RU2793464C1 - Deep tillage tool - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: tool for deep tillage consists of a V-shaped frame (1), with support wheels (2), a hitch mechanism (3) and paraplow-type operative parts (4-9) fixed with a symmetrically sequential arrangement, consisting of a rack (10) with an intrasoil fold (11), at the end of which a chisel (12) is fixed. The subsoil fold (11) on the racks (10) is made away from the longitudinal axis of the tool. Racks (10) of the front pair of operative parts (6, 7) are mirror spaced by the inter-row spacing (M). Subsequent operative parts (4, 5, 8, 9) are installed through one inter-row spacing, forming a symmetrically sequential arrangement of operative parts with a double inter-row spacing (2M). On all operative parts (4-6) with a fold (11) towards the wall, movable shovels (13) are installed along the vertical part of the rack (10) on the left side, and on the operative parts (7-9) with a fold (11) on the side of the landward edge, movable shovels (13) are installed on the right side, starting from the second rack (10) in the direction of travel.

EFFECT: increased operational and process performance of the tool for deep chisel tillage.

2 cl, 2 dwg

Description

The invention relates to agricultural engineering and can be used for deep loosening of the soil.

A chisel plow is known, containing a frame with inclined racks mounted on it, (catalogue of agricultural machinery. - volume 1. - M.: informagrotech. 1991. - S. 140, R 21.24).

The technical disadvantage of such plows is a decrease in the quality of tillage due to clogging in fields with poorly harvested or scattered chopped straw or lumps formed.

Also known is a chisel plow-ripper, containing a triangular frame with fixed on it working bodies-rippers, support wheels, a working depth regulator, a hitch and a stand [utility model description for patent No. 58004 according to application No. 2006118578/22 dated 29.05.

The disadvantage of this chisel plow is the increased traction resistance.

Also known is a tillage tool, of the PRG type, containing a frame with inclined posts mounted on it with an intrasoil bend, each of which has a shoe with an overhead chisel and an inclination towards the furrow cut, which loosens a strip 30 cm wide, and on the opposite side (field cut) , in the bending zone, a flat-cut wing with a loosening width of 45 cm is rigidly fixed [http://www.sibagro.com/p_prg.html].

The disadvantage of this tillage tool is: dynamic imbalance; wings on the side of the field cut work in a blocked environment; you can not change the amount of continuous processing without changing the depth of chiselling.

The closest technical solution to the claimed invention is the tool chosen as a prototype for deep tillage, such as PCHN, PCHP, containing a V-shaped frame with a symmetrically sequential arrangement of working bodies of the "paraplow" type with an intrasoil fold to the center of the tool, support wheels, tractor linkage mechanism [http://www.svetagromash.ru/produkcziya/plugi-chizelnyie].

The technical disadvantage of the prototype is increased traction resistance, high-quality loosening of the soil inside the displacement volume is not provided, while forming an unacceptable dump ridge.

The task is the constructive and technological optimization of the parameters of the working bodies and increasing the dynamic balance of the tool for deep chisel tillage.

The technical result is an increase in the operational and technological performance of the tool for deep chisel tillage.

The specified technical result is achieved by a tool for deep tillage, containing a V-shaped frame on which the support wheels are fixed, a hitch mechanism for the tractor and working bodies of the "paraplow" type with a symmetrical sequential arrangement, consisting of a rack, with an intrasoil fold, at the end of which is fixed chisel, while the subsoil bend on the racks is made away from the longitudinal axis of the tool, the racks of the front pair of working bodies are mirror-spaced by the row spacing, with subsequent installation through one working body, forming a symmetrically sequential arrangement of working bodies with a double row spacing, on all working bodies with a bend towards the furrow cut, movable paws are installed along the vertical part of the rack on the left side, and on the working bodies with a bend towards the field cut, movable paws are installed on the right side, starting from the second rack in the direction of travel. In addition, the value of the projection of the curved part of the rack and the width of the movable paw on the horizontal-vertical plane are in the ratio of 1/2 and 1.0 of the spacing of the working bodies of the front pair, with the most optimal location of the bend line of the rack from the bottom of the furrow at a height of 1/ 2 row spacing of the working bodies of the front pair.

In FIG. 1 shows a tool for deep tillage, front view; in fig. 2 - tool for deep tillage, top view.

Information confirming the possibility of implementing the claimed invention is as follows.

