EA038577B1 - Soil tilling implement - Google Patents

Abstract

The invention relates to the field of agricultural engineering, in particular, to implements for basic soil tillage and subsurface mineral fertilization. The problem solved by this invention is the reduction of energy content required for the execution of the production process and specific quantity of metal per structure. The set objective is achieved using a soil tilling implement including a frame, support wheels with chisel cultivators fixed on a frame that contains an inclined part, wherein a wedge-shaped shim is fixed on the inclined part of the chisel cultivator, on the front surface of the inclined chisel cultivator, the shim having a sharp edge located along the inclined part, at the intersection of wedge faces, and oriented towards the tool movement, and a rectangular mineral fertilizer diffuser is fixed on the rear face of the inclined chisel cultivator, along this tool, which ensures the uniform distribution of mineral fertilizers to a soil depth, wherein the wedge-shaped shim fixed in the inclined part of the chisel cultivator, on its front surface, has an area of the face oriented downwards that is 2.2-2.5 times less than the area of the wedge-shaped shim face oriented upwards, and the rectangular mineral fertilizer diffuser is made flush with the side inclined surface oriented upwards of the chisel cultivator inclined part, and relatively to the downward-oriented inclined side surface of the chisel cultivator inclined part, the lower outer side inclined surface of the rectangular mineral fertilizer diffuser is made offset by 2-3 mm to the upward-oriented inclined side surface of the chisel cultivator inclined part.

Description

The invention relates to agricultural engineering, in particular to working bodies for the main tillage and intrasoil application of mineral fertilizers.

A device is known for the layer-by-layer application of mineral fertilizers (ed.St. No. 2494597, M. CL A01C 7/20 (A01B 49/06), 2013), containing a rack with a shoe, right and left plowshares fixed on the shoe, and a chisel installed along the line of their connection, attached to the back of the rack, a mixer, including a funnel, in the upper part of which there is a fuel line and an air duct, and a rectangular branch pipe, which is divided into two symmetrical channels of different lengths with a tiered arrangement of their bases, under each of which there is a reflector-diffuser, while inside the branch pipe, in its upper part, a divider is hingedly installed, made in the form of an equilateral corner facing upward, with a leash installed along its bisector, and the latter is hingedly connected, by means of a lever-hinge mechanism, with the upper arm bits installed pivotally, with the possibility of a reciprocating movement relative to the plowshares and shoe, and spring-loaded on one side relative especially the latter.

Also known is a device for multilayer application of mineral fertilizers to the soil (ed.St. No. 2372766, M. class A01C 7/20 (A01B 49/06), 2009), containing a stand with a shoe, right and left plowshares, fixed on shoe. Attached to the rear of the rack is the main mixer with a duct and air duct built into its upper part and a reflector-distributor located at its base. The device is equipped with one or more additional mixers of different lengths attached to the rear of the rack, with a tiered arrangement of their bases. Each additional mixer contains a reflector-distributor. At the base level of each additional mixer, a pair of toothed spherical discs are attached to the rack using brackets to form a toothed arch. Each toothed spherical disk is mounted with the possibility of rotation around its axis and in such a way that its front edge in the direction of movement of the device is lowered lower relative to its trailing edge. In the upper part of each additional mixer there is a built-in duct and air duct.

The disadvantages of the above devices are the complexity of the design and manufacturability.

Of all the known technical solutions, the closest in terms of the combination of features and the achieved positive effect (prototype) is a tillage tool (patent RK No. 22627, M.cl. (A01B 49/06), bull. No. 7, 15.07.2010), containing a parallelogram frame with chisel working bodies installed on it, support wheels and a trailer. On the front part of the inclined chisel body, a triangular plate is attached, pushing the soil apart. At the end of the rack there is a fixed shoe, to which, with the help of a bolted connection, a diffuser of mineral fertilizers is installed, made in the form of a rectangular material pipeline, divided into longitudinal compartments with windows, and an extension in the form of a rectangular triangular pyramid is fixedly placed on the shoe.

The disadvantages of the known device are high energy consumption of the technological process and metal consumption. An extension cord fixed to the shoe in the form of a rectangular triangular pyramid during the operation of the unit penetrates into dense layers of soil and creates a large additional resistance to its movement, and the studies have shown that this shoe does not significantly affect the quality indicators of the distribution of fertilizers in the soil. The inclined part of the chisel working body experiences significantly different soil pressure on its flat side surfaces - a downward-facing flat side surface from the side of dense soil is high pressure, and a flat side surface facing upward from the side of crumbling loose soil - low pressure. This leads to the impact on the inclined chisel working body in a plane perpendicular to the direction of movement of the unit of a large bending moment, for resistance to which it must have increased dimensions of the rack sections and, accordingly, increased metal consumption.

The problem that the invention solves is to reduce the energy consumption of the technological process and the metal consumption of the structure.

The technical objective of the invention is to eliminate the noted drawbacks, to ensure layer-by-layer uniform layered application of mineral fertilizers during the main deep cultivation of soil subject to wind erosion, to increase the uniformity of distribution of fertilizers over the entire cultivated area.

