RU177491U1 - Adaptive section of the seed drill coulter - Google Patents

Abstract

The utility model relates to agricultural engineering, in particular to the working bodies of seeders - openers designed for the formation of grooves, sowing and sowing seeds in the soil. The adaptive section of the seed drill coulter includes a coulter body with rotating disks mounted on it and a fixed leash pivotally connected by means of a bolt connection and a spring loader with an arm, which, in turn, is fixed with a step ladder on the rotary beam of the grain seeder. The bracket is detachable and consists of two parts interconnected by a movable hinge, which is a sleeve-finger connection. The finger is vertically fixed on one part of the bracket, and the sleeve is vertically fixed on the other part. Both parts of the bracket are additionally connected by means of an elastic element. The proposed device allows to reduce traction resistance on the coulter through the use of articulated sleeve-finger connection with an elastic element, which will increase the service life of the articulated joints and bearing assemblies and reduce power costs for moving the grain seeder. 3 ill.

Description

The utility model relates to agricultural engineering, in particular to the working bodies of seeders - openers designed for the formation of grooves, sowing and sowing seeds in the soil.

A known section of the seed drill coulter comprising a housing with rotating discs and a press wheel, pivotally connected using a leash and a spring shock absorber with a swivel bracket, and an additional two crosses located in the hinge joints of the spring shock absorber. The lower cross is fixed at one end in the fork of the spring shock absorber rod, and the other end - on the body. The upper crosspiece is fixed at one end in the spring shock absorber guide, and at the other end connected to a swing arm (RU 88500, IPC АСС 07/20, published on November 20, 2009).

A disadvantage of the known solution is the relatively small movement of the opener in the horizontal plane, which does not allow to fully unload the working elements of the opener from the action of lateral loads when the grain seeder moves along a curved surface.

A known opener section of a grain seeder is a coulter body with rotating disks mounted on it and a fixed leash, which is pivotally, using a bolt connection and a spring loader, connected to an arm fixed with a ladder to the seeder rotary beam (Access mode: http: / /vms-34.ru/assets/files/Gaspardo_MEGA_600.pdf).

A disadvantage of the known device is the inability to compensate for lateral loads occurring on the coulter discs from the soil when the grain seeder moves along a curved path, leading to increased loads on the working elements of the articulated joints and bearing assemblies, as well as traction resistance of the coulter disks in the soil, which the turn leads to a decrease in their service life and an increase in power costs for moving both an individual opener and the entire seeder as a whole.

The technical result consists in reducing traction resistance on the opener due to the introduction of an additional articulated sleeve-finger connection with an elastic element, which allows to increase the service life of articulated joints and bearing assemblies and to reduce the power consumption for moving the grain seeder.

The technical result is achieved by the fact that the adaptive section of the seed drill coulter includes a coulter body with rotating discs mounted on it and a fixed leash pivotally connected by means of a bolt connection and a spring loader with an arm, which in turn is fixed with a stepladder on the rotary beam of the grain seeder. The bracket is detachable and consists of two parts interconnected by a movable hinge, which is a sleeve-finger connection. The finger is vertically fixed on one part of the bracket, and the sleeve is vertically fixed on the other part. Both parts of the bracket are additionally connected by means of an elastic element.

In FIG. 1 shows the design of the adaptive section of the seed drill coulter, FIG. 2 is a top view of a sleeve-finger connection with an elastic element; FIG. 3 is a side view of a sleeve-finger connection with an elastic element.

The adaptive section of the opener of the grain seeder is a housing 1 with rotating disks 2 mounted on it and a fixed lead 3, which is pivotally connected by means of a bolt connection 4 and a spring feeder 5 with a detachable bracket 6, which, in turn, is fixed with a stepladder 7 on the rotary beam 8 of the grain seeders. The detachable bracket 6 consists of two parts interconnected by a movable hinge, which is a sleeve-finger connection, while the pin 9 is vertically fixed to one part of the detachable bracket 6, and the sleeve 10 is vertically fixed to its other part. Both parts of the detachable bracket 6 are additionally connected by means of an elastic element 11.

The adaptive section of the opener grain seeder works as follows. The rotation of the rotary disks 2 of the coulter section into the soil is carried out by turning the beam 8 through a detachable bracket 6, the spring loader 5, the leash 3 and the housing 1, while the spring loader 5 provides the force pressing of the rotary disks 2 of the coulter to the soil, which contributes to the copying of the soil relief and constant depth seed embedding. When the grain seeder moves along a curved path from the soil side, additional forces begin to act on the lateral surfaces of the rotating disks 2. As a result of the action of these forces, the casing 1 of the coulter section with the leash 3 overcoming the resistance of the elastic element 11 begins to rotate in the sleeve-finger connection of the detachable bracket 6 in the direction of action of these forces, adapting to the optimal trajectory of its movement. In this case, the rotation in the sleeve-finger connection of the detachable bracket 6 occurs until additional forces reach the values determined by the maximum deformation force of the elastic element 11, designed to return the coulter to its original position when the grain planter changes its trajectory from curved to straight. Providing relative rotation of the housing 1 of the coulter section relative to the detachable bracket 6 will allow for the unloading of the hinge elements and bearing units of the coulter from additional forces.

Compared with the known solution, the proposed device allows to reduce traction resistance on the opener due to the introduction of an additional articulated sleeve-finger connection with an elastic element, which will increase the service life of the articulated joints and bearing assemblies and reduce the power consumption for moving the grain seeder.

Claims (1)

The adaptive section of the opener of the grain seeder, which includes the opener body with rotating disks mounted on it and a fixed leash pivotally connected by means of a bolt connection and a spring loader with an arm, which in turn is fixed with a step ladder on the rotary bar of the grain seeder, characterized in that the arm made detachable, consists of two parts interconnected by a movable hinge, which is a sleeve-finger connection, while the finger is vertically mounted on one side ti bracket and the sleeve vertically fixed to the other part besides the two arm portions are further connected by an elastic member.

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