CN219087733U - Purple sweet potato rotary tillage ridger - Google Patents

Abstract

A purple sweet potato rotary tillage ridger relates to the technical field of ridgers and solves the problem that the width and the inclination degree of ridging cannot be adjusted in the prior art. The purple sweet potato rotary tillage ridger comprises a rotary tillage mechanism and a ridging mechanism, wherein the ridging mechanism is connected to the front end of the rotary tillage mechanism through a frame; the ridging mechanism comprises a leveling shaft and a ridging surface leveling wheel, the ridging surface leveling wheel is arranged on the leveling shaft, the leveling shaft is arranged on a connecting part, and the connecting part is rotationally connected with the rack; the ridge surface leveling wheel comprises an inner hexagon bolt, a first component and a second component, wherein fixing blocks are respectively arranged on inner rings of the first component and the second component, a plurality of fixing grooves are correspondingly formed in the leveling shaft, plug-in blocks are arranged on the first component, plug-in grooves are correspondingly formed in the second component, and the inner hexagon bolt penetrates through the second component and the plug-in blocks. The beneficial effects are that: the width and the inclination degree of the ridging can be adjusted by replacing the ridging surface leveling wheels.

Description

Purple sweet potato rotary tillage ridger

Technical Field

The utility model relates to the technical field of ridgers, in particular to a purple sweet potato rotary tillage ridger.

Background

The rotary tillage and the ridging are an important process in agricultural soil cultivation, and the rotary tillage can turn soil at the bottom layer to the surface layer, so that the ventilation degree of the soil is increased, and meanwhile, part of pests in the soil can be eliminated, thereby being beneficial to the growth of plants. The ridging can be used for piling up and thickening the cultivation layer on the surface layer, the cultivation layer is a place where crops take roots, the thicker cultivation is more beneficial to taking roots, the root system grows in a good soil environment, and good growth of plants is further promoted.

The rotary tillage ridger is an agricultural machine combining the rotary tillage machine and the ridger, is generally matched with a tractor for use, and is used for crushing soil and ridging operation after the soil is crushed. However, most of the existing ridgers are fixedly connected, and the inclination degree and width of ridging cannot be adjusted when different plants are encountered. Therefore, the utility model designs a rotary tillage ridger capable of adjusting the inclination degree and the width of ridging.

Disclosure of Invention

The utility model aims to provide a purple sweet potato rotary tillage ridger which is used for solving the problem that the width and the inclination degree of ridging cannot be adjusted in the prior art.

The technical scheme adopted for solving the technical problems is as follows:

the purple sweet potato rotary tillage ridger comprises a rotary tillage mechanism and a ridging mechanism, wherein the ridging mechanism is connected to the front end of the rotary tillage mechanism through a frame; the ridging mechanism comprises a leveling shaft and a ridging surface leveling wheel, the ridging surface leveling wheel is arranged on the leveling shaft, the leveling shaft is arranged on a connecting part, and one end of the connecting part, which is far away from the leveling shaft, is rotationally connected with the frame; the ridge surface leveling wheel comprises an inner hexagon bolt, a first component and a second component, wherein fixing blocks are respectively arranged on inner rings of the first component and the second component, a plurality of fixing grooves are correspondingly formed in the leveling shaft, plug-in blocks are arranged on the first component, plug-in grooves are correspondingly formed in the second component, and the inner hexagon bolt penetrates through the second component and the plug-in blocks.

The beneficial effects are that: the rotary tillage mechanism turns the soil at the bottom layer to the surface layer, so that the ventilation degree of the land is increased. The leveling shaft in the ridging mechanism levels the turned soil, and meanwhile, the ridge surface leveling wheel levels the soil into corresponding shapes, so that a field ridge is formed, the cultivation layer on the surface layer is thickened, and rooting and good growth of plants are facilitated. The ridge surface leveling wheels are detachably connected with the leveling shafts, the adjustment of the inclination degree of ridging can be realized by replacing the ridge surface leveling wheels with different sizes, and the adjustment of the width of ridging is realized by changing the positions of the ridge surface leveling wheels. When different plants are encountered, the inclination degree and the width of the ridging can be quickly adjusted, the working efficiency is improved, and the application universality of the rotary tillage ridger is improved.

Further, two ridge surface leveling wheels are oppositely arranged on the leveling shaft, and the ridge surface leveling wheels are conical wheels.

The beneficial effects are that: the soil ridges can form corresponding shapes, and the sowing of plants on the soil ridges can promote the good growth of the plants.

Further, the rotary tillage mechanism comprises a shell, a rotary tillage cutter shaft and rotary tillage blades, wherein the rotary tillage cutter shaft is arranged on the shell, a plurality of rotary tillage blades are arranged on the rotary tillage cutter shaft, a driving motor is arranged on the shell, and an output shaft of the driving motor is connected with the rotary tillage cutter shaft through a synchronous wheel and a synchronous belt.

