RU2681480C2 - Rotary harrow-hoe and gearbox of a working body (options) - Google Patents

Abstract

FIELD: agriculture; machine building.

SUBSTANCE: inventions relate to agricultural tillage machines. Rotary harrow-hoe contains a battery of working sections mounted on the frame, each working section consists of a pair of working bodies in the form of toothed disks mounted on curved rods, and the frame is equipped with elements of connection with energy means. Novelty consists in the fact that each working section is fixed on the frame by means of a clamp and base, with working bodies mounted on it by means of copying units consisting of hinges, on the sleeves of which copying elements with rotation stops are installed under the lower plane of the frame, on the copying elements curved rods with toothed disks are fixed, at the same time, the working bodies are equipped with stabilizing units consisting of springs fixed by one ends on curved rods, and the other ends on the base. Variants of the invention – a toothed disk of the working body has common essential features of the restrictive parts of independent claims: teeth and hub. Variants of the toothed disk of the working body and their novelty are due to the fastening elements of the bases of the teeth. According to first option 11 of the independent claim, the hub is made with a flange that is connected to a clamping ring, between which the bases of the teeth are located, while the connection of the flange of the hub and the clamping ring is made through at least two teeth. According to second variant 21 of the independent claim, the hub is made with a flange and connected to the flange of the second hub, between which the bases of the teeth are located, and the connection of the flanges of the hubs is made through at least two teeth. Common essential features of the distinctive parts of independent claims 11 and 21 are the following signs: on the free length of the teeth, there are reinforcing annular plates on both sides, which are connected through the teeth, forming a rigid structure of the toothed disk.

EFFECT: invention can be used in manufacture of harrows with rotating gearless gear working bodies.

30 cl, 6 dwg

Description

The invention relates to agricultural tillage machines and can be used in the manufacture of harrows with rotating non-powered gear working bodies.

An analogue of the claimed invention adopted a technical solution for the same purpose - the working body of the tillage machine, a common feature with the claimed technical solution is the frame of the tillage machine for fastening by means of a curved stand, a working body including gear discs that are mounted from opposite sides on opposite ends of the bracket mounted on curved rack, while the working body further comprises a protective spring connected via a rotary axis to the frame. [Description of the utility model "The working body of the tillage machine" according to the patent of the Russian Federation No. 170226, IPC АВВ 21/04 (2006.01), А01В 61/04 (2006.01)].

The closest analogue to the same purpose as the claimed invention is a technical solution of the same purpose - a rotary harrow-hoe, common signs with the claimed technical solution are the elements of connection with a hinge of a power tool mounted on the frame, working sections, each of which consists of pairs working bodies containing on horizontal axes gear discs mounted on curved rods. [Description of the utility model "Harrow-hoe rotary" according to the patent of the Russian Federation No. 111952, IPC АВВ 21/04 (2006.01)].

The following disadvantages are inherent in the analogue and prototype: poor quality of soil cultivation, due to poor copying of the soil relief, which is carried out by the entire section, and not by each gear disc, and is caused by the dependent position of one gear disc on the position of the second, since both gear discs are located on one shoulder. When processing row-row crops, the dismantling of a whole section is required for processing a row of crops. In addition, known maintainability is inherent in low maintainability, because when the breakdown and replacement of the working body, it is necessary to dismantle the entire working section.

For an analogue of both variants of the claimed invention - a gear disk of a working body - a technical solution of the same purpose was made - a rotary working body of a tillage implement containing a disk, with bushings fixed on it, in which needles are fixed, fixed on the periphery of the disk. Common features with the claimed variants of the invention are a disk with needles placed on it [Description of the invention “Rotary working body of a tillage implement” according to RF patent No. 2649178, IPC A01B 21/04 (2006.01), A01B 23/02 (2006.01), A01B 35/16 (2006.01), A01B 33/14 (2006.01)].

The closest analogue to the same purpose as both versions of the claimed invention is the gear disk of the working body, is a technical solution of the same purpose - the working body of a rotary harrow, the common features of which with the claimed variants of the invention are teeth, mounted on the periphery of the hub. [Description of the invention "Rotary harrow" according to the patent of the Russian Federation No. 2653879, IPC A01B 21/04 (2006.01), A01B 35/16 (2006.01), A01B 35/28 (2006.01)].

