RU90289U1 - TRAILED CULTIVATOR - Google Patents

Abstract

A trailed cultivator containing an all-metal frame with working bodies connected to a spoke and a hydraulic cylinder, means for adjusting the depth of the working bodies and setting the position of the frame relative to the soil, the working bodies being rigidly connected to the frame using brackets and made in the form of working racks and pointed legs, characterized in that it is additionally equipped with a harrow, supporting supporting plates, overload safety system, a safety mechanism system and an op mechanism scanning of the working stand, while the harrow is connected by means of the ridge to a frame on which support supporting plates are fixed at the junction with the ridge, the latter are made with the possibility of uniform mulching of the soil, and on the lancet paws in the upper part there is a safety system against overloads, consisting of a shear mechanism and the lower part of the working rack is made in the form of a lancet paw, and on each working rack there is a mechanism for lowering it, while the means for regulating Ichin penetration working bodies and installation position relative to the frame of the soil consisting of a support wheel connected to the counter support wheel with a central support pipe and the adjusting screw, and a safety gear system is formed as a safety abutment and support.

Description

The utility model relates to agricultural engineering, in particular to trailed cultivators, and can be used for continuous surface treatment of all types of soils at any height of weed vegetation.

State of the art

A tillage implement is known mainly for surface tillage, containing a transverse beam with sections of interchangeable working bodies mounted on it having copy wheels, and also devices for lifting the implement and for adjusting the working depth of the working bodies, while the transverse beam is provided with a longitudinal beam with braces, the hinges of which located on the beam on one axis, the sections are made in at least two frames connected to the transverse beam by hinges and spring-loaded hinged-lever suspension mi, and by means of a device for lifting a gun with a longitudinal beam, which is equipped with a slider, driven by a screw and interacting with the support of the hydraulic cylinder of the device for lifting the gun.

In the gun, each frame is made in the form of two longitudinal and at least three equipped with brackets for racks, working bodies of the transverse beams, two of which have consoles with respect to the longitudinal beams.

In the tool, the brackets of the racks of the working bodies are mounted with the possibility of bias and contain two cheeks, one of which has a bevel, forming a wedge joint together with the rack, while the threaded lock of the rack is located in the rear of the bracket.

In the implement, the braces are made with the possibility of limited length regulation.

In the gun, the spring-loaded articulated link pendants are equipped with a rod with supports at the ends, placed in a consecutively arranged tube and spring (see US Pat. RU No. 2086082, IPC АВВ 39/18, publ. 08/10/1997).

The disadvantage of this tillage implement is its limited functionality, increased metal consumption, insufficient cutting of weed vegetation.

Known tillage machine, including loosening legs and rotary working bodies with a drive, characterized in that the rotary working body is made in the form of a screw auger, each working turn of which, along the perimeter forming, is made of two half-disks with planes turned to each other, between which, perpendicular to the axis of rotation, are placed cutting-loosening knives with radii of curvature of the blades corresponding to the Archimedes spiral and a length exceeding the radius by the distance of the traces of adjacent paws (see Pat . RU No. 2206189, IPC АВВ 33/06, publ. 06/06/2003).

The disadvantage of this machine is the low reliability and quality of the tillage.

The closest in technical essence and the achieved positive effect and adopted by the author for the prototype is a trailed cultivator containing a carrier with a support wheel, a hydraulic cylinder for raising the frame and an eye for connecting to the tractor, a frame with working bodies, pivotally connected to the carrier and the hydraulic cylinder rod via an intermediate beam and also means for adjusting the depth of the working bodies and setting the position of the frame relative to the soil, while the means for installing the frame relative to the joints are made in the form of a device for controlling the height of the position of the hinge connecting the carrier with the intermediate beam, which is also located on the vertical axis of the support wheel, and the means for regulating the depth are located above the frame and pivotally connected at one end to the frame and the other to the intermediate beam .

