RU2093973C1 - Disk-type soil tillage tool - Google Patents

Abstract

FIELD: agricultural engineering, in particular, furrow cutting and ridge forming equipment. SUBSTANCE: tillage tool has shaft and two axle shafts connected with shaft. Disk is mounted on each axle shaft by means of bracket with lever and pin with thrust. Pin and bracket are interconnected through adjustable tie-rod. Disks are mounted for changing their angle of attack and mutual position angle. EFFECT: increased efficiency and simplified construction. 4 dwg

Description

 The invention relates to agricultural machinery and can be used for the formation of ridges and grooves.

Known working body for the formation of ridges and grooves-hull-hiller, containing a rack, blade and wings [1]
Also known is a disk working body for the formation of ridges, containing an axis, half shafts connected with the axis, and disks mounted on half shafts with the possibility of simultaneously changing the angle of attack and the angle of relative position [2]
When using a known disk organ, it is difficult at the same time to ensure optimal values of the angle of attack and the angle of relative position of the disks, since during the adjustment the values of the angles change simultaneously. Limited adjustability leads to increased working effort and increased fuel consumption. In addition, due to the small distance from the axis to the soil, it is difficult for a well-known working body to cut furrows and to make earthing up.

 The purpose of the invention is the reduction of energy consumption during the formation of ridges and increasing the versatility of the working body.

 This is achieved by the fact that the disks are mounted with the additional possibility of changing the angle of attack, as well as the fact that the disk working body is equipped with axles mounted on the axis with the possibility of movement along it and brackets mounted in axles with the possibility of rotation and bearing axles with disks.

 In FIG. 1 shows a disk working body, rear view; in FIG. 2 same, top view in FIG. 3 and 4 of the installation of the disk working body on a row cultivator.

 The disk working body comprises an axis 1 mounted rotatably in the bed 2 of the cultivator frame. Axles 3 are mounted on the axis 1 with the possibility of movement along the axis. The holes 4 of the pins 3 are pivotally mounted brackets 4, bearing half shafts 5 with disks 6 mounted on them. The axis 1 contains a lever 7, and the ridges 2 a tide 8, interconnected by an adjustable rod 9. The brackets 4 contain levers 10, and on the pins 3 the stops 11 are mounted. The levers 110 and the stops 11 are connected by rods 12. The trunnions 3 are connected to the axis 1 by means of bolts 13 passing through the radial holes in the axis and nuts 14. To create a ridge, the disks 6 are set by concavity towards the ridge 2 (as shown in Fig. 1 and 2, and for groove cutting the bulge st towards gryadilya 2.

 In manual soil cultivation, the disc working body is the basis of a manual cultivator, which further comprises handles 15 for holding and handles 16 for movement, connected to the bed 2 and shown with a dotted line in FIG. 2.

 When machining the soil, the disk working body is mounted on a walk-behind tractor or cultivating cultivator type KON-2, 8A; KRN-4, 2D; KNO-4, 2.

 The installation diagrams of the disk working body on the cultivator are shown in FIG. 3 and 4.

 Adjustment of the disk working body as follows.

 The simultaneous change in the angle of attack α and the relative angle of the disks b (not shown) provides an adjustable traction 9. By changing its length, the axis 1 is rotated in the bed 2, as a result, the disks 6 associated with the axis 1 change their position. Because in the proposed disk working body axis 1 is located much higher than the semi-axes 5 than in the known one, then a wide adjustment range is provided without axis 1 touching the soil and a predetermined angle value of the relative position of the disks is achieved.

 The set value of the angle of attack a is additionally provided by changing the length of the thrust section 12 located between the lever 10 and the stop.

 The distance between the disks is regulated by moving the pins 3 along the axis 1 with fixing the new position of the pins using bolts 13 installed in the holes of the axis 1 and nuts 14.

 The proposed disk working body allows you to give angles a and β both positive and negative values. A positive angle a corresponds to the positions of the disks shown in FIG. 2 and 3, and the negative in FIG. 4. A positive angle b corresponds to the position of the disks shown in FIG. 2, when both the upper and lower half of the cutting edge of the disc are visible. For b = 0, the upper and lower halves coincide, and for β <0, only the upper half is visible.

 Positive values of the angle α are used in the formation of the ridge, negative when cutting the furrow. Positive values of the angle b are used for loosening the soil, negative for compaction.

 The optimal values of the angle of attack and the relative position of the discs are selected experimentally, depending on the operation, the height of the ridge or the depth of the furrow, the need for loosening or compaction of the soil. The optimal values of the angles provide the least traction at a given height of the ridge or the depth of the furrow, the technological properties of the soil and its development.

 The work of the disk working body as part of a manual cultivator is as follows.

 If necessary, cutting the furrows, the disks are mounted on the shafts 5 with a bulge towards the ridge 2. The angles a and β are adjusted and the necessary distance between the disks is set. Moving the cultivator by the handles 15 and 16, cut into the furrow area. If necessary, fertilizers are added to the furrows, and to improve ventilation, lay litter, such as straw, and then lay potatoes. After that, the disks 6 are rearranged on the cultivator with concavity towards the ridge, the angles a and β and the distance between the disks are set. Moving the cultivator along the furrows, they fall asleep potatoes. The presence of noticeable ridges on the surface of the soil after planting allows for earthing up before emergence, which, as you know, helps to strengthen the root system and increase productivity. The cultivator can also be used for earthing up after emergence, since, as already noted, axis 1 is located much higher than axis 5 and does not touch the tops. Hilling is also possible when installing disks with a bulge towards the ridge (Fig. 4). In this case, the ridges are placed between the rows.

 When mechanized planting potatoes, disc working bodies are used for earthing up. One or two disk working bodies are installed on the walk-behind tractor, and on the cultivator (Fig. 3 and 4) according to the number of ridges.

 Thus, due to the fact that the disks of the working body for soil cultivation are mounted with the additional possibility of changing the angle of attack, as well as due to the fact that it is equipped with trunnions mounted on an axis with the ability to move along it, and brackets mounted in trunnions with the possibility turning and bearing axle shafts with disks, reduces the energy consumption of processing and increases the versatility of the working body.

 The use of a working body in individual areas allows mechanization of soil preparation for planting and hilling of potatoes. Potato hilling productivity is 0.05 ha / h.

 The use of a working body for machine tillage reduces the working effort while ensuring the required processing parameters. Replacing the hillers with disk working disk working bodies at the KRN-4,2 cultivator made it possible to use the T-25 tractor instead of MTZ-80 to drive the cultivator by reducing the working effort.

Sources of information taken into account when preparing the application:
1. Karpeko A. N. Khalansky V. M. Agricultural machines. Ed. 6th M. Agropromizdat, 1989, p. 158-160, fig. V, 2nd of.

 2. Alekhine N.V. etc. Adjustment of agricultural machinery. Directory. Ed. 4th. M. Kolos, 1970, p. 172 173, fig. 96 (prototype).

Claims (1)

 A disk working body for tillage, containing an axis, half shafts connected with the axis, disks mounted on half shafts with the possibility of changing angles of attack and relative position, characterized in that it is equipped with movable axles mounted on the axis, mounted in axles with the possibility of rotation with brackets, bearing axle shafts with discs mounted on each bracket by a lever and on each axle with an abutment connected by an adjustable link.

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