The analogue and prototype of the variants of the invention - the gear disk of the working body - have the following disadvantages: low performance, low mechanical strength, low maintainability.

The task to which the invention is directed is the rotary harrow-hoe, is to expand the operational and technological capabilities of the harrow, and increase the maintainability of the working sections.

The technical result that can be obtained by carrying out the invention, the rotary hoe, is to expand the technology of agronomic application on the soil of row crops by creating independent working bodies of the working sections and varying the design capabilities of the working sections.

The task to which both versions of the invention are directed is the gear disk of the working body, and the technical result that can be obtained by their implementation is to improve operational performance by increasing its mechanical strength and improving maintainability, which are common with the task and technical result harrow-hoes rotational.

The essence of the invention according to 1 independent claim is a rotary harrow-hoe, containing a battery of working sections mounted on the frame, each working section consists of a pair of working bodies in the form of gear disks mounted on curved rods, and the frame is equipped with elements for connecting to an energy tool, consists in that each working section is fixed to the frame by means of a clamp and a base, with working bodies installed on it by means of copying units consisting of hinges, on the bushes of which are mounted a copy curved rods with gear disks are fixed on the copying elements, while the working bodies are equipped with stabilizing units consisting of springs fixed at one end on curved rods and other ends on the base.

The solution to the problem is promoted by the signs characterizing the invention according to the 1st independent claim in the particular cases of its implementation or use. The base of the working section contains a bracket made of curved shape, which is congruent to the shape of the side and lower planes of the frame, and from the side of the working bodies the bracket is made in a stepped form. A support in the form of a stiffener is rigidly fixed perpendicularly to the bracket, into which an axis is welded for fastening the hinges of the copying nodes. The hinges of the copying units are mounted on the axis symmetrically to the support on both sides and are made in the form of a pair of bearings pressed into bushings covered by anthers. Curved rods of the working bodies are installed by means of connecting plates on the copy elements, forming a detachable or one-piece connection with them. Curved rods are made of rectangular or round, or hexagonal section. The springs of the stabilizing nodes are fixed on curved rods by means of hooks, and on the base bracket by tensioners. As the spring of the stabilizing unit, a compression or tension, or torsion, or telescopic spring is used. The clamp is made of a l-shaped round section. The working bodies in the working section are installed coaxially, forming one row, or with a spacing of alignment, with the formation of two rows.

The essence of the first variant of the invention according to the 11th independent claim, the toothed disk of the working body containing the teeth and the hub, consists in the fact that the hub is made with a flange that is connected to the clamping ring, between which the tooth bases are located, while the hub flange and the clamping ring are connected made through at least two teeth, and on the free length of the teeth, reinforcing ring plates are located on both sides, which are interconnected through the teeth, forming a rigid structure.

The solution to the problem is promoted by the signs characterizing the invention according to 11 independent claims in particular cases of its implementation or use. A pair of teeth, through which the flange of the hub and the clamping ring are fastened, are diametrically opposed. The flange of the hub, the clamping ring and the teeth through which they are connected are secured by bolted connections. The flange of the hub, the clamping ring and the teeth through which they are connected are fixed with rivets. The reinforcing ring plates are located on the free length of the teeth, and their width is made at least equal to the width of the teeth. Reinforcing ring plates are riveted through the teeth. Reinforcing ring plates are bolted through the teeth. Each tooth is made with a bend, with an oval surface on the side opposite to the direction of the bend and a formed swept tip. The teeth of the disk are made of a strip of rectangular section. The teeth of the disk are made of structural carbon quality steel not lower than St 45.

The essence of the second variant of the invention according to 21 independent claims - a gear disk of the working body containing the teeth and the hub, consists in the fact that the hub is made with a flange and connected to the flange of the second hub, between which the tooth bases are located, while the connection of the hub flanges is made through at least two teeth, and on the free length of the teeth, reinforcing ring plates are located on both sides, which are connected through the teeth, forming a rigid structure.

