KR101181656B1 - plowing spindle shaft for rotavator - Google Patents

Abstract

The present invention relates to a tilling rotary shaft for a rotary. The present invention is a rotary tillage rotary shaft in the tillage rotary shaft of the rotary plate in which a fixed length of a disk-shaped flange is arranged at regular intervals in the pipe of a predetermined length and a plurality of tillage blades are mounted as fastening members at equal angles on the outer periphery of the fixed plate, At the same time, the tilling blade keeps the outer diameter of the pipe so that the tilling shaft can smoothly stop the soil by pushing the soil of the higher part than other grounds to the lower part. It is provided with a pipe having an outer diameter, the outer diameter of the pipe of the tillage rotary shaft is characterized in that it is provided with 130 ~ 165mm.
Therefore, the pipe bottom of the tillage rotary shaft is provided with a pipe having an outer diameter that is in contact with the ground surface of the field. As a result of tillage work (rotary work), the tillage rotary shaft pushes the soil of the part higher than other ground surface to the lower portion and stops evenly. (整地) can do the work.

Description

Plowing spindle shaft for rotavator

The present invention relates to a rotary rotary tractor for receiving the power of the tractor, more specifically, the diameter of the pipe bottom surface of the tillage rotary shaft having a plurality of tillage blades contact the ground surface of the previous answer, that is, the diameter of the existing tillage rotary shaft A rotary tillage shaft for a rotary, which is provided with a pipe of larger diameter, and can carry out tillage work (rotary work) at the same time as the tillage shaft is pushed out to the lower part of the soil accumulated higher than other ground surfaces. It is about.

In general, a rotary machine is one of agricultural machines that is mounted on the rear of the tractor to carry out tillage work. The rotary is mounted to the rear of the tractor, but by connecting the power take-off shaft of the tractor and the input drive shaft of the rotary to the universal joint to transmit the driving force of the tractor, tillage work by rotating the tillage rotary shaft provided with a plurality of tillage blades. To perform. The upper and lower links of the tractor may be equipped with a connector that is a device for easily mounting the rotary to the tractor and easily disconnected from the tractor.

Existing rotary, one of the working machines, as shown in Figures 1 and 2 is provided with a rotary body 10 long in the width direction of the left and right, the center portion of the tip for connecting the upper and lower links of the tractor or a connector mounted thereon An upper connection portion 12 and a lower connection portion 14 are provided, and the tilling rotary shaft 20 having a plurality of tillage blades 24 is rotatably installed at the lower portion of the rotary body 10 and the rotary body 10 At the top of the rotary rotary shaft 32 for power transmission to the tillage rotary shaft 20 is installed in parallel with the tillage rotary shaft 20 across the gearbox 30, the rotary drive shaft 32 and the tillage rotary shaft ( At one end of the 20), the drive of the rotary drive shaft 32 is connected to be transmitted to the tilling rotary shaft 20 through two or more gears engaged with each other.

The tilling rotary shaft 20 is fastened to the shaft flange 38 of the side shaft 36 provided on the side of the rotary body 10, the connection flanges of both ends are interlocked by the rotary drive shaft 32 as shown in FIG. have.

The rotary drive shaft 32 is engaged with the input drive shaft 34 in the gearbox 30, the rear end of the rotary body 10 is discharged by the tillage blade 24 of the tillage rotary shaft 20 during the rotary operation A curved rear door 40 is installed to prevent the soil from being scattered backwards and to level the soil.

The tilling rotary shaft 20 is provided with a pipe 21 of a predetermined length having a connecting flange 28 at both ends thereof, as shown in FIG. 4, and a fixed plate 22 having a disk-shaped flange at regular intervals on the pipe 21. Are arranged, and fastening holes 23 for fastening the plurality of tilling blades 24 at equal angles to the outer periphery of the fixing plate 22 are drilled. The tilling blade 24 is provided in an L shape, and a fastening hole 25 corresponding to the fastening hole 23 of the fixing plate 22 is drilled at one end thereof.

Accordingly, the tilling rotary shaft 20 matches the fastening holes 23 and 25 of the fixed plate 22 and the tilling blade 24 and passes through the fastening member 26 through the fastening holes 23 and 25 to fix the fixed plate ( 22, the tilling blades 24 are attached at an even angle.

