RU145914U1 - Soil cultivating tool - Google Patents

Abstract

1. A tillage implement containing a frame on which the working bodies are mounted in rows, a trailer for connecting to a tractor, a screw turnbuckle, a hydraulic cylinder or a screw turnbuckle with a hydraulic cylinder connecting the frame and the trailer, and the chassis, which is a wheel mounted on a movable frame, and one or two hydraulic cylinders for lifting the implement into transport position, while on the frame, after the working bodies, one or more press rollers are installed, and the chassis is installed after the press rollers, characterized in that it contains the native and transverse frames, while the trailer, the longitudinal frame and the chassis form a supporting module, and the transverse frame with working bodies and press rollers forms a removable module, and the replaceable module is connected to the longitudinal frame from below using flanges lying in the same plane and forming one basic the surface, and the bolt connection, and the trailer is pivotally mounted to the transverse frame and connected by a screw lanyard to the longitudinal frame, while for tractors of different power, the replaceable module can be of different widths and have different numbers honors working bodies, and following rollers are replaceable: spiral, or slatted, or slat-helical or toothed, the packer roller can be installed in two ryada.2. Tillage implement according to claim 1, characterized in that the interchangeable module is made of three articulated sections with the possibility of lifting the extreme sections in the transport position. A tillage implement according to claim 1, characterized in that a transverse frame with two rows of spherical disks per individual

Description

The utility model relates to agricultural machinery, mainly to tillage tools.

Known disk tillage implement RU No. 94105 dated 05/20/2010, containing a frame with transverse beams, on which spherical disks are mounted obliquely to the vertical direction through concave in the direction of movement direction in rows on individual racks through a bearing assembly with an adjustable angle of attack. Racks are fixed on the transverse beams of the frame using two plates and two stepladders with the possibility of movement along the beam. In this case, the tool is transformed for continuous processing, for cutting ridges or for weeding row-spacings with earthing up. In addition, racks with discs are completely or partially removed and the legs of the subsoiler are mounted on the frame with the help of figured plates covering the transverse beams of the frame, while the implement is transformed into a chisel plow or a combined implement. And a packer roller is pivotally mounted to the frame, with the help of which the working depth is regulated both when working with disks during continuous processing, and when working with the legs of a subsoiler.

The disadvantage of this technical solution is the high complexity and complexity in the readjustment of the disk implements in the deep ripper. In addition, deep cultivation requires more energy than disking. Therefore, for the same tractor, the subsoiler must be shorter than the disc implement and when changing the disc implement to the ripper, the working width of the frame will not be fully utilized. In addition, the design of the racks mounted on the transverse beams of the frame with the help of two plates and two step-ladders is not widely used.And with the classic installation of the racks in the bushings cut into the beam of the frame, it is impossible to readjust the disk implement into a subsoiler.

Known combined tillage aggregate (prototype) RU No. 72112 of 04/10/2008, containing a frame with transverse and longitudinal bars, on the transverse bars of which are frontally across the working width, forming rows, disk working bodies are fixed to the frame brackets in the form of racks with disks convex -concave shape. In this case, the disks of the first row are mounted in one direction, and the disks of the second row in the opposite direction, i.e. concave or convex sides respectively in opposite directions. Behind each row of disk working bodies, load-lifting harrows in height and located at an acute angle to the soil surface are mounted on load-bearing bars in the form of a set of elastic pins. And rear mounted working bodies of the rotational type. The working bodies of the rotary type can be made in the form of roller modules, including at least two sequentially mounted rollers, the working elements of one of the rollers being made of a combing type and the other of a leveling type.

The frame of the combined soil cultivating unit is made of three articulated sections with the possibility of lifting the end sections to the transport position or dismantling the end sections. The combined tillage unit is additionally equipped with a mechanism for adjusting the depth of the front row discs, made in the form of a screw lanyard connecting the frame and the trailer.

Racks of disk working bodies are rigidly fixed in the brackets of the frame with the help of axes and safety destructive elements, made mainly in the form of shear bolts. In addition, the simple and reliable design of the mounting of the racks of the disk working bodies in the brackets of the frame provides the ability to replace the disk working bodies with working bodies in the form of paws with racks.

In the utility model, the design of the roller modules is not disclosed and it is not clear what the combing or leveling rollers are.

