RU2164730C2 - Method and apparatus for combined basic erosion-preventive tillage of soil and application of fertilizer - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: method involves cutting slits inclined in longitudinal-vertical plane; cutting horizontal slits positioned above inclined slits; providing moisture accumulating vessels inside soil, with vessels being made in the form of trapezia and located at lower part of inclined slits; simultaneously providing uniform layer-by-layer distribution of fertilizers of different kinds in horizontal and inclined slits, with following covering of slits and mulching upper soil layer. Apparatus has frame, working tools, fertilizer cases, bar attached to frame by means of pivot joint and designed for carrying disks. Working tool has horizontal slitters, long and short inclined slitters, chisel, fertilizer guide terminating in divider-distributor made in the form of truncated wedge positioned in offset relation to fertilizer guide axis. EFFECT: increased efficiency, improved quality of soil and uniform distribution of fertilizer. 3 cl, 7 dwg

Description

 The invention relates to agriculture and can be used for subsoil fertilizer when conducting the bases of anti-erosion tillage.

 A known method of applying fertilizers to the soil (see as.with. N 1253463), including cutting inclined slots, which are placed crosswise and distribute fertilizer in them, while a horizontal slot is cut above the inclined slots and spread fertilizer in parallel rows.

 The disadvantage of this method of applying fertilizer is that for its implementation requires several types of working bodies. This leads to a heap of working bodies, complicating the design of the machine, which complicates the operation and tracing.

 There is also known a method of applying fertilizers (see AS 1107778), including cutting cracks in the soil at an acute angle to the horizontal plane, feeding and layer-by-layer distribution of different types of fertilizers in them with the gradual replacement of one type of fertilizer by others while mixing them in the boundary layer and their subsequent closure. A device for implementing this method includes a fertilizer pipe, divided by a longitudinal partition, the lower end of which is located with a gap to the lower edge of the flat-slot nozzle.

 A disadvantage of the known methods of fertilizing and the device for its implementation is that fertilizers are introduced into the arable (cultivated) soil layer, and the device is intended only for fertilizing. Thus, before applying fertilizers, the soil must be cultivated, which requires additional energy and funds and significantly increases the cost of production.

 To eliminate these shortcomings, it is proposed to combine the main anti-erosion tillage and fertilizing. The main anti-erosion treatment of the soil is carried out in the process of feeding and layer-by-layer distribution of fertilizers of different types in parallel planes at an acute angle to the horizontal plane of the slots, cutting horizontal slots located above the inclined slabs, forming subsoil moisture-absorbing containers in the form of trapeziums located in the lower part of the sloping slots, simultaneously uniform layer-by-layer distribution of fertilizers of various types in horizontal and inclined slots and their subsequent incorporation with mulch ditching the topsoil. In addition, in a device containing a supporting system with fat boxes, a fertilizer rack divided by a longitudinal partition, an opener mounted on an upright with an oblique opener with an oblique slit of a flat-slit nozzle, horizontal shelres with a divider are placed in the upper part of the latter, and a trapezoidal bit in the lower part with a shortened inclined cultivator. The divider-distributor is made in the form of a wedge and is installed at the end of the pipe stand with an offset relative to its axis.

In FIG. 1 shows the proposed method of tillage,
in FIG. 2 - working body for implementing the method, front view,
in FIG. 3 - the same working body, side view,
in FIG. 4 - section AA in FIG. 2
in FIG. 5 is a section BB in FIG. 3
in FIG. 6 - implement for tillage, side view,
in FIG. 7 - same, top view.

 Carrying out the main anti-erosion tillage to a depth of "a", the working body cuts at an acute angle to the horizontal plane in the longitudinally vertical plane of the cracks 1. At a depth of "a", horizontal slots 2 are cut, in the lower part of the inclined slots 1 an underground soil moisture-accumulating tank 3 is formed made in the form of a trapezoid. At the same time, fertilizer boxes are fed and uniformly layer-by-layer distributed with different types of fertilizers 4, 5 in horizontal 2 and inclined 1 slots, followed by their incorporation with mulching of the upper soil layer to a depth of “a”.

