RU2330398C2 - Assembly of agricultural equipment - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the tillage tools for inter-row and steam cultivation, handling and cultivation of plants on fields contaminated with stones and weeds and fields of heavy, middle and light soils. The assembly consists of frame, leg with shank and screw, conjugated surfaces mode in the form of semi spheres. The bearing disk is fixed on the leg. The spring is installed between the bearing disk and frame. The fixing hooks are made along one axes on the ends of the spring, the said hooks lock respectively onto the grooves of the bearing disk and frame. One end of the spring locks into the fixed ring, and the other is tightly put on the collar of the bearing disk.

EFFECT: construction of the universal assembly of agricultural equipment ensuring reliability.

3 dwg

Description

The invention relates to the field of agricultural machinery, in particular to tillage tools for inter-row and steam cultivation, treatment and care of plants on fields littered with stones and vegetation, heavy, medium and light soils.

Known tillage implement in which the working bodies are fixed on the frame rigidly, and their stand is made hollow of two parts connected to each other by a ring mechanism and a compression spring - US patent No. 2358531, cl. 172-709, 1944.

The disadvantages of the known tools are low reliability with increased lateral loads, as well as insufficiently quick return of the working body to its original position.

In recent years, cultivators ATD 18.30 (FG - 18.30) and FG - 12.30 manufactured by Horsch - Agro-Soyuz (Germany-Ukraine) have gained wide popularity. These are versatile and efficient machines. Of particular interest to us is the design of the main working unit of the cultivator ADT 18.30, which is taken as an analogue of the invention.

The cultivator ADT - 18.3 is designed for multi-depth tillage, it is universal and carries out a number of other operations during primary tillage. The advantages of this type of machine include the ability to retain moisture and level the seedbed.

The presence of a frame of articulated links allows you to work stably and reliably with continuous surface tillage at depths of 7-20 cm after harvesting. Equipping a progressive safety device, with a spring loaded for plowing, allows you to successfully work on stony soils. The standard response pressure of these agents is 280 kg. In addition, they have high performance and good environmental and economic indicators. They are easy to maintain and have a good design.

However, one cannot but note a number of disadvantages. They consist in the fact that the design of the main working unit and the mechanism of its attachment to the common frame in this design do not allow the rack to bypass the side obstacle at the depth of the soil tillage and then return to its original position. And this inevitably leads to the destruction of the site or a decrease in reliability with the size of the obstacle over 10 cm in diameter.

This drawback significantly reduces the reliability and efficiency of the use of these units when using them on unaligned and stone-clogged fields.

Stones, the sizes of which reach 10-40 cm in the nominal diameter, located in the soil at technologically acceptable processing depths, in contact with the working bodies, create additional resistance up to 1200 kg / s, depending on the size.

The individual components and parts of the Horsch - Agro-Soyuz aggregate cannot withstand such loads. This is evidenced by the statement of the developers themselves - "The standard pressure of the progressive fuses for plowing stony soils is 280 kg."

The closest technical solution to the proposed invention is a harrow - Copyright Certificate of the USSR No. 619133, class. A01B 21/00, consisting of a frame, teeth, the mating surfaces of which are made in the form of hemispheres, each tooth is equipped with a tail and a supporting washer, between which an elastic element is installed in the form of a conical spring.

When encountering an obstacle, the tooth may deviate in any plane or bend somewhat, bypassing it, then the elastic element returns the tooth to its original position. According to a number of features, this design is the closest to the proposed invention, a prototype. However, without radical design changes, its use as a working body for steam and inter-row cultivation is impossible due to the following disadvantages.

When encountering an obstacle, the harrow tooth can deviate in any plane under the action of reaction forces exceeding the elastic forces of the conical spring and the friction forces between the hemispherical surfaces of the hinge. Thus, the tooth with the shank rotates around a vertical axis at a certain angle and remains in this position.

The presence of a conical spring gives the tooth the opportunity to take a vertical position each time, but cannot return the rack to its original position in the horizontal plane.

The use of the design of this invention in cultivators, instead of racks with a working body, without a fundamental change is unacceptable. This is due to the fact that the position of the rack in the horizontal plane will constantly change, which will lead to a sharp increase in traction resistance of the unit, breakdowns and excessive consumption of fuel, since the working bodies will become transverse.

Given the above, the technical task of the invention is as follows: the creation of a universal node of an agricultural machine, providing increased reliability due to the deviation of the working body when faced with an obstacle in all directions with instant return to its original position.

The technical result is achieved by the fact that new elements are added to the known features of the previously created analogues and prototype, which significantly increase the technical and economic parameters when they are used in an agricultural machine in comparison with the known ones.

The technical problem is solved as follows.

The agricultural machine assembly includes a frame, a stand with a shank and a nut, the mating surfaces of which are made in the form of hemispheres. A support washer is fixed to the stand. A spring is installed between the washer and the frame. At the ends of the spring, locking hooks are made along one axis along the grooves of the supporting washer and frame, respectively. In this case, one end of the spring enters the stationary ring, and the other is tightly mounted on the annular protrusion. At the end of the rack, a working body is fixed.

