KR20200097015A - A seeding machine - Google Patents

Abstract

According to an embodiment of the present invention, a seeding machine comprises: a ridge forming unit coupled to the rear end of a tractor and forming ridges while being towed in accordance with the movement of the tractor; a connecting rod coupled to an upper end of the ridge forming unit; a holder detachably coupled to at least one region of the connecting rod and extending in the width direction of the tractor; and a seeding module detachably coupled to a lower end of the holder, wherein the seeding module supplies at least one of seeds and fertilizers accommodated therein to the soil in accordance with the movement of the tractor.

Description

Seeder {A SEEDING MACHINE}

The present invention relates to a seeding machine, and more specifically, by attaching a cover and a seeder to the rear of the tractor (T), it is possible to simultaneously perform a dug forming operation and a seeding operation, and a seeding module according to the type of crops for cultivation. The present invention relates to a seed drill that can maximize the efficiency of a seeding operation by finely adjusting the distance, height, angle, etc.

In general, in sowing seeds and fertilizers, the soil crushed by the cover work is carried out at an appropriate depth using a hoe or plow, and seeds or fertilizers are placed at regular intervals along the furrow formed through the ridge work. Sowing is performed.

However, in recent years, as the population of rural areas is rapidly decreasing and the working age is aging, and as the area of farming per household is gradually expanded, many difficulties arise in the work.

Therefore, in the face of this reality, most farm households are seeking various ways to realize prolific crops by investing a small amount of labor, and as one of the solutions, there is a trend to rush to supply integrated and automated agricultural machinery.

In particular, price competitiveness of agricultural products is essential in an environment where the agricultural market is open according to the agreement of the World Trade Organization, and for this purpose, production through mechanization is essential, and the spread of seeding machines increases due to these factors. There is a trend of becoming.

Accordingly, recently, a seeder that can be installed and used in agricultural machinery such as a tractor and a cultivator has been released, and these seeders are rapidly becoming common because the purchase cost and maintenance cost are low due to the characteristics of the structure mounted on agricultural machinery in addition to a simple seeding operation function. have.

However, the conventional seeding machine has a problem in that the growth of the crop is not performed correctly because the user cannot easily change the seeding height or the seeding angle according to the type of crop.

That is, depending on the type of crop, the seed is not transferred accurately and the sowing operation is not performed smoothly, so there is a disadvantage that the crop yield is rapidly reduced.

In addition, the structure of the conventional seeding machine is equipped with a seeding module for the seeding operation and a seeding module for the seeding operation in one piece, so that the edge of the soil for crop cultivation is wasted. In addition to the possibility, there have been several problems such as not being able to work smoothly because the pitting forming work and the seeding work have to be performed separately for the corresponding corner part.

Therefore, it is possible to perform both the duke forming work and the seeding work simultaneously by mounting the cover and seeding machine at the rear of the tractor T, and also finely adjust the distance, height, angle, etc. of the seeding module according to the type of crop for cultivation. By adjusting, the need for a seeder capable of maximizing the efficiency of the sowing operation is gradually increasing in the art.

The present invention has been conceived to solve the above problems, and the present invention is capable of simultaneously performing a dug forming operation and a seeding operation by attaching a cover and a seeder to the rear of the tractor T, and also to the type of crop for cultivation. Accordingly, it is an object of the present invention to provide a seeding machine capable of maximizing the efficiency of a seeding operation by finely adjusting the distance, height, angle, etc. of the seeding module.

In addition, an object of the present invention is to provide a seeding machine that has a simple structure and is easy to operate by a user, so that the productivity and reliability of the work are improved.

In addition, the present invention provides a seeding machine capable of increasing the yield of crops while increasing the efficiency of work because the sowing can be started from the edge of the field by independently moving the seeding module up and down using a hydraulic system. It is aimed at.

The technical problems of the present invention are not limited to the technical problems mentioned above, and other technical problems that are not mentioned will be clearly understood by those skilled in the art from the following description.