The solution to the problem is facilitated by the signs characterizing the invention according to 21 independent claims in particular cases of its implementation or use. A pair of teeth through which the hub flanges are fastened are diametrically opposed. Hub flanges and teeth, through which they are mounted, are connected by bolted connections. Hub flanges and teeth through which they are connected are riveted. The reinforcing ring plates are located on the free length of the teeth, and their width is made at least equal to the width of the teeth. The teeth are connected to the reinforcing ring plates with rivets. The teeth are connected to the reinforcing ring plates by bolted joints. Each tooth is made with a bend, with an oval surface on the side opposite to the direction of the bend and a formed swept tip. The teeth of the disk are made of a strip of rectangular section. The teeth of the disk are made of structural carbon quality steel not lower than St 45.

Variants of the invention - the gear disk of the working body are so interconnected that they form a single inventive concept, due to a common closest analogue, therefore, have common essential features of the limiting parts of the independent claims: teeth and hub. Variants of the toothed disc of the working body and their novelty are due to the elements of fixing the bases of the teeth. According to the first embodiment 11 of the independent claim, the hub is made with a flange that is connected to the clamping ring, between which the tooth bases are located, while the connection of the hub flange and the clamping ring is made through at least two teeth. According to the second embodiment 21 of the independent claim, the hub is made with a flange and connected to the flange of the second hub, between which the tooth bases are located, while the connection of the hub flanges is made through at least two teeth. The common essential features of the distinctive parts of the independent claims 11 and 21 of the claims: on the free length of the teeth, reinforcing ring plates are located on both sides, which are connected through the teeth, forming a rigid structure of the gear disk. Variants of the invention - the gear disk of the working body have the same purpose and, when implemented, give the same technical result in verbal expression.

The technical means with the claimed sets of essential features of clause 1, clause 11 and clause 21 of the independent claims are not known from the prior art — a rotary harrow-hoe and a gear disc of a working body, which confirms their compliance with the patentability condition of the invention — novelty.

The essential distinguishing features of technical solutions under the independent claims of Clause 1, Clause 11 and Clause 21 of the claims are the rotary harrow-hoe, the gear disc of the working body and its variants, which do not explicitly follow from the prior art for a specialist, which confirms that the inventions comply with the condition patentability - inventive step.

The invention is illustrated by drawings, where:

FIG. 1 - working section of a rotary harrow-hoe;

FIG. 2 - hinges of copy nodes in the section along AA

FIG. 3 - fastening of a gear disk on a curved rod in a section along BB;

FIG. 4 - working section of a rotary harrow-hoe, rear view.

FIG. 5 - working section of a rotary harrow-hoe, gear disc option 2;

FIG. 6 - fastening of the toothed disk on a curved rod in a section along BB.

The invention can be implemented with the implementation of the specified purpose and achieve a technical result as follows. The rotary harrow-hoe contains a frame 1, on which the working sections are fixed, which form the battery of the working sections (not shown in the drawing). As an example of implementation, one working section is described, which consists of a base on which a pair of working bodies in the form of curved rods 2 are fixed by means of copying nodes, on the horizontal axes 3 of which gear discs are installed (the rotary harrow-hoe nodes in the drawings are indicated through their constituent elements )

