KR102445456B1 - Seed and fertilizer insertion grooving forming apparatus - Google Patents

Abstract

A seed and fertilizer bone forming apparatus is disclosed.
The disclosed seed and fertilizer bone forming device is a seed and fertilizer bone forming device that is provided on the lower side of a sowing machine, and forms seed and fertilizer bones while being grounded on the ground during sowing operation while advancing by the sowing machine. and a smooth stop plate provided with removal parts on both sides; Among the bottom surfaces of the stop plate, it is detachably coupled to the front of both removal parts by screws, and on the lower side, a fertilizer bone forming protrusion for forming a fertilizer trough is provided on the ground, and a L-shape upward from the rear end of the fertilizer ridge forming protrusion. It is formed to be bent upwardly, and it consists of a fertilizer discharge part provided with a fertilizer discharge passage through which fertilizer is discharged in the vertical direction therein. The fertilizer trough forming and discharging member configured to be smoothly discharged when the soil on the ground is introduced during the process of forming the fertilizer trough by the forming protrusion, and the upper end of the fertilizer discharging part has a funnel shape; And on the bottom surface of the stop plate, provided to protrude downward on the inside of both removal parts, and displaced in the left and right direction from the fertilizer bone forming protrusion, and forming the sesamoid bone in the vicinity of the fertilizer bone on the ground and adjacent to the seed bone forming protrusion; Including, provided to protrude downward from the rear end of the bottom surface of the stop plate, further comprising a drainage bone forming protrusion for forming a drainage bone, wherein the drainage bone forming projection is integrally injected into the stop plate, and a metal reinforcing plate is formed therein by insert injection Doedoe buried, the metal reinforcement plate further includes insert-injected at a site close to the outer circumferential surface along the shape of the drainage bone forming protrusion, and is provided obliquely outward from the tip to the rear end at the rear of the fertilizer bone forming part on both sides of the stopper, It further includes a cover blade that scrapes the soil excavated when forming the fertilizer trough and injects it into the fertilizer trough to cover it. In addition, the fertilizer bone-forming protrusion may further include a coating layer comprising 15 to 75% by weight of an inorganic binder and 25 to 85% by weight of a polymer binder to improve durability.

Description

Seed and fertilizer insertion grooving forming apparatus

The present invention relates to the field of a seed and fertilizer bone forming apparatus installed in a sowing machine to form seeds and fertilizer troughs, and in particular, a side that can prevent seed damage by dislocating the fertilizer trough formation protrusions and the seed trough formation protrusions in the left and right directions It provides a seed and fertilizer bone forming apparatus having characteristics such as a point where coarse fertilization is possible and a point where a cover blade for applying fertilizer bones to the stationary plate is provided integrally.

Rice farming is mainly cultivated by the method of transplanting, but the direct-sowing method is increasing, omitting the seedling process and transplanting process and directly sown rice seeds in the paddy fields where the rice is to be grown. This direct-sowing cultivation method is performed by a direct-sowing type planter