CN213907371U - High-firmness grassland soil-root system composite soil layer improving machine tool - Google Patents

Abstract

The utility model relates to a high-firmness grassland soil-root system composite soil layer improving machine tool. The machine comprises a frame, land wheels, a fertilizer box, an outer grooved wheel fertilizer discharging device, a fertilizer discharging shaft, a subsoiler and a press wheel; a plurality of subsoilers spaced at a certain distance are fixed on the front beam in a height-adjustable manner; the subsoiler comprises a blade part and a handle part; the soil facing end surface of the shovel blade part is provided with a cutting edge, and the cutting edge is sequentially divided into a first linear blade, an arc blade and a second linear blade from the shovel tip to the joint of the shovel blade part and the shovel handle part; the cutting edge is of a secondary cutting edge structure and is provided with a primary cutting edge face and a secondary cutting edge face, and a pair of horizontal side wings are fixedly connected to the left side and the right side of the shovel edge part at the rear end of the shovel tip. The loosening fertilization improvement operation of the high-firmness grassland soil-root system composite soil layer is realized in a low-disturbance mode, the hardened soil-root system composite soil layer structure formed by the high-firmness grassland is broken under the condition that the soil layer is not turned over, a soil environment with high ventilation and water permeability is formed, and meanwhile, the fertility required by the growth of the pasture is supplemented.

Description

High-firmness grassland soil-root system composite soil layer improving machine tool

Technical Field

The utility model belongs to the grassland improvement field, in particular to a high-firmness grassland soil-root system composite soil layer improving machine.

Background

The root-stem or rhizome sparse grass represented by the Chinese wildrye and the perennial leguminous forage represented by the alfalfa are grown for many years, the grassland has the characteristics of high soil compactness, soil hardening and large soil volume weight, roots and stems of the forage in soil layers with different depths are mutually interwoven and anchored with the soil to form a soil-root system composite soil layer structure, so that the grassland is not favorable for ventilation and water permeation, and the development and growth of the forage are influenced. The mode of adopting mechanized loose soil layer is one of the effective modes of solving above-mentioned problem, but traditional subsoiler machines and parts are mostly used for the farmland operation, and is big to the soil disturbance during the operation, easily causes soil to turn over the upturned soil and wind erosion water erosion problem, and to the vegetation destruction degree great, be not suitable for the operation on meadow.

Disclosure of Invention

In view of the above technical problems, it is an object of the present invention to provide a high-firmness grassland soil-root system composite soil layer improving machine tool, which loosens the high-firmness grassland soil-root system composite soil layer in a low-disturbance manner by mechanical means, increases the air and water permeability of the grassland, and provides nutrient components required for the growth of the grass root system, thereby improving the hardened state of the high volume weight and high compactness of the grassland composite soil layer, optimizing the soil environment for the growth of the grassland grass, and increasing the yield of the grass.

In order to achieve the above object, the present invention provides the following technical solutions:

a high-firmness grassland soil-root system composite soil layer improving machine comprises a frame 1, ground wheels 14, a fertilizer box 8, an outer grooved wheel fertilizer discharging device 9, a fertilizer discharging shaft 10, a subsoiler 16 and a press wheel 20.

The frame 1 comprises a front cross beam 3, a longitudinal beam 6, a middle cross beam 32, a rear cross beam 13 and a fertilizer box fixing plate 7; the front cross beam 3, the middle cross beam 32 and the rear cross beam 13 are fixedly connected in sequence from front to back by the two longitudinal beams 6; the two fertilizer box fixing plates 7 are fixedly connected to the two longitudinal beams 6 respectively; the fertilizer box 8 is fixed on the upper parts of the two fertilizer box fixing plates 7, and the bottom of the fertilizer box 8 is provided with a fertilizer unloading opening 23 and a plurality of fertilizer outlets; a plurality of outer sheave fertilizer discharging devices 9 are correspondingly arranged below the fertilizer outlets of the fertilizer box 8 one by one, a fertilizer discharging shaft 10 passes through each outer sheave fertilizer discharging device 9 and is arranged on the fertilizer box fixing plate 7, and the other end of the fertilizer discharging shaft 10 is provided with a driven chain wheel 11.

Two land wheels 14 are provided at the left and right ends of the front cross member 3, respectively. A driving sprocket 19 is arranged on a land wheel shaft 15 of the land wheel 14 on the same side as the driven sprocket 11, and the driving sprocket 19 is connected with the driven sprocket 11 through a chain 12.