In a trailed cultivator, the means for controlling the amount of penetration is made in the form of a screw with a nut, while the screw is pivotally connected to the intermediate beam at one end, a stop is provided at its other end, and this stop is placed with the possibility of movement in the link pivotally connected to the rear cross member of the frame (see Pat. RU No. 2222880, IPC A01I 35/00, A01B 35/04, publ. 02/10/2004).

The disadvantage of this trailed cultivator is the low reliability and ease of use, the low quality of tillage.

Utility Model Disclosure

The objective of the proposed utility model is the development of a universal trailed cultivator with high reliability and ease of use, simplification of the design and high quality of soil cultivation, namely, high cutting of weed and vegetation of high height, uniform mulching of the soil.

The technical result that can be obtained using the proposed utility model is to increase the reliability and ease of use, simplify the design, improve the quality of tillage.

The technical result is achieved using a trailed cultivator containing an all-metal frame with working bodies connected to a spoke and a hydraulic cylinder, means for regulating the depth of working bodies and setting the frame relative to the soil, and the working bodies are rigidly connected to the frame using brackets and made in the form of working racks and lancet paws, while it is additionally equipped with a harrow supporting support plates, a safety system against overloads, a safety system anism and the mechanism of lowering the working rack, while the harrow is connected by means of the ridge to the frame on which the supporting supporting plates are fixed at the junction with the ridge, the latter are made with the possibility of uniform mulching of the soil, and the overload protection system consisting of from a shear mechanism, and the lower part of the working rack is made in the shape of a lancet paw, and on each working rack there is a mechanism for lowering it, while the means for The adjustment of the depth of the working bodies and setting the position of the frame relative to the soil consists of a support wheel connected by a support of the support wheel to the central pipe and the support of the adjusting screw, and the safety mechanism system is made in the form of a safety stop and support.

Brief Description of the Drawings

In figure 1. The scheme of the working body is given. Side view.

In figure 2. The scheme of a cultivator is given. Side view.

In figure 3. The scheme of a cultivator is given. View from above.

Utility Model Implementation

Trailed cultivator contains working bodies consisting of working racks 1 and lancet paws 2 330 mm wide. The working bodies are located in 4 rows along the length of the trailed cultivator and are rigidly connected to the frame 3 using brackets 4, and the frame 3 is an all-metal construction. Each of the working racks 1 is protected from overloads by a safety system consisting of a shear mechanism 5 mounted on the working rack 1 in the upper part, and the lower part of the working rack 1 is made in the shape of a lancet paw 2, to increase the area and uniform fit of the lancet paw 2 to the working rack 1.

With this design, the lancet paw 2 is rigidly connected to the working stand 1. The means for adjusting the depth of the working bodies and setting the position of the frame 3 relative to the soil (not indicated in FIG.) Consists of a support wheel 6 connected by a support 7 of the support wheel 6 to the central pipe 8 and the support 9 of the adjusting screw 10. The raising and lowering of the frame 3 is carried out using the hydraulic cylinder 11 and the support 12 of the hydraulic cylinder 11, connected to the central pipe 8 of the support wheel 6. The soil is leveled with harrows 13 BZSS-1,0, connected x ridges 14 with frame 3, while for uniform mulching of the soil on the frame 3 at the junction with the ridges 14, support supporting plates are fixed 15. During long-term transportation of the cultivator, the harrow 13 is lowered onto the bracket 16 of the harrows 13, and when aggregated, the tractor connection (in Fig. not shown) with the frame 3 is produced using the eye 17 mounted on the spoke 18. To replace the lancet paws 2 and transport the cultivator with a faulty hydraulic system of the tractor, a convenient safety mechanism system is designed, with Consisting of a safety stop 19 and a support 20 of a safety stop 19, and to improve the cultivation of the soil after the support wheels of the tractor and cultivator 6, an additional mechanism 21 for lowering the working rack 1 is installed.

Universal trailed cultivator operates as follows.

