KR20140003094A - King rotary cultivator - Google Patents

Abstract

The present invention relates to a king rotary tilling device capable of remarkably improving the farming and pause efficiency by applying double rotary parts. The rotary tilling device according to the present invention comprises a frame having a connector installed in front and a rotary drive unit installed on top; a first rotary part installed in the front lower part of the frame; and a second rotary part arranged to be separated in rear of the first rotary part. The first rotary part has a first farming rotary shaft rotating in connection with a first power train on the drive unit, and multiple first farming blades installed on the outer periphery of the first farming rotary shaft, and the second rotary part has a second farming rotary shaft rotating in connection with a second power train on the drive unit, and multiple spiral coils installed on the outer periphery of the second farming rotary shaft.

Description

KING ROTARY CULTIVATOR

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a king rotary tilling apparatus, and more particularly, to a king rotary tilling apparatus capable of significantly improving tilling and stopping efficiency by applying a double rotary section.

In general, a rotary cultivator is a kind of farm machinery that performs a tilling operation by being mounted at the rear of a tractor. This rotary tillage equipment is mounted on the rear of the tractor, and the driving force of the tractor is transmitted by connecting the power take off shaft of the tractor and the input drive shaft of the rotary by a universal joint, thereby rotating the tiller rotating shaft provided with a plurality of tillage blades, Or stop operation.

The rotary tillage apparatus includes a frame, a tillage rotary shaft having a plurality of tiller blades is rotatably installed at a lower portion of the frame, and an input drive shaft and a rotary drive shaft are interlocked with each other through a gear box.

On the other hand, the conventional rotary tilling apparatus has a disadvantage in that the efficiency of tilling or stopping work is not substantially high due to the structure in which a plurality of tilling blades are installed on one tilling rotation axis.

In addition, the conventional rotary tillage apparatus has a disadvantage in that the depth of the tillage is not so deep, and the agitation of the upper and lower layers of the soil can not be smoothly performed during hardening or stopping of the hard soil.

In addition, when harvesting root crops (sweet potatoes, radishes, etc.), medicinal crops (ginseng, roots, etc.) using a conventional rotary tillage apparatus, roots of root crops and medicinal crops are easily damaged by a plowing blade It has a disadvantage that it is low in merchantability. In order to utilize it for seeds, it must be done manually, so that the roots of the root crops and medicinal crops are not easily damaged and the depth of the tillage is not deep enough to prevent damage to the roots. There is a disadvantage that the roots are easily damaged or the deeply seized roots are not caught.

In the case of grasses in which the grassy soil and crop roots are intertwined, if the grass is removed beforehand or the roots of the crops are not completely removed, the roots of the grasses and the crops are tangled with each other, It is more difficult to carry out the work, which leads to an increase in labor costs due to shortening of the work time and difficulty in properly adjusting the seeding time.

SUMMARY OF THE INVENTION The present invention has been made in view of the above points, and it is an object of the present invention to provide a double rotary structure which smoothes agitation of an upper layer and a lower layer of soil by using a centrifugal rotor, Which can significantly improve the efficiency of the rotary tillage machine.

 It is possible to carry out the tillage work without removing it to the soil where the grassy soil and the crop roots are tied up. By omitting the procedures for the input and removal of manpower in the rural area, There is purpose.

According to an aspect of the present invention, there is provided a rotary tillage machine,

A frame having a connecting portion provided on the front side and a rotary driving portion provided on the upper side;

A first rotary part installed at a front lower side of the frame; And

And a second rotary part spaced apart from a rear side of the first rotary part,

Wherein the first rotary section has a first tiller rotating shaft rotatably coupled to the driving section through a first transmission mechanism and a plurality of first tiller blades disposed on an outer circumferential surface of the first till rotating shaft,

And the second rotary section has a second tiller rotating shaft which rotates in conjunction with the second driving mechanism through the second driving mechanism and a plurality of spiral coils provided on an outer circumferential surface of the second tiller rotating shaft.

The first tilling blade is formed to be bent at a predetermined curvature, one end of the first tillage blade is fixed to the outer circumferential surface of the first tiller rotating shaft via a bracket, and a moistening blade is fixed to the other end of the first tillage blade .

A plurality of spiral coils each having a large diameter and a plurality of large diameter spiral coils each having a large diameter and a plurality of small diameter spiral coils each having a small diameter, the other end of each spiral coil extending in a spiral direction, And a small-diameter spiral coil.

Side plates are respectively provided on both left and right sides of the frame, skid plates are provided on the lower sides of the side plates, and each skid plate has a streamlined structure.

Each of the skid plates is connected to each of the side plates through a height adjusting member, and each of the height adjusting members is adjustable in height direction with respect to the respective side plates.

