RU135875U1 - ENERGY-WATER-SAVING PAW - Google Patents

Abstract

1. The working body of the tillage sowing complex, which includes a lancet paw with wings, equipped with a mounting protrusion, to which a cutting plate is attached at the front through the reinforcing element, and a rack having a narrowed working area is attached at the back, and the rack width in this zone is 15-25 mm. 2. The working body of a cultivating cultivator according to claim 1, characterized in that the stand is made of an arcuate shape from a metal profile. The working body of a cultivating cultivator according to claim 1, characterized in that the reinforcing element is made in the form of a metal rod. The working body of the cultivating cultivator according to claim 1, characterized in that the mounting protrusion is located at an angle φ = 30-60 ° to the horizon.

Description

Energy-saving paw refers to agricultural engineering, in particular, to the working bodies of agricultural tillage machines and can be installed in sowing complexes of both Russian and foreign production.

Known working body of a cultivating cultivator (USSR AS No. 136106, IPC A01B 39/02, published on 01.01.1961), made in the form of a pointed paw with wings and a stand, the ends of the wings of the paws being made like plow heaps facing the working surface out .

The disadvantage of this working body of a row cultivator is the cutting of row crops in a row.

Known working body of a cultivating cultivator (RF patent No. 93006, IPC A01B 39/02, published on 04/20/2010), made in the form of a pointed paw with wings and a stand, the ends of the wings of the paws are made like plow dumps facing the working surface outward, moreover, the lower surface of the lancet paw is made in an oval with a radius of 450-800 mm, and the plane of the ends of the wings of the paw is rotated by an angle of 10-30 ° relative to the cutting edge of the paw.

The disadvantage of this working body of the cultivating cultivator is that the lancet paw used in it has a rack width of 50-80 mm at the level of attachment of the rack to the paw in the zone of interaction with the soil. During processing, the stand breaks the soil, pulls out the lower layer and mixes the lower moist soil layer with the upper layer, thereby drying the treated soil, which reduces the yield of sown crops, and also reduces operational reliability and requires additional energy consumption when working a row cultivator.

Known working body of a tillage machine (RF patent No. 84176, IPC A01B 39/02, published July 10, 2009), comprising a stand mounted on a machine frame with a cultivating paw, and the stand in the lower part is made in the form of a plate with a blade, a cutting edge which is inclined forward in the direction of movement, forming a negative rake angle, and is equipped in the upper part with a mechanism for changing the angle of inclination of the cutting edge.

The disadvantage of this working body of the tillage machine is its complex design.

The objective of the proposed utility model is to improve the quality of soil cultivation, which helps to obtain a high yield of grain crops, as well as simplifying the design of the working body of the tillage sowing complex, reducing energy costs and increasing operational reliability during its operation.

This problem is solved by the working body of the tillage sowing complex, which includes a lancet paw with wings, equipped with a mounting protrusion, to which a cutting plate is attached at the front through the reinforcing element, and a stand having a narrowed working area is attached at the back, and the stand width in this zone is 15-25 mm .

According to a utility model, the rack is made in an arcuate shape from a metal profile.

According to a utility model, the reinforcing element is made in the form of a metal rod.

According to a utility model, the mounting protrusion is located at an angle φ = 30-60 ° to the horizontal.

The essence of the utility model is illustrated by drawings, where in FIG. 1 shows a general view of an energy-saving paw, in FIG. 2 shows a side view of an energy-saving paw.

The energy-saving paw includes a lancet paw 1 with wings 2, equipped with a mounting protrusion 3, located at φ = 30-60 ° to the horizon, to which a cutting plate 5 is attached in front of the reinforcing rod 4, and an arcuate stand 6 is attached at the back, having a narrowed working area 7 and the rack width in this zone is 15-25 mm.

Currently used lancet paws have a rack width at the point of attachment to the lancet paw and in the zone of interaction with the soil 50-80 mm. During processing, the stand breaks the soil and pulls out the lower moist soil layer upwards by about 40% of the cultivated area. The straw, stubble, and clipped weeds (especially root shoots) remaining on the field surface after harvesting are mixed with moist soil, adhere to the working bodies of the sowing complex (comb harrow, coulters, rollers), which as a result degrades the quality of the soil treatment, requires additional energy costs and reduces the operational reliability of the tillage sowing complex.

The proposed design of the energy-saving paws is devoid of these drawbacks due to the presence of a cutting plate and the minimum width of the working area of the arcuate rack reinforced with a rod and not reducing the strength characteristics of the rack.

Variant of the energy-saving paws.

The lancet paw 1, equipped with wings 2 with a wingspan of 410 mm and a mounting protrusion 3 with a width of 20 mm, located at an optimal angle φ = 40 ° to the horizontal, is made by casting. A cutting insert 5 with a thickness of 2 mm is deposited with sormite to a reinforcing rod 4 with a diameter of 20 mm. The arcuate stand 6 with a width of 50 mm has a narrowed working area with a width of 20 mm and a length of 200 mm and, in turn, is mounted on the frame of the tillage sowing complex. The mounting protrusion, the reinforcing rod and the arcuate rack are fastened together by two M-12 bolts or by welding.

The energy-saving paw works as follows: when the lancet paw moves, the cutting plate cuts the topsoil to a depth of 50-70 mm. In this case, the soil rises along the three axes X, Y and Z, since the paw in the front view has the shape of a truncated pyramid. The soil goes around the narrowed working area of the rack, loosens and settles back without violating the top layer (mulch). The moist soil layer remains at the bottom, and the dried soil (mulch) remains at the top, which allows the sowing complex to provide sowing work in the most optimal agronomic terms, even on moist soils, with good quality. The energy-saving paw helps preserve the binder moisture, which contains phosphorus, potassium, nitrogen, iron and other elements necessary for the active growth of plants, it also preserves the structure of the upper layer, respectively, microflora, microfauna, and the root system of last year’s crops after the death of the roots, the moves of which are the accumulator moisture and microorganisms. In the tillering node, the passages close, gravitational, capillary moisture evaporates slowly and becomes available to the roots of plants.

Energy-saving paw was tested in spring and autumn 2012 at the MPPK-3.6 sowing complexes; MPPK-5.4, protected by RF Patent No. 122228 of 01/27/2012, in the SEC "Zarya" of the Kaltasinsky district of the Republic of Bashkortostan and showed a good result.

Thus, the energy-saving paw, which has a simple design, improves the quality of soil cultivation, maintains the paw resistance to wear in the area of interaction with the soil, reduces traction resistance, which reduces energy costs and increases operational reliability, ensuring the operation of the sowing complexes in any soil and climatic conditions, thereby contributing to the stable production of high yields.

Claims (4)

1. The working body of the tillage sowing complex, which includes a lancet paw with wings, equipped with a mounting protrusion, to which a cutting plate is attached in front through a reinforcing element, and a stand having a narrowed working area is attached to the back, and the stand width in this zone is 15-25 mm. 2. The working body of a cultivating cultivator according to claim 1, characterized in that the stand is made of an arcuate shape from a metal profile. 3. The working body of a cultivating cultivator according to claim 1, characterized in that the reinforcing element is made in the form of a metal rod. 4. The working body of the cultivating cultivator according to claim 1, characterized in that the mounting protrusion is located at an angle φ = 30-60 ° to the horizon.

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