 The device comprises a supporting system with fertilizer boxes 6, a rack-pipe line 7, separated by a longitudinal partition with the formation of two cavities A and B, and an opener 8 mounted at a stand at an angle with an oblique section of a flat-slot nozzle 9. Horizontal horizontal openers 8 are located in the upper part of the opener 8 cherereses 10 with a divider-distributor 11. In the lower part of the opener 8 a trapezoidal bit 12 is installed with a shortened inclined cultivator 13. The divider-distributor is made in the form of a wedge and is installed at the end of the strut-duct 7 with an offset of regarding its axis. The device has a supporting frame 14, on which deep rippers 15 are fixed in two rows. A square rod 16 is mounted behind the rippers 15, on which flat disks 17 are fixed, alternating with the petals of spherical disks 18 located at an acute angle to the axis of the rod 16. Toward the frame 14 16 is secured by a hinge device 19.

 The method is carried out by the device as follows.

 When moving the agricultural unit, deep rippers 15 perform the main anti-erosion tillage. At the same time, different-sized horizontal cherereses 10 in the form of plowshares cut a horizontal slit 2. An elongated inclined opener 8 with a shortened inclined cultivator 9 and a chisel 10 cut inclined slots 1 with a moisture-accumulating capacity 3. Fertilizers of different types from fertilizer boxes are fed into the racks of the A and B divisions divided by the partition piping 7. From the cavity A fertilizers 5 are introduced into the inclined slot 1 and the moisture storage tank 3. At the end of the piping-fertilizer pipe 7, the cavity B ends with a divider-distributor 11, made in the form of a truncated a line installed with an offset from the axis of the strut-tubing 7 by Δ l. The offset of the divider-distributor 11 from the axis of the strut-tubing 7 provides a uniform distribution of fertilizers 4 in the horizontal gap 2.

 Mulching of the upper soil layer is carried out by the disks 17 and 18 of the rod 16 with the preservation of stubble on the surface.

 Due to the formation of open closed containers with simultaneous slitting, layer-by-layer loosening of the soil, the manifestation of water erosion can be completely eliminated. Preserving more stubble on the field surface prevents the occurrence of wind erosion processes. The simultaneous application of fertilizers provides plants with the necessary nutrients, which favorably affects the productivity of crops.

 Thus, thanks to this invention, it is possible to combine the main anti-erosion tillage with the application of fertilizers while maintaining the required quality of tillage and providing plants with nutrients.

 The proposed method and device for its implementation does not affect the environment, as it reduces the manifestation of water and wind erosion, and fertilizers are evenly applied to the soil and covered with the upper mulching layer.

Claims (3)

 1. The method of combining the main anti-erosion tillage and fertilizing, including cutting cracks in the soil at an acute angle to the horizontal plane, feeding and layer-by-layer distribution of different types of fertilizers in them and their subsequent incorporation, characterized in that the main anti-erosion tillage is carried out in the process of cutting inclined slots in the longitudinally vertical plane, while horizontal slits are cut above the inclined ones and form subsoil moisture storage tanks in the form of tra etsy located at the bottom of the inclined slits simultaneously made uniform stratified distribution of different kinds of fertilizers in horizontal and inclined slots and their subsequent sealing with mulching topsoil.  2. A device for combining the main anti-erosion tillage and fertilizing, including a bearing system with fertilizer boxes, a fertilizer rack, divided by a longitudinal partition, an opener mounted on the rack at an angle with an oblique cut of a flat-slot nozzle, characterized in that in the upper part of the flat-slot nozzle there are horizontal slitherez with a divider-distributor, and a trapezoidal bit with a shortened inclined cultivator is installed in the lower part.  3. The device according to claim 2, characterized in that the divider is made in the form of a wedge and is installed at the end of the strut-pipe line with an offset relative to its axis.

Images