RU2078488C1 - Cultivator - Google Patents

Abstract

FIELD: agricultural engineering; cultivating devices for cultivating spaces between rows of cultivated crops. SUBSTANCE: in addition to well-known parts, shovel cultivator has rotary working members mounted on frame by means of vertical inclined axles and made in form of hubs with spokes on which teeth are secured over concentric circles; they are made in form of cones with rounded off vertices downward. Teeth of rotary working member are located in staggered order and crosswise relative to those of other row in working zone. Innovation of invention consists in parts of bearing ring which is provided with axles, stops, flexible members and mounting bushes fitted for turn. EFFECT: enhanced reliability. 5 cl, 8 dwg

Description

 The invention relates to agricultural machinery, in particular to implements for cultivating the soil between rows of row crops when cultivated on a rod background.

 The closest device to the proposed combination of features is a cultivator-cultivator, including rotary working bodies mounted on the frame by means of vertical inclined axes in the form of bearing rings with teeth mounted on concentric circles, the teeth of each working body being staggered, and with respect to to the teeth of another in the working area is located with a crossing.

 The reasons that impede the achievement of the required technical result when using the known device include the clogging of the tooth working organs with the plant and root residues of the predecessor when cultivating row crops on a rod background and when they are directly sown without previous tillage. The latter leads to tooth deformation. The bent teeth of the rotary working bodies do not provide the required quality of soil tillage along the depth and width of the treated strip, as well as in the form of a pass of individual undeformed, loosened zones. Bent teeth, in addition to the indicated drawback, damage the stalks of corn (sorghum, sunflower, amaranth, Sudan grass and other tall crops). Deformed and broken teeth cause clogging of rotary organs with weeds and plant debris.

 The objective of the invention is the expansion of the functionality of the cultivator-cultivator.

 The technical result is an increase in the quality of tillage on wide-row crops of row crops and the complete destruction of weeds.

образного элемента, петлеобразный конец которого размещен на верхней части зуба, а спаренные его концы сопряжены с одним из упоров. Упругий элемент выполнен предпочтительно из проката круглого сечения. Спаренные концы упругого элемента выполнены с возможностью контакта с рабочей гранью монтажной втулки. Грань монтажной втулки, противоположная ее рабочей грани, выполнена с возможностью сопряжения с упором. Монтажные втулки размещены на осях несущего кольца посредством подшипников скольжения, воспринимающих радиальные и осевые нагрузки.The specified technical result in the implementation of the invention is achieved by the fact that in the known device, including mounted on the frame of the cultivator-cultivator by means of vertical tilted axes, pairs of rotary working bodies in the form of hubs, spokes and bearing rings with teeth fixed in concentric circles in the form of cones mounted with rounded vertices down, in each working body, the bearing ring is equipped with axes, stops, and axially paired staggered on its outer and inner faces elements and mounting sleeves installed in one of their technological holes with the possibility of rotation in the tangential planes of the bearing ring at the points of placement of the axes with fixed teeth and elastic elements, while mounting sleeves with teeth of the outer row are fixed on the axes in the upper technological holes of the mounting bushings, and elastic elements are placed between the upper faces of the bushings and the threaded upper parts of the teeth, the mounting bushings of the teeth of the inner row are placed on the axes with their lower technological holes, and the elastic elements are fixed between the wide bases of the cones of the upper parts of the teeth and the lower faces of the bushings, and the rotation of the bushings of the outer row in the direction of rotation of the hub is limited by stops fixed on the lower edge of the bearing ring, in the direction opposite to rotation, by means of an elastic element conjugated with the emphasis of the subsequent sleeve for the teeth of the outer row, the rotation of the bushings with the teeth of the inner row in the direction of rotation of the hub is limited by stops fixed and on the upper edge of the bearing ring, and in the opposite direction by means of elastic elements associated with the stops of the previous bushings. Mounting sleeves are made in the form of tetrahedral prisms and are equipped with three technological holes, two of which are made with parallel axes, the axis of the third hole is made intersecting with the other two, and the axis of the last hole is made parallel to the long side of the prism, while one of the faces of the prism is mated with elastic elements made with smooth transitions with upper and lower bases. The elastic element is made in the form of volumetric