The seed drill according to an embodiment of the present invention for solving the above technical problem is coupled to the rear end of the tractor, while being towed in accordance with the movement of the tractor to form a duduk forming portion; A connecting rod coupled to an upper end of the dug-forming part; A cradle detachably coupled to at least one region of the connecting rod and extending in the width direction of the tractor; And a seeding module detachably coupled to a lower end of the cradle, wherein the seeding module supplies at least one of seeds and fertilizers accommodated therein to the soil according to the movement of the tractor.

In addition, preferably, the connecting rod, a vertical connecting rod extending in a vertical direction from an upper end of the pimple forming portion; A horizontal connecting rod having one end rotatably connected to one end of the vertical connecting rod through a hinge member; And a hydraulic cylinder diagonally connecting the other end of the vertical connection rod and the other end of the horizontal connection rod.

In addition, preferably, it comprises a piston rod that is movably coupled to the inside of the hydraulic cylinder to be movable up and down, and the piston rod is characterized in that it is formed to extend in the longitudinal direction of the hydraulic cylinder depending on whether or not hydraulic pressure is supplied. I can.

In addition, preferably, at least one of the vertical connecting rod and the hydraulic cylinder may be provided with a hollow fixing frame for fixing the horizontal connecting rod through screw coupling.

In addition, preferably, the connecting rod may include a height-adjusting connecting rod for interconnecting the horizontal connecting rod and the cradle, and the height-adjusting connecting rod may be formed to be adjustable in height in the vertical direction.

In addition, preferably, the duduk forming part, the duduk support formed extending along the width direction of the tractor; And a plurality of patter shovels provided at the lower end of the pimple support to form pimples according to the movement of the tractor.

According to the seeding machine according to an embodiment of the present invention, by installing a cover and a seeder respectively at the rear of the tractor T, it is possible to simultaneously perform the dug forming operation and the seeding operation, and the seeding module according to the type of crops for cultivation By finely adjusting the distance, height, angle, etc., the efficiency of sowing work can be maximized.

In addition, according to the seed drill according to an embodiment of the present invention, since the structure is simple and the user's operation is easy, the productivity and reliability of the patter forming operation and the seeding operation may be further improved.

In addition, according to the seeding machine according to an embodiment of the present invention, since the seeding module can be independently moved up and down using a hydraulic system to start the seeding operation from the edge of the field, the efficiency of the operation can be improved and the yield of the crop Can increase

Brief description of each drawing is provided in order to more fully understand the drawings cited in the detailed description of the present invention.
1 shows a state in which a seeder 100 according to an embodiment of the present invention is installed in a tractor T.
2A is a front perspective view of a seed drill 100 according to an embodiment of the present invention.
2B is a rear perspective view of a seed drill 100 according to an embodiment of the present invention.
3 is an enlarged perspective view of the connecting rod 20 according to an embodiment of the present invention.
4A to 4C schematically show a state of use of the connecting rod 20 according to an embodiment of the present invention.
5A and 5B are side views of a seed drill 100 according to an embodiment of the present invention.

Hereinafter, embodiments according to the present invention will be described with reference to the accompanying drawings. In adding reference numerals to elements of each drawing, it should be noted that the same elements are assigned the same numerals as possible even if they are indicated on different drawings. In addition, in describing an embodiment of the present invention, if it is determined that a detailed description of a related known configuration or function obstructs an understanding of the embodiment of the present invention, a detailed description thereof will be omitted. In addition, embodiments of the present invention will be described below, but the technical idea of the present invention is not limited or limited thereto, and may be modified and variously implemented by those skilled in the art.

Throughout the specification, when a part is said to be "connected" with another part, this includes not only "directly connected" but also "indirectly connected" with another element interposed therebetween. . Throughout the specification, when a part "includes" a certain component, it means that other components may be further included rather than excluding other components unless specifically stated to the contrary. In addition, in describing the constituent elements of the embodiment of the present invention, terms such as first, second, A, B, (a), (b), etc. may be used. These terms are only used to distinguish the component from other components, and the nature, order, or order of the component is not limited by the term.

