RU2295214C1 - Cultivator hoe - Google Patents

Abstract

FIELD: agricultural engineering, in particular, working tools for complete cultivation of fallow fields in arid zones.

SUBSTANCE: cultivator hoe has tine, right-hand and left-hand flat wings longitudinally offset one with respect to another. Flat wings are made from constructional strip steel. Strip section is (4x45)-(5x40) mm. Cutting edge is formed on front part of each strip by sharpening of strip face at an angle of 13-18 deg. During manufacture of strip, before deformation process, cutting edge is coated with wear-resistant material which is deposited or fused thereto. Each wing and vertical blade of hoe is formed by deforming pair of strips symmetrically to bending line oriented at an acute angle to cutting edge. Bending line is oriented at an angle of 35-45 deg toward cutting edge on front part of strip. Ratio of length of cutting edge of each wing to length of cutting edge of vertical blade is (3-6):1. Each wing with vertical blade is joined along fluting plane. Roundness radius of fluting planes is 8-10 mm. Upper parts of vertical blades are provided with mounting openings. Cutting edges of vertical blades are equipped with mounting openings. Cutting edges of said blades are inclined to longitudinal direction at an angle equal to angle between strip bending line and wing cutting edge. Front part of hoe tine is provided with shield formed as step with upper and lower faces inclined to one another. Lower face of shield is oriented to longitudinal direction at an angle equal to angle of inclination of cutting edge of vertical blade to horizontal plane. Mounting openings provided on tine shield are adapted for retaining of right-hand and left-hand flat hoes in operating position.

EFFECT: reduced production costs, increased efficiency in complete undercutting of weedage without carrying away of wet soil layer onto day surface.

8 cl, 6 dwg

Description

The invention relates to agricultural machinery, in particular to working bodies for shallow continuous cultivation of vapors in arid zones.

A cultivating paw is known in which, to prevent clogging by weeds, the cutting parts (1) (of the right flat paw) and (2) (left flat paw) are attached directly to the leash (4), which is inclined and pivotally connected to the frame; one cutting part (1) of the paw is shifted forward relative to the other (2); the use of runners (6) attached in front of the paw and serving to adjust the depth of the paw and pressing weeds to the soil (SU, copyright certificate No. 51466. M. class A 01 B 35/22. Cultivating paw / G.N. Sineokov (USSR ). - Application No. 189555; Stated March 17, 1936; Publish. July 31, 1937).

The disadvantages of the described cultivator paws during the treatment of vapors include unloading of weed vegetation before the snake (6), as well as the complexity of the design and the high cost of the working body due to imperfect manufacturing techniques.

The closest analogue to the claimed object includes a cultivating leg containing a stand, right- and left-handed plane-cutting wings, which are offset one from the other in the longitudinal direction, in which, in order to improve the quality of soil cultivation and reliability in operation, the leg is provided with a spacing between its wings and connected with it and with the stand vertical flap with a front face having lower and upper sloping one to another part, while the longitudinal displacement l of the wings of the paw and the height h of the lower part of its flap is determined are given by the ratio: l / h = 2-5.3, and the height of the lower part of the flap is respectively 30-35 mm, and with the smallest value of the height of the lower part of the flap the longitudinal displacement of the wings of the legs will be the largest (SU, copyright certificate No. 1701129. A1. M class A 01 B 35/22 Cultivating paw / G.I. Ivko, Yu.A. Kolesnikov, BC Novokhatsky, DZ Seleznev, V. A. Selivanov (USSR) - Application No. 4792882/15; Declared December 29, 1989; Publish December 30, 1991, Bull. No. 48 // Discoveries. Inventions. - 1991. - No. 48).

The disadvantages of the described cultivating paw, which we adopted as the closest analogue, include the overhang of crop residues, mortmass, and weed vegetation on the vertical paw flap, the toe of which moves in the soil layer at a depth of 30 ... 35 mm when performing the technological process. For the manufacture of paws requires a complex pattern. This leads to a large amount of waste metal in the scrap metal. The complexity of manufacturing affects the high cost of the paws.

SUMMARY OF THE INVENTION

The problem to which the claimed invention is directed is the destruction of weed vegetation in the fields allotted for steam for the subsequent cultivation of cereal crops.

The technical result - improving the quality of soil cultivation, reducing energy consumption and improving the technological reliability of the process of cutting root systems and vegetative weed shoots.