The essence of the implementation of the technical task is disclosed in the following diagrams:

figure 1 - node agricultural machinery;

figure 2 - arrangement of newly created nodes on an agricultural machine;

figure 3 - machine-tractor unit.

As can be seen from figure 1, the node of the agricultural machine includes a frame 1, a stand 2 with a shank 3 and a nut 4, the mating surfaces of which are made in the form of hemispheres 5, and a support washer 6 is fixed on the stand 2. A spring 7 is installed between the washer 6 and frame 1, characterized in that at the ends of the spring 7, locking hooks 8 are formed along one axis and are included in the grooves 9 of the support washer 6 and the frame 1, respectively. In this case, one end of the spring 7 enters the stationary ring 10, and the other is tightly mounted on the annular protrusion 11 of the support washers 6.

The proposed site of the agricultural machine operates as follows.

Agricultural tillage unit, as can be seen from figure 2, depending on the destination is equipped with nodes presented in figure 1.

For example, as can be seen from figure 2, for continuous tillage (steam cultivation), such nodes are mounted in a checkerboard pattern on the front and rear beams of the unit. Before starting work, the fasteners are tightened. Depending on the application of the unit on soil types - light, medium, heavy, the tightening value of the nut 4, from the end of the rack 3, should be respectively: 16; 20 and 28 mm.

Further, the unit, as can be seen from figure 3, clings to the tractor 1, and the linkage rods 3, is adjusted so that the plane of the base of the cultivator legs on the nodes, relative to the horizon of the site was 5-7 °.

The wheels 6, mounted on the uprights 5, are lifted manually vertically and fixed so that the difference between the lower point of the wheels and the lower plane of the cultivator paws is equal to the technological depth - h tillage. The unit is ready for operation and in transport position delivered to the destination. By switching the tractor hitch to the neutral position, the implement lowers to the ground at the beginning of the field. The gear is engaged in forward movement of the machine and tractor unit, and after a few seconds, the posts 2 with paws are deepened to the required depth. Under the influence of forces to resist the advancement of nodes in the soil, the posts 2 bend back.

While the coils of the front of the spring 7 are stretched, and the rear are compressed. The coupling of the hemispherical nut 5 and the holes on the frame 1, together with the spring 7, the hooks 8 and the holes 9 for the hooks, contribute to the instant return of the rack 2 to its original position.

Due to the fact that on the foot 12 in the soil, resistance forces to move it in the soil, the post 2 with the foot 12 will deviate backward, turning at the point of spherical mating 5. Pulling the spherical nut from the end of the post by a certain amount will allow the plane to oscillate during operation legs within ± 1 ° relative to the horizon - the optimal plane parallel to the horizon.

If during operation the foot 12 encounters an obstacle that forces it to deviate simultaneously back, up and to the side, and even slightly rotate around its axis, then the coil spring 7 with hooks 8 is able to compensate for them, and then, after bypassing the obstacle, return the post 2 to its original position position.

Thus, the technical task set for implementation is solved by the totality of the proposed technical solutions. The execution on the ends of the spring 7 of the locking hooks 8, respectively included in the grooves 9 of the support washer 6 and frame 1, provides:

- deviation of the rack in any direction and return instantly to its original position;

- improving the reliability of the site as a whole in comparison with well-known analogues of leading companies;

- increase the resource of the node during its operation in heavy and rocky areas.

The presence of a fixed ring 10, encircling the spring 7, and an annular protrusion 11 on the support washer 6 contribute to a clear fixation of the spring 7. The location of the hooks 8 and the grooves 9, along the same axis with the compression direction, allows during the turns of the spring 7 to exclude the possibility of the hooks 8 falling out of grooves 9.

Thus, the assigned technical task is fulfilled - the creation of a universal unit, increasing the reliability of the agricultural machine by providing the technical ability to deflect the working body when meeting an obstacle in all directions with instant return to its original position.

The economic efficiency of the machine is to reduce the cost of repairing an agricultural machine by 30-35%, increasing the efficiency of operation and the service life of the unit by 25-30%.

The universality of fastening the working bodies to the rack will allow expanding the functionality of the unit when used in sowing, deep loosening, plow-less plowing, steam and row cultivation, hilling and cutting ridges, and applying mineral fertilizers. An agricultural machine assembly with new features is easy to manufacture, as new non-standard parts are easy to manufacture. And the profitability of their production as a whole, according to estimates, will be from 30 to 40%. Given the above, the unit is planned to be produced at the production site of DPNB LLC.

Claims (1)

An agricultural machine assembly including a frame, a stand with a shank and a nut, the mating surfaces of which are made in the form of hemispheres, and a support washer is fixed on the stand, a spring is installed between the frame and the frame, characterized in that the locking ends are made on the ends of the spring along one axis respectively, in the grooves of the support washer and frame, while one end of the spring enters the stationary ring, and the other is tightly mounted on the annular protrusion of the support washer.

Images