The base of the working section contains a bracket 4, which is made, on the installation side of the working section on the frame 1, of a curved shape, which is congruent to the shape of the side and lower planes of the frame 1, and on the side of the working bodies, the bracket 4 is made in a stepped form, the support 5 is fixed perpendicular to it in the form of a stiffener, in which axis 6 is welded. On axis 6, symmetrically supporting 5, independent hinges of copying units are installed on both sides. The hinges are made in the form of a pair of bearings 7, pressed into the bushings 8, closed by anthers 9. The number of bearings 7 in the hinges is due to the requirements of lateral loads on the copy nodes. On the bushings 8, the hinges are welded along the inner circles of the plate of the copying elements 10, with the rotation limiters 11 made on them in the form of protrusions under the lower plane of the frame 1. In the working section, each curved rod 2 with a gear disk is fixed to the copying element 10 by means of a connecting plate 12, which welded on a curved rod 2 and bolted to the copy element 10, forming detachable connections with it. Curved rods 2 with gear discs, connected to the corresponding hinges of the copying nodes of the working sections, allow you to get independently working gear discs on curved rods 2 in the battery of the working sections. It is possible to fasten the connecting plates 12 to the copy elements 10 by welding. With this fastening, the dismantling of the independent curved rod 2 with the toothed disk is carried out by disassembling the corresponding copying unit. Curved rod 2 is made of rectangular cross section. It is possible to perform curved rods 2 of round or hexagonal cross-section. Each curved rod 2 of the working section is equipped with a stabilizing unit, which consists of a tension spring 13, one end fixed by means of a hook 14 on a curved rod 2, and the other end through a tensioner 15 on the bracket 4 of the base. As the spring of the stabilizing unit, a spring, for example, compression, or torsion, or bending, or a telescopic spring, can be used. The working section is mounted on the frame 1 by means of an arm 4 of the base, mounted on the frame 1 by a curved plane and covered by a clamp 16. The clamp 16 is made of a circular cross-section of a L-shape to cover the frame 1 from the side 4 of the bracket 1, and has a thread on both sides, providing reliability of fastening of the working section. The collar 16 is made of steel grade St3-20. The working bodies in the working section are installed coaxially, forming one row. Possible installation of the working bodies in the working section with the diversity of their alignment with the formation of two rows. On the frame 1, the elements of the connection 17 of the rotary harrow-hoe rotational with a power tool are rigidly fixed. The working bodies are formed by connecting gear discs with curved rods to which the connecting plates are welded, through which the working bodies are connected to the copy plates of the copying unit, which is assembled separately with the base. The connection of these nodes form a working section, which is attached to the frame 1 by means of a base bracket and a clamp. The number of working sections assembled into a rotary hoe battery depends on the required working width of the treated soil surface and is determined by the customer.

An example of the implementation of technical solutions of the gear disc, with the implementation of the specified purpose, is set forth for the first embodiment of the technical solution of the gear disc according to the eleventh independent claim. The toothed disk of the working body contains a hub 18 with a round flange 19 for its installation on the horizontal axis 3 of the curved rod 2. Each tooth 20 of the toothed disk is made with a bend, with an oval surface from the side opposite to the bending direction and a formed arrow-shaped tip 21 that define the working area of the teeth . The teeth 20 are made of a rectangular strip of 8 × 20 mm made of structural carbon quality steel not lower than St 45. On the free length of the teeth 20 are located, covering them on both sides, reinforcing ring plates 22, which are interconnected through the teeth 20 by means of rivets into a rigid design with high mechanical strength. The free length of the teeth 20 is determined by calculation and is determined by the diameters of the hub hub 18, the flange 19 and the size of the working area of each tooth 20. The width of the reinforcing ring plates 22 is made not less than the width of the teeth 20. It is possible to fasten the reinforcing ring plates 22 with teeth 20 by bolting. The base of the teeth 20 are located between the flange 19 of the hub 18 and the clamping ring 23 and are rigidly fixed with them through four evenly spaced teeth 24, bolted joints. The connection of the flange 19 and the clamping ring 23 through the four teeth 24 can be performed by rivets. It is possible to use a different number of teeth 24 for connecting the flange 19 and the clamping ring 23, subject to the connection conditions, at least through two teeth 24, which are diametrically opposed to distribute the uniform load on them. The holes in the teeth 24, the flange 19 and the clamping ring 23 are preformed, their number is determined by the number of teeth 24 through which they will be connected. The flange 19 is connected to the hub hub 18 by welding. The hub 18 with the flange 19 can be made in the form of a monolithic part, made by the method of turning and milling. The gear discs are mounted on curved rods 2 so that the bends of the working areas of the teeth 20, including the teeth 24, are directed in the direction of rotation of the gear disc, and their oval surfaces will be on the side opposite to the direction of rotation. The gear disk is mounted on the horizontal axis 3 of the curved rod 2, by means of a bearing 25, pressed into the hub 18.

The second variant of the technical solution of the gear disc of the working body according to the twenty-first independent claim is due to the elements of fixing the bases of the teeth 20 (through the description of the design features of the options for the gear disc, through numbering is used, since the options are united by a single inventive concept). The gear disk of the working body for its installation on the horizontal axis 3 of the curved rod 2 contains a hub 18 with a round flange 19 and a hub 26 with a round flange 27. The base of the teeth 20 are located between the flange 19 of the hub 18 and the flange 27 of the hub 26 and are rigidly fixed with them through four evenly spaced teeth 24, bolted joints. The gear disk is mounted on the horizontal axis 3 of the bent rod 2, by means of a bearing 25, pressed into the hubs 18 and 26. Other structural characteristics of the second variant of the gear disk of the working body are similar to the described variant according to the eleventh independent claim.