1 shows a state in which a seeder 100 according to an embodiment of the present invention is installed in a tractor T.

Referring to FIG. 1, the seeder 100 according to an embodiment of the present invention may be mounted and used in a direction opposite to the driving direction of the tractor T. For example, the seeder 100 may be disposed and installed at the rear of the cover earther provided at the rear of the tractor T, and the dug forming operation is performed using soil that is pulverized according to the driving of the tractor T and the cover earther. Sowing can be carried out at the same time as it is carried out.

In particular, as described below, the seeding machine 100 according to the present invention allows the dug forming unit 10 and the seeding module 40 to be independently driven, thereby forming and seeding the dug from the edge of the field for crop cultivation. It is characterized in that the start of the work is possible, and in addition, it is characterized in that the distance, height, angle, etc. of the seeding module 40 for performing the seeding operation according to the type of crop can be more easily adjusted, and this will be described below. It will be described in more detail through 2a to 5b.

On the other hand, a crop machine that provides hydraulic pressure to the seeder 100 and provides power to the covering machine and the like is not limited to the tractor T, and various crop machines for driving the seeder 100, the covering machine, etc. I can.

For reference, the following specification shows an example in which a single seeder 100 is detachably coupled to the rear of the tractor T or the cover for easy understanding of the present invention, but having the same or similar structure Since the plurality of seeders 100 are mounted at the rear of the tractor T or the cover, it is also possible to sow a plurality of crops while forming a plurality of dukes according to the traveling of the tractor T.

2A and 2B show a front perspective view and a rear perspective view, respectively, of a seed drill 100 according to an embodiment of the present invention.

Referring to FIGS. 2A and 2B, the seeding machine 100 may be composed of a plinth forming part 10, a connecting rod 20, a holder 30, a seeding module 40, and the like. For example, the ridge forming part 10 is mounted to be located at the rear of the tractor T, preferably at the rear of the cover, and the connecting rod 20 is implemented to be fixed to the upper end of the pit forming part 10, The seeding module 40 may be connected to the cradle 30 so as to face the tractor T or the covering machine.

The duduk forming part 10 may be composed of a duduk support 11 made of a material such as aluminum, stainless steel, and metal, and a duduk shovel 12, and the like, and the duduk support 11 may be a tractor (T) or a covering machine It may be formed in a pipe shape extending along the width direction of.

The duduk shovel 12 may be provided at the lower end of the duduk support 11 to form a duduk while being towed according to the movement of the tractor T. Here, the duduk shovel 12 can form a duduk having a constant height and a constant width by using the soil crushed by a covering machine, and is provided in one or more to provide a constant or different interval at the bottom of the duduk support 11 Can be deployed with.

In addition, for example, the duduk shovel 12 may be made of a material having excellent durability so as not to be damaged by hard soil, and the shape of the duduk shovel 12 may be bent or rounded at a predetermined angle from both sides toward the center. It can be bent and implemented in a true form. That is, the duduk shovel 12 may play a role of forming the duduk while being towed according to the movement of the tractor T.

The connecting rod 20 may be configured by being coupled to the upper end of the ridge forming portion 10, for example, a vertical connecting rod 21, a horizontal connecting rod 22, a hydraulic cylinder 23, a height adjusting connecting rod 24, And the like.

For reference, a plurality of connecting rods 20 having the same or similar structure may be mounted on the upper end of the plinth forming part 10, and the plurality of connecting rods 20 are detachable from the connecting rod 20 as described below. It is possible to securely support the cradle 30 that is coupled to be possible. For reference, in the following specification, two connecting rods 20 at the upper end of the dug forming portion 10, in particular, the connecting rods 20 on the left and right sides of the dug forming portion 10 along the width direction of the tractor T. ) Will be described by way of example.

