KR200492282Y1 - Rotabator - Google Patents

Abstract

The present invention relates to a rotor vator, which is an agricultural machine used to cultivate the land, the base frame; A cultivation shaft installed on the base frame to be supported and rotatably installed in a horizontal arrangement; A cultivation blade holder fixedly coupled to the cultivation shaft and arranged at intervals along a length direction and an outer circumference; A cultivation blade fixedly coupled to each of the cultivation blade holders and for cultivation work; A power supply unit provided to transmit rotational power to the cultivation shaft and having a gear coupling structure to increase the number of rotations, wherein the power supply unit includes: power generation means; A bevel gear connected to the power generating means; A gear coupling shaft having one end connected to the bevel gear and the other end supported and coupled to the base frame; A first sprocket and a second sprocket fixedly coupled to the gear coupling shaft and the cultivation shaft, respectively; And a driving chain connected to the first sprocket and the second sprocket.
According to the present invention, it enables stable work by preventing the rice straw from being wound on the cultivation shaft and the cultivation blade when performing cultivation work, and is particularly suitable for work in watery rice paddies in Southeast Asia where it rains a lot. And provide cultivated soil suitable for agricultural work in Southeast Asia.

Description

Rotabator {ROTABATOR}

The present design relates to a rotorbator, which is an agricultural machine used to cultivate the land for sowing or transplanting crops.More specifically, the structure is improved so that the rice straw does not wind on the cultivation shaft and the cultivation day when cultivation is performed. And, it is more useful in rainy areas to make it suitable for water paddy work, and in particular, it relates to a rotor vator that enables cultivation work optimized for agricultural work in Southeast Asia.

In general, a rotorbator is an agricultural machine used to cultivate the soil for sowing or transplanting crops.

These rotors are currently developed in various ways and supplied and used in the market. However, in the cultivation of water-filled rice paddies in Southeast Asia, which has a lot of rain and a lot of humidity, all of the existing used due to their own special agricultural and working environment. It is in a situation that it is impossible to work with the type of rotor vator.

Currently, in regions other than Southeast Asia, the bottom of rice is cut to utilize rice straw in addition to grain when harvesting rice. Therefore, there is no rice straw when working with the rotor in such a paddy field, so there is no case that the rice straw is wound around the cultivation shaft when working with the rotor.

However, in Southeast Asia including Vietnam, ear is harvested when rice is harvested, so the rice straw is left unattended in the paddy field, and cultivation is performed in such a state that the straw is left unattended.

For this reason, in the case of cultivation in Southeast Asia with a rotor that is produced in Korea or Japan, the rice straw left in the paddy field is wound around the cultivation shaft as well as the cultivation blade during operation of the rotor. I had this impossible problem.

Incidentally, Southeast Asian regions such as Vietnam are regions with climatic characteristics where it rains a lot, and the soil quality is poor because it rains a lot, and in agriculture in these regions, it is in the situation of soft cultivation work rather than deep cultivation work. , With the shape and arrangement of the cultivation blades of the current Korean or Japanese rotors, it is not possible to provide the desired cultivation soil at all in Southeast Asia.

Republic of Korea Utility Model Publication No. 20-0340048 Republic of Korea Utility Model Publication No. 20-0243371

The present invention has been devised in consideration of and solving the above-described conventional problems, and it is an object of the present invention to provide a rotorbator in which rice straw is not wound on the cultivation shaft and the cultivation blade when cultivation is performed through structural improvement. .

An object of the present invention is to provide a rotor that is suitable for work in a paddy field filled with water and enables cultivation work by making it more useful in rainy areas.

This design allows fine crushing to be made suitable for agriculture in Southeast Asia to provide a fine soil quality, but enables cultivation work optimized for rice cultivation in Southeast Asia, and at the working speed desired by farmers in Southeast Asia. Its purpose is to provide a rotor that can perform tillage work.

The object of the present invention is to provide a rotor vator that can contribute to the increase in export volume of the domestic agricultural machinery industry.

The rotor vator according to the present invention for achieving the above object comprises: a base frame; A cultivation shaft installed on the base frame to be supported and rotatably installed in a horizontal arrangement; It has a rectangular sheath-shaped body that is protruding and disposed on the cultivation shaft while being fixedly coupled through welding, distributed in the longitudinal direction and arranged at intervals along the outer circumference, and has a mounting hole for inserting and mounting the cultivation blade. Cultivation blade holder; A cultivation blade fixedly coupled through a fastening after inserting and disposing one end of each cultivation blade holder, and used for a cultivation operation; A power supply unit provided to transmit rotational power to the cultivation shaft and having a gear coupling structure for increasing and controlling the number of rotations, wherein the power supply unit includes: power generation means; A bevel gear connected to the power generating means; A gear coupling shaft having one end connected to the bevel gear and the other end supported and coupled to the base frame; A first sprocket and a second sprocket fixedly coupled to the gear coupling shaft and the cultivation shaft, respectively; And a driving chain connected to the first sprocket and the second sprocket.

