RU2432732C2 - Potato digging tool - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: tool consists of a stake rigidly attached to an A-hoe digging blade, right and left rod mouldboards and adjusting mechanism, which changes the angle of slope of the plane of the ends location of separating rods to the horizon in a cross-vertical plane. Adjustment mechanism is connected with a stake by means of a clamp with the possibility of changing the height. Separating rods are connected to the A-hoe digging blade with the possibility of changing the angle of slope to the horizon in the longitudinal-vertical plane.

EFFECT: invention provides reducing of energy consumption of the process and increase process reliability.

3 dwg

Description

The invention relates to agricultural machinery, in particular to means of small-scale mechanization for small sections.

Known potato digger, consisting of rod dumps, which are interconnected by tie bars, allowing you to stepwise adjust the inclination of the planes of the rods to the horizontal in the transverse vertical plane. (Smirnov Yu.G. Small-scale mechanization on a personal plot. 2nd ed., Revised and enlarged / Yu.G. Smirnov. - M.: Kolos, 1995.- p.149).

The disadvantages of this potato-digging working body are insufficient adaptability to soil conditions, high energy intensity and low process reliability with high soil moisture.

The objective of the invention is to remedy these disadvantages.

Improvement of adaptability to soil conditions, reduction of energy intensity and increase of process reliability are achieved due to the fact that in a potato-digging working body, consisting of a stand rigidly connected to a lancet digging ploughshare, right and left bar stockpiles, an adjusting mechanism that changes the angles of inclination of the planes the ends of the separating rods to the horizontal in the transverse vertical plane, the adjusting mechanism with the rack is connected by means of a clamp to the the ability to change the height H, which allows you to steplessly change the angles β _{i the} inclination of the separating rods to the horizontal in the longitudinal vertical plane.

Figure 1 shows a diagram of a potato-digging working body, left view, figure 2, the same rear view, figure 3 is a section from figure 2, made in parallel to the direction of movement.

Potato-digging working body consists of a rack 1, rigidly connected with a lancet digging ploughshare 2, by means of a plate 3 with a stiffener 4, separating rods 5, forming right and left dumps, an adjusting mechanism 6, a clamp 7 with a locking bolt 8 and a lock nut 9. The adjusting mechanism 6 consists of pivotally connected links 10, 11, and 12. Link 10 is made as a hoist (with variable length). Changing the length of the link 10 provides a stepless change in the angles α of the ends of the separating rods 5 to the horizontal in the transverse vertical plane. The rods 5 with a lancet digging share 2 are connected through holes 13 of a larger diameter than the rods 5 to ensure unhindered changes in the angles α _i without bending.

The device operates as follows.

When the working body moves in the center of the digging crest, the share 2 is buried by the operator to the required depth and cuts the tuberous soil layer, partially deforming it. The tuberous layer, supported by subsequent portions, enters the separating rods 5, moves along them to the end and descends. The angles β _{i of the} inclination of the separating rods to the horizontal in the longitudinal-vertical plane are set depending on the state of the tuberous soil layer (moisture, mechanical composition, connectivity) of such a value that there is no excessive accumulation and loading. When unloading, the descent from the rods ceases and the soil ridge is pushed by the soil accumulated on the rods. There is a "bulldozer effect." Friction of soil sliding on steel is replaced by soil friction on soil, the value of which is three to four times greater. Thus, by ensuring the removal of the tuberous layer from the rods, rather than unloading it with steeply installed rods in the longitudinally vertical plane, a significant decrease in traction resistance is provided.

Adjustable slope α of the plane of separation of the rods in the transverse vertical plane ensures the rolling of large lumps and tubers to the right and left of the line of movement. Thus, the adjustment of the angles α and β provides high adaptability of the working body in a wide range of changing natural and climatic conditions.

Claims (1)

Potato-digging working body, consisting of a rack rigidly connected to a lancet digging ploughshare, right and left bar stocks and an adjusting mechanism that changes the angle of inclination of the plane of the ends of the separating rods to the horizontal in the transverse vertical plane, characterized in that the adjustment mechanism is connected to the rack by the clamp with the ability to change the height, and the separating rods are connected with a digging lancet share with the possibility of changing the angle of their inclination to th rison in the longitudinally-vertical plane.

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