RU2552900C1 - Combined tool for potato growing - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: combined tool for potato growing comprises the plough body with a shortened mouldboard mounted on the frame, and a drive vertical rotor with the hub placed behind it. The upper part of the hub is fixedly attached to the support disc. The lower part of the hub comprises the working bodies of the first tier on the multiple-thread helical line - lifting blades, in the middle part the working bodies of the second tier - the grinding elements in the form of ripper fingers. The ripper fingers comprise the bearing rods rigidly fixed in the lower surface of the support disc, with removable working bodies attached to them, made in the form of wedge-shaped prisms or cutting blades. A part of the rod fixed to the disc is not less than 1/4 of its length. The third tier is located above the hub and the support disc and consists of inclined beater planks rigidly secured at an angle to the vertical axis of the rotor. The lower ends of the beater planks are attached to the lower part of the hub, the middle part - to the bearing rods, and are interconnected with the upper ends by a ring. In the potato digging mode the digging plates are mounted on the bearing rods and the inclined beater planks, in the form of a polygon. The lower side of the polygon is set with a gap increasing from the rotor axis, and the lateral is parallel to its axis.

EFFECT: increased degree of layer crumbling in the basic tillage mode, and reduction of damage to tubers when digging them out, reduction of labour intensity for changeover of the tool, and increase in reliability of elements of the structure.

3 cl, 6 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.

Famous "Plow with a rotary cultivator" by A.S. No. 245468, IPC A01B, 17/00, which is used for tillage. It contains a sequentially passive plow body mounted on the frame and an active rotary cultivator with a vertical shaft. In the lower part of the rotary cultivator screw-shaped blades are installed. Above the helical blades are grinding elements made in the form of knives installed at an angle to the axis of rotation, and the knives are made adjustable in angle to the axis, connecting their upper part using rods with a movable clutch.

The disadvantage of the design of the analogue is that the knives operating in the cutting mode, spend more energy on grinding the soil than the strips working in the shock mode. The connection of the grinding elements with the help of hinges and rods reduces the reliability of their fastening with a rotating shaft.

Known plow with combined working bodies, also used only for tillage, developed by the staff of the department of “Resistance of materials” CHIMESH, in which the knives located in the upper part of the rotor are replaced fixed at an angle of 25-30 ° to the axis of rotation and opposite to each other and evenly around the circumference with strips of shock action. (M.D. Podskrebko, I.Ya. Steinert, A.S. Ten. Plow with combined working bodies. // Tractors and agricultural machinery, 1979. No. 4, p. 28)

The disadvantage of this device, intended only for plowing, is the presence of a passive zone between the lifting blades and striking strips. Regulation of the degree of crumbling by changing the rotor speed causes, in turn, two drawbacks: the complexity of the rotor drive design and the excessive degree of impact of the strips on the formation in a large radius zone.

Known "Tool for the main processing of solonetzic soils" according to A.S. No. 1031414, IPC A01B 17/00, which is intended for the treatment of solonetzic soils of heavy mechanical composition. It also contains a plow body mounted in series with a shortened blade and an active rotor. On the rotor above the helical blades are loosening teeth of rectangular cross section equipped with patch plates fixed along a descending multi-helix with an angle of approach of 45 °. The soil layer cut by the plow body in one part enters the screw lower blades, and the other part from the shortened blade - to the ripping teeth. These parts in the vertical plane move counter to each other and actively crumble and mix.

The disadvantage of this device is the design complexity and excessive grinding of old arable soils of medium and light texture.

The well-known "Potato digger plow" according to patent No. 2236771, which is intended for the main tillage and digging potatoes, and we have adopted as a prototype. The device comprises a plow body with a shortened blade and a rotor installed behind it with three tiers of working elements in the form of lifting blades and rods with attachment plates, and in the third tier there are loosening fingers with attachment plates attached to the fingers with the possibility of adjusting their position. The fingers of the second and third tiers for rotation by a predetermined angle around its longitudinal axis are connected to the carrier sleeve by a threaded connection and provided with locks in the form of a lock nut, the rotor sleeve is equipped with a rotation angle indicator. When using a potato digger plow in the plowing mode, the working fingers and bearing rods of the second and third tiers are installed in a downward spiral, i.e. the pads are located on the back of the fingers and rods and protrude downward with the free part. In the mode of operation of the plow with a potato digger, overhead plates on the working fingers of the second tier are installed in an ascending spiral, i.e. on the frontal faces, and the free part of the plate is above the finger. Movable pads of the third tier are installed in a vertical plane. In the process of work, adjustment of the position of these plates with a shift of the longitudinal axis of the plates relative to the rods to ± 45 ° is required, as well as the rotation of the bearing rods by a small angle from the vertical position of the plates, to improve the separation of tubers and soil.

