KR101932215B1 - high position cultivation rotary apparatus - Google Patents

Abstract

The disclosure relates to a rotary apparatus for solid-phase cultivation. A drive shaft formed at a lower portion of the housing, a drive shaft mounted on a rear portion of the housing and connected to the power transmission shaft to transmit a rotational force to the drive shaft, the drive shaft being connected to the drive shaft, A steering handle formed at the rear of the housing, and a rotary rotary blade connected to the reduction gear and rotated.
According to this, it is possible to smoothly carry out the work of digging the soil and stacking it on both sides in order to form the troughs and the troughs for the cultivation of the small agricultural land, so that the work efficiency can be improved and the worker can work on the soil without difficulty, There is an effect that the difficulty due to aging can be solved.

Description

[0001] The present invention relates to a high position cultivation rotary apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a rotary apparatus for solid-phase cultivation, and more particularly, to a rotary apparatus for solid-phase cultivation in which soil of a high-yielding bed forms a semicircular trough.

Unless otherwise indicated herein, the contents set forth in this section are not prior art to the claims of this application and are not to be construed as prior art to be included in this section.

Paddy fields and field cultivation of crops at a certain interval according to the type of crops to divide the furrows to form the gutters work is done.

By cultivating the soil, the crops can be easily grown and the drainage can be smoothly performed.

In addition, after the formation of the roots, the roots are transferred to the distribution during the cultivation of the roots or vinyl cloths, and the roots of the roots are collected under the abandonment of the crops To deepen the roots of given crops and at the same time to fix the rootstock to increase the resistance to rain.

Conventionally, the above-mentioned clay work is carried out by a person using a hommina or a hoe depending on manpower, thereby causing not only a decrease in productivity but also a factor for raising the cost of the crop. In order to solve this problem, the clay work is mechanically carried out using the clay machine to increase the productivity.

Korean Patent No. 10-1017064 discloses an example of a technique for mechanically performing clay work.

The prior art is related to a farming and molding machine provided with a main frame for connecting and mounting to a tractor side, and is equipped with a plurality of rotary rotary blades driven by the power of a tractor, .

On the other hand, a variety of farm machinery is being carried out to cultivate small farmland. However, most of the farmers who conduct hydroponics in small farmland depend on manual labor or pure labor.

It is usually done by using hummi, but in the present farming, the elderly farming is being done in the present, so the artisanal disease is exacerbated by hand work and the health condition is worsened.

Conventionally, there has been provided a small apparatus that can be used in a small-sized agricultural land so that the rotary work can be quickly and simply performed with a small number of manpower. However, it has a disadvantage in that it can not be used in various cultivation environments due to weak crushing and crushing performance.

It is an object of the present invention to provide a rotary device for solid-phase cultivation which can smoothly perform crushing work and make it easy to form semi-arc-shaped valleys of a soil of a high-yielding bed after crushing.

It is an object of the disclosed embodiments to provide a power transmission apparatus including a housing having a power transmission shaft formed therein and a reducer connected to the power transmission shaft at one side and forming a rotating force; A driving wheel formed at a lower portion of the housing; An engine mounted on a rear side of the housing and connected to the power transmission shaft to exert a rotational force; A steering handle formed at the rear of the housing; And a rotary rotary blade connected to and rotated by a speed reducer.

The rotary rotary blade is composed of a circular plate having a fastening hole formed at its center and a plurality of cutters formed at equal intervals on the outer circumference of the circular plate, and each of the plurality of cutters is formed to have an inclination angle of 30 to 50 degrees.

And a dispersion blade coupled to the outer surface of the housing and disposed behind the rotary rotary blade and distributing the excavated soil laterally.

The dispersion blade includes a bracket that is closely attached to both side surfaces of the housing and is mounted as a fastener, both side inclined surfaces connected to the lower portion of the bracket and formed to be inclined to both sides, and a tip where the ends of the both side inclined surfaces are converged to be sharpened.

According to the disclosed embodiment, it is possible to improve the agricultural efficiency of a small-scale agricultural worker by allowing it to be used in a small-scale farmland and a greenhouse operated by an individual, and to perform the crushing and crushing at the same time, It has the effect of solving the difficulties caused by rural aging.

1 is a front perspective view showing a rotary apparatus for a solid-phase cultivation according to an embodiment,
2 is a rear perspective view showing a rotary apparatus for a solid-phase cultivation according to an embodiment,
FIG. 3 is a perspective view of an enlarged front part of the rotary apparatus for solid-phase cultivation according to the embodiment,
4 is a rear perspective view of the 'dispersing blade' in the rotary apparatus for cultivating solid medium according to the embodiment,
5 is a front perspective view of the 'dispersing blade' in the rotary apparatus for cultivating solid medium according to the embodiment,
FIG. 6 is a perspective view illustrating an example of a 'length adjusting unit' in the rotary apparatus for cultivating a solid state according to the embodiment; FIG.
FIG. 7 is a perspective view showing another example of a 'length adjuster' in the rotary apparatus for cultivating solid material according to the embodiment,
8 is a view showing a 'speed reducer' in a rotary apparatus for solid-phase cultivation according to an embodiment,
Fig. 9 is a front view showing an example of use of the rotary apparatus for solid-phase cultivation according to the embodiment; Fig.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. It does not mean anything.