shaped element, the loop-shaped end of which is located on the upper part of the tooth, and its paired ends are paired with one of the stops. The elastic element is preferably made of rolled round section. The twin ends of the elastic element are made with the possibility of contact with the working face of the mounting sleeve. The face of the mounting sleeve, the opposite of its working face, is made with the possibility of pairing with a stop. Mounting sleeves are placed on the axes of the bearing ring by means of sliding bearings that absorb radial and axial loads.

 Due to the fact that the tooth working element in the mounting sleeve is mounted with the possibility of rotation in the tangential plane of the bearing element and by means of the elastic element is held in a predetermined position, the complete destruction of weeds in the protection zone, including the axis of the row of plants, intensive crumbling of the soil and the displacement of plant and the root residues of the precursor in the row spacing and mulching by them the surface of the row spacings, while maintaining a moisture supply and the root layer.

 The analysis of the prior art, including a search by patent and scientific and technical sources of information and the implementation of sources containing information about analogues of the invention, allowed to establish that no analogue was found, characterized by features identical to all the essential features of the invention.

 Therefore, the invention meets the requirement of "novelty" under applicable law.

 To verify compliance of the invention with the requirement of "inventive step", an additional search was carried out for known solutions in order to identify features that match the features of the invention that are distinctive from the prototype, the results of which show that the invention does not explicitly follow from the prior art, since the prior art the influence of the transformations provided for by the essential features of the invention on the achievement of a technical result is revealed.

 Therefore, the invention meets the requirement of "inventive step" under applicable law.

 In FIG. 1 shows one of the sections of the rotary working bodies of the cultivator-cultivator with tooth working bodies in the working area when processing a row of tall plants, front view; in FIG. 2, view A in FIG. 1, rotary working body, plan view; in Fig.3 a section bB in Fig. 2, the placement of the teeth in the form of cones by means of mounting sleeves on the outer and inner concentric circles symmetrically to the axis of the bearing ring; in FIG. 4, section BB in FIG. 2, the placement of elastic elements on the mounting sleeves of the outer and inner rows; in FIG. 5 is a view of D in FIG. 1, the sequential placement of elastic elements between the upper base of the prism of the mounting sleeve and the threaded part of the teeth and the emphasis for the tooth working bodies of the outer row; in FIG. 6 view D in FIG. 2, the placement of the elastic element between the lower base of the prism of the mounting sleeve and the wide base of the conical tooth; in FIG. 7 section EE in FIG. 5, the relative position of the mounting sleeve and its axis when installing the tooth working body on the outer circumference of the bearing ring; in FIG. 8, section FJ in FIG. 6, the relative position of the mounting sleeve and its axis when installing the tooth working body on the inner circumference of the bearing ring.

 The cultivator-cultivator, in addition to the well-known mass-produced units, contains rotary working bodies mounted on the frame by means of vertical inclined axes 1 in the form of bearing rings 2, spokes 3, hubs 4 and teeth 5. The teeth 5 are fixed in bushings 6 pivotally on the axes 7 and placed in relation to the bearing ring 2 in concentric circles. The teeth 5 of each working body are staggered, and in relation to the teeth 5 of the other row in the working area with crossing.