Here, the power generating means is a rotary drive motor or a tractor engine fixedly installed on the base frame; It can be configured to control the rotation speed of 250 rpm or more with respect to the cultivation shaft.

Here, the circumferential length of the cultivation shaft is longer than the length of the rice straw, but the shaft diameter may be formed to be 750mm or more.

Here, the cultivation blade holders are arranged in 8 to 10 equal divisions based on the total length direction on the cultivation axis and arranged at intervals of 45 to 50 mm, but 65 or more are installed, and the arrangement position and direction for each cultivation blade holder It is installed to have individual displacement by differently; The cultivation blade is fixedly coupled by matching with each cultivation blade holder having the individual displacement installation structure and fastening in a state in which one end is inserted and arranged, but the part where the driving chain is installed to transmit the rotational power is the opposite part First, it can be installed to have a structure that touches the ground.

Here, in the cultivation blade holder, the arrangement viewed from the left side and the arrangement viewed from the right side are arranged differently based on a central vertical line or a horizontal line; The cultivation blade is a plate-shaped blade member having a curved shape in the same straight line, and may have a structure bent toward the left or right direction with respect to the end portion of the blade member.

Here, the bevel gear is provided with a gearbox and is installed therein, and the gear coupling shaft protects the bevel gear and the gear coupling shaft through a configuration embedded in a pipe-shaped tube body that is fastened to the gearbox, and provides service life. It can be configured to increase.

Here, it may be configured to increase the number of rotations about the cultivation shaft by adjusting the dimensions of the bevel gear and adjusting the dimensions of the sprocket.

According to the present invention, when performing cultivation through structural improvement, it is possible to provide a rotorbator that prevents rice straw from being wound on the cultivation shaft and the cultivation blade, and especially by making it more useful in rainy areas. It is possible to provide a rotor that is suitable for work in a paddy field filled with water and enables cultivation work.

According to the present invention, it is possible to respond to the reality of agricultural work in Southeast Asia and to have suitable cultivation soil, enable cultivation work optimized for rice farming in Southeast Asia, and cultivate at work speed desired by farmers in Southeast Asia. It is possible to provide a rotor that can perform.

According to the present invention, it is possible to provide rotational power on the cultivation shaft and stably rotate the cultivation blade while removing or reducing the load even for cultivation work in a water-filled paddy field, so that cultivation work can be performed with a stable operation. A useful effect can be achieved.

According to the present invention, it is possible to achieve a useful effect that can contribute to the increase in export volume of the domestic agricultural machinery industry by providing a structure-improved rotor that facilitates work in a paddy field filled with water in Southeast Asia.

1 is a front view showing a rotor vator according to an embodiment of the present invention.
2 is a side view showing a rotor vator according to an embodiment of the present invention.
3 is a perspective view showing a cultivation shaft and a cultivation blade in the rotor vator according to an embodiment of the present invention.
4 is a front view showing a cultivation shaft and a cultivation blade in a rotor vator according to an embodiment of the present invention.
5 is a perspective view showing a cultivation shaft in which a cultivation blade holder is mounted and arranged in a rotor vator according to an embodiment of the present invention.
6 is a view showing to explain a cultivation blade holder mounted on a cultivation shaft in a rotor vator according to an embodiment of the present invention.

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

Terms used in the present design are terms defined in consideration of functions in the present design, and since these may vary according to the intention or custom of users or operators, the definitions of these terms correspond to the technical matters of the present design. And should be interpreted as a concept.

1 to 6 of the accompanying drawings are views illustrating a rotor vator according to the present invention.

As shown in Figs. 1 to 6, the rotorbator 100 according to an embodiment of the present invention includes a base frame 110, a cultivation shaft 120, a cultivation blade holder 130, a cultivation blade 140, and power It consists of a configuration including a providing unit 150.

The base frame 110 is a basic base structure for configuring the rotor vator 100.

The cultivation shaft 120 is a configuration that is supported and coupled and rotatably installed on the base frame 110 in a horizontal arrangement, and is provided to satisfy a predetermined number of rotations or more by receiving power from the power supply unit 150 do.

In particular, it is equipped to exhibit suitable and optimized functions for tillage work in Southeast Asian regions such as Vietnam.