The task is solved with the help of a tillage tool, including a frame, support wheels, with chisel working bodies, which contain an inclined part, fixed on the frame, and in the inclined part on the front front side, along its inclined part, a wedge-shaped plate is fixed with an edge at the intersection of the edges of the wedge, directed towards the movement of the unit, and a rectangular diffuser of mineral fertilizers is fixed along it on the back of the inclined chisel body, which ensures uniform distribution of mineral fertilizers inside the soil with an inclined tape to depths of 6-8, 16-18, 23-25 cm, where it is fixed on the front the front side of the inclined part of the chisel working body has a wedge-shaped pad - 1 038577 we have an area of the face downward facing 2.22.5 times less than the area of the upward facing face of the wedge-shaped pad, and the rectangular fertilizer spreader is made with an upward sloping side surface slope of the chisel working body is flush, and in relation to the downward-facing inclined side surface of the inclined part of the chisel working body, the lower outer side inclined surface of the rectangular diffuser of mineral fertilizers is made shifted to the side from the upwardly facing inclined side surface of the inclined part of the chisel working body by 2-3 mm ...

The essence of the device is illustrated by drawings, where Fig. 1 is a general view of a tillage tool, FIG. 2 is a general view of an inclined chisel working body, FIG. 3 is a side view of a rectangular diffuser, FIG. 4 is a frontal view of a rectangular diffuser.

The tillage tool contains a frame 1, support wheels 2, with chisel working bodies containing an inclined part attached to the frame 3. In the inclined part of the chisel working body 3 on the front front side of the inclined chisel body 3, a wedge-shaped plate 4 with located along the inclined part of the chisel working body is fixed 3 at the intersection of the edges of the wedge with an edge directed in the direction of movement of the unit. At the end of the strut of the chisel working body 3, a shoe 5 is fixedly placed, to which a chisel is attached by means of a bolted connection 6. From the rear rear side of the inclined chisel body 3, a rectangular diffuser of mineral fertilizers 7 is fixed along it, which ensures uniform distribution of mineral fertilizers inside the soil with an inclined tape on depths 6-8, 16-18, 23-25 cm. Fixed in the inclined part of the chisel working body 3 on its front front side, the wedge-shaped plate 4 has an area of the face downward facing 2.2-2.5 times less than the area of the face up the face of the wedge-shaped lining. The rectangular mineral fertilizer diffuser 7 is made with an upwardly inclined side surface of the inclined part of the chisel working body 3 flush, and in relation to the downwardly facing inclined side surface of the inclined part of the chisel working body 3, the lower outer side inclined surface of the rectangular mineral fertilizer diffuser 7 is made shifted towards the side facing upwards of the inclined side surface of the inclined part of the chisel working body 1 by 2-3 mm.

The tillage tool works as follows. Mineral fertilizers transported from the hopper with a metering device (not shown as well-known devices) through the pipeline 8 by the air flow through the distributor head 9 and the pipelines 10 fall on the diffuser 7 of the chisel working body 3.

During processing, inclined downward to the horizon and having a bevel in front, the chisel 6 opens the soil with little resistance, since its width is 40-50 mm, reduced by 10 mm compared to the prototype, which is explained by the decrease to values close to zero of the impact on the inclined chisel working body 3 in the plane of bending moment perpendicular to the direction of movement of the unit from the soil side due to the execution of the inclined part of the chisel working body 3 located on the front front side of the wedge-shaped plate 4 with the area of the face facing downwards is 2.2-2.5 times smaller than the area of the facing up the face of the wedge-shaped lining. Fertilizers, falling into the diffuser 7, are divided into 3 streams and are evenly distributed inside the soil by an inclined belt at different depths. Since the rectangular diffuser of mineral fertilizers 7 is made with an upwardly inclined side surface of the inclined part of the chisel working body 3 flush, and with respect to the downwardly facing inclined side surface of the inclined part of the chisel working body 3, the lower outer side inclined surface of the rectangular diffuser of mineral fertilizers 7 is made shifted into the side of the inclined side surface facing upward of the inclined part of the chisel working body 1 by 2-3 mm, this significantly reduces the friction force of the side surfaces of the rectangular diffuser 7 of mineral fertilizers on the soil. This leads to a significant decrease in the energy consumption of the technological process and the metal consumption of the structure.

This design provides a 2-2.5 times higher utilization rate of mineral fertilizers by grain crops than with the spread method and 25-35% higher than the local-row method. This is explained by the fact that with scattered and local-row methods of fertilization, nutrients are located only at one level of the arable soil layer and only part of the plant roots uses them. The proposed design of the working body of the tillage tool ensures the placement of the main doses of fertilizers from 8-6 cm from the soil surface to a depth of 23-25 cm, which is 2-3 times more than with known methods of fertilization.

Claims (2)

CLAIM Tillage tool, including a frame, support wheels with chisel working bodies fixed to the frame and containing an inclined part, and in the inclined part of the chisel working body, a wedge-shaped pad is fixed on its front side with an edge located along the inclined part at the intersection of the wedge edges directed along the direction of travel tools, and - 2 038577 on the back side of the inclined part along it, a rectangular diffuser of mineral fertilizers is fixed for uniform distribution of mineral fertilizers along the depth of soil cultivation, characterized in that the wedge-shaped pad is made with the face downward facing area 2.2-2.5 times less than the area of the upward facing edge, and the rectangular mineral fertilizer diffuser is made flush with the upwardly inclined surface of the inclined part of the chisel working body, and in relation to the downwardly facing inclined surface of the inclined part of the chisel working body, the lower outer inclined surface of the rectangular mineral fertilizer diffuser is made shifted by 2-3 mm towards the upward-facing inclined surface of the inclined part of the chisel working body.