This technical solution has several disadvantages. Firstly, the racks of the working bodies are made of a steel strip of rectangular cross section, with several bends. This design reduces the strength of the rack and increases its production cost. The fact is that the disk tool works in difficult conditions, with large bending and twisting forces on the rack. In the case when the disk and other power elements would still work, a long stand will either break or significantly bend. In this case, the disks will shift, their mutual position will change, which will lead to improper operation of the guns and flaws. Secondly, there is no adjustment of the angle of attack of the discs, which reduces the ability to adjust the guns. Thirdly, in this design, the land strip processed by the disk is rather strongly shifted to the side from the plane of fastening of the racks to the frame brackets. At the same time, when installing racks with paws, the ground strip treated with paws will be symmetrical to the plane of fastening of the racks to the frame brackets. Thus, the arrangement of the brackets on the frame when installing racks with paws should be different than when installing disks.

The aim of the proposed technical solution is to expand the functionality, as well as to increase the reliability of the tillage implement.

This goal is achieved due to the fact that the tillage implement contains a longitudinal and transverse frame. On the transverse frame in rows installed working bodies. In addition, the tillage implement contains a trailer for connecting to a tractor, a screw turnbuckle, a hydraulic cylinder or a screw turnbuckle with a hydraulic cylinder connecting the longitudinal frame and the trailer, and a chassis, which is a wheel mounted on a moving frame and one or two hydraulic cylinders for lifting the implement into transport position. On the transverse frame, after the working bodies, one or more press rollers are installed, and the chassis is installed on the longitudinal frame after the press rollers. In this case, the trailer, the longitudinal frame and the chassis form a supporting module, and the transverse frame with working bodies and press rollers forms a replaceable module. The replaceable module is connected to the longitudinal frame from below using flanges lying in the same plane and forming one base surface, and a bolted connection. The trailer is pivotally mounted to the transverse frame and connected by a screw lanyard to the longitudinal frame. For tractors of different power, the replaceable module can be of different widths, and have a different number of working bodies. The packer rollers are also made interchangeable: spiral, or grooved, or plano-spiral, or gear, and the packer rollers can be installed in two rows. Double-row packer rollers are offset from the second row to bridge the gaps between the rollers. The rollers of the first row are helical, the rollers of the second row are helical or planar-spiral, and the frame of the rollers is pivotally attached to the roller lever.

The replaceable module can be made of three articulated sections with the possibility of lifting the extreme sections in the transport position. As a replaceable module, a transverse frame with two rows of spherical disks on individual racks and press rollers can be installed. As a replaceable module, a transverse frame with two rows of lancet paws or paws - deep-rippers and packer rollers can be installed.

As a replaceable module, a transverse frame with three or four rows of spherical disks on individual racks and press rollers can be installed, while the transverse frame in longitudinal form is made of two parts, rigidly interconnected by a flange bolt connection.

As a replaceable module, a transverse frame can be installed with two rows of spherical disks on individual racks and with two rows of lancet paws or paws - deep-rippers and packer rollers, while the transverse frame in longitudinal form is made of two parts rigidly connected to each other by a flange bolt connection .

Figure 1 shows a tillage implement with two rows of spherical disks with a spiral packer roller. Figure 2 shows a tillage implement with four rows of spherical disks with a planar packer roller. Figure 3 shows a tillage implement with two rows of paws - deep rippers with a gear packer roller. Figure 4 shows a tillage implement with two rows of spherical discs and with two rows of lancet paws with a two-row packer roller. Figure 5 shows a tillage implement with a replaceable module made of three articulated sections.

The tillage implement comprises a longitudinal frame 1, a trailer 2 for connecting to a tractor, a screw lanyard 3, or a hydraulic cylinder 4 and a screw lanyard connecting the longitudinal frame and the trailer, and the chassis 5, which is a wheel 6 mounted on a movable frame 7 and one or two hydraulic cylinders 8 for lifting the implement into transport position, while the chassis is installed after the packer rollers. The trailer, the longitudinal frame and the chassis form the supporting module. In addition, the tillage implement contains a transverse frame 9. On the transverse frame, the working bodies are arranged in rows. After the working bodies one or more press rollers are installed 11. The transverse frame with the working bodies and press rollers forms a replaceable module. The replaceable module is connected to the longitudinal frame from below using flanges lying in the same plane and forming one base surface, and bolt connection 12. The trailer 2 is pivotally mounted to the transverse frame 9 and connected by a screw lanyard 3 to the longitudinal frame 1. Moreover, for tractors of different power, the replaceable module can be of different widths, and have a different number of working bodies. The packer rollers 11 are also removable: spiral 13, or slatted 14, or slatted-spiral, or gear 15, and the packer rollers can be installed in two rows. Double-row rollers 16 are made with an offset of the second row to overlap the gaps between the rollers, while the rollers of the first row 17 are made spiral, the rollers of the second row 18 are made slatted or plano-spiral, and the frame of the rollers 19 is pivotally attached to the roller lever. The replaceable module can be made of three articulated sections: the central section 20, the right section 21 and the left section 22, with the possibility of lifting the end sections into the transport position using hydraulic cylinders 23 (See figure 5). As a replaceable module, a transverse frame with two rows of spherical disks 10 on individual racks and press rollers can be installed (See figure 1). As a replaceable module, a transverse frame can be installed with two rows of lancet paws or paws — deep-rippers 24 and packer rollers (See FIG. 3). As a replaceable module, a transverse frame with four rows of spherical disks 10 on individual racks and press rollers can be installed (See FIG. 2). In this case, the transverse frame in longitudinal form is made of two parts, rigidly interconnected by a flange bolt connection 25. As a replaceable module, a transverse frame with two rows of spherical disks 10 on individual racks and with two rows of lancet paws or paws - deep-rippers 24 can be installed and packer rollers (See FIG. 4). In this case, the transverse frame in longitudinal form is made of two parts, rigidly interconnected by a flange bolt connection 25.