Here, it is preferable that the cultivation shaft 120 is configured to be controlled at a rotation speed of 250 rpm or more through control in the power supply unit 150.

When the rotational speed of the cultivation shaft 120 is controlled to 250 rpm or more, the cultivation work is further performed even if the rice straw is present by preventing the rice straw from being wound around the cultivation shaft 120 and the cultivation blade 140 during cultivation work. It can provide the advantage of being able to perform stably.

In addition, by controlling the rotational speed of the cultivation shaft 120 to 250rpm or more, the effect of cutting the rice straw can be obtained at the same time as the rotational speed of the cultivation shaft is increased, and the rice straw winding phenomenon can be prevented.

In addition, with respect to the cultivation shaft 120, the circumferential length is longer than the length of the rice straw, but the shaft diameter may be formed to be 750mm or more.

Through such a configuration, it is possible to add simplicity and efficiency during cultivation using the rotor vator 100, and a stable operation is possible.

The cultivation blade holder 130 is disposed to protrude while being fixedly coupled through welding on the cultivation shaft 120, distributed in the longitudinal direction and radially protruded along the circumference of the cultivation axis, so that a number of them are spaced apart. It is provided with a rectangular sheath-shaped body 131 formed with a mounting hole 132 for inserting and mounting the cultivation blade 140 used in the work.

It is preferable that the cultivation blade holder 130 is arranged on the cultivation shaft 120 by dividing it into 8 to 10 equal parts and arranged at intervals of 45 to 50 mm, with a total of 65 or more.

Through this installation structure, it is possible to easily cultivate and crush the soil of a dense structure in water-filled farmland in a rainy area, and in addition to this, it is possible to provide the advantage of improving the soil quality through fine crushing. .

At this time, each of the cultivation blade holders 130 is installed so as to have individual displacements by varying the arrangement position and direction on the cultivation shaft 120.

Here, the cultivation blade holder 130 is an arrangement viewed from the left side of the cultivation shaft 120 and the arrangement viewed from the right side of the cultivation shaft 120 as shown in FIG. 6 through the arrangement configuration as described above. The structures are arranged differently based on a central vertical line or a central horizontal line, and this is due to the fact that the cultivation blade holder 130 is arranged by forming an individual displacement angle.

Incidentally, for each of the cultivation blade holders 130, the cultivation shaft 120 is installed to have an individual displacement by varying the position and direction radially disposed along the outer circumference of the cultivation shaft 120, on the cultivation shaft 120 One side of the arranged cultivation blade 140 is adjusted and installed to form a structure that touches the ground before the other side.

That is, in order to transmit the rotational power of the cultivation shaft 120, the part where the driving chain 156 on the side of the power supply unit 150 located on one side of the base frame 110 is installed, touches the ground earlier than the other part. It is installed to form a structure.

The cultivation blade 140 is fixedly coupled through fastening after inserting and disposing one end of each cultivation blade holder 130, and is installed to perform a cultivation operation by receiving the rotational power of the cultivation shaft 120.

The cultivation blade 140 is matched with each cultivation blade holder 130 arranged to have an individual displacement installation structure, as described above, and one end is inserted and disposed, and fastened with fastening means such as bolts and nuts. As being fixedly coupled, the part where the driving chain 156 on the side of the power supply unit 150 located on one side of the base frame 110 is installed to transmit the rotational power to the cultivation shaft 120 is earlier than the other side. It is installed to have a structure that touches the ground.

The structure installed in this way can be used more usefully in areas with a lot of rain, is suitable for work in paddy fields filled with water, and enables cultivation work with less load.In particular, it improves the efficiency of cultivation work in Southeast Asian regions such as Vietnam. It can be greatly increased.

In addition, the cultivation blade 140 is a plate-shaped blade member having a curved shape in the same straight line, and can have a structure formed by bending toward the left or right direction with respect to the end portion 141 of the blade member. have.

Here, the cultivation blade 140 is continuously arranged in a pair structure so that the direction formed by bending the end portion 141 side (left and right directions) faces each other and divided into 8 to 10 equal parts in the longitudinal direction of the cultivation shaft 120 And place it.

Here, it is preferable that the cultivation blade 140 has an arrangement structure in which the degree of warpage is lessened than that of the conventional cultivation blade so as to prevent the phenomenon of rice straw winding during cultivation.

The power supply unit 150 is provided to transmit rotational power to the cultivation shaft 120, and it is preferable to include a gear coupling structure in order to increase the number of rotations and to realize ease of control.

