RU2236771C2 - Potato digging plow - Google Patents

Abstract

FIELD: agricultural engineering, in particular, equipment for basic soil tillage and digging out of potato.

SUBSTANCE: apparatus has plow body 1 with shortened moldboard, rotor provided with three tiers of working tools and mounted behind plow body 1. Working tools are made in the form of lifting spades 12 and rods 14, 19 fitted with faceplates 16, 20. Working tools of second and third tiers are attached to bearing sleeve 11 of rotor through threaded connection and are fixed by lock nuts 15. In case inclination angle of plates 16,20 must be changed, bearing rods may be turned in mounting opening to loosen lock nuts 15. Faceplates 20 of third tier may be moved relative to their bearing rods along arched path and in direction transverse to said path through the use of slots 22 formed in bearing rods and plates in mutually perpendicular directions. Fastening bolts 21 with nuts are inserted into slots 22. Working tools of second tier are arranged along descending helical lines, when used in plowing mode, and along ascending helical lines, when used in potato digging out mode by turning bearing rods through some angle around their longitudinal axes. Working tools of third tier arranged above moldboard are mainly adapted for forming of potato strip on field surface and for ejecting part of soil from layer.

EFFECT: increased efficiency and enhanced reliability in operation.

5 cl, 7 dwg

Description

The invention relates to agricultural machinery, in particular to plows with rotary cultivators, and is intended both for primary tillage and for digging potatoes, i.e. to perform two main functions.

Currently, there are no plows capable of qualitatively performing these two functions.

In agriculture, it is known to use reversible plows when harvesting potatoes, in particular horse-drawn single-hull plows. These plows wrap a potato bed, partially exposing the potato nests. Then the potatoes are dug either manually or by rotary potato diggers.

The technology based on these plows is very laborious and inefficient (see Agricultural Encyclopedia: v.4, p.1003-1006).

Known rotary potato digger KTN-1A, containing a passive curved ploughshare and rotor sequentially mounted on the frame. The latter includes a hub with equally large curved blades mounted on a horizontal shaft connected to the drive. The shaft is oriented by its axis of rotation parallel to the longitudinal axis of the machine (see in the book: Karpenko A.N., Zelenova A.A., Khalansky V.M. Agricultural machines, - M .: Kolos, 1972, p. 316, Fig. XIV 1b).

In the process, the potato digger digs one row in the ploughshare and feeds the tuber-containing layer to the rotating rotor. The rotor blades crush the formation and throw the soil with tubers sideways to the field surface.

The main disadvantage of this device is that its rotor is not able to isolate all the potatoes from the formation, and when the tubers are thrown to the side, part of them fall into the soil again. Therefore, crop losses during harvesting are very significant.

As a prototype of the patented invention, the applicant used the ″ Tool for the main processing of solonetzic soils ″, known from the description to A.S. USSR No. 1031414, M.kl. ⁵ . A 01 B 17/00.

This device is not intended for digging potatoes, but has the greatest similarity in technical essence with the invention, since the applicant created the patented invention on the basis of this tool.

The prototype contains a sequentially installed passive plow body with a shortened blade and an active rotor. The rotor is mounted vertically, has a shaft on which two types of working elements are fixed: lifting helical blades and ripping teeth. In this case, the screw blades are located in the lower part of the rotor and are mounted on the shaft along a multi-start ascending helix, and the loosening teeth located above the blades, which in essence are also blades, but of rectangular cross section and equipped with patch plates, are fixed along a descending multi-start spiral with an angle of approach at 45 °. The rotor is connected by transmission to the tractor's power take-off shaft (PTO). When performing the main function, the soil layer trimmed by the passive body enters one part of the screw lower blades, and the other part (from the shortened blade) - to the ripping teeth. The flows of the soil layer are crushed by the elements of the rotor and move counter-to each other, actively mixing.