A plurality of subsoilers 16 spaced apart at a distance are fixed to the front cross member 3 in a height-adjustable manner; the subsoiler 16 includes a blade portion 26 and a shank portion 31.

The tip of shovel blade portion 26 is shovel point 261, and the face of meeting soil of shovel blade portion 26 is opened has blade 28, blade 28 divide into first straight line sword 283, pitch arc sword 284 and second straight line sword 285 in proper order from shovel point 261 to shovel blade portion 26 and the shovel handle portion 31 junction.

The cutting edge 28 is of a secondary cutting edge structure and is provided with a primary cutting edge surface 281 and a secondary cutting edge surface 282, and the cutting edge angle alpha of the primary cutting edge surface 281 is 10-30 degrees; the edge angle beta of the secondary facet 282 is 40-60 deg..

A pair of horizontal side wings 25 are fixed to both left and right sides of the cutting edge 26 at the rear end of the cutting edge 261.

The rear end of the shovel blade part 26 is provided with a fertilizer guide channel 29, and the upper port of the fertilizer guide channel 29 is communicated with the fertilizer outlet of the outer grooved wheel fertilizer discharging device 9 through a fertilizer guide pipe 18; the lower port of the fertilizer guide channel 29 is provided with a fertilizer dispersing device 30, and the fertilizer dispersing device 30 is a sphere, so that the organic granular fertilizer discharged from the fertilizer guide channel 29 collides with the fertilizer dispersing device 30 and then randomly scatters and distributes.

A press wheel 20 is correspondingly arranged behind each subsoiler 16, the press wheel 20 is mounted at the bottom end of a support 21, the middle part of the support 21 is hinged on a middle cross beam 32, and the top end of the support 21 is connected with a rear cross beam 13 through a tension spring 22.

One end of the fertilizer discharging shaft 10 is provided with an adjusting wheel 17, and the fertilizer discharging shaft 10 moves along the axial direction by rotating the adjusting wheel 17, so that the grooved wheel of the outer grooved wheel fertilizer discharging device 9 is driven to move, and the effective fertilizer discharging width of the outer grooved wheel fertilizer discharging device 9 is further changed.

And three-point suspension devices 24 are arranged on the front cross beam 3 and the rear cross beam 13 and are used for being connected with a three-point suspension frame at the rear end of the tractor.

The land wheel shaft 15 of the land wheel 14 is arranged on the land wheel frame 2, and the land wheel frame 2 is fixedly connected on the front cross beam 3; the surface of the land wheel 14 close to the inner side of the wheel body is provided with a plurality of projections at equal intervals.

The shovel stalk portion 31 is equipped with a plurality of through-holes along vertical direction equidistance, passes the not through-hole of co-altitude through the bolt and adjusts subsoiler 16's the degree of depth of penetrating into earth.

The soil penetration angle of the shovel tip 261 is 15-23 degrees; the length of the shovel tip 261 is 70mm to 100 mm; the shovel tip opening angle gamma of the shovel tip 261 is 30-60 degrees; the soil entry angle of the first straight edge 283 is 45-60 degrees, and the length of the first straight edge 283 is 130-165 mm; the soil entry angle of the second straight blade 285 is 90 degrees; the arc radius r of the arc blade 284 is 257-320 mm, and the central angle corresponding to the arc length is 58 degrees.

Preferably, the opening angle γ of the blade tip is 40 °.

Preferably, the edge angle α of the primary facet 281 is 14 °; the edge angle β of the secondary facet 282 is 45 °.

The flanks 25 are triangular.

In the horizontal direction, the lower port of the fertilizer guide channel 29 is located below the side wing 25.

Compared with the prior art, the beneficial effects of the utility model reside in that:

the utility model discloses realize the loose fertilization improvement operation on high solid meadow soil-root system composite soil layer with the mode of low disturbance, break the soil-root system composite soil layer structure that hardened soil layer formed under the condition on not turning over the soil layer, form the soil environment that the ability of permeating water that ventilates is stronger, supply the required fertility of forage grass growth simultaneously, promote forage grass rejuvenation and expand numerous to improve forage grass output, destroy little to the meadow vegetation in the operation process.