The disadvantage of this device is the difficulty of adjusting the potato digger to change its function, due to the need to regulate a large number of working elements and the unreliability of the connection and fixing of the working elements on the bearing sleeve.

The objective of the invention: to increase the degree of crumbling of the reservoir in the main tillage mode, to reduce injury to tubers when digging potatoes, to reduce the complexity of the readjustment of the plow when changing its functions, to increase the reliability of structural elements

In the tillage mode, the technical result is achieved by the fact that the plow for tillage and digging potatoes contains a plow body mounted on the frame with a shortened blade and a vertical rotor with a sleeve located behind it, the working bodies of the first tier are placed along the helical line at the bottom of the sleeve - lifting blades, in the middle part the working bodies of the second tier are fixed - grinding elements in the form of loosening fingers, working bodies of the third tier are installed in the upper part of the sleeve in the form of plates, in contrast to the prototype, a support disk is rigidly attached to the upper part of the sleeve, the second tier consists of loosening fingers including bearing rods with removable elements in the form of wedge-shaped prisms fixed to them, and the bearing rods are rigidly fixed to the lower surface of the supporting disk, and the part of the rod fixed to the disk is at least 1/4 of its length, the third tier is located above the sleeve and the support disk, consists of inclined beater bars rigidly fixed at an angle to the vertical axis of the rotor, and their lower ends are fixed to the sleeve, the middle part to the supporting rods, and the upper ends are interconnected.

As a result of the direct impact of the inclined beater bars and wedge-shaped prisms, the formation is intensively crushed and due to the acceleration received by the lumps from the inclined plates in the downward direction, and the other part of the lumps from the lifting blades upwards, the formation is rotated. Wedge-shaped prisms on the rotor are installed when processing old arable soils.

In addition, on soils containing a significant amount of vegetation, the technical result of simultaneous crushing of the soil and grinding of the roots and stems of plants is achieved by the fact that removable elements in the form of cutting knives are fixed on the supporting rods.

In the mode of digging potatoes, the technical result is achieved by the fact that, in contrast to the prototype, the second tier consists of bearing rods, digging plates in the form of a polygon are attached to the bearing rods and inclined beater strips, the lower side of which is installed with a gap increasing from the axis of the rotor, and the side is parallel axis, and digging plates overlap the area of action of the working bodies of the second and third tiers, which protects the tubers from damage.

Thus, to transfer the plow from the main processing mode to the mode of digging tubers on the rotor, only removable elements are replaced with digging plates, which reduces the complexity of the readjustment, in comparison with the prototype.

The task of increasing the reliability of the structure is achieved by: rigidly securing at least 1/4 of the length of the supporting rod on the support disk, rigidly connecting the lower part of the inclined plate to the supporting sleeve, in the middle part connecting the bearing rod and the plate to each other, and in the upper part, connecting the plates between themselves. The fixing of the scooping plate with extreme horizontal points to the supporting rods, and vertical extreme points to the inclined slats also increases the rigidity of the structure.

This ensures the achievement of a technical result when the device is in the mode of plowing or digging tubers of potatoes.

The list of drawings explaining the essence of the invention.

FIG. 1. General scheme of a combined gun (top view).

FIG. 2. Rotor for tillage.

FIG. 3. A wedge-shaped prism.

FIG. 4. The cutting knife.

FIG. 5. Digging plate.

FIG. 6. Rotor for digging potatoes.