During plowing of the harvested potato plot with the prototype device, its unexpected property was discovered - to take out the remaining potato tubers to the soil surface after harvesting. However, then a special experiment was carried out both on the harvested and not harvested before the potato field showed that the efficiency of "removal" of tubers on the day surface of the field is low and ranges from 30 to 35%. Along with this, other positive qualities of the prototype were found, consisting in the fact that the tubers were not damaged by the elements of the gun and were located in a strip behind the gun in the plowed area. The measurements showed that the strip in which the tubers were lying exceeds the grip width of one body (together with the rotor) by about 2 times, i.e. up to 60 ... 65 cm. In this case, the tool performs its main function qualitatively - plowing the soil. Thus, the task was formulated - to expand the functionality of the known device, i.e. ensure its use as a potato digger, subject to increased effectiveness in this direction.

The goal is solved by the patented invention, which, like the prototype, contains the following common essential features.

1. A passive plow body mounted on the frame with a shortened blade and an active rotor mounted behind it.

2. The rotor has a truss close to cylindrical and is formed by working elements of two types, namely lifting blades located in the lower part of the rotor and forming the lower tier of the working elements. These blades are placed in a 3-way spiral with an angle of approach of 20 ... 25 °. Another type of working elements is grinding rods of rectangular cross section. They form a second tier, also arranged in a spiral, in particular in a downward direction, and are equipped with patch plates rigidly fixed to one of their side faces.

The linings are wider than the bearing faces and therefore extend beyond them.

3. All grinding elements are fixed on the bearing sleeve, which, in turn, is mounted on the shaft. The latter, through a bevel gear and drive shaft, is connected to the tractor PTO shaft.

4. Elements of the second tier form two steps, each of which contains four such elements, spaced evenly through 90 °, ie crosswise. The elements of the upper stage are rotated around the axis of rotation of the rotor and relative to the elements of the lower stage by 45 °. In addition, all elements are fixed on the sleeve in such a way that their longitudinal axes are perpendicular to the axis of rotation of the rotor, and the patch plates are inclined to the horizontal plane.

The patented invention in comparison with the prototype also has distinctive features.

1. The rotor is equipped with an additional tier of working elements, which are located above the upper edge of the passive body shortened from above the blade and attached to the sleeve.

2. These elements are located opposite and even to each other, ie through 90 °, and contain, like the elements of the second tier, the main bearing rods and patch plates. The rods are equal in length to the rods of the second tier, and the pads are removable and attached to the rods with fasteners (bolts) passed through the grooves.

At the same time, one groove is made in the bearing rod along its length, and two in the patch. The grooves in the patch plate are made perpendicular to its longitudinal axis and are placed in the first half of the patch, the end edges of which are rounded.

3. Overhead plates of the third tier exceed their bearing rods in length and width.

4. The working elements of the second and third tiers are connected with the rotor hub with the possibility of a connector, for example, by a threaded connection on the principle of "screw-nut". Moreover, the mounting section is made at one of the ends of each bearing rod and is equipped with a lock in the form of a lock nut.

5. On the surface of the sleeve in the area of the second and third tiers at the points of attachment of the working elements, the angle indicators of the inclined plates are made.

Patented technical solution allows, if necessary, to transform the circuit of the device to perform one of two functions.

So, due to the threaded connection of the working elements with the sleeve, you can install all the elements only in ascending helical lines and then the device will work in the mode of digging up potato tubers. At the same time, the elements of the third tier are intended for forming the parameters of the potato layer on the soil surface and for removing part of the soil entering through the upper edge of the dump of the passive case. This contributes to the release of tubers from the soil. At the same time, the proposed distinguishing features contribute to the improvement of soil separation, the improvement of the tubers on the day surface. It is also obvious that the digging of tubers is accompanied by loosening of the soil.

When using the device for operation in the main tillage mode, the working elements are installed according to the prototype scheme, i.e. on ascending and descending helix lines.

Thus, the expansion of the functionality of the plow is provided, and due to this, the expansion of the range of its use.

The list of drawings explaining the essence of the invention.

Figure 1. General scheme of a potato digger plow (top view).

Figure 2. Part of the device containing a passive housing and a rotary working body with drive elements.

Figure 3. The working element of the second tier with the attachment to the rotor hub.

Figure 4. The working element of the second tier (type A) with a pointer to the angle of inclination of the invoice plate.

Figure 5. Work item of the third tier (general view).

6. Work item of the third tier (type A). Placing the patch plate in the vertical plane (I) and at an angle to the vertical (II).