Harrow-hoe rotational and options for the toothed disc of the working body are as follows. On a power tool, for example, on a tractor, a rotary hoe is mounted through a connection element 17 on a tractor hitch. When the tractor moves, the gear disks engage with the soil, transforming the translational motion of the frame 1 into the rotational motion of the gear disks. When treating the soil to a depth of 50 mm, with the rotation of the toothed disk, each tooth 20, including 24, since all the teeth 20 and 24 are working enter the soil at an angle of 90 °, the arrow-shaped tip 21 pierces the top crust of the soil, cuts it with side edges oval back surfaces it penetrates the lower surface of the furrow, and the lateral edges of the arrow-shaped tip 21 undermines the soil crust from below and emerges at an angle of 45 °, producing a microexplosion of the soil and forming a mulched soil layer, tearing out weeds of a one-year-old in threadlike forms. When the topography of the soil changes, when the gear discs get on an elevation or indentation in the surface to be treated, the corresponding curved rods 2 oscillate due to the bearings of 7 independent joints, providing high quality soil cultivation due to the detailed copying of its relief. In this case, the movement of the curved rods 2 of each working section forward is stopped by the rotation limiters 11 of the copying elements 10, and their backward movement is limited by stabilizing nodes, the tension springs 13 of which return the curved rods 2 to the working position. In addition, each stabilizing node is used as a fuse, when a gear disc of a working body hits a large obstacle, its tension spring 13 is destroyed, preventing damage to the curved rod 2.

To process row-row crops in row crops, one curved rod 2 in each working section is dismantled, which reduces the area of the untreated soil surface by half. The creation of independent working bodies of the working sections allows you to vary the design capabilities of the working sections when using them for various row crops, and if they malfunction, it is easy to dismantle and replace damaged elements. Using the rotary and gear disc hoes of the working body according to the proposed technical solutions allows us to achieve additional goals due to the creation of a mulched soil layer that retains moisture, since it does not evaporate, while the mulched layer is saturated with nitrogen, which activates the work of beneficial bacteria. Destroyed weeds do not consume nutrients and moisture from the soil intended for the cultivated crop, thereby eliminating the use of herbicides and complex fertilizers and, thus, it is possible to produce environmentally friendly products with low cost.

The claimed invention in the form as described in the claims can be carried out using the described means and methods, with the implementation of the specified technical result, which confirms their compliance with the patentability condition - industrial applicability.

Explication of elements of drawings of inventions

1 - frame

2 - bent draft

3 - axis

4 - bracket

5 - support

6 - axis

7 - bearing

8 - sleeve

9 - anther

10 - copy element

11 - rotation limiter

12 - connecting plate

13 - tension spring

14 - hook

15 - tensioner

16 - clamp

17 - connection element

18 - hub

19 - flange

20 - tooth

21 - swept tooth tip

22 - reinforcing ring plate

23 - a clamping ring

24 - tooth

25 - bearing

26 - hub

27 - flange.

Claims (30)