In addition, the rotary drive unit includes a rotary drive shaft rotatably installed on the upper side of the frame,

A first rotary rotary shaft of the first rotary unit is connected to one end of the rotary drive shaft via a first transmission mechanism and a second rotary rotary shaft of the second rotary unit is connected to the other end of the rotary drive shaft via a second transmission mechanism .

And a support stand is installed on each of the left and right side plates of the frame so as to be vertically adjustable in height.

A plurality of stop plates are provided between the first tiller rotary shaft of the first rotary part and the second till rotary shaft of the second rotary part, and the respective stop plates are disposed at predetermined intervals in the vertical direction and the width direction through the plurality of support members .

And a safety cover for preventing the soil, the stones and the grass from scattering when the spiral coil rotates.

Each of the first and second transmission mechanisms 210 and 220 is characterized in that it selects any one of various transmission structures such as a chain, a belt, a rope, and a gear.

The first rotary part 110 and the second rotary part 120 may be simultaneously driven by the rotary drive shaft 21 and the first rotary part 110 and the second rotary part 120 may be driven individually Respectively.

The moisture-proofing blade 113 is characterized in that a wear-resistant material is used which is formed by a shovel having a sharp end, and a sharpened end is processed by heat treatment.

According to the present invention, the secondary tilling and stopping work of the second rotary unit is performed after the first tilling and stop operation of the first rotary unit, so that the soil can be crushed and stopped more evenly, It is economically advantageous to carry out the tilling and stopping work of the soil more economically, so that it is suitable for greenhouse, field farming, and gravel-free farmland.

According to the present invention, it is possible to perform the tillage operation without removing it from the soil where the grassy soil and the root of the crop are intertwined, thereby omitting the procedure for inputting and removing the manpower in the rural area, It is advantageous to reduce the labor cost and shorten the working time, so that it is possible to adjust the timing of sowing of the crop at the right time, thereby securing the economical efficiency.

1 is a perspective view showing a king rotary tiller apparatus according to an embodiment of the present invention.
2 is a front view showing a king rotary tiller apparatus according to an embodiment of the present invention.
3 is a plan view showing a king rotary tiller apparatus according to an embodiment of the present invention.
4 is a side view showing a king rotary tiller apparatus according to an embodiment of the present invention.
5 is a side view showing a first rotary part of a king rotary tiller apparatus according to the present invention.
6 is a side view showing a second rotary unit of a king rotary tillage apparatus according to the present invention.

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

1 to 6 are views showing a king rotary tiller apparatus according to an embodiment of the present invention.

As shown in the figure, a connecting portion 30 connected to a tractor or the like is provided on the front side of the frame 10, and the rotary tillage machine according to the invention comprises a frame 10, a first rotary portion (110), and a second rotary part (120) provided on the rear side of the frame (10).

1, a rotary drive unit 20 for driving the first and second rotary units 110 and 120 is installed on the upper side of the frame 10 to transmit power by a PTO connected to a tractor or tiller And a connecting portion 30 connected to a tractor, a cultivator or the like is provided on the front side of the frame 10. [

Side plates 11 and 12 are respectively provided on both left and right sides of the frame 10 and skid plates 13 and 14 are provided below the side plates 11 and 12, respectively. Each of the skid plates 13 and 14 is constructed in a streamlined structure in consideration of the height of the soil, so that the movement of the rotary tillage apparatus of the present invention may be performed more smoothly when the rotary tillage apparatus of the present invention is moved over the soil.

Each of the skid plates 13 and 14 is connected to the side plates 11 and 12 via the height adjustment members 15 and 16 and the height adjustment members 15 and 16 are connected to the side plates 11 and 12, And 12 in the height direction. The height of the skid plates 13 and 14 can be appropriately adjusted in the vertical direction with respect to the side plates 11 and 12 by adjusting the positions of the height adjustment members 15 and 16.

The rotary drive unit 20 includes a rotary drive shaft 21 rotatably installed on the upper side of the frame 10. The rotary drive shaft 21 is installed across the gear box 22, An input drive shaft 23 is provided. The input drive shaft 23 is installed in a direction orthogonal to the rotary drive shaft 21 and the rotary drive shaft 21 is engaged with and connected to the input drive shaft 23 in the gear box 22.

By driving the rotary drive shaft 21, the first and second rotary units 110 and 120 are driven.

2 and 3, a first transmission mechanism 210 is connected to one end of the rotary drive shaft 21 and a second rotary mechanism 210 of the first rotary part 110 is connected to the first transmission mechanism 210, (111) are connected. The first rotary rotary shaft 111 of the first rotary unit 110 is connected to one end of the rotary drive shaft 21 through the first transmission mechanism 210 so that the rotation of the first rotary unit The first rotary rotary shaft 111 of the first rotary shaft 110 rotates.