A tillage implement with discs on individual stands is used to destroy weeds, pre-sow the field, plant residues in the soil and retain moisture in the soil after harvesting, several times a year on the same field. Deep cultivation is carried out to better retain moisture in the autumn - winter period, it is required once every 3-4 years in one field. Thus, to acquire a special tool in order to use it once every 3 years is extremely unprofitable. In the proposed utility model, it is possible to purchase an interchangeable module with 24-tiller-paws 24 to the existing disk implement, which will be much cheaper. A conventional disc gun in one pass leaves a combed bottom behind. While for sowing the bottom should be flat. The problem is easily solved with the replacement of the last two rows of the four-row guns (see figure 2) with two rows of lancet paws 24 (see figure 4). Also, when using a tractor of a different power, it is not necessary to purchase a new implement. It is enough to replace the replaceable module with a different width, with a different number of working bodies.

Thus, the proposed constructive solution will expand the functionality of the tillage implement and will allow you to use one implement to perform several operations: embedding stubble and plant debris, deep loosening, pre-sowing tillage.

Claims (8)

1. A tillage implement containing a frame on which the working bodies are mounted in rows, a trailer for connecting to a tractor, a screw turnbuckle, a hydraulic cylinder or a screw turnbuckle with a hydraulic cylinder connecting the frame and the trailer, and the chassis, which is a wheel mounted on a movable frame, and one or two hydraulic cylinders for lifting the implement into transport position, while on the frame, after the working bodies, one or more press rollers are installed, and the chassis is installed after the press rollers, characterized in that it contains the native and transverse frames, while the trailer, the longitudinal frame and the chassis form a supporting module, and the transverse frame with working bodies and press rollers forms a removable module, and the replaceable module is connected to the longitudinal frame from below using flanges lying in the same plane and forming one basic the surface, and the bolt connection, and the trailer is pivotally mounted to the transverse frame and connected by a screw lanyard to the longitudinal frame, while for tractors of different power, the replaceable module can be of different widths and have different numbers honors working bodies, and following rollers are replaceable: spiral, or slatted, or slat-helical or toothed, the packer roller can be set in two rows. 2. The tillage implement according to claim 1, characterized in that the interchangeable module is made of three articulated sections with the possibility of lifting the extreme sections to the transport position. 3. The tillage implement according to claim 1, characterized in that a transverse frame with two rows of spherical disks on individual racks and packer rollers is installed as a replaceable module. 4. The tillage implement according to claim 1, characterized in that a transverse frame with three rows of spherical disks on individual racks and rolling rollers is installed as a replaceable module. 5. The tillage implement according to claim 1, characterized in that a transverse frame with four rows of spherical disks on individual racks and packer rollers is installed as a replaceable module, while the transverse frame in longitudinal form is made of two parts rigidly connected to each other by a flange bolt connection. 6. The tillage implement according to claim 1, characterized in that a transverse frame with two rows of lancet paws or paws - deep-rippers and packer rollers is installed as a replaceable module. 7. The tillage implement according to claim 1, characterized in that a transverse frame with two rows of spherical disks on individual racks and with two rows of lancet paws or paws - deep-rippers and packer rollers is installed as a replaceable module, while the transverse frame is made in longitudinal form of two parts rigidly interconnected by a flange bolt connection. 8. The tillage implement according to claim 1, characterized in that the packer rollers are double-row with a second row offset to overlap the gaps between the rollers, while the rollers of the first row are made spiral, the rollers of the second row are grooved or plano-spiral, and the frame of the rollers is attached to articulated to the roller lever.