Drawings

FIG. 1 is a schematic view showing a three-dimensional structure of a high-solidity grassland soil-root system composite soil layer improving machine of the present invention;

FIG. 2 is a schematic view of a second three-dimensional structure of the high-solidity grassland soil-root system composite soil layer improving machine of the present invention;

FIG. 3 is a schematic diagram of a side view of the high solidity grassland soil-root system composite soil layer improving machine of the present invention;

FIG. 4 is a perspective view of subsoiler 16;

FIG. 5 is a schematic cross-sectional view of subsoiler 16;

FIG. 6 is a schematic cross-sectional view of cutting edge 28 of subsoiler 16;

fig. 7 is a schematic structural view of the fertilizer spreading device 30 of the subsoiler 16;

FIG. 8 is a sectional view of the connection of the side wings 25 of the subsoiler 16;

FIG. 9 is a schematic view of the construction of the point 161 of subsoiler 16;

FIG. 10 is a schematic view of the operation process of the high solidity grassland soil-root system composite soil layer improving machine of the present invention;

fig. 11 is a partially enlarged schematic view of the operation of the subsoiler.

Wherein the reference numerals are:

1 frame 2 ground wheel carrier

3 front beam 4 'U' shaped bolt

5 fixing plate 6 longitudinal beam

7 fertile case fixed plate 8 fertile cases

9 outer sheave fertilizer discharging device 10 fertilizer discharging shafts

11 driven sprocket and 12 chain

13 rear cross beam 14 land wheel

15 land axle 16 subsoiler

17 regulating wheel 18 fertilizer guiding pipe

19 driving chain wheel 20 press wheel

21 bracket 22 tensioning spring

23 unload fertile mouthful 24 three-point linkage

25 flank 26 shovel edge part

261 shovel 27 screw pin

28 cutting edge 281 primary edge face

282 Secondary land 283 first straight edge

284 curved edge 285 second straight edge

29 lead fertile passageway 30 bulk fertilizer device

31 shovel handle 32 middle cross beam

Opening angle of gamma shovel tip

radius of curvature of r arc edge 284

Angle of alpha primary facet 281

Angle of beta secondary facet 282

Detailed Description

The present invention will be further explained with reference to the drawings and examples.

As shown in fig. 1, 2 and 3, the high-firmness grassland soil-root system composite soil layer improving machine comprises a frame 1, ground wheels 14, a fertilizer box 8, an outer sheave fertilizer discharging device 9, a fertilizer discharging shaft 10, a subsoiler 16 and a press wheel 20.

The frame 1 comprises a front cross beam 3, a longitudinal beam 6, a middle cross beam 32, a rear cross beam 13 and a fertilizer box fixing plate 7; the front cross beam 3, the middle cross beam 32 and the rear cross beam 13 are fixedly connected in sequence from front to back by the two longitudinal beams 6; two fertilizer box fixed plates 7 are respectively and fixedly connected to the two longitudinal beams 6. The fertilizer box 8 is fixed on the upper parts of the two fertilizer box fixing plates 7, and the bottom of the fertilizer box 8 is provided with a fertilizer unloading opening 23 and a plurality of fertilizer outlets. The outer grooved wheel fertilizer discharging devices 9 are correspondingly arranged below the fertilizer outlets of the fertilizer boxes 8 one by one, the fertilizer discharging shaft 10 penetrates through the outer grooved wheel fertilizer discharging devices 9 and is arranged on the fertilizer box fixing plate 7, one end of the fertilizer discharging shaft 10 is provided with an adjusting wheel 17, and the fertilizer discharging shaft 10 can move axially by rotating the adjusting wheel 17, so that grooved wheels of the outer grooved wheel fertilizer discharging devices 9 are driven to move, and the effective fertilizer discharging width of the outer grooved wheel fertilizer discharging devices 9 is changed; the other end of the fertilizer discharging shaft 10 is provided with a driven chain wheel 11.

And three-point suspension devices 24 are arranged on the front cross beam 3 and the rear cross beam 13 and are used for being connected with a three-point suspension frame at the rear end of the tractor. Two land wheels 14 are provided at the left and right ends of the front cross member 3, respectively.

The land wheel 14 has a land wheel shaft 15 mounted on the land wheel frame 2, and the land wheel frame 2 is fixedly connected to the front beam 3 through a U-shaped bolt 4 and a fixing plate 5. The surface of the land wheel 14 close to the inner side of the wheel body is provided with a plurality of bulges at equal intervals to prevent the land wheel from sliding when running on the grassland. A driving sprocket 19 is arranged on a land wheel shaft 15 of the land wheel 14 on the same side as the driven sprocket 11, and the driving sprocket 19 is connected with the driven sprocket 11 through a chain 12.