2 and 3, a second transmission mechanism 220 is connected to the other end of the rotary drive shaft 21, and a second rotary shaft 220 of the second rotary part 120 is connected to the second transmission mechanism 220 side. (Not shown). The second rotary shaft 121 of the second rotary part 120 is connected to the other end of the rotary drive shaft 21 through the second transmission mechanism 220 so that the second rotary part 121 The second rotary rotary shaft 121 of the second rotary shaft 120 rotates.

Meanwhile, each of the first and second transmission mechanisms 210 and 220 exemplifies selection of any one of various transmission structures such as a chain, a belt, a rope, and a gear.

The first rotary part 110 and the second rotary part 120 may be simultaneously driven by the rotary drive shaft 21 and the first rotary part 110 and the second rotary part 120 may be driven And can be configured to individually drive them individually.

The connecting portion 30 has a cross member 31 disposed transversely to the lower side of the frame 10 in the width direction and an upper connecting bracket 32 extends upward in the center of the cross member 31 And a lower connection bracket 33 is provided on the front side of the cross member 31. [

Each of the side plates 11 and 12 on the left and right sides of the frame 10 is provided with a support table 18 and the support table 18 is installed so that the vertical height of the side plates 11 and 12 can be adjusted. The height of the frame 10 can be appropriately adjusted by adjusting the height of the support stand 18 so that the frame 10 can be easily dismounted from the tractor or tiller and can be mounted at a predetermined place.

An auxiliary support 19 may be provided on the side of the cross member 31 of the connection portion 30 to adjust the height of the connection member 30 so as to be able to perform a moistening blade or a first maintenance and repair.

1 to 4, the first rotary unit 110 is installed at a front lower side of the frame 10, and the first rotary unit 110 is configured to operate in conjunction with the driving of the driving unit 20 do.

5, the first rotary part 110 includes a first tiller rotation shaft 111 and a first tiller rotation shaft 111 that are rotated by interlocking with a first transmission mechanism 210 at one end of the rotary drive shaft 21, 111) having a plurality of first tilling blades (112).

The first tilling blade 112 is formed to be bent at a predetermined curvature and one end of the first tilling blade 112 is fixed to the outer circumferential surface of the first tilling rotation axis 111 via a bracket 114, And a humidifying blade 113 is fixed to the other end of the humidifying blade 112. The shape of the moistening blade 113 is a blades made of a wear resistant material which is formed by a shovel having a sharp end, and a sharpened end is processed by heat treatment. In addition, if necessary, the shape of the blade can be used in various ways such as ┗┛ shape at the end of the end.

Thus, when the rotary motion is driven by the rotary drive shaft 21 of the rotary drive unit 20, the first till yaw rotary shaft 111 rotates, and the plurality of first till yaw blades 112 crush the clay, The primary tilling and stopping operation is performed and the soil and the grass separated by the moistening blade 113 are prevented from adhering to the surface.

Particularly, since the moistening blade 113 of the first tilling blade 112 can be dug deeper into the soil and the upper end of the moistening blade is formed wider (that is, the depth of the tillage can be deeper and the root crop is extracted from the soil It can be used for seeds since it does not damage the surface of root crops.) It is possible to minimize root damage when harvesting root crops, medicinal crops (ginseng, roots, etc.) And it can be sold more deeply in the case of hard soil, so that the agitation of the upper and lower layers of the soil can be more smoothly carried out, and the acidified soil which weakens the soil or deteriorates the habitat of microorganisms in the soil to help the nutrients absorption of the plant .

1 to 4, the second rotary portion 120 is disposed on the rear side of the frame 10, particularly on the rear side of the first rotary portion 110, and the second rotary portion 120 is disposed on the rear side of the frame 10, Is configured to operate in conjunction with the driving of the driving unit 20. [

6, the second rotary section 120 includes a second tiller rotation shaft 121 and a second tiller rotation shaft 121 that are rotated by being coupled to the other end of the rotary drive shaft 21 through the second transmission mechanism 220 121 and a plurality of spiral coils 122, 123 provided on the outer circumferential surface.

The ends 122a and 123a of the spiral coils 122 and 123 are bent and fixed to the outer circumferential surface of the second tiller rotating shaft 121 through welding or the like and the remaining portions of the spiral coils 122 and 123 are wound in a spiral direction .

The plurality of spiral coils 122 and 123 includes a plurality of large-diameter spiral coils 122 having a large diameter and a plurality of small-diameter spiral coils 123 having a small diameter.