1. Rotary harrow-hoe, containing a battery of working sections mounted on the frame, each working section consists of a pair of working bodies in the form of gear discs mounted on curved rods, and the frame is equipped with elements of connection with an energy tool, characterized in that each working section fixed to the frame by means of a clamp and base, with working bodies installed on it by means of copying units consisting of hinges, on the bushes of which copying elements with rotation limiters are fixed under the lower on the plane of the frame, curved rods with gear discs are fixed on the copying elements, while the working bodies are equipped with stabilizing nodes consisting of springs fixed at one end by curved rods and other ends on the base. 2. Harrow-hoe according to claim 1, characterized in that the base of the working section contains a bracket made of a curved shape, which is congruent to the shape of the side and lower planes of the frame, and from the side of the working bodies the bracket is made in a stepped form. 3. Harrow-hoe according to claim 2, characterized in that the support is rigidly fixed perpendicularly to the bracket in the form of a stiffener, in which an axis is welded for mounting the hinges of the copy nodes. 4. Harrow-hoe according to claim 1 or 3, characterized in that the hinges of the copying units are mounted on the axis symmetrically to the support on both sides and are made in the form of a pair of bearings pressed into bushings covered by anthers. 5. Rotary harrow-hoe according to claim 1, characterized in that the curved rods of the working bodies are installed by means of connecting plates on the copying elements, forming a detachable or one-piece connection with them. 6. Rotary harrow-hoe according to claim 1, characterized in that the curved rods are made of rectangular or round or hexagonal section. 7. Harrow-hoe according to claim 1, characterized in that the springs of the stabilizing nodes are fixed on curved rods by means of hooks, and on the base bracket by tensioners. 8. Harrow-hoe according to claim 1, characterized in that a compression or extension spring, or torsion spring, or telescopic spring is used as the spring of the stabilizing unit. 9. Harrow-hoe according to claim 1, characterized in that the clamp is made of a l-shaped round section. 10. Harrow-hoe according to claim 1, characterized in that the working bodies in the working section are mounted coaxially, forming one row, or with a spacing of alignment, with the formation of two rows. 11. Toothed disk of the working body, containing teeth and a hub, characterized in that the hub is made with a flange that is connected to the clamping ring, between which are the base of the teeth, while the connection of the flange of the hub and the clamping ring is made through at least two teeth and on the free length of the teeth, reinforcing ring plates are located on both sides, which are interconnected through the teeth, forming a rigid structure. 12. The gear disk according to claim 11, characterized in that the pair of teeth through which the hub flange and the clamping ring are fastened are diametrically opposed. 13. The gear disk according to claim 11, characterized in that the hub flange, the clamping ring and the teeth through which they are connected are secured by bolted connections. 14. The toothed disk according to claim 11, characterized in that the hub flange, the clamping ring and the teeth through which they are connected are fixed with rivets. 15. The gear disk according to claim 11, characterized in that the reinforcing ring plates are located on the free length of the teeth, and their width is made at least equal to the width of the teeth. 16. The gear disk according to claim 11, characterized in that the reinforcing ring plates are connected through the teeth by rivets. 17. A gear disk according to claim 11, characterized in that the reinforcing ring plates are connected through the teeth by bolted joints. 18. The toothed disk according to claim 11, characterized in that each tooth is made with a bend, with an oval surface from the side opposite to the direction of the bend and a formed arrow-shaped tip. 19. The gear disk according to claim 11, characterized in that the teeth of the disk are made of a strip of rectangular cross section. 20. The gear disk according to claim 11, characterized in that the teeth of the disk are made of structural carbon quality steel not lower than St 45. 21. A gear disk of the working body, containing teeth and a hub, characterized in that the hub is made with a flange and connected to the flange of the second hub, between which the tooth bases are located, while the connection of the hub flanges is made through at least two teeth, and the free length of the teeth, reinforcing ring plates are located on both sides, which are connected through the teeth, forming a rigid structure. 22. The gear disk according to claim 21, characterized in that the pair of teeth through which the flanges of the hubs are fastened are diametrically opposed. 23. The gear disk according to claim 21, characterized in that the hub flanges and teeth through which they are fastened are connected by bolted connections. 24. The gear disk according to claim 21, characterized in that the flanges of the hubs and teeth, through which they are connected, are fixed with rivets. 25. The gear disk according to claim 21, characterized in that the reinforcing ring plates are located on the free length of the teeth, and their width is made at least equal to the width of the teeth. 26. A gear disk according to claim 21, characterized in that the teeth are connected to the reinforcing ring plates with rivets. 27. A gear disk according to claim 21, characterized in that the teeth are connected to the reinforcing ring plates by bolted joints. 28. A toothed disk according to claim 21, characterized in that each tooth is made with a bend, with an oval surface from the side opposite to the direction of the bend and a formed arrow-shaped tip. 29. The gear disk according to claim 21, characterized in that the teeth of the disk are made of a strip of rectangular section. 30. The gear disk according to claim 21, characterized in that the teeth of the disk are made of structural carbon quality steel not lower than St 45.

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