The conventional rotary as described above is connected to the upper and lower connecting portions 12 and 14 of the front end of the rotary body 10 using the upper / lower link of the tractor or the connector attached thereto, thereby connecting the rotary to the input of the gearbox 30. What is necessary is just to perform the operation in the state which connected the drive shaft 34 to the power take-off shaft of the tractor and the universal joint.

As the power take-off shaft of the tractor rotates, the input drive shaft 34 of the gearbox 30 rotates so that the rotary drive shaft 32 is interlocked, and the lower portion of the rotary body 10 connected to the rotary drive shaft 32 is rotated. Since the tractor is advanced in the state in which the tillage rotary shaft 20 is interlocked, the tillage blades 24 of the tillage rotary shaft 20 carry out tillage work (rotary work) by changing the ground surface of the previous answer to a predetermined depth.

In this state, when the rotary is advanced, the soil discharged by the tillage blades 24 of the tillage rotation shaft 20 is not scattered backward due to the rear door 40 and falls flat on the ground.

However, the outer diameter of the pipe 21 of the tillage rotary shaft 20 applied to the existing rotary as described above is about 90 mm, and the swing of the tillage blade 24 mounted to the fixed plate 22 of the tillage rotary shaft 20. The outer diameter is about 500 mm.

When the tilling operation is made in such a state, the tilling depth of turning the ground surface of the previous answer to the predetermined depth with the tilling blade 24 of the tilling rotary shaft 20 by the existing rotary is usually 100 to 150 mm, so that the tilling rotary shaft 20 Even considering the supporting part, tillage work is performed in a state in which the bottom surface of the pipe 21 of the tillage rotary shaft 20 is spaced about 25 to 55 mm from the ground surface of the previous answer.

Therefore, when the tillage blade 24 of the tillage rotary shaft 20 overturns the soil of the tread, the pipe 21 of the tillage rotary shaft 20 during the driving rotation is spaced apart by a predetermined height upward from the tread surface. It is towed by the ground, so that the surface soils of the whole field are bumpy, that is, they are simply torn up as they are locally stacked or dented.

In conclusion, tillage work is carried out by tillage blade 24 of tillage rotary shaft 20 and is discharged to the rear, and only stop (整地) work is performed by rear door 40 of the rotary, thereby tilling work of rotary There is a problem that the flatness before and after tillage work does not differ significantly because the worker cannot obtain the stop work as desired.

The object of the present invention is to research and develop in order to solve the conventional closed ends and problems as described above, without having to increase the swing outer diameter of the tilling blade has an outer diameter such that the bottom surface of the pipe of the tilling rotary shaft is in contact with the ground surface of the previous answer. By arranging pipes, that is, pipes with diameters larger than those of existing tillage shafts, tillage work (rotary work) and at the same time, the tillage shafts can be pushed out to the lower part of the soil higher than any other ground surface to perform a flat stop operation. It is to provide a rotary tillage axis for the rotary.

In order to achieve the above object, the present invention is a rotary tillage having a plurality of tilling blades mounted at equal intervals on the outer periphery of the fixed plate at a predetermined interval on a pipe of a predetermined length and mounted with a plurality of tillage blades as fastening members. In the rotary shaft, the tillage blade keeps the swing outer diameter of the pipe and the pipe is lowered at the same time so that the rotary shaft can push the soil of the portion higher than the other surface to the lower portion to perform the flat stop operation. It is characterized by being provided with a pipe having an outer diameter that is in contact with the ground surface of the previous answer.

The pipe outer diameter of the tillage rotary shaft is preferably provided with 130 ~ 165mm. If the outer diameter of the pipe is less than 130mm, like the conventional tillage axis, the distance between the ground and the ground is relatively large, depending on the depth of tilling the soil. Therefore, the effect of stopping the ground surface of the ground is reduced. This is because a closed end may be generated, which is restricted by the fastening portion of the blade and increases the outer diameter of the tilling blade.

Both ends of the pipe of the tillage rotating shaft are provided with a small diameter pipe and a small diameter flange having an outer diameter smaller than the outer diameter of the portion where the tilling blade is mounted to replace or mount the existing rotary shaft having a side shaft shaft flange for connection with the existing tillage rotary shaft. It is characterized by.

The pipe of the tillage rotary shaft is preferably provided with a circular pipe, but may be provided with a square pipe of square or more.

According to the rotary tillage shaft of the present invention, the tilling operation (rotary operation) and the lower surface of the tillage rotary shaft are provided with a relatively large diameter pipe having an outer diameter that is in contact with the ground surface of the tillage blade without increasing the swing outer diameter of the tillage blade. At the same time, there is a useful effect that the tillage axis can carry out the grading work smoothly while pushing out the soil of the higher part than other surface.