To this end, the power supply unit 150 has a power generating unit 151, a bevel gear 152 connected to the power generating unit 151, and one end connected to the bevel gear 152, and the other end A gear coupling shaft 153 supported and coupled to the base frame 110, a first sprocket 154 and a second sprocket 155 fixedly coupled to the gear coupling shaft 153 and the cultivation shaft 120, respectively, And a driving chain 156 connected to the first sprocket 154 and the second sprocket 155.

At this time, the power generating means 151 may be fixedly installed on the base frame 110 and have a configuration in which a rotation driving motor is installed to provide its own power to the rotor 100.

Sometimes, it may be configured in a form in which the rotor vator 100 is connected to a tractor-side engine so that it can be operated.

The bevel gear 152 is provided with a gear box 101 and installed therein, and the gear coupling shaft 153 is built into a pipe-shaped tube body 102 that is fastened to the gear box 101 It is preferable that the bevel gear 152 and the gear coupling shaft 153 are protected, as well as the configuration to increase stable use and service life.

Here, to increase the number of rotations about the cultivation shaft 120 by adjusting the dimensions of the bevel gear 152 and adjusting the dimensions of the first and second sprockets 154 and 155. Configurable.

Accordingly, through the rotor vator 100 according to the present invention having the above-described configuration, the structure is improved to have the configuration as described above, so that the rice straw is not wound on the cultivation shaft and the cultivation blade when the cultivation work is performed. The rotor is suitable for work in water-filled paddy fields and enables cultivation by making it more useful in Southeast Asia, which has a climate characteristic of rainy weather, and makes farming work easier. Bater can be provided.

In addition, it is possible to provide an advantage that can improve the soil quality of cultivation through cultivation, as well as providing a rotorbator having a structure suitable for and responding to the reality of agricultural work in Southeast Asia.

The above-described embodiment is merely a description of a preferred embodiment of the present invention, and is not limited to this embodiment, and various modifications and variations are made by those skilled in the art within the technical spirit and scope of the present invention. It will be said that this can be done, and it will be said to fall within the technical scope of the present invention.

100: rotor 110: base frame
120: cultivation shaft 130: cultivation blade holder
140: cultivation blade 150: power supply unit
151: power generating means 152: bevel gear
153: gear coupling shaft 154: first sprocket
155: second sprocket 156: drive chain

Claims (6)

Base frame; A cultivation shaft installed on the base frame to be supported and rotatably installed in a horizontal arrangement; It has a rectangular sheath-shaped body that is protruding and disposed on the cultivation shaft while being fixedly coupled through welding, distributed in the longitudinal direction and arranged at intervals along the outer circumference, and has a mounting hole for inserting and mounting the cultivation blade. Cultivation blade holder; A cultivation blade fixedly coupled through a fastening after inserting and disposing one end of each cultivation blade holder, and used for a cultivation operation; And a power supply unit provided to transmit rotational power to the cultivation shaft and having a gear coupling structure for increasing and controlling the number of rotations. As a rotor comprising a,
The power supply unit, power generating means; A bevel gear connected to the power generating means; A gear coupling shaft having one end connected to the bevel gear and the other end supported and coupled to the base frame; A first sprocket and a second sprocket fixedly coupled to the gear coupling shaft and the cultivation shaft, respectively; And a driving chain connected to the first sprocket and the second sprocket. Including,
The bevel gear is provided with a gear box and installed therein,
The gear coupling shaft is configured to protect the bevel gear and the gear coupling shaft and increase the service life through a configuration embedded in the pipe-shaped tube body fastened to the gearbox,
The power generating means is a rotary drive motor or tractor engine fixedly installed on the base frame; Controlling the cultivation shaft at a rotation speed of 250 rpm or more,
The cultivation shaft is formed with a circumferential length longer than the length of the rice straw, and has a shaft diameter of 750mm or more,
The cultivation blade holders are arranged by dividing into 8 to 10 divisions based on the total length direction on the cultivation axis and arranged at intervals of 45 to 50 mm, but 65 or more are installed, and the arrangement position and direction are different for each cultivation blade holder. It is installed to have individual displacements, and the arrangement as viewed from the left side of the cultivation shaft and the arrangement as viewed from the right side of the cultivation shaft are arranged differently based on a central vertical line or a horizontal line;
The cultivation blade is fixedly coupled by matching with each cultivation blade holder having the individual displacement installation structure and fastening in a state in which one end is inserted and arranged, but the part where the driving chain is installed to transmit the rotational power is the opposite part A plate-shaped blade member having a shape that is curved in the same straight line while being installed to have a structure contacting the ground earlier, and a rotor, characterized in that the blade member is bent toward the left or right direction with respect to the end of the blade member. Baiter.
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