7. Work item of the third tier. Placing the patch plate at an angle α to the longitudinal axis of the carrier pin.

Consider the implementation of the invention on the example of a single-mounted mounted plow.

The device comprises (Fig. 1, 2) a passive housing 1 with a shortened blade fixed with a rack to the frame. The frame has a main supporting beam 3, a longitudinal 4 and a transverse beam, as well as a frame 6 of the linkage mechanism, behind the housing 1 on the beam 3 with a distance of 700 mm from the share of the share to the center of rotation along the direction of travel and 300 mm from the line of the crop edge mounted rotor 2 ( figure 2), which contains a vertical shaft 7 (⌀ 25 mm). A bevel gear 8 is fixed at the upper end of the shaft, interacting with another bevel gear 9 of the gearbox. The gear 9 is connected to the driveshaft 10, and it is connected to the power take-off shaft (PTO) of the tractor (not shown). A sleeve 11 is mounted on the rotor shaft 7 with a wall thickness of 27 mm, fastened with a key and a lock nut in the lower part. The shaft 7 is supported by its upper part on a tapered bearing. On the outer surface of the sleeve 11, three tiers of working elements are fixed. In the lower part mounted three lifting blades 12, the outer edge of which is made in a spiral of Archimedes (figure 2). These blades form the first tier, whose height is approximately 150 mm. The lower edge of the blades 12 is sharpened and is able to cut the soil. The blades are arranged in a three-way ascending spiral with an approach angle of 20 ° and are made of sheet steel (G 20) with a thickness of 5 mm. Above the lifting blades 12 of the first tier are two steps of the working elements 13 of the second tier (Fig.2, 3, 4). These elements are made of three parts (FIGS. 3, 4): a supporting rod 14 of square cross section having a face width of 20 mm and a length of the working part of 110 mm. The non-working end of the rod 14 is cylindrical and threaded. A lock nut 15 is located on it. At this end, the rod 14 is screwed into the mounting hole of the sleeve 11, is installed in the required position, which is fixed by the lock nut 15. On one of the faces of the rod 14, a patch plate 16 is fixed by welding, having dimensions 5 × 60 × 110 mm This plate protrudes in one part beyond the bearing face of the rod by 40 mm, i.e. double the width of the latter, while its upper edge is rounded (figure 4). In the second tier there are eight working elements 13, forming two steps (4 elements each). Elements 13 in each stage are located opposite through 90 °. Moreover, the elements of the second degree are shifted relative to the elements of the first degree in the direction of rotation of the rotor by 45 ° (Fig. 1). Thus, the elements of the second tier are arranged in a four-way spiral with an approach angle of 50 °.

On the sleeves 11 in the places of fastening of the elements 13, risks 17 are applied around the circumference through 15 °, forming an adjustment sector for setting the angle of inclination of the overlay plates 16 when performing one or another function of the device (Fig. 4).

Above the elements 13 of the second tier is the third tier of the additional elements 18 (Fig.2, 5-7). These elements include rods 19, patch plates 20, and an attachment unit similar in design to the elements 13. They also have a cylindrical fastening end with a thread and a lock nut and are connected to the bearing sleeve 11 according to the "screw-nut" principle. The working part of their rods has parameters of 10 × 30 × 110 mm. A patch plate 20 with dimensions of 10 × 70 × 120 mm is fixed on one of the faces. However, unlike the elements of the second tier, the pads 20 are mounted on their bearing rods 19 with the ability to move both along them and across with the installation at a certain angle α formed between their longitudinal axes (Fig. 7). Lining 20 can be removed. These manipulations with the pads are provided by the crushing unit, which includes one longitudinal groove in the bearing rod and two transverse grooves in the pad, which are made in one of the half (along the length) of the pads. In addition, the mount includes two bolts (M 10) with nuts 21, which are passed through the grooves 22. The longitudinal groove has a length of 100 mm and a width of 10 mm, and the transverse grooves are respectively 50 and 10 mm. Thus, the patented plow has the following main technical characteristics: working width 350 mm, blade height 400 mm, rotor diameter 400 mm, rotor height 480 mm. The weight of the plow is 300 kg, the method of connection to the tractor is mounted. The rotor drive is mechanical from the tractor PTO. Rotor speed up to 600 min ^-1 .