In addition, the sizes and shapes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation, and the terms defined specifically in consideration of the configuration and operation of the present invention may vary depending on the intention or custom of the user, operator It should be noted that the definitions of these terms should be made on the basis of the contents throughout this specification.

2 is a rear perspective view showing a rotary apparatus for solid-phase cultivation according to an embodiment, and Fig. 3 is a front elevational view of a rotary apparatus for solid-phase cultivation according to an embodiment. Fig. FIG. 4 is a rear perspective view of a 'dispersing blade' in the rotary apparatus for solid-phase cultivation according to the embodiment, FIG. 5 is a front perspective view of the 'dispersing blade' in the rotary apparatus for solid- FIG. 7 is a perspective view showing another example of a 'length adjusting unit' in the rotary apparatus for solid-phase cultivation according to the embodiment, FIG. 8 is a perspective view showing the example of the 'length adjusting unit' in the rotary apparatus for solid- FIG. 9 is a front view showing an example of using a rotary apparatus for solid-phase cultivation according to an embodiment. FIG. 9 is a view showing a 'speed reducer' in a rotary apparatus for solid-phase cultivation according to an embodiment of the present invention.

The rotary apparatus for solid-phase cultivation according to the embodiment includes a housing 2 having a power transmission shaft 26 formed therein and a reducer 25 connected to the power transmission shaft 26 and forming a rotational force, A driving wheel 3 formed at a lower portion of the housing 2; An engine (4) mounted at the rear of the housing (2) and connected to the power transmission shaft (26) to exert a rotational force; A steering handle 5 formed at the rear of the housing 2; And a rotary rotary blade (6) connected to the reduction gear (25) and rotated.

The housing 2 is formed in a rectangular box shape and is inclined toward the speed reducer 25 and is formed so that its sectional area decreases toward the speed reducer 25 and the power transmission shaft 26 penetrates therethrough in the longitudinal direction One end of the power transmission shaft 26 is connected to the engine 4, and the other end of the power transmission shaft 26 is connected to the speed reducer 25.

The power transmitting shaft 26 is coupled to a bearing formed at both ends of the housing 2 so as to stably maintain the rotating operation.

A casing 22 accommodating the power transmission shaft 26 and detachably coupled to the front end of the housing 2 is formed at one side of the housing 2. [

At one side of the casing (22), a box cover (24) accommodating the speed reducer (25) is formed.

The speed reducer 25 decelerates the rotational speed of the power transmitting shaft 26 rotated by the engine 4 at a speed suitable for crushing and crushing. Referring to FIG. 8, the worm 252 and a worm gear 254 coupled to the worm 252. Of course, this is only an example and need not be limited to this.

The rotary rotary blade 6 is engaged with the gear shaft 259 formed in the worm gear 254. [ The rotary rotary blades 6 are symmetrically disposed on both sides of the gear shaft 259.

3, the rotary rotary blade 6 includes a circular plate 62 having a coupling hole formed at its center so as to be engaged with a gear shaft 259 formed on the worm gear 254, And each of the plurality of cutters 64 is formed to have an inclination angle of 30 DEG to 50 DEG.

The plurality of cutters 64 are formed so as to have a twist angle of 30 DEG to 40 DEG. When the twist angle is less than 30 °, the soil can not be adequately dispersed laterally. If the twist angle is 40 ° or more, there is a fear that the ground can not be extracted at an appropriate depth.

On the other hand, a dispersion blade 7 coupled to the outer surface of the housing 2 is formed. Referring to Fig. 4, the dispersing blade 7 is disposed behind the rotary blades 6, and disperses soil and excavated soil laterally.

The dispersing blade 7 includes a bracket 72 which is in close contact with both sides of the housing 2 and is mounted as a fastener, both side inclined surfaces 74 connected to the lower portion of the bracket 72 and inclined at both sides, And an attachment (76) in which the tip ends of the projections are converged and formed sharply.

The both inclined surfaces 74 are formed so as to be connected to each other at an upper portion and the attachment 76 is projected upwardly to form a substantially arc-shaped connecting portion. The both inclined surfaces 74 are curved toward the side gradually from the attachment 76 So that the soil can be dispersed to the left and right by being hit.

The attachment 76 is positioned above the outer periphery of the rotary rotary blade 6 and serves to spread the soil to the left and right while digging the soil. In addition, the soil that the rotary rotary blade 6 digs against the both side inclined surfaces 74 So that the troughs and the troughs can be formed at the same time.

A shaft engaging portion 32 to which the shaft of the wheel 3 is coupled and a handle engaging portion 34 to which the steering handle 5 is coupled is formed at one side of the shaft engaging portion 32. [ .

The steering handle 5 includes a center bar 52 inserted into the handle engaging portion 34 and a handle bar 54 connected to the end of the center bar 52 and formed in an arcuate shape.