In addition, the connecting rod 20 may be detachably coupled to the pimple forming portion 10 by screwing, etc., and accordingly, the arrangement position of the connecting rod 20 can be freely adjusted along the longitudinal direction of the pung forming portion 10 It is possible.

The vertical connecting rod 21 may be formed extending in a vertical direction from the upper end of the ridge forming portion 10. For example, the vertical connecting rod 21 may be detachably coupled to the upper end of the ridge forming portion 10, and may be implemented as a pipe extending from the upper end of the ridge forming portion 10 by a predetermined length.

The horizontal connecting rod 22 may have one end connected to the one end of the vertical connecting rod 21 so as to be rotatable through a hinge member. For example, the horizontal connecting rod 22 may be connected to the vertical connecting rod 21 so as to form a right angle, or may be connected to be inclined by a predetermined angle in the vertical direction from the upper end of the vertical connecting rod 21.

In addition, as described below, the vertical connecting rod 21 and the horizontal connecting rod 22 may be coupled by a hollow fixed frame 21-1. For example, the upper end of the vertical connecting rod 21 may be provided with a fixed frame 21-1 penetrating the inside, and the horizontal connecting rod 22 is slidably inserted into the fixed frame 21-1 to be fastened. Can be.

That is, the user adjusts the length of the horizontal connecting rod 22 inserted into the inner side of the fixing frame 21-1, and then the horizontal connecting rod 22 using a screw member provided on the upper end of the fixing frame 21-1. Can be fixed to the top of the vertical connecting rod (21).

The hydraulic cylinder 23 may diagonally connect the other end of the vertical connecting rod 21 and the other end of the horizontal connecting rod 22. For example, the hydraulic cylinder 23 may be located between the vertical connecting rod 21 and the horizontal connecting rod 22, and may support the horizontal connecting rod 22 more stably in the upper direction.

In addition, in another embodiment of the present invention, a piston rod 23-2 may be additionally provided on the inside of the hydraulic cylinder 23 so as to be movable up and down, and such a piston rod 23-2 is Depending on whether or not hydraulic pressure is supplied, it may be formed to extend in the longitudinal direction of the hydraulic cylinder 23. As described below, the piston rod 23-2 can be pulled out of the hydraulic cylinder 23 by using the pressure provided from the hydraulic system of the tractor T, and the pulled piston rod 23-2 ), the horizontal connection rod 22 is lifted from the vertical connection rod 21, and thus, the seeding module 40 connected to the connection rod 20 through the holder 30 can be lifted upward.

That is, the sowing module 40 is independently driven up and down by the vertical movement of the piston rod 23-2, so that the sowing operation can be started from the edge of the field according to the work environment for cultivating crops.

In addition, the hydraulic cylinder 23 and the horizontal connecting rod 22 may be coupled by a hollow fixed frame 23-1. For example, the upper end of the hydraulic cylinder 23 or the piston rod 23-2 may be provided with a fixed frame 23-1 penetrating the inside, and a horizontal connecting rod inside the fixed frame 23-1 22 can be inserted by sliding.

That is, the user adjusts the inclination of the horizontal connecting rod 22 inserted inside the fixing frame 23-1, and then the horizontal connecting rod 22 using a screw member provided at the upper end of the fixing frame 23-1. And the hydraulic cylinder 23 can be combined.

The height adjustment connecting rod 24 is coupled to the other end of the horizontal connecting rod 22, and may be formed to allow height adjustment in the vertical direction. For example, the height adjustment connecting rod 24 may be implemented in a double pipe structure, and the inner pipe may be inserted and coupled to the inner circumference of the outer pipe so as to be slidable.

To implement this, the outer pipe and the inner pipe of the height-adjusting connecting rod 24 may have a screw thread and a screw groove formed along the inner and outer circumferential surfaces, respectively, and may be fastened through mutual screwing.