The specified technical result is achieved by the fact that in the known cultivating paw containing a stand, the right and left-handed plane-cutting wings that are offset one from the other in the longitudinal direction, according to the invention, the right and left-side plane-cutting wings are formed of strip structural steel with cutting edges on the front parts the deformation in the mirror image of the wings along the fold line, oriented at an acute angle to the cutting edge, and vertical blades paired with them along the fillets, the upper parts of which are provided with mounting holes, and the cutting edges of the said blades are inclined to the longitudinal direction at an angle equal to the angle between the bend line of the strip and the cutting edge of the wing, and the front of the rack has a shield in the form of a step with the upper and lower faces inclined to one another the lower edge of the flap is oriented to the longitudinal direction at an angle equal to the angle of inclination of the cutting edge of the vertical blade to the horizontal; each wing is formed of strip steel with a section of (4 × 45) ... (5 × 40) mm; the fold line is oriented towards the cutting edge on the front of the strip at an angle of 35 ... 45 °; the cutting edge is formed by sharpening the edge of the strip at an angle of 13 ... 18 °; the length of the cutting edge of each wing refers to the length of the cutting edge of the vertical blade as (3 ... 6): 1; the cutting edge on the strip is sprayed and / or deposited with wear-resistant material until it deforms along the fold line; each fillet in conjunction of the wing and the vertical blade is made with a radius of curvature of 8 ... 10 mm; mounting holes are made on the rack panel.

The invention is illustrated by drawings.

Figure 1 shows a cultivating paw, right view.

Figure 2 is the same plan view.

Figure 3 is the same front view.

Figure 4 is a section aa in figure 1, a horizontal section of the vertical blades of the right- and left-wing plane-cutting wings.

In Fig.5 is a section bB in Fig.2, a cross section of the left-wing plane-cutting wing.

6 is a right-handed plane-cutting wing with a cutting edge on the front part before deformation along the fold line to form a vertical blade with mounting holes in the non-working area.

Information confirming the possibility of implementing the claimed invention are as follows.

The cultivator leg (see Figs. 1-3) contains a strut (1), a right-handed plane-cutting wing (2), and a left-side plane-cutting wing (3). The wings (2) and (3) are offset one relative to the other in the longitudinal direction (see figures 1, 2 and 4). Right- and left-handed plane-cutting wings (2) and (3) are made of strip structural steel. Strip section - (4 × 45) ... (5 × 40) mm for steel grades Steel 65G in accordance with GOST 1050-74. On the frontal part of each strip, a cutting edge (4) is made (see Figs. 1-6). The cutting edge (4) is formed by sharpening the edge (5) of the strip at an angle i within 13 ... 18 ° (see figure 5). The cutting edge (4) from the back side of the edge (5) of the strip before it is deformed is sprayed and / or deposited by a wear-resistant material with a layer (6) (see Figs. 4 and 5) 0.2 ... 0.3 mm thick and 6 wide ... 8 mm. Each wing (2) and (3) and the vertical blade (7) and (8) are formed by deformation of a pair of strips in mirror reflection along the fold line (9). The bend line (9) is oriented at an acute angle γ to the cutting edge (4). The bend line (9) is installed to the cutting edge (4) on the front of the strip at an angle γ = 35 ... 45 °. The length l _{1 of the} cutting edge (4) of the wing (2) and (3) refers to the length l _{2 of the} cutting edge of the vertical blade (7) and (8) as (3 ... 6): 1 (see Fig.6). Each wing (2) and (3) with a vertical blade (7) and (8) is mated along the fillet (see figure 3). The fillet on the wings (2) and (3) are made with a radius R of a curve in the range of 8 ... 10 mm. The upper parts of the vertical blades (7) and (8) are provided with mounting holes 10 (see figures 1 and 6). The cutting edges (4) of said blades (7) and (8) are inclined to the longitudinal direction at an angle β (see FIG. 1) equal to the angle γ between the fold line (9) of the strip and the cutting edge (4) of the wing (2) and (3). Vertical blades (7) and (8) provide cutting of the upper layer by wings (2) and (3) to a depth h (see figures 1 and 3). The lower end of the rack (1) is mounted above the field surface at a height Δh (see Fig. 3). The front of the rack (1) of the cultivator paw has a shield (11). The shield (11) is made in the form of a ledge with the upper (12) and lower (13) faces inclined to one another. The lower face (13) of the shield (11) is oriented to the longitudinal direction at an angle β (see Fig. 1) equal to the angle of inclination of the cutting edge (4) of the vertical blade (7) to the horizontal. Mounting holes with an intercenter distance equal to the pitch between the holes 10 of the vertical blades (7) and (8) are made on the shield (11) of the rack (1). By means of fastening (14), the vertical blades (7) and (8) are fixed in the working position on the bottom of the rack (1). The upper part (15) of the rack (1) is attached to the bed of the steam cultivator.