-образного элемента, петлеобразный конец которого размещен на верхней части зуба 5, а спаренные его концы сопряжены с одним из упоров 12. Упругий элемент 11 выполнен предпочтительно из проката круглого сечения. Спаренные концы упругого элемента 11 выполнены с возможностью контакта с рабочей гранью монтажной втулки 6. Грань монтажной втулки 6, противоположная ее рабочей грани, выполнена с возможностью сопряжения с упором 12. Другим концом упругий элемент 11, выполненный в виде

-образного элемента, упирается в упор 12, размещенный на несущем кольце 2. Упор 12 ограничивает поворот монтажной втулки 6 с зубом 5 против направления вращения рабочего органа. В монтажной втулке 6 предусмотрены два отверстия для их крепления на осях 7 подшипников скольжения 12, воспринимающих радиальные и осевые нагрузки, шайб 14, 15 и гаек 16. Верхние отверстия в монтажных втулках 6 используют при размещении на оси 7 зубьев 5 на внешней стороне несущего кольца 2. Нижние технологические отверстия в монтажных втулках 6 используют при размещении зубьев 5 на внутренней стороне несущего кольца 2.The teeth 5 of the outer and inner rows are fixed in the mounting sleeves 6 by means of washers 8, 9 and nuts 10, the elastic element 11 for the teeth 5 of the outer row being placed between the washer 8 and the lower base of the mounting sleeve 6, and for the teeth 5 of the inner row between the tooth 5 and the lower base of the mounting sleeve 6. The mounting sleeve 6 is made in the form of tetrahedral prisms and is equipped with three technological holes, two of which are made with parallel axes, the axis of the third hole is made intersecting with the other two, and the axis of the last hole Stia formed parallel to the long side of the prism, wherein one of the prism faces, with other mating elements 11, is formed with a smooth transition to the upper and lower bases. The elastic element 11 is made in the form of volumetric

-shaped element, the loop-shaped end of which is placed on the upper part of the tooth 5, and its paired ends mate with one of the stops 12. The elastic element 11 is preferably made of rolled round section. The twin ends of the elastic element 11 is made with the possibility of contact with the working face of the mounting sleeve 6. The face of the mounting sleeve 6, opposite to its working face, is made to mate with the stop 12. The other end of the elastic element 11, made in the form

-shaped element, abuts against an emphasis 12 placed on a bearing ring 2. An emphasis 12 restricts the rotation of the mounting sleeve 6 with the tooth 5 against the direction of rotation of the working body. In the mounting sleeve 6 there are two holes for mounting them on the axes 7 of the sliding bearings 12, which absorb radial and axial loads, washers 14, 15 and nuts 16. The upper holes in the mounting sleeves 6 are used when placing teeth 5 on the axis 7 on the outside of the bearing ring 2. The lower technological holes in the mounting sleeves 6 are used when placing the teeth 5 on the inner side of the bearing ring 2.

 The placement of the elastic element 11 between the tooth 5 and the lower base of the mounting sleeve 6 for the inner row of teeth 5 in comparison with the placement of the elastic element 11 between the upper part of the technological sleeve 6 and the washer 8 allows the tooth 5 to return to its original position until it stops 12 after meeting an obstacle effort on soil deformation when processing rows of plants and their protective zones.

 Bearings 13 provide a minimum turning force of the sleeves 6 on the axles 7. As the material of the bearing 13 is selected fluoroplastic that does not require lubrication.

 All described parts are made unified and interchangeable.