According to the configuration of the second rotary section 120, when the rotary motion is driven by the rotary drive shaft 21 of the rotary drive section 20, the second till yaw rotary shaft 121 rotates, The second tillage blade 112 performs a second tillage and a stop operation as a plurality of spiral coils 122 and 123 crush the soil masses, stones, grass and the like of the soil to which the first tillage blade 112 has not been crushed. A safety cover 125 is installed to prevent scattering of soil, boulders and grass when the spiral coil rotates to prevent a disaster.

4, a plurality of stop plates 130 are provided between the first tiller rotation axis 111 of the first rotary section 110 and the second tillage rotation axis 121 of the second rotary section 120, And the respective stop plates 130 are spaced apart from each other by a predetermined distance in the up-and-down direction and the width direction through the plurality of support members 135. The plurality of support members 135 are arranged in the frame 10 so as to be spaced apart from each other by a predetermined distance in the width direction. In particular, the support members 135 are inclined at an angle. A plurality of stop plates 130 are vertically spaced from the respective support members 135 and each stop plate 130 is provided with a recessed portion at the end of the "a" or "a " .

The plurality of stop plates 130 prevents the roots or the like when the first tillable blade 112 rotates and roots or medicinal crops planted in the soil from rolling or tangling on the first tillable blade 112, And also performs a role of cutting firstly before the roots are wound around the first tillage blades 112.

As described above, according to the present invention, the second rotary section 120 of the first rotary section 110 is subjected to secondary tilling or stopping after the primary tilling or stopping operation, so that the soil can be more securely and evenly pulverized, This makes it possible to economically perform the tilling or stopping work of the soil more efficiently without using the suture rotator.

10: frame 20:
30: connection part 110: first rotary part
120: second rotary section 210: first transmission mechanism
220: second power transmission mechanism

Claims (12)

A frame having a connecting portion provided on the front side and a rotary driving portion provided on the upper side;
A first rotary part installed at a front lower side of the frame; And
And a second rotary part spaced apart from a rear side of the first rotary part,
Wherein the first rotary section has a first tiller rotating shaft rotatably coupled to the driving section through a first transmission mechanism and a plurality of first tiller blades disposed on an outer circumferential surface of the first till rotating shaft,
Wherein the second rotary section has a second tiller rotating shaft rotatably coupled to the driving section side through a second transmission mechanism and a plurality of spiral coils provided on an outer circumferential surface of the second tiller rotating shaft. The method according to claim 1,
The first tillage blade is bent at a predetermined curvature, one end of the first tillage blade is fixed to an outer circumferential surface of the first tiller rotation shaft via a bracket, and a moistening blade is fixed to the other end of the first tillage blade Wherein the tiller is a tiller. The method according to claim 1,
A plurality of spiral coils each having a large diameter and a plurality of large diameter spiral coils each having a large diameter and a plurality of small diameter spiral coils each having a small diameter, the other end of each spiral coil extending in a spiral direction, Wherein the spindle is made of a small-diameter spiral coil. The method according to claim 1,
Wherein each of the left and right sides of the frame is provided with a side plate, and a skid plate is provided below each side plate, and each skid plate is formed in a streamlined structure. The method of claim 4,
Wherein each of the skid plates is connected to each of the side plates through a height adjustment member, and each of the height adjustment members is installed to be adjustable in height direction with respect to the respective side plates. The method according to claim 1,
Wherein the rotary drive part includes a rotary drive shaft rotatably installed on the upper side of the frame,
A first rotary rotary shaft of the first rotary unit is connected to one end of the rotary drive shaft via a first transmission mechanism and a second rotary rotary shaft of the second rotary unit is connected to the other end of the rotary drive shaft via a second transmission mechanism Wherein the tiller is a tiller. The method of claim 4,
Wherein a support base is installed on each of the left and right side plates of the frame so as to be vertically adjustable in height. The method according to claim 1,
A plurality of stop plates are provided between the first tiller rotary shaft of the first rotary part and the second till rotary shaft of the second rotary part. The stop plates are spaced apart from each other by a plurality of support members Wherein the tiller is a tiller. The method according to claim 1 or 3,
And a safety cover is installed to prevent scattering of soil, boulders and grass when the spiral coil rotates. The method according to claim 1 or 6,
Wherein each of the first and second transmission mechanisms (210, 220) selects one of various transmission structures such as a chain, a belt, a rope, and a gear. The method of claim 6,
The first rotary part 110 and the second rotary part 120 may be simultaneously driven by the rotary drive shaft 21 and the first rotary part 110 and the second rotary part 120 may be driven individually Respectively. ≪ RTI ID = 0.0 > [10] < / RTI > The method according to claim 1,
Characterized in that the shape of the moistening blade (113) is formed by a shovel having a sharp end, and a sharp end portion is made of a wear-resistant material processed by heat treatment.

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