A length adjuster for adjusting the combined length of the center bar 52 and the handle engaging portion 34 is formed.

Referring to FIG. 6, the length adjuster includes a shaft pin 522 that connects the center bar 52 and the handle engaging portion 34 to each other.

7, the stopper S includes a stopper S protruding from the outer surface of the center bar 52 and a plurality of stoppers S formed in the handle engaging portion 34, (52b).

The stopper S is composed of a steel ball E projecting to the outer surface of the center bar 52 and a spring 58 supporting the steel ball E. [

Therefore, when the steel ball E is inserted into the adjustment hole 52b, it is fixed, and the length of the center bar 52 can be adjusted by pulling or pushing the center bar 52. As a result, Can be maintained.

The handlebar 54 is provided with an acceleration regulator 9 for regulating the output of the engine 4 to regulate the rotational speed of the power transmitting shaft 26.

The acceleration regulator 9 is composed of a lever 92 mounted on the handlebar 54 and a cable 94 connected to the lever 92 for adjusting the opening ratio of the throttle valve of the engine 4 .

When the lever 92 is pulled, the throttle valve is operated to increase the output, and when the lever 92 is pushed, the output is reduced.

Hereinafter, the operation of the present invention will be described.

When the handlebar 54 is held with both hands and the engine 4 is turned on, the power transmission shaft 26 is rotated, the speed reducer is driven, and the rotary rotary blade 6 connected to the speed reducer 25 is rotated .

Then, when the operator pushes the steering wheel 5, the wheel 3 is driven to advance along the ground. During the advancement, the rotary rotary blade 6 digs the ground, and a plurality of cutters 64 spread the soil and spray them on both sides.

The plurality of cutters 64 are formed to have a tilting angle and have a twist angle so that the soil can be scattered, so that the tiles can be formed on both sides.

In addition, when the dispersing blade 7 is mounted on the housing 2, the grinding wheel 160 can be deeperly sold while the attachment 76 is digging while moving forward, and the soil discharged rearward from the rotary rotary blade 6 It is possible to further improve the formation of the gutters 180 by colliding with the inclined surfaces 74 on both sides and then being refracted and dispersed to the left and right.

It will be apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the invention, and all such changes and modifications are intended to be within the scope of the appended claims. It is self-evident.

2: housing 3: drive wheel
4: engine 5: steering wheel
6: Rotary rotary knife 9: Accelerometer
22: casing 24: box cover
25: Reduction gear 26: Power transmission shaft
34: handle coupling portion 52: center bar
54: handle bar 64: cutter
74: slope 76: attached

Claims (10)

A housing having a power transmission shaft formed therein and a reducer connected to the power transmission shaft at one side and forming a rotating force;
A driving wheel formed at a lower portion of the housing;
An engine mounted on a rear side of the housing and connected to the power transmission shaft to exert a rotational force;
A steering handle formed at the rear of the housing;
A rotary rotary blade connected to the speed reducer and rotated; And
And a dispersing blade coupled to an outer surface of the housing and disposed at the rear of the rotary rotary blade for dispersing excavated soil laterally,
A shaft coupling portion to which a shaft of the wheel is coupled,
A handle coupling portion to which a steering handle is coupled is formed at one side of the shaft coupling portion,
Wherein the steering handle comprises a center bar inserted into the handle engagement portion and a handle bar connected to an end of the center bar and formed in an arc shape,
And a length adjuster for adjusting a combined length of the center bar and the handle engaging portion,
The length adjuster
A stopper protruding from the outer surface of the center bar; and a control hole formed in the handle coupling portion and into which the stopper is inserted,
Wherein the stopper comprises a steel ball projecting to the outer surface of the center bar and a spring for supporting the steel ball,
A casing accommodating a power transmitting shaft and detachably coupled to a front end of the housing is formed at one side of the housing,
A box cover is formed at one side of the casing to receive a speed reducer,
The speed reducer
A worm formed on the power transmitting shaft and a worm gear engaged with the worm,
A rotary rotary blade is coupled to the worm gear,
The rotary rotary blade
Wherein each of the plurality of cutters is formed to have an angle of inclination of 30 ° to 50 °, and each of the plurality of cutters has an inclination angle of 30 ° to 50 °,
Wherein the plurality of cutters are formed so as to have a twist angle of 30 to 40 degrees,
A casing accommodating a power transmitting shaft and detachably coupled to a front end of the housing is formed at one side of the housing,
Wherein a box cover is formed at one side of the casing to receive the speed reducer,
The dispersion blade
A bracket that is closely attached to both side surfaces of the housing and is mounted as a fastener,
A pair of inclined surfaces connected to a lower portion of the bracket and inclined at both sides,
An attachment having a tip end of the both side inclined surfaces being converged so as to be sharply formed;
Wherein the rotary device is a rotary device for solid-phase cultivation. delete delete delete delete delete delete delete The method according to claim 1,
Wherein the handle bar is provided with an acceleration regulator for regulating an output of the engine to adjust a rotation speed of the power transmission shaft. delete

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