The beneficial effects are that: the driving motor drives the rotary blade shaft to rotate through the synchronous belt and the synchronous wheel, the rotary blade shaft drives the rotary blade to rotate, and the rotary blade rotates to turn soil at the bottom layer to the surface layer, so that pests in soil at the bottom layer are reduced, pesticide is reduced, the environment is protected, the ventilation degree of the land is increased, the air content in the soil is increased, and the growth of plants is promoted.

Further, the rear end of the rotary tillage mechanism is provided with a plurality of soil crushing cutters.

The beneficial effects are that: the soil crushing knife breaks hard soil layers on the soil surface into a plurality of blocks, which is beneficial to rotary tillage of soil at the bottom by the rotary tillage blade.

Further, a film covering roller is arranged at the rear end of the ridging mechanism, and the film covering roller is arranged on the frame.

The beneficial effects are that: when the growth of plants needs to be covered, the covered roller rotates to cover the soil ridges, so that the heat preservation property is improved, and the loss of water in soil is avoided.

Further, the front end of the ridging mechanism is provided with a film covering punching mechanism, the film covering punching mechanism comprises a punching roller and a supporting rod, the punching roller is arranged on the supporting rod, and the supporting rod is detachably connected with the frame through bolts and nuts.

The beneficial effects are that: the film covering and punching mechanism can punch films on the surfaces of the soil ridges, is favorable for subsequent sowing and seedling emergence, realizes one-step in-place soil crushing, ridge soil covering and film punching, and improves the operation efficiency. When the tectorial membrane does not need the tectorial membrane or punch, tectorial membrane punching mechanism can dismantle through bolt and nut with the frame.

Drawings

FIG. 1 is a schematic vertical view of an embodiment of the present utility model;

FIG. 2 is a front view of FIG. 1;

FIG. 3 is a top view of FIG. 2;

FIG. 4 is a schematic view in section A-A of FIG. 3;

FIG. 5 is a right side view of FIG. 2;

FIG. 6 is a schematic view of the removal of the ridge leveling wheel;

in the figure: the machine comprises a frame 1, a connecting part 2, a leveling shaft 3, a leveling wheel on the surface of a ridge 4, a first component 5, a second component 6, a fixed block 7, a fixed slot 8, an inserting block 9, an inserting slot 10, an inner hexagon bolt 11, a shell 12, a rotary blade 13, a rotary blade 14, a driving motor 15, a synchronous wheel 16, a synchronous belt 17, a soil crushing blade 18, a film covering roller 19, a punching roller 20, a supporting rod 21, a bolt 22 and a nut 23.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The rotary tillage ridger is defined by taking the side where the punching roller is positioned as the front, and taking the person facing the punching roller as the reference to define the left and the right.

Referring to FIGS. 1-6

The purple sweet potato rotary tillage ridger comprises a rotary tillage mechanism and a ridging mechanism, wherein the ridging mechanism is connected to the front end of the rotary tillage mechanism through a frame 1; the ridging mechanism comprises a leveling shaft 3 and a ridge surface leveling wheel 4, the ridge surface leveling wheel 4 is arranged on the leveling shaft 3, the leveling shaft 3 is arranged on the connecting part 2, and one end of the connecting part 2, which is far away from the leveling shaft 3, is rotationally connected with the frame 1; the ridge surface leveling wheel 4 comprises an inner hexagon bolt 11, a first component 5 and a second component 6, wherein fixing blocks 7 are respectively arranged on inner rings of the first component 5 and the second component 6, a plurality of fixing grooves 8 are correspondingly formed in the leveling shaft 3, plug-in blocks 9 are arranged on the first component 5, plug-in grooves 10 are correspondingly formed in the second component 6, and the inner hexagon bolt 11 penetrates through the second component 6 and the plug-in blocks 9. The working process of the utility model is as follows: the utility model discloses driven by the tractor, rotary tillage mechanism is being close to one side of tractor, and ridging mechanism is immediately afterwards, and rotary tillage mechanism turns over the earth of bottom to the top layer at first, has increased the ventilative degree of soil, and then the level and smooth axle 3 in the ridging mechanism will turn over the soil that comes out and float, and the ridging face level and smooth wheel 4 becomes corresponding shape with soil ridge simultaneously, and then forms the field ridge, has thickened the cultivation layer on top layer, is favorable to the root and the good growth of plant. When the inclination degree of ridging needs to be adjusted, the inner hexagon bolts 11 are screwed to be separated from the second assembly 6 and the plug-in blocks 9, the first assembly 5 and the second assembly 6 are separated, and the inclination degree of ridging can be adjusted by replacing the ridge surface leveling wheels 4 with different sizes. When the width of ridging needs to be adjusted, the fixed blocks 7 of the first assembly 5 and the second assembly 6 are adjusted to be clamped in the fixed grooves 8 at different positions on the leveling shaft 3, so that the positions of the first assembly 5 and the second assembly 6 on the leveling shaft 3 are adjusted, and the width of ridging is adjusted. And when different plants are encountered, the inclination degree and the width of the ridging can be quickly adjusted, the working efficiency is improved, and the application universality of the rotary tillage ridger is improved.