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

The device comprises a plow body 1 (Fig. 1) with a shortened blade fixed with a rack to the frame. The frame has a main load-bearing beam 3, longitudinal 4 and transverse 5 bars, as well as a frame 6 of the linkage mechanism, behind the body 1 on the beam 3 with a distance of 650 mm from the share of the share to the center of rotation along the direction of travel and 350 mm from the field edge line mounted rotor 2 The shaft of the rotor 7 by means of a driven pulley 8, V-belts 9, a driving pulley 10, a reducer 11, a supporting drive shaft 12 receives rotation from the tractor power take-off shaft. The working bodies of the rotor with a shaft 7 (Fig. 2), a pulley 8 rotate on bearings installed in the supporting housing 13. A sleeve 21 is mounted on the lower part of the rotor shaft 7, which is fastened to the shaft by a key. On the surface of the sleeve 21 and the support disk 16, rigidly fixed to the upper part of the sleeve 21, three tiers of working elements are fixed. Three lifting blades are mounted in the lower part 22. The lower edge of the blades 22 is sharpened and is able to cut the soil. The blades are located on a three-way helix with a lifting angle of 25 °. The bearing rods 17 are rigidly fixed to the lower surface of the support disk 16, and the part of the rod fixed to the disk is at least 1/4 of its length. At the ends of the supporting rods 17 there are two holes. The wedge-shaped prism 18 (Fig. 3) is made with a cross section in the form of an equilateral triangle with sides of 20 mm from steel 65G according to GOST 14959-95. Spring carbon steel rolling. "

To fix the front face of the supporting rod and the working edge of the prism parallel to each other above the extreme holes on the supporting rods, liners 20 (Fig. 2) are rigidly fixed to them with a thickness equal to the thickness of the strip. To fix the wedge-shaped prisms and cutting knives to the bearing rods, studs 23 (Fig. 3 and 4) and nuts with washers 19 (Fig. 2) are used, and the distance between the studs is equal to the distance between the holes on the rods 17. Depending on the soil characteristics for it high-quality processing on the rods can be installed wedge-shaped prisms 18 (Fig. 3) or cutting knives 24 (Fig. 4). The working part of the inclined beater strips 15 (Fig. 2), rigidly fixed at an angle to the vertical axis of the rotor, is located above the supporting disk and represents the third tier of the working bodies. The inclined beater straps with the lower end are fixed to the sleeve 21, the middle part is fixed to the bearing rods 17, and the upper ends are connected by a ring 14.

The device for working in the mode of digging potatoes is configured after removing the working elements on the bearing rods (wedge-shaped prisms or cutting knives). Then, using connecting elements (bolts) 26 (Fig. 6), two digging plates 25 (Fig. 5, 6) are fixed in the form of a polygon in two holes of the bearing rods 17 (Fig. 2) and two holes of the beams 15 in front of the beams; close the coverage of the working bodies of the second and third tiers. The closure of the intensive working elements with a flat digging plate protects the tubers from damage (Fig. 6).

To eliminate the possibility of pinching large lumps of soil, tubers and foreign bodies between the lower edge of the digging plates and the upper surface of the lifting blades should be a gap increasing from the axis of rotation of the rotor. The widening gap is provided by the shape and dimensions of the digging plate. The digging plate 25 (FIG. 5) is an irregularly shaped hexagon. In a hexagon, four sides are structurally significant. Two sides are parallel to the axis of the rotor, adjacent to the inclined beating bar repeats its inner contour, the lower side makes an acute angle of at least 35 ° with the horizontal plane. The minimum value of the angular clearance at the junction of the lower side of the digging plate and the upper surface of the lifting blade will be above the maximum lifting line of 25 °. It is equal to 10 ° (Fig. 6). The performance of the plow in the process of digging potatoes provides a combination of angular and linear clearance near the sleeve, equal to 40 mm. On the digging plate, two holes were drilled for bolting to the bearing rods and two holes with inclined beams. On the rods and slats, the holes are drilled at their ends at a distance sufficient to provide the necessary rigidity to the fixed digging plates.

The patented combined tool for digging potatoes has the following main technical characteristics: the width of the plow body is 350 mm, the rotor 150 mm. The rotation to the rotor from the power take-off shaft (PTO) is transmitted through the gearbox and belt drive. When the PTO gearbox is turned on at 540 rpm, at nominal tractor engine speeds, the rotor speed is 300 rpm. When switching to 1000 rpm, the rotor rotates at a frequency of 600 rpm.