That is, when the handle provided on the upper end of the height adjustment rod 24 is rotated clockwise and/or counterclockwise, the inner pipe of the height adjustment rod 24 is in the outer direction of the outer pipe (for example, in the lower direction ) Or the inner pipe is implemented to be inserted in the inner direction (for example, the upper direction) of the outer pipe, so that the elevation height of the height adjustment connector 24 from the ground can be easily adjusted, and thus, the height adjustment It is possible to more easily adjust the height from the ground of the cradle 30 and the seeding module 40 coupled to the lower side of the connecting rod 24.

The cradle 30 is detachably coupled to at least one region of the connecting rod 20, but may be extended in the width direction of the tractor T. For example, the cradle 30 may be made of various materials such as aluminum, stainless steel, metal, and civil engineering, and may be formed to extend along the width direction of the tractor T or the covering machine.

For example, the cradle 30 may be implemented in a rectangular pipe shape, and a scale may be additionally displayed on at least one surface. That is, as described below, a plurality of seeding modules 40 may be coupled to at least one area of the cradle 30, and a user may seed a plurality of seeding modules based on the intervals of the scales displayed on the surface of the cradle 30. Each of the modules 40 may be arranged at regular or different intervals.

The seeding module 40 may be detachably coupled to the lower end of the cradle 30, and may supply at least one of seeds and fertilizers accommodated therein to the soil according to the movement of the tractor T.

For example, the seeding module 40 may be provided with a storage space for storing seeds, fertilizers, etc., and seeds, fertilizers, etc. stored in the storage space according to the driving of the tractor T are piled up. By sowing with the soil, the sowing operation can be carried out.

Here, the seeding module 40 may be provided in plural and disposed at a predetermined interval or at different intervals at the lower end of the cradle 30, and preferably, a line of pits formed by the pits forming part 10 and Correspondingly, the seeding module 40 may be arranged, and the user can finely adjust the seeding distance, seeding height, seeding angle, etc. of the seeding module 40 by simply manipulating the connecting rod 20. This will be described in more detail below.

3 is an enlarged perspective view of the connecting rod 20 of the seed drill 100 according to an embodiment of the present invention, and FIGS. 4A to 4C schematically show the state of use of the connecting rod 20.

Meanwhile, the same configurations in FIGS. 1 to 4C refer to the same terms and reference numerals, and the description of FIGS. 1 to 2B is referred to in order to avoid repeated description. In the following, only differences between the examples will be described.

First, referring to FIGS. 3 and 4A together, the height adjustment connecting rod 24 may be composed of an outer pipe and an inner pipe interpolated and coupled to be slidable to the inner circumference of the outer pipe. By rotating the handle provided on the upper end of (24) clockwise and/or counterclockwise, the height of the height adjustment connecting rod 24 can be adjusted.

For example, by the rotation of the handle, the inner pipe of the height adjustment connecting rod 24 is drawn out in the outer direction (eg, downward direction) of the outer pipe, or in the inner direction (eg, upward direction) of the outer pipe The inner pipe is inserted to adjust the lifting height of the height adjustment connecting rod 24 from the ground, through which the height adjustment connecting rod 24 is a holder 30 and a seeding module 40 that are coupled to one surface of the inner pipe It is possible to easily adjust the height of the lift from the ground (see, for example, Fig. 4A).

That is, the user can maximize the efficiency of the seeding operation by easily adjusting the lifting height of the seeding module 40 according to the type of seed for crop cultivation, the type of fertilizer, or the like.

In addition, referring to FIGS. 3 and 4B together, a fixing frame 23-1 through which the inside may be penetrated may be provided at an upper end of the hydraulic cylinder 23 or the piston rod 23-2, and the fixing frame 23 The horizontal connecting rod 22 is inserted into the inside of -1) to be fixedly coupled.

In this case, the user inserts the horizontal connecting rod 22 into the fixed frame 23-1 to move the fixed frame 23-1 in the left and right directions by a predetermined interval along the length of the horizontal connecting rod 22. The inclination of the horizontal connecting rod 22 can be finely adjusted according to the horizontal movement of the fixed frame 23-1.