The tool for deep tillage contains a V-shaped frame 1, on which support wheels 2, a hitch mechanism 3 and working bodies 4-9 of the "paraplow" type with a symmetrical sequential arrangement are fixed, consisting of a rack 10 with an intrasoil bend 11 from the longitudinal axis of the tool . A chisel 12 is fixed at the end of the working body 4-9. The right half of the working bodies 4-6 have a bend 6 towards the furrow cut in the direction of travel, and the left half of the working bodies 7-9 - towards the field cut. Racks of the front pair of working bodies 6-7 are mirror spaced by the row spacing M, with subsequent installation through one row spacing, forming a symmetrically sequential arrangement of working bodies with a double row spacing (2M). On all working bodies 4-6 with a bend 11 towards the furrow cut, movable paws 13 are installed along the vertical part of the rack 11 on the left side. On the working bodies 7-9 with a bend 11 towards the field edge, movable paws are installed on the right side, starting from the second working body 8 in the direction of travel. The length of the projection component of the curved part of the rack 10 and the width of the paw 13 on the horizontal-vertical plane are in the ratio of 1/2 and 1.0 of the row spacing M of the racks of the working bodies of the front pair 6-7. At the same time, the fold line of the rack from the bottom of the furrow is located at a height of 1/2 of the row spacing M of the racks of the working bodies of the front pair 6-7.

Tool for deep tillage works as follows.

The technological process of the soil-cultivating tool is reduced to loosening the soil with chisels 12, followed by cutting the subsoil ridge formed between adjacent chisels 12 by the cutting wing 13 of the working body 4, 5, 6, 8, 9. The depth of tillage from the chisel 12 is regulated by the support wheel 2, and from cutting wing 13 by rearranging it along the vertical part of the rack 10.

The bend 11 on the rack 10 for the right side of the working bodies 4, 5, 6 is directed towards the furrow cut. The paw 13 cuts the subsoil ridge formed from the chisel 12 in front of the working body 5, 6, 7 and the chisel 12 of the stand on which is installed on the opposite side of the bend 11 of the working body 4, 5, 6. The bend 11 on the stand 10 for the left side of the working bodies 7 , 8, 9 is directed towards the field cut. The paw 13 cuts the intra-soil ridge formed from the chisel 12 in front of the working body 7, 8 and the chisel 7 of the rack, on which it is installed on the opposite side of the bend of the working body 8, 9, starting from the second rack in the direction of travel. The working bodies 4-9 have a curved part of the configuration directed along the soil crumbling line from the chisel 12 and are arranged on the frame so that they provide the operation of the paw 13 with the least load, working in a semi-blocked environment.

Racks of the front pair of working bodies 6-7 are mirror-spaced by the row spacing M. The cutting paw 13, mounted on the right working body 6, cuts the subsoil ridge formed from the chisels 7 of the front pair of mirror-spaced working bodies 6, 7. Subsequent working bodies 4, 5 , 8, 9 are installed through one row spacing, forming a symmetrically sequential arrangement of working bodies with a double row spacing (2M).

With this arrangement of working bodies 5-9, all bits 12 work in a blocked environment, except for the last right furrow working body 4, which works in a semi-blocked environment. For dynamic balancing of the tillage tool, cutting wings 13 are installed on the working bodies with a bend 11 towards the field edge, on the right side, starting from the second rack of the working body 7 in the direction of travel.

The design feature of the working body is that the projection of the curved part of the rack 10 and the width of the paw 13 on the horizontal-vertical plane are in the ratio of 1/2 and 1.0 of the row spacing M of the racks of the working bodies of the front pair 6-7, and the bend line 11 of the rack from the bottom of the furrow is located at a height of 1/2 of the row spacing M, and taking into account the presence of a cutting wing 13 along the fold line 11, it allows to reduce the number of working bodies by half with an equal size of the zone of continuous loosening Hp. Also, this arrangement of working bodies allows you to increase the working width of processing relative to the width of the frame by 2M. This technical solution allows to reduce the metal content of the tillage tool relative to the width of its capture.

Separate adjustment of the loosening depth from the chisel and the zone of continuous loosening from the paw allows optimizing the volume of deformable soil, taking into account the increase in water permeability and creating the optimal structure for the root layer depending on the crop being grown, which ultimately affects costs and the resulting yield.

The noted aspects allow us to conclude that the proposed technical solutions for the implementation of tools for deep tillage can improve the operational and technological performance of the MTA.

Claims (2)

1. An implement for deep tillage, containing a V-shaped frame, on which support wheels are fixed, a hitch mechanism and paraplow-type working bodies with a symmetrical-sequential arrangement, consisting of a rack with an intrasoil bend, at the end of which a chisel is fixed, characterized in that that the subsoil bend on the racks is made away from the longitudinal axis of the tool, the racks of the front pair of working bodies are mirror-spaced by the row spacing, the subsequent working bodies are installed through one row spacing, forming a symmetrically sequential arrangement of working bodies with a double row spacing, and on all working bodies with movable paws are installed on the vertical part of the rack on the left side with a bend towards the furrow cut, and movable paws on the right side are installed on the working bodies with a bend towards the field cut, starting from the second rack in the direction of travel. 2. A tool for deep tillage according to claim 1, characterized in that the value of the projection of the curved part of the rack and the width of the movable paw on the horizontal-vertical plane are in the ratio of 1/2 and 1.0 of the spacing of the racks of the working bodies of the front pair, with location of the fold line of the rack from the bottom of the furrow at a height of 1/2 of the row spacing of the racks of the working bodies of the front pair.

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