In the main processing mode, the rotor, depending on the state of the soil to be cultivated, can be equipped with two varieties of working bodies. If the soil is old arable, wedge-shaped prisms 18 are attached to the bearing rods 17 (Fig. 2-4) on strongly-soiled, weedy fields or when patching the green manure on the supporting rods 17 (Fig. 2-4). When plowing, the PTO gearbox is switched on at 540 rpm, the tractor engine is operating in nominal mode.

Combined guns bring into working position by adjusting the depth of plowing 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. Another part of the formation passes through the dump and enters the elements of the second and third tiers. In this case, the soil is destroyed by the edges of the wedge-shaped prism, beating inclined slats. As a result of the direct impact of the inclined beater bars and wedge-shaped prisms, the formation is intensively crushed and due to the acceleration received by the lumps from the inclined plates in the downward direction, and the other part of the lumps from the lifting blades upwards, the formation is rotated.

On soils containing a significant amount of vegetation (on heavily soiled, weedy fields or when planting green manure), simultaneous crumbling of the soil, crushing of the roots and stems of the plants and the formation rotation are achieved due to the fact that removable elements in the form of cutting knives are fixed on the bearing rods.

To operate the device in the mode of digging potatoes, the working elements on the bearing rods (wedge-shaped prisms or cutting knives) are removed and replaced with connecting elements (bolts) 26 (Fig. 6) above the lifting blades 22, fixed on the holes of the bearing rods and beater strips digging plates (25) in the form of a polygon. The PTO gearbox switches to a speed of 1000 rpm at the rated operating mode of the tractor engine. Tests of the prototype found that the energy intensity of the process when digging a plow-potato digger is 2.0-2.5 times lower than when plowing. Therefore, by reducing the fuel supply, the tractor engine is tuned to a mode of operation with a frequency below the nominal. Depending on the condition of the ridge soil, the required rotor speed is from 300 to 400 rpm.

Digging potatoes planted according to ridge technology is carried out from one row as follows: a tractor unit with a plow, moving across the field, digs up a tuberous ridge with a passive body to a depth slightly greater than the depth of the lower tubers, raises the layer, partially destroys it and at a certain angle and speed, approximately equal to half the speed of the unit, feeds on a rotor rotating with a certain angular velocity. The formation is exposed to the impact of the excavating rotor plates, which discard the tubers on the field surface to the right side of the aggregate passage with a strip of 1-1.5 m. Due to the design features of the excavating plate, in that its outer contour is parallel to the axis of rotation, the rotor affects the revolution formation is minimized. Depending on the lift height on the passive dump surface of various parts of the potato ridge heap, these parts receive different flight ranges in the direction transverse to the direction of movement of the unit. The crest soil is evenly spread out from the rotor over the entire width of the strip. Thanks to the folding of the heap in a thin layer, visual openness of separation of tubers from the soil and tops is achieved, which facilitates their further collection.

The use of a combined tool for digging potatoes makes it possible to ensure high-quality processing of soils with different composition and properties in the soil tillage mode, to keep the potato tubers intact in the mode of digging potatoes, to reduce the laboriousness of readjusting the plow when changing its functions and to reduce the time required for troubleshooting.

Claims (3)

1. A combined tool for cultivating potatoes, including a plow body mounted on a frame with a shortened blade and a vertical rotor with a sleeve located behind it, in the lower part of which are placed the working bodies of the first tier along the helical line — lifting blades; the working bodies of the second tier are fixed in the middle part - grinding elements made in the form of loosening fingers, the working bodies of the third tier in the form of plates are installed in the upper part of the sleeve, characterized in that the supporting disk is rigidly attached to the upper part of the sleeve, the second tier consists of loosening fingers comprising rigidly fixed to the lower surface of the support disk bearing rods with removable working elements attached thereto, and fixed to the disc portion of the rod is at least _^1/4 of its length, rety tier disposed above the sleeve and the supporting ring consists of inclined beater bars rigidly secured at an angle to the vertical axis of the rotor, and their lower ends are fixed to the bottom of the sleeve, the middle part - to the supporting rods, and upper ends interconnected ring. 2. The combined tool according to claim 1, characterized in that the working bodies on the supporting rods are made in the form of wedge-shaped prisms or cutting knives. 3. Combined tool according to claim 1, characterized in that for digging potatoes to the supporting rods and inclined beater strips, digging plates are attached in the form of a polygon, the lower side of which is installed with a gap increasing from the axis of the rotor, and the side is parallel to its axis.

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