That is, as shown in FIG. 4B, if the fixed frame 23-1 is moved by a predetermined interval in a direction opposite to the height adjustment connecting rod 24, the distance between the vertical connecting rod 21 and the horizontal connecting rod 22 is While widening, the horizontal connecting rod 22 and the height-adjusting connecting rod 24 may be implemented to elevate in the upper direction, and although not shown in FIG. 4B, the fixed frame 23-1 is reversed in the direction of the height-adjusting connecting rod 24 By moving by a predetermined distance, the horizontal connecting rod 22 and the height adjusting connecting rod 24 may be implemented to descend downward while the gap between the vertical connecting rod 21 and the horizontal connecting rod 22 is narrowed.

Next, referring to FIGS. 3 and 4C together, the vertical connecting rod 21 and the horizontal connecting rod 22 may be coupled by a hollow fixing frame 21-1. For example, the upper end of the vertical connecting rod 21 may be provided with a fixed frame 21-1 penetrating the inside, and a horizontal connecting rod 22 is inserted into the fixed frame 21-1 to be fixedly coupled Can be.

In this case, the user may insert the horizontal connecting rod 22 into the fixed frame 21-1 to slide the horizontal connecting rod 22 in the left and right direction, and thus the length of the horizontal connecting rod 22 can be finely adjusted. Can be adjusted.

That is, as shown in Fig. 4c, when the horizontal connecting rod 22 is moved by a predetermined interval in the direction of the height adjustment connecting rod 24, the height adjustment connecting rod 24 coupled to one end of the horizontal connecting rod 22 is in the same direction. It can be moved by the same interval, and thus, the holder 30 and the seeding module 40 coupled to the height adjustment connecting rod 24 can be moved by a predetermined interval in the outer direction of the ridge forming part 10.

For reference, although not shown in Fig. 4c, if the horizontal connecting rod 22 is moved by a predetermined interval in the opposite direction of the height adjustment connecting rod 24, the holder 30 and the seeding module ( 40) can be moved in the direction of the plinth forming part 10.

In addition, the other side of the horizontal connecting rod 22 is further provided with a plate-shaped angle adjusting means extending substantially parallel to the height adjusting connecting rod 24, and the angle adjusting means includes a plate having an opening formed with a screw thread and such an opening. It is composed of a screw coupled through, and one end of the screw to be coupled is in contact with one surface of the height adjustment connecting rod 24. Therefore, it is possible to adjust the position of the screw through the clockwise or counterclockwise rotation of the coupling screw, and accordingly, detailed angle adjustment of the height adjustment connecting rod 24 can also be easily implemented.

For reference, a preferred sowing angle may be determined according to the crop to be sown, and the conventional sowing machine could not satisfy the angle preference according to such sowing plants, but according to the sowing machine 100 according to an embodiment of the present invention The height adjustment connecting rod 24 on which the seeding module 40 is directly/indirectly mounted can be easily adjusted at an angle, thereby further improving user satisfaction and a crop planting environment.

5A and 5B are side views of a seed drill 100 according to an embodiment of the present invention.

5A and 5B, the hydraulic cylinder 23 or the piston rod 23-2 may lift the seeding module 40 upward or downward depending on whether or not hydraulic pressure is supplied.

For example, the hydraulic cylinder 23 or the piston rod 23-2 can receive pressure from the outside (for example, the tractor T) according to the operation of the hydraulic system by the user, and use the provided pressure. Thus, while the piston rod (23-2) is withdrawn in the outer direction of the hydraulic cylinder (23), the seeding module (40) can be elevated in the upper direction.

That is, in a conventional seeding machine, a duduk blade and a seeding module are integrally provided to form a duduk, so that the lifting and lowering of the duduk blade and the seeding module are performed at the same time. Had to be performed separately, which greatly reduced the efficiency in the actual working environment.