 The cultivator-ripper works as follows. His work is cited as an example of the cultivation of row crops according to the stubble background of the predecessor. With the progressive movement of the cultivator-cultivator, the teeth 5 of the outer and inner rows come into contact with the soil. The inclination of the axes 1 in the transverse vertical plane allows the teeth 5 as close as possible to the axis of the row and tillage in the protective zone without damaging the plants. The translational motion of the cultivator-cultivator due to the inclination of the axes 1 performs a rotational movement of the hub 4 with the teeth 5. The teeth 5 make a complex movement. When introducing tooth 5, its rounded end deforms the soil. Along with this, the end of tooth 5 extracts weeds. Further movement of the teeth 5 leads to an increase in the depth of penetration into the soil. Then the tooth 5 is deepened. In this case, the plant and root residues from the protective zone along with weeds are moved by them to the middle of the row-spacings, mulching the upper layer. Repeated movement of the teeth 5 of the outer and inner rows produce intensive crumbling of the soil. The loose soil in the protective zones of the rows and the mulching of the middle part of the row-spacing of corn crops (sunflower, sorghum, amaranth, etc.) excludes the drying out of the root layer. The elastic elements 11 provide rotation of the mounting sleeve 6 with the teeth 5, which eliminates the overhang of weeds on them, as well as their deformation. The described cultivator-cultivator with tooth working bodies successfully works on hard and stony soils. Each tooth 5 when meeting with a stone rests against it. Under the influence of the increasing load, the tooth 5 together with the sleeve 6 on the sliding bearings 13 rotates around the axis 7 in the tangential plane of the bearing ring 2. Simultaneously with the rotation of the tooth 5, the hub 4 of the working tooth rotates. Tooth 5 when meeting with a stone in this case is deepened, copying the surface of the stone or obstacles. Bypassing the obstacle, under the influence of the force of the elastic element 11, the tooth 5 returns to its original position.

Thus, the above information indicates that when using the invention the following set of conditions:
means embodying the invention in its implementation, is intended for use in agricultural machinery;
for the invention confirmed the possibility of its implementation using the above or known means and methods;
means embodying the invention in its implementation, is able to ensure the achievement of the perceived technical result.

 Therefore, the invention meets the requirement of "industrial applicability" under applicable law.

Claims (5)

 1. The cultivator containing mounted on the frame by means of inclined axes located in the transverse vertical plane of the rotary cultivating working bodies, each of which is made in the form of a hub with a bearing ring attached to it by means of spokes, on which in the holes of the mounting bushings are rigidly fixed with their shanks having the threaded part, the teeth staggered along the outer and inner concentric circles, and the teeth in the working area of one working body are located with a cross teeth in the working area of another working body, characterized in that each mounting sleeve is made with two mounting holes located one above the other, spaced apart from the tooth hole and provided with an elastic element, and each tooth is made in the form of a cone with a rounded apex facing down wherein, the bushings of the teeth located on the outer circumference and the teeth located on the inner circumference are connected in pairs with each other by means of axes attached to the bearing ring, one end of each of which is fixed in the upper mounting hole of the sleeve for the tooth located on the outer circumference, with an elastic element located between the upper face of this sleeve and the threaded part of the shank of the tooth, and the other end of the axis is placed in the lower mounting hole of the sleeve for the tooth located on the inner circle, with an elastic element located between the lower face of this sleeve and the base of the tooth cone, each sleeve being mounted to rotate around the axis on which it is fixed, in the plane, the tangent to the plane of the bearing ring, between the two stops and the stop to limit rotation in the direction of rotation of the working body of the sleeve with the tooth located on the outer circumference, is fixed to the lower side of the bearing ring, and the corresponding stop for turning the sleeve with the tooth located on the inner circle is fixed on the upper side of the supporting ring of the working body, while the elastic element of the sleeve with a tooth located on the outer circumference is mated with a stop restricting the specified rotation of the sleeve located behind this And a resilient sleeve member with a tooth disposed on the inner circumference, is conjugate with the focus located in front of the sleeve on which it is mounted.  2. The cultivator according to claim 1, characterized in that each mounting sleeve is made in the form of a tetrahedral prism, one of the faces of which, mating with elastic elements, has smooth transitions to the upper and lower bases, and the axial line of the hole of the sleeve under the tooth is located with intersection relative to the axial lines of the mounting holes of the sleeve, and the last axial lines are parallel to each other.  3. The cultivator according to claim 1, characterized in that the elastic element is made voluminous and loop-shaped with a loop part located on the upper part of the tooth, and the ends connected to each other, paired with one of the stops.  4. The cultivator according to claim 1 or 2, characterized in that the elastic element is made of rolled round section.  5. The cultivator according to claim 1, characterized in that the mounting sleeve is mounted on the axles by means of sliding bearings, perceiving radial and axial loads.

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