1 and 2 is a view showing a conventional rotary.
3 is a view showing an extract of the connecting portion of the tillage rotary shaft in FIG.
4 is a view briefly showing the cultivation axis of rotation in FIG.
Figure 5 is a view showing a rotary to which the rotary tillage rotary shaft for a temporary example according to the present invention.
6 is a view briefly showing an extract of the tilling axis, which is the main part of the present invention.
7 is a longitudinal sectional view of the tilling rotary shaft for a rotary of the present invention.
8 and 9 are views for explaining the rotary tillage axis of the rotary rotary wheel of another embodiment according to the present invention.

Hereinafter, the rotary tillage rotary shaft for rotary according to the present invention will be described in detail with reference to the accompanying drawings.

5 is a view showing a rotary applied rotary tillage rotary shaft of a temporary example according to the present invention, Figure 6 and Figure 7 is a view showing an extract of the rotary tillage rotary shaft, which is the main part of the present invention. In the drawings of the present invention, the same components as the existing rotary parts are denoted by the same reference numerals, and detailed description thereof will be omitted.

As shown in the figure, the upper portion of the rotary body 10 is provided with an upper connection portion 12 and a lower connection portion 14 for connection with the upper and lower links of the tractor or a connector attached thereto, and the rotary body 10 A tillage rotary shaft 200 having a plurality of tillage blades 24 is rotatably installed at a lower portion thereof, and a rotary drive shaft 32 for power transmission to the tillage rotary shaft 200 at the top of the rotary body 10 is a gearbox. It is installed parallel to the tillage rotary shaft 200 across the 30, so that the driving of the rotary drive shaft 32 is transmitted to the tillage rotary shaft 200 at one end of the rotary drive shaft 32 and the tillage rotary shaft 200. It is connected.

The tilling rotary shaft 200 is coupled to the shaft flange 38 of the side shaft 36 provided on the side of the rotary body 10, the connection flange 280 of the both ends are interlocked by the rotary drive shaft 32.

The rotary drive shaft 32 is engaged with the input drive shaft 34 in the gearbox 30, the rear end of the rotary body 10 is discharged by the tillage blade 24 of the tillage rotary shaft 200 during the rotary operation A curved rear door 40 is installed to prevent the soil from being scattered backwards and to level the soil.

The tilling rotary shaft 200 is provided with pipes 210 of a predetermined length having connecting flanges 280 at both ends, and fixing plates 220 which are disc-shaped flanges are arranged at regular intervals on the pipes 210 and the fixing plates. A fastening hole 23 for fastening the plurality of tillage blades 24 at equal angles to the outer periphery of 220 is drilled. The tilling blade 24 is provided in an elliptical shape (L-shaped shape) as in the prior art, and a fastening hole 25 corresponding to the fastening hole 23 of the fixing plate 220 is drilled at one end thereof.

The tilling rotary shaft 200 having the above configuration coincides with the fastening holes 23 and 25 of the fixed plate 220 and the tilling blade 24, and passes through the fastening members 26 through the fastening holes 23 and 25. By doing so, the tilling blades 24 are attached to the fixed plate 220 at an even angle. At this time, the swing outer diameter of the tillage blade 24 mounted on the fixed plate 220 of the tillage rotation shaft 200 is about 500 mm, similar to the swing outer diameter of the existing tillage blade.

The tillage rotary shaft 200 is a pipe forming the tillage rotary shaft 200 so that the tillage rotary shaft 200 can carry out a flat stop operation by pushing the soil of the tiller rotary shaft 200 to a lower portion at the same time as other till the other surface. The lower surface of (210) should be provided with a pipe having an outer diameter that is in contact with the ground surface of the previous answer, that is, a pipe having a diameter larger than that of the conventional tilling shaft.

Therefore, the outer diameter of the pipe 210 of the tillage rotary shaft 200 is preferably provided to 130 ~ 165mm. The reason is that if the outer diameter of the pipe 210 is less than 130 mm, the gap between the ground surface of the previous field is relatively large according to the depth of soil tilling, as in the conventional tillage axis, so that the effect of stopping the ground surface of the previous field decreases. This is because when the outer diameter of the t) exceeds 165 mm, a closed end may be generated in which the fastening portion of the tilling blade 24 is restricted and the outer diameter of the tilling blade 24 is increased.