A plurality of spaced subsoilers 16 are height-adjustably fixed to the front cross member 3 by means of "U" -bolts 4 and fixing plates 5. As shown in fig. 4 and 5, the subsoiler 16 includes a blade portion 26 and a shank portion 31; the shovel stalk portion 31 is equipped with a plurality of through-holes along vertical direction equidistance, passes the through-hole of co-altitude not through the bolt and is connected the degree of depth of digging of adjusting subsoiler 16 with fixed plate 5.

As shown in fig. 4 and 9, the end of the shovel blade portion 26 is a shovel tip 261, the cutting edge 28 is formed on the soil-facing end surface of the shovel blade portion 26, and the cutting edge 28 is divided into a first straight edge 283, a curved edge 284 and a second straight edge 285 in sequence from the shovel tip 261 to the connection between the shovel blade portion 26 and the shovel handle 31. The soil penetration angle of the shovel tip 261 is 15-23 degrees; the length of the shovel tip 261 is 70mm to 100 mm. As shown in fig. 9, the cutting edge opening angle γ of the cutting edge 261 is 30 ° to 60 °, and preferably, the cutting edge opening angle γ is 40 °. The soil entry angle of the first straight edge 283 is 45-60 degrees, and the length of the first straight edge 283 is 130-165 mm. The second straight blade 285 has an angle of 90 ° into the ground.

As shown in FIG. 5, the arc radius r of the arc edge 284 is 257-320 mm, and the central angle corresponding to the arc length is 58 °.

As shown in fig. 6, the cutting edge 28 has a secondary cutting edge structure, and has a primary cutting edge surface 281 and a secondary cutting edge surface 282, wherein the cutting edge angle α of the primary cutting edge surface 281 is 10 ° to 30 °, and preferably, the cutting edge angle α of the primary cutting edge surface 281 is 14 °; the edge angle β of the secondary facet 282 is 40 ° to 60 °, preferably the edge angle β of the secondary facet 282 is 45 °. The soil layer is firstly cut through the primary blade face 281 by the secondary blade edge structure, the root system is cut off, pre-disturbance is realized on the soil layer, then the secondary blade face 282 separates the soil layer to two sides, and the situation that the root system is dragged and the clod soil block is turned over due to insufficient fracture of the soil-root system composite soil layer structure in the soil layer is avoided.

As shown in fig. 8 and 9, a pair of horizontal side wings 25 are fixed to both left and right sides of a cutting edge 26 at the rear end of the cutting edge 261 by screw pins 27. The flanks 25 are triangular. During operation, shovel point 261 lifts the soil layer, and the soil layer moves to flank 25's upper surface along shovel point 261, and then moves backward along with the machines are preceding, then moves out the back fast and fall back after the upper surface of flank 25 under the anchor power effect between the soil layer is inside, realizes the slight hunch-up and the fast fall back of soil layer around the flank 25.

The rear end of the shovel blade part 26 is provided with a fertilizer guide channel 29, and the upper port of the fertilizer guide channel 29 is communicated with the fertilizer outlet of the outer grooved wheel fertilizer discharging device 9 through a fertilizer guide pipe 18; as shown in fig. 5 and 7, a fertilizer spreading device 30 is disposed at a lower port of the fertilizer guide channel 29, and the fertilizer spreading device 30 is a sphere, so that the organic granulated fertilizer discharged from the fertilizer guide channel 29 is randomly scattered and distributed after colliding with the organic granulated fertilizer. As shown in fig. 7, the lower port of the fertilizer guide channel 29 is located below the side wing 25 in the horizontal direction.

A press wheel 20 is correspondingly arranged behind each subsoiler 16, the press wheel 20 is mounted at the bottom end of a support 21, the middle part of the support 21 is hinged on a middle cross beam 32, and the top end of the support 21 is connected with a rear cross beam 13 through a tension spring 22.

The improvement of the machine to the high-firmness grassland soil-root system composite soil layer of the utility model comprises the following steps:

s1, the subsoiler 16 moves in a single direction in the grassland soil-root system composite soil layer, the operation depth is 25-50 cm, the soil-root system composite soil layer structure is cut through the cutting edge 28 of the secondary cutting edge structure, meanwhile, the horizontal side wing 25 achieves micro-arching and rapid falling of the surrounding soil layer, a furrow is formed on the ground surface after the subsoiler 16 operates, the width of the furrow is 10-20 mm, zero furrow opening or low furrow opening of soil blocks is achieved in the operation process, and loosening of the grassland soil-root system composite soil layer and low disturbance operation of the ground surface are achieved;

s2, fertilizing operation is realized while loosening the soil-root system composite soil layer, organic granular fertilizer is scattered into the soil layer through the fertilizer guide channel 29 of the subsoiler 16 before the micro-arched soil layer falls back, so that the fertility of the soil layer is increased, and the growth environment of the root system of the pasture is improved;

s3, after the loosening and fertilizing processes are completed, the grassland surface is pressed, and the surface leveling and the gap springback closing are achieved.