Therefore, in order to solve this problem, according to the seed drill 100 according to an embodiment of the present invention, by the hydraulic operation of the hydraulic cylinder 23 in the upper direction, the pits forming part 10 and the seeding module 40 ) Can be driven independently, and the tractor T is advanced while raising the seeding module 40 at the edge of the field as shown in FIG. 5B, and the edge of the field as shown in FIG. 5A In accordance with the sowing module 40 can be lowered. Accordingly, according to the present invention, since the sowing operation can be started from the edge of the field for cultivation of crops, the efficiency of the operation can be increased and the yield of the crop can be increased.

As described above, according to the seeding machine 100 according to an embodiment of the present invention, by installing a cover and a seeder respectively at the rear of the tractor T, it is possible to simultaneously perform the dug forming operation and the seeding operation, and also for cultivation. By finely adjusting the distance, height, angle, etc. of the seeding module according to the type of crop, the efficiency of the seeding operation can be maximized.

In addition, according to the planter 100 according to an embodiment of the present invention, since the structure is simple and the user's operation is easy, the productivity and reliability of the planting operation and the seeding operation can be further improved.

In addition, according to the seeding machine 100 according to an embodiment of the present invention, the seeding module can be independently moved up and down using a hydraulic system to start the seeding operation from the edge of the field, thereby increasing the efficiency of work. It can increase crop yield.

As described above, an optimal embodiment has been disclosed in the drawings and specifications. Although specific terms have been used herein, these are only used for the purpose of describing the present invention, and are not used to limit the meaning or the scope of the present invention described in the claims. Therefore, those of ordinary skill in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical scope of the present invention should be determined by the technical idea of the appended claims.

100: seeder 10: ridge formation
11: Pile support 12: Pile shovel
20: connecting rod 21: vertical connecting rod
22: horizontal connecting rod 23: hydraulic cylinder
21-1, 23-1: fixed frame 23-2: piston rod
24: height adjustment connecting rod 30: cradle
40: sowing module T: tractor

Claims (6)

As a seed drill 100,
A padding forming part 10 coupled to the rear of the tractor T to form a paddock while being towed according to the movement of the tractor T;
A connecting rod 20 coupled to an upper end of the plinth forming part 10;
A cradle 30 detachably coupled to at least one region of the connecting rod 20 and extending in the width direction of the tractor T; And
Including a seeding module 40 detachably coupled to the lower end of the cradle 30,
The seeding module 40 is characterized in that supplying at least one of seeds and fertilizers accommodated therein to the soil according to the movement of the tractor T,
Seeder (100). The method of claim 1,
The connecting rod 20,
A vertical connecting rod 21 extending in a vertical direction from an upper end of the ridge forming portion 10;
A horizontal connecting rod 22 whose one end is rotatably connected to one end of the vertical connecting rod 21 through a hinge member; And
Containing a hydraulic cylinder 23 diagonally connecting the other end of the vertical connecting bar 21 and the other end of the horizontal connecting bar 22,
Seeder (100). The method of claim 2,
Including a piston rod (23-2) coupled to be movable up and down on the inside of the hydraulic cylinder (23),
The piston rod (23-2) is characterized in that it is formed to extend in the longitudinal direction of the hydraulic cylinder (23) depending on whether the hydraulic pressure is supplied,
Seeder (100). The method of claim 2,
At least one of the vertical connecting rod 21 and the hydraulic cylinder 23 is provided with hollow fixing frames 21-1 and 23-1 for fixing the horizontal connecting rod 22 through screw coupling. ,
Seeder (100). The method of claim 2,
The connecting rod 20,
Including a height adjustment connecting rod 24 for interconnecting the horizontal connecting rod 22 and the cradle 30,
The height adjustment connecting rod 24 is characterized in that it is formed to be able to adjust the height in the vertical direction,
Seeder (100). The method of claim 1,
The ridge forming part 10,
A plinth support 11 extending along the width direction of the tractor T; And
It is provided at the lower end of the pile support (11) and includes a plurality of pyeonyok shovel (12) to form a pate according to the movement of the tractor (T),
Seeder (100).

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