Before starting work, the tractor is aggregated with the frame 3 using the eye 17 mounted on the spoke 18 and the harrow 13 is transferred from the transport to the working position, and the frame 3 is lowered using the hydraulic cylinder 11 and the support 12 of the hydraulic cylinder 11 and the central tube 8 of the support wheel 6. At the same time, continuous surface treatment of all types of soils, except for mountain farming, at any height of weed vegetation is carried out using working bodies rigidly connected to frame 3 using brackets 4 and located in 4 rows along the length of the cultivar torus, which consist of working racks 1 and lancet legs 2 with a width of 330 mm. A work stand protected against overloads by a safety system consisting of a shear mechanism 5 mounted on a work stand 1 in the upper part and due to the fact that the lower part of the work stand 1 is made in the shape of a pointed arm 2, creates high reliability to the cultivator and high-quality soil cultivation. The width of the tillage is 4 meters with a uniform depth of cultivation from 5 to 16 cm across the entire width of the cultivator. The depth of cultivation of the soil is carried out by means of an adjusting screw 10 with a support 9 of an adjusting screw 10, a support wheel 6 connected by a support 7 of the support wheel to the central tube 8. For uniform mulching and leveling of the soil surface by the harrows 13, support supporting plates 15 are mounted on the frame 3 in the junction with the ridges 14. After the completion of continuous surface tillage during transportation of the cultivator, the harrow 13 is lowered to the bracket 16 of the harrow 13. To increase safety when changing not lancet fluke 2 is provided a safety mechanism comprising a safety stop 19 and the support 20 of the safety lock 19. A safety mechanism is used and when transporting the cultivator in case of failure of the hydraulic system of the tractor. When the soil moisture is more than 25%, an additional mechanism 21 for lowering the working rack 1 is provided to improve soil cultivation after the support wheels of the tractor and cultivator 6.

Thus, the implementation of the trailed cultivator in the form of an all-metal construction of the cultivator frame 3, the use of a protective safety system from overloading the working racks 1 of the lancet legs 2, increasing the area and uniformity of the lancet paw 2 to the working rack 1 due to the special shape of the lower part of the working rack 1, and also the use of an adjusting screw 10 with a support 9 for adjusting the depth of tillage and supporting support plates 15, mounted on the frame 3 at the junction with the ridges 14, allows Ron 13 provide a uniform alignment and mulching the soil surface.

The proposed utility model in comparison with the prototype and other well-known technical solutions has the following advantages:

- high reliability of the cultivator frame, which is an all-metal construction;

- the working racks of the cultivator during overloads are protected by a convenient safety system;

- uniform lowering of the all-metal frame of the cultivator with working bodies over the entire width of the work;

- optimal copying by harrows BZSS-1,0 of the soil surface during cultivation;

- a convenient system of the safety mechanism when replacing the lancet paws and transporting the cultivator with a faulty hydraulic system of the tractor;

- the possibility of cultivation with increased soil moisture;

- the minimum number of parts, ease of operation and high-quality tillage;

- 100% cutting of weed vegetation;

- soil cultivation at a high height of weed vegetation.

Claims (1)

A trailed cultivator containing an all-metal frame with working bodies connected to a spoke and a hydraulic cylinder, means for adjusting the depth of the working bodies and setting the position of the frame relative to the soil, the working bodies being rigidly connected to the frame using brackets and made in the form of working racks and pointed legs, characterized in that it is additionally equipped with a harrow, supporting supporting plates, overload safety system, a safety mechanism system and an op mechanism scanning of the working stand, while the harrow is connected by means of the ridge to a frame on which support supporting plates are fixed at the junction with the ridge, the latter are made with the possibility of uniform mulching of the soil, and on the lancet paws in the upper part there is a safety system against overloads, consisting of a shear mechanism and the lower part of the working rack is made in the form of a lancet paw, and on each working rack there is a mechanism for lowering it, while the means for regulating Ichin penetration working bodies and installation position relative to the frame of the soil consisting of a support wheel connected to the counter support wheel with a central support pipe and the adjusting screw, and a safety gear system is formed as a safety abutment and support.