In the step S2, the organic granulated fertilizer discharged from the fertilizer guide channel 29 is scattered and distributed randomly after colliding with the fertilizer scattering device 30 by the fertilizer scattering device 30 provided at the lower port of the fertilizer guide channel 29.

The working process of the utility model is as follows:

as shown in fig. 10 and 11, in operation, the utility model is connected with the three-point suspension system at the rear end of the tractor through the three-point suspension device 24, and the operation is carried out under the traction of the tractor. During operation, land wheel 14 walks on the meadow earth's surface, and subsoiler 16 gets into meadow soil-root system composite soil layer and removes along with the tractor, cuts meadow soil-root system composite soil layer structure through blade 28 of second grade blade structure, flank 25 of the left and right sides of the shovel blade portion 26 of the rear end of shovel point 261 lifts the soil layer upwards, and the meadow earth's surface is protruding slightly, then bellied soil layer falls back fast under the effect of the inside anchor power of soil-root system composite soil layer structure, realizes meadow soil-root system composite soil layer's loose effect. In addition, during operation, the land wheel 14 rotates, the driving chain wheel 19 is driven to rotate through the land wheel shaft 15, the driving chain wheel 19 drives the driven chain wheel 11 and the fertilizer discharging shaft 10 to rotate through the chain 12, the outer grooved wheel fertilizer discharging device 9 is driven to work by the fertilizer discharging shaft 10, organic granular fertilizer enters the fertilizer guide pipe 18 from the fertilizer box 8, the fertilizer enters the fertilizer guide channel 29 on the subsoiler 16 through the fertilizer guide pipe 18, the fertilizer moves in the fertilizer guide channel 29 by means of gravity, the lower port of the fertilizer guide channel 29 collides with the fertilizer dispersing device 30, the movement direction of the fertilizer is changed after the fertilizer collides, and the fertilizer is scattered behind the subsoiler 16. The soil-root system composite soil layer arched by the side wings 25 covers the fertilizer after falling back. The compacting wheel 20 is under the effect of tensioning spring 22, realizes the suppression to earth's surface and soil layer, and the soil that arches the earth's surface on the one hand is compacted, levels the earth's surface, and on the other hand impels subsoiler 16 operation ground gap that the earth produced to kick-back closed. The method is applied to hardened natural deteriorated grassland represented by the leymus chinensis and perennial alfalfa artificial grassland represented by the alfalfa, and the method is suitable for being used before the pasture grass turns green.

Claims (10)

1. A high-firmness grassland soil-root system composite soil layer improving machine tool is characterized by comprising a frame (1), land wheels (14), a fertilizer box (8), an outer grooved wheel fertilizer discharging device (9), a fertilizer discharging shaft (10), a subsoiler (16) and a press wheel (20);

the frame (1) comprises a front cross beam (3), a longitudinal beam (6), a middle cross beam (32), a rear cross beam (13) and a fertilizer box fixing plate (7); the front cross beam (3), the middle cross beam (32) and the rear cross beam (13) are fixedly connected in sequence from front to back by the two longitudinal beams (6); the two fertilizer box fixing plates (7) are fixedly connected to the two longitudinal beams (6) respectively; the fertilizer boxes (8) are fixed on the upper parts of the two fertilizer box fixing plates (7), and the bottom of each fertilizer box (8) is provided with a fertilizer unloading opening (23) and a plurality of fertilizer outlets; the outer grooved wheel fertilizer discharging devices (9) are correspondingly arranged below the fertilizer outlets of the fertilizer boxes (8) one by one, the fertilizer discharging shaft (10) penetrates through the outer grooved wheel fertilizer discharging devices (9) to be arranged on the fertilizer box fixing plate (7), and the other end of the fertilizer discharging shaft (10) is provided with a driven chain wheel (11);

the two land wheels (14) are respectively arranged at the left end and the right end of the front cross beam (3); a driving sprocket (19) is arranged on a land wheel shaft (15) of the land wheel (14) on the same side as the driven sprocket (11), and the driving sprocket (19) is connected with the driven sprocket (11) through a chain (12);