Although the pipe 210 of the tilling rotary shaft 200 is illustrated and described as a circular pipe, the pipe 210 of the tilling rotary shaft 200 may be provided as a square pipe, a hexagonal pipe, an octagonal pipe, or the like.

A tillage operation using the rotary to which the rotary tillage rotary shaft of the present invention configured as described above is applied will be described.

Like the existing rotary, when the input drive shaft 34 of the gearbox 30 is rotated by the power transmitted from the tractor is interlocked with the rotary drive shaft 32, the rotary body 10 is connected to the rotary drive shaft 32 Since the tractor is operated in a state in which the lower tillage rotary shaft 200 is interlocked, the tillage blades 24 of the tillage rotary shaft 200 change the ground surface of the previous answer to a predetermined depth to perform tillage work (rotary work).

At this time, as mentioned above, the outer diameter of the pipe 210 of the tillage rotation shaft 200 is 130 to 165 mm, the swing outer diameter of the tillage blade 24 is about 500 mm, and the tillage blade 24 of the tillage rotation shaft 200 is predetermined. Since tilling depth is usually 100 to 150 mm, the tilling work is carried out in a state where the bottom surface of the pipe 210 of the tilling rotary shaft 200 abuts from the ground surface of the previous answer.

Therefore, tillage work (rotary work) is performed by the tillage blades 24 of the tillage rotary shaft 200, and soil of a portion higher than other ground surfaces is spread evenly while the tillage rotary shaft 200 extends to a lower portion. Perform. In particular, since the swing outer diameter of the tillage blade and the existing tillage blade of the present application is the same, there is no difference in tillage load when compared with the conventional tillage rotation shaft.

Thus, tillage work and stop work are carried out at the same time as the primary, and the rotary is advanced. Accordingly, the soil discharged by the tillage blade 24 of the tillage rotary shaft 200 is not scattered backward by the rear door 40 and is not scattered to the ground. As it falls, it is stopped secondarily and evenly.

8 and 9 are views for explaining the rotary tillage axis of the rotary rotary wheel of another embodiment according to the present invention.

Here, the outer diameter of the pipe 210 of the tilling rotary shaft 200 is smaller than the outer diameter of the portion on which the tilling blades 24 are mounted so as to correspond to the shaft flange 38 of the side shaft 36 provided in the existing rotary body. Except that the small diameter pipe 212 and the small diameter flange 214 is the same as the configuration of one embodiment of the present invention.

In the rotary tillage shaft of another embodiment as described above, when the existing rotary is used, the tillage rotary shaft 20 is removed from the shaft flange 38 of the side shaft 36 mounted on the existing rotary body, and then the present invention. The tungsten rotary shaft 200 of the conventional rotary main body can be used by mounting the small diameter flange 214 of the tiller rotary shaft 200 on the shaft flange 38 of the side shaft 36, thereby economical due to the repurchase of the rotary It is less economical and can meet the needs of existing rotary buyers, and it is more economical because it can be applied without changing the design of the rotary body.

The present invention can be usefully used in the field of rotary can be carried out at the same time as the tilling operation while the tilling rotary shaft is rotated, such as a rotary in the working machine to be mounted on the tractor.

200: tilling axis 210: pipe
212 small diameter pipe 214 small diameter flange
220: fixed plate 280: connection flange

Claims (3)

In a rotary tillage axis for rotary rotary plates having fixed lengths of disk-shaped flanges arranged at regular intervals on a pipe of a predetermined length and a plurality of tillage blades mounted as fastening members at equal angles on the outer periphery of the fixed plate,
At the same time as the tillage operation of the rotary, the tillage blade keeps the outside diameter of the swing so that the tilling axis can push the soil of the higher part than other grounds to the lower part to perform the flat stop operation. It is provided with a pipe having an outer diameter that is in contact with the
The pipe outer diameter of the tillage rotary shaft is a rotary tillage rotary shaft, characterized in that provided in 130 ~ 165㎜. The method of claim 1,
Both ends of the pipe of the tillage rotating shaft are provided with a small diameter pipe and a small diameter flange having an outer diameter smaller than the outer diameter of the portion where the tilling blade is mounted to replace or mount the existing rotary shaft having a side shaft shaft flange for connection with the existing tillage rotary shaft. Rotary tiller rotary shaft, characterized in that. delete

Images