Further, two ridge surface leveling wheels 4 are oppositely arranged on the leveling shaft 3, and the ridge surface leveling wheels 4 are conical wheels. The soil ridge can form a corresponding shape, so that the plants can be sown on the soil ridge, and the good growth of the plants is promoted.

Further, the rotary tillage mechanism comprises a shell 12, a rotary tillage cutter shaft 13 and rotary tillage blades 14, wherein the rotary tillage cutter shaft 13 is arranged on the shell 12, a plurality of rotary tillage blades 14 are arranged on the rotary tillage cutter shaft 13, a driving motor 15 is arranged on the shell 12, and an output shaft of the driving motor 15 is connected with the rotary tillage cutter shaft 13 through a synchronous wheel 16 and a synchronous belt 17. The working process of the rotary tillage mechanism is as follows: the driving motor 15 drives the rotary blade shaft 13 to rotate through the synchronous belt 17 and the synchronous wheel 16, and then the rotary blade shaft 13 drives the rotary blade 14 to rotate, and then the rotary blade 14 rotates to turn soil at the bottom layer to the surface layer, and then pests in the soil at the bottom layer can be reduced, and further pesticide use is reduced, the environment is protected, the ventilation degree of the land is increased, the air content in the soil is increased, and then the growth of plants is promoted.

Further, the rear end of the rotary tillage mechanism is provided with a plurality of soil-crushing blades 18. The soil crushing knife 18 breaks the hard soil layer on the soil surface into a plurality of blocks, thereby facilitating the rotary tillage of the soil at the bottom by the rotary tillage blade 14.

Further, a film coating roller 19 is arranged at the rear end of the ridging mechanism, and the film coating roller 19 is arranged on the frame 1. And when the growth of plants needs to be covered, the film covering roller 19 rotates to further cover the soil ridges, so that the heat preservation performance is improved, and the loss of water in soil is avoided.

Further, a film covering and punching mechanism is arranged at the front end of the ridging mechanism, the film covering and punching mechanism comprises a punching roller 20 and a supporting rod 21, the punching roller 20 is arranged on the supporting rod 21, and the supporting rod 21 is detachably connected with the frame 1 through a bolt 22 and a nut 23. And then tectorial membrane mechanism of punching can punch the membrane on soil ridge surface, is favorable to follow-up seeding and emergence, and then has realized that hack, ridge soil, tectorial membrane and one step of punching are in place, has improved the operating efficiency. When the film does not need to be coated or perforated, the film coating and perforation mechanism can be detached from the frame 1 by the bolts 22 and nuts 23.

Claims (6)

1. The purple sweet potato rotary tillage ridger comprises a rotary tillage mechanism and a ridging mechanism, and is characterized in that the ridging mechanism is connected to the front end of the rotary tillage mechanism through a frame (1); the ridging mechanism comprises a leveling shaft (3) and a ridging surface leveling wheel (4), the ridging surface leveling wheel (4) is arranged on the leveling shaft (3), the leveling shaft (3) is arranged on a connecting part (2), and one end of the connecting part (2) far away from the leveling shaft (3) is rotationally connected with the frame (1); the ridge surface leveling wheel (4) comprises an inner hexagon bolt (11), a first component (5) and a second component (6), wherein fixing blocks (7) are respectively arranged on inner rings of the first component (5) and the second component (6), a plurality of fixing grooves (8) are correspondingly formed in the leveling shaft (3), an inserting block (9) is arranged on the first component (5), an inserting groove (10) is correspondingly formed in the second component (6), and the inner hexagon bolt (11) penetrates through the second component (6) and the inserting block (9).

2. The purple sweet potato rotary tillage ridger according to claim 1, wherein two ridge surface flattening wheels (4) are oppositely arranged on the flattening shaft (3), and the ridge surface flattening wheels (4) are conical wheels.

3. The purple sweet potato rotary tillage ridger according to claim 1, wherein the rotary tillage mechanism comprises a shell (12), a rotary tillage cutter shaft (13) and rotary tillage blades (14), the rotary tillage cutter shaft (13) is arranged on the shell (12), a plurality of rotary tillage blades (14) are arranged on the rotary tillage cutter shaft (13), a driving motor (15) is arranged on the shell (12), and an output shaft of the driving motor (15) is connected with the rotary tillage cutter shaft (13) through a synchronous wheel (16) and a synchronous belt (17).

4. A purple sweet potato rotary tillage ridger according to claim 3, wherein the rear end of the rotary tillage mechanism is provided with a plurality of soil-crushing blades (18).

5. The purple sweet potato rotary tillage ridger according to claim 1, wherein a film covering roller (19) is arranged at the rear end of the ridging mechanism, and the film covering roller (19) is arranged on the frame (1).

6. The purple sweet potato rotary tillage ridger according to claim 1, wherein a film covering punching mechanism is arranged at the front end of the ridging mechanism, the film covering punching mechanism comprises a punching roller (20) and a supporting rod (21), the punching roller (20) is arranged on the supporting rod (21), and the supporting rod (21) is detachably connected with the frame (1) through a bolt (22) and a nut (23).

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