The cutting angle δ of the vertical blades (7) and (8) in the declared leg (see Figs. 1 and 4) is determined from the relation δ = arctan [tgi · sinβ], and the angle of cutting by the wings (2) and (3) is determined from expressions δ ₁ = arctan [tgi · sinγ].

The cultivating paw works as follows.

Before starting work, the steam cultivator is placed on a aligned technological site. The mounting parts (15) of the strut (1) are installed in the leash holders. By screw mechanisms of the holders, the cutting edges (4) of the right- and left-handed plane-cutting wings (2) and (3) lead to a complete fit. This eliminates the formation of a rear angle between the layer (6).

When each cultivator leg moves at a shallow depth (0.05 ... 0.07) m and at operating speeds in the range of 2.5 ... 3.5 m / s, the cutting edges (4) of the wings (2) and (3 ) prune the roots of annual and perennial weeds under a layer of soil. Weed vegetation remains on the surface of the soil. The small thickness of the strip of wings (2) and (3) of the cultivator leg excludes the removal of moist soil from the day surface. The bottom face (13) of the shield (11) tilts the weed stems in the longitudinal direction. This slope contributes to the creation of bending stresses in the stems of plants. The inclined stems and their roots are cut by the cutting edge (4) of the vertical blade (7). When the stems of weeds, crop residues, mortmass and leaves hang on the cutting edge (4) of the blade (7), the latter slide down and, due to the angle of inclination of the cutting edge (4) to the longitudinal direction, the latter penetrate into the upper layer and are cut on an elastic basis. The cut parts of weeds and crop residues leave the vertical blade (7) and remain on the day surface of the field.

With intensive wear of the cutting edge (4) of the vertical blade (7), the latter is rearranged in place of the vertical blade (8). The thickness of the blades (7) and (8) in the range of 4 ... 5 mm eliminates the formation of a snap roller.

The described cultivating paw ensures the complete destruction of weeds on the steam field, its mulching and preservation of soil moisture reserves by the period of sowing of cereal crops. When processing vapors with the KSO-4 cultivator (KPS - 4.0) in an aggregate with a tractor of draft class 3 (DT - 75 M), the fuel consumption did not exceed 3 kg / ha. Energy consumption decreased by 17 ... 28% compared with commercially available cultivating paws.

Claims (8)

1. A cultivating leg containing a rack, right- and left-handed plane-cutting wings, which are offset one relative to the other in the longitudinal direction, characterized in that the right and left-side plane-cutting wings are formed of strip structural steel with cutting edges on the front parts by deformation of a pair of strips in the mirror reflection of the wings along a fold line oriented at an acute angle to the cutting edge, and vertical blades mated with them along the fillets, the upper parts of which are provided with mounting holes and, and the cutting edges of the said blades are inclined to the longitudinal direction at an angle equal to the angle between the bending line of the strips and the cutting edge of the wing, and the front part of the leg stand has a shield in the form of a step with upper and lower faces inclined to one another, while the lower face of the shield oriented to the longitudinal direction at an angle equal to the angle of inclination of the cutting edge of the vertical blade to the horizontal. 2. The paw according to claim 1, characterized in that each wing is formed of strip steel with a section of (4 × 45) ÷ (5 × 40) mm. 3. The paw according to claim 1, characterized in that the fold line is oriented towards the cutting edge on the front of the strip at an angle of 35 ÷ 45 °. 4. The paw according to claim 1, characterized in that the cutting edge is formed by sharpening the edge of the strip at an angle of 13 ÷ 18 °. 5. The paw according to claim 1, characterized in that the length of the cutting edge of each wing refers to the length of the cutting edge of the vertical blade as (3 ÷ 6): 1. 6. The paw according to claim 1, characterized in that the cutting edge is sprayed and / or deposited by wear-resistant material prior to deformation along the fold line of the strip. 7. The paw according to claim 1, characterized in that each fillet in the pairing of the wing and the vertical blade is made with a radius of curvature of 8 ÷ 10 mm 8. The paw according to claim 1, characterized in that the mounting holes are made on the shield stoics.

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