Designed for basic tillage and for digging potatoes.

In plowing mode, the device is used as follows.

First, set the elements 13 and 18 (second and third tiers) in a downward spiral, that is, according to the prototype scheme. To do this, loosen the locknuts 15 and turn the latter with a wrench for the element rods so that one of the diagonals of the rods is installed along the lateral forming sleeve 11. In this case, the linings 16 and 20 should protrude downward with the free part, i.e. under the bearing rods. At the same time, the latter become, as it were, open to the soil that runs on them. In figures 4 and 6, this corresponds to I pos. The plow is brought into working position by adjusting the depth of plowing, setting the rotor speed and deepening it.

During the working process, the soil layer, cut by the passive body, enters the rotor. The lower part of the reservoir from the ploughshare and the lower part of the blade enters the lifting blades, crumbles with them and rises up. The other part of the reservoir passes through the dump and enters the elements of the second and third tiers.

In this case, the soil is destroyed by the ribs of the rods and sent down the back of the patch plates 16 and 20, meeting with the soil supplied by the blade 12, they are intensively mixed. If necessary, adjust the angle of installation of the inclined plates 16, 20, loosening the locknuts 15, according to the risks 17 of the regulatory sector.

In potato digger mode, overhead plates 16 are mounted in an upward spiral. For this, overhead plates 16 are set to position II (FIG. 4), and overhead plates 20 are set to position I (FIG. 6) and they are advanced, increasing the total length of elements 18 by 40 ... 60 mm.

After installation, the overhead plates 16 take the following position: the installation angle to the horizontal plane is 48 °, the front surface is facing the soil, the main part of the supporting rods 14 with crumbling ribs is under the overlays.

The passive body 1 is installed at a plowing depth of 20 ... 25 cm, the rotor is rotated with a rotation speed of 600 min ^-1 and the working bodies are buried in a potato bed.

The soil stratum with tubers is cut with a ploughshare, rises along the plow-heap surface, partially sprinkles, and the connection of tubers with soil and partly with stolons is broken.

When hit on the working elements of the first and second tiers of the rotor, the tubers rise up to the day surface of the soil and the working elements of the third tier are distributed in the form of a strip up to 45-60 cm wide at a certain distance from the rotor. In this process, the soil is separated, passing between the working elements of the rotor.

Tests of the prototype device showed its successful operation as a plow and as a potato digger. If necessary, control the distribution of potatoes in the soil of the pad 20 can be installed at a certain angle in the range from 0 to 45 °. In this case, a strip of potatoes can be formed from 45.0 to 65.0 cm. Removing the plates forward relative to the upper edge of the blade helps to remove and discard the upper part of the soil of the potato beds and expose the potato nest. This contributes to a better release of tubers from the soil.

The patented invention is especially necessary for farms, as it allows to reduce the fleet of vehicles in the farm. Therefore, the applicants see the main application precisely in farms, in individual farms, as well as in large collective farms.

Claims (4)

1. A plow containing a plow body fixed to the frame with a reinforced blade and a vertical rotor with a sleeve located behind it, on which the working bodies of the first tier in the form of lifting blades and working bodies of the second tier made in the form of loosening fingers are placed along a multiple helix line, bearing patch plates, the width of each of which is greater than the width of the corresponding supporting edge of the finger, characterized in that in the upper part of the rotor sleeve above the upper edge of the blade of the plow body is installed the tier tier of the working bodies, made in the form of loosening fingers with attachment plates attached to the fingers with the possibility of adjusting their position, and the loosening fingers of the second and third tiers are connected to their supporting sleeve by threaded connections with clamps for rotation by a predetermined angle around its longitudinal axial line . 2. The plow according to claim 1, characterized in that the rotor sleeve is provided with an angle indicator of the working elements for the implement working in the potato digger mode in the form of an angular sector, while the rotation lock is made in the form of a lock nut. 3. The plow according to claim 1, characterized in that in the overhead plates and fingers of the third tier there are mounting grooves located in mutually perpendicular directions in which the bolts with nuts are placed. 4. The plow according to claim 2, characterized in that the dihedral angle between the working faces of the cultivating fingers and the overhead plates of the second tier is rounded.

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