a plurality of subsoilers (16) which are spaced at a certain distance are fixed on the front beam (3) in a height-adjustable manner; the subsoiler (16) comprises a blade part (26) and a shovel handle part (31);

the end part of the shovel edge part (26) is a shovel tip (261), the soil facing end surface of the shovel edge part (26) is provided with a cutting edge (28), and the cutting edge (28) is sequentially divided into a first straight line edge (283), an arc line edge (284) and a second straight line edge (285) from the shovel tip (261) to the connection part of the shovel edge part (26) and the shovel handle part (31);

the cutting edge (28) is of a secondary cutting edge structure and is provided with a primary cutting edge face (281) and a secondary cutting edge face (282), and the cutting edge angle alpha of the primary cutting edge face (281) is 10-30 degrees; the cutting edge angle beta of the secondary cutting edge surface (282) is 40-60 degrees;

a pair of horizontal side wings (25) are fixedly connected to the left side and the right side of a shovel blade part (26) at the rear end of the shovel tip (261);

the rear end of the shovel edge part (26) is provided with a fertilizer guide channel (29), and the upper end opening of the fertilizer guide channel (29) is communicated with a fertilizer outlet of the outer grooved wheel fertilizer discharging device (9) through a fertilizer guide pipe (18); a fertilizer dispersing device (30) is arranged at the lower port of the fertilizer guide channel (29), and the fertilizer dispersing device (30) is a sphere, so that organic granular fertilizer discharged from the fertilizer guide channel (29) is randomly scattered and distributed after colliding with the fertilizer dispersing device (30);

every subsoiler (16) rear correspondence is equipped with a press wheel (20), the bottom at support (21) is installed in press wheel (20), and the middle part of support (21) articulates on well crossbeam (32), and the top of support (21) is passed through tensioning spring (22) and is connected with rear frame member (13).

2. The high firmness grassland soil-root system composite soil layer improving tool as claimed in claim 1, wherein an adjusting wheel (17) is provided at one end of the fertilizer discharging shaft (10), and the fertilizer discharging shaft (10) is axially moved by rotating the adjusting wheel (17), so as to drive the sheave of the outer sheave fertilizer discharging device (9) to move, thereby changing the effective fertilizer discharging width of the outer sheave fertilizer discharging device (9).

3. A high solidity grassland soil-root composite soil improving implement according to claim 1, wherein the front beam (3) and the rear beam (13) are provided with three-point suspension means (24) for connecting with a three-point suspension bracket at the rear end of the tractor.

4. The soil-root composite soil layer improving implement for grasslands with high firmness as claimed in claim 1, wherein the land wheel shaft (15) of the land wheel (14) is installed on a land wheel frame (2), and the land wheel frame (2) is fixedly connected to the front beam (3); a plurality of bulges are arranged on the surface of the land wheel (14) close to the inner side of the wheel body at equal intervals.

5. The high solidity grassland soil-root composite soil improving implement of claim 1, wherein the shovel shaft portion (31) is provided with a plurality of through holes at equal intervals in the vertical direction, and the penetration depth of the subsoiler (16) is adjusted by bolts through the through holes of different heights.

6. The high solidity grassland soil-root system composite soil layer improving implement of claim 1, wherein the penetration angle of the shovel tip (261) is 15 ° to 23 °; the length of the shovel tip (261) is 70 mm-100 mm; the shovel tip opening angle gamma of the shovel tip (261) is 30-60 degrees; the soil entry angle of the first straight line blade (283) is 45-60 degrees, and the length of the first straight line blade (283) is 130-165 mm; the soil entry angle of the second straight blade (285) is 90 degrees; the arc radius r of the arc blade (284) is 257-320 mm, and the central angle corresponding to the arc length is 58 degrees.

7. The high solidity grassland soil-root composite soil improving implement of claim 6, wherein the opening angle γ of the shovel tip is 40 °.

8. The high solidity grassland soil-root composite soil amendment implement of claim 1, wherein the primary facet (281) has a facet angle α of 14 °; the edge angle beta of the secondary edge surface (282) is 45 degrees.

9. The high solidity grassland soil-root composite soil improving implement of claim 1, wherein the side wings (25) are triangular.

10. The high solidity grassland soil-root composite soil improving implement of claim 1, wherein the lower port of the fertilizer guiding channel (29) is located below the side wing (25) in the horizontal direction.

Images