-shaped post with a paw is attached to the spring shank. A stand with a paw is mounted on a shank with the ability to move along it (RU 2280343). Such a constructive implementation will reduce traction resistance when processing stony soils [https://findpatent.ru/patent/228/2280343.html]. However, this solution does not implement the periodic phases of compression and destruction of the soil, which does not provide an increase in the degree of crumbling of the soil with minimal resistance.

Known cultivator for continuous tillage (patent RU 2275775). The cultivator contains two rows of working bodies, each of which is mounted on a bracket, which is a sheet with a hole attached with brackets to the frame of the machine, characterized in that a rack of the working body is inserted into the hole without touching the edges, and springs with washers are installed on top and bottom of the sheet , compressed by rack nuts, with one end of each spring inserted into a small hole in the sheet, and the other into a hole in the washer, and a key is installed between the rack and the upper washer. In the process of tillage, the rack makes oscillatory movements. The rigidity of the springs allows the rack to make small oscillatory movements in the horizontal and vertical planes, which reduces the traction resistance of the machine [https://findpatent.ru/patent/227/2275775.html].

The disadvantage of this design is the slight fluctuations of the paw, which make it possible to protect the working bodies from interaction with stones, without qualitatively improving soil cultivation due to the low degree of oscillatory action of the working body.

This disadvantage is eliminated by installing a vibro-impact section of the cultivator.

The technical task of installing a vibro-impact section of the cultivator is to provide better loosening of the soil layer.

The problem is solved by the fact that a device containing a spring-loaded elastic C-shaped rack with a paw in the lower part and a vibro-impact mechanism, while the vibro-impact mechanism is made in the form of a spring-loaded movable shock mass on the vertical axis of the elastic cantilever lever, fixed on the back side of the C-shaped elastic rack and movably connected by an elastic inclined lever, by means of a shank of an elastic cantilever lever with a paw fastening with a rack, and a lower spring on the vertical axis with a stiffness less than the stiffness of the upper spring of the shock mass.

Features common with the prototype:

spring-loaded elastic C-shaped rack with a paw in the lower part,

vibration mechanism.

Features:

the vibro-impact mechanism is made in the form of a spring-loaded movable impact mass,

the impact mass is located on the vertical axis of the elastic cantilever arm,

the cantilever lever is fixed on the back side of the C-shaped elastic rack and is movably connected by the elastic inclined lever, by means of the shank of the elastic cantilever lever with the paw fastening with the rack, and the lower spring on the vertical axis,

the stiffness of the spring on the vertical axis is less than the stiffness of the upper spring of the impact mass.

The figure shows the vibro-impact section of the cultivator.

The device contains a spring-loaded elastic C-shaped rack with a paw 1 in the lower part and a vibro-impact mechanism, which is made in the form of a spring-loaded movable shock mass 2 on the vertical axis 3 of the elastic cantilever lever 4, fixed on the back side of the C-shaped elastic rack and movably connected by an elastic inclined lever 5, by means of the shank of the elastic cantilever lever 4 with the fastening of the paw with the stand 1. The stiffness of the lower expansion spring 7, mounted on the vertical axis 3, is less than the stiffness of the upper spring 6 of the impact mass 2.

The proposed design works as follows.

During the operation of the cultivator, the vibration of the arm of the lancet share 1, which occurs due to the heterogeneity of the soil, is transmitted through the elastic cantilever arm 4 to the spring-loaded, mobile shock mass 2 installed on the vertical axis, which strikes the shank of the lever of the elastic cantilever arm 4. Different rigidity of the upper and lower springs due to the reverse friction, create conditions for the occurrence of an increase in the frequency of vibration, amplitude and transfer it with an elastic inclined lever to the lower part of the rack and the lancet paw.

Thus, conditions are created for high-quality loosening of the soil layer and reducing the traction force of the cultivator due to the vibration that occurs on the cultivator foot.

Claims (1)

Vibro-impact section of the cultivator, containing a spring-loaded elastic C-shaped stand with a paw in its lower part and a vibro-impact mechanism, characterized in that the vibro-impact mechanism is made in the form of a spring-loaded movable shock mass located on the vertical axis of the elastic cantilever lever, fixed on the back side of the C-shaped elastic stand and movably connected to the paw mount located in the lower part of the stand and the elastic inclined lever connected to the shank of the elastic cantilever lever, as well as from the lower expander spring and the upper spring of the shock mass, while the rigidity of the lower expander spring mounted on the vertical axis, less than the stiffness of the upper shock mass spring.

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