RU191787U1 - Cultivator on elastic S-shaped racks - Google Patents

Abstract

The utility model relates to agricultural engineering, in particular to tillage implements, namely to cultivators. The cultivator on elastic S-shaped racks contains a frame with rigidly fixed S-shaped elastic racks with legs. The regulators are interconnected rigidly with the help of a rod and articulated with the frame. Plates relating to elastic S-shaped struts are rigidly fixed to the regulators. The lever is rigidly fixed to the rod. In addition, an electric cylinder is introduced, which, on the one hand, is pivotally attached to a lever with a rod using a connecting finger. On the other hand, the electric cylinder is pivotally fixed to the rack of the cultivator frame. The device allows you to maximize the quality of cultivation due to automatic adjustment of the stiffness of a number of elastic stands and ensure the stability of movement of the working body of the cultivator. 1 ill.

Description

The utility model relates to agricultural engineering, in particular to tillage implements, namely to cultivators.

Known cultivator on elastic struts containing a cultivator frame on which S-shaped elastic struts with paws are rigidly fixed. In a series of S-shaped elastic struts, a regulator is installed for a number of them, on the one hand pivotally attached to a finger installed in brackets rigidly mounted on the frame. On the other hand, it is movably connected to the elastic strut using a plate, thereby adjusting the rigidity of the strut (RU 179792, IPC АВВ 33/00, published on 05.24.2018).

A disadvantage of the known device is the mechanical (manual) adjustment of the rigidity of each row of cultivator struts, the constant rigidity of the struts (while the cultivator is moving, the rigidity of the struts does not change), as well as the increase in the time for adjusting the rigidity of each row of elastic struts.

The technical result consists in automatic regulation of the stiffness of each row of racks in separate sections of the field, which allows to minimize the time to adjust the stiffness of the elastic racks.

The technical result is achieved by the fact that the cultivator on elastic S-shaped racks contains a frame with rigidly fixed S-shaped elastic racks with paws. The regulators are interconnected rigidly with the help of a rod and articulated with the frame. Plates relating to elastic S-shaped struts are rigidly fixed to the regulators. The lever is rigidly fixed to the rod. In addition, an electric cylinder is introduced, which, on the one hand, is pivotally attached to a lever with a rod using a connecting finger. On the other hand, the electric cylinder is pivotally fixed to the rack of the cultivator frame.

 Figure 1 shows a General view of the cultivator on the elastic S-shaped racks.

The cultivator on elastic S-shaped struts contains a frame 1 with rigidly fixed S-shaped elastic struts 2 with legs 3. The regulators 4 are rigidly connected to each other by a rod 5 and pivotally connected to the frame 1. Plate 6 relating to the elastic S is rigidly fixed to the regulators 4 -shaped racks 2. A lever 7 is rigidly fixed to the rod 5. An electric cylinder 8 is additionally introduced, which, on the one hand, is pivotally attached to the lever 7 with the rod 5 using the connecting finger 9. On the other hand, the electric cylinder 8 is pivotally attached to the rack of the cultivator frame 10.

The cultivator works as follows. When treating the soil with a working body (paw 3), a variable soil resistance force P acts on it, depending on its physical and mechanical properties and on the depth of processing (this resistance force is different in different parts of the field). Since the density of the soil throughout the field at the same depth, different working body 3 of the cultivator on the S-shaped elastic stand 2 begins to make oscillatory movements. The elastic stand 2 under the action of soil resistance forces begins to deviate along the axes 0X and 0U (axis 0U corresponds to the depth of processing), which leads to non-compliance with agrotechnical requirements. This phenomenon is caused by the low stiffness of the section of the elastic S-shaped strut 2 located between the point of application of the load P and the place of its attachment to the frame 1 of the cultivator.

In the design of the elastic struts 2 introduced regulators 4, allowing to increase the stiffness of the racks 2 by reducing their length. Using the electric cylinder 8, pivotally attached to the rack of the frame 10 and to the frame of the cultivator 1, move the lever 7, rigidly fixed with a rod 5, and that, in turn, is rigidly fixed with the regulators 4, increase the rigidity of the racks 2, thereby increasing their resistance the action of the force P applied to the legs 3 of the cultivator. After moving the lever 7 with the electric cylinder 8 relative to the frame 1, its position remains unchanged. Thus, by automatically moving the lever 7 to different angles, depending on the physicomechanical properties of the soils, it is possible to obtain the required stability of movement of the paws 3 of the cultivator in different parts of the field, thereby reducing the time for adjusting the rigidity of the elastic struts and improving the quality of soil treatment.

Compared with the known solution, the proposed device allows to maximize the quality of cultivation due to automatic adjustment of the stiffness of a number of elastic stands and ensuring the stability of movement of the working body of the cultivator.

Claims (1)

A cultivator on elastic S-shaped struts containing a frame with rigidly fixed S-shaped elastic struts with legs, regulators rigidly connected to each other by a rod and pivotally connected to the frame; plates relating to elastic S-shaped struts are rigidly fixed to the regulators to the rod a lever is rigidly fixed, characterized in that an electric cylinder is additionally introduced, which, on the one hand, is pivotally attached to the lever with a bar using a connecting finger, and on the other hand, pivotally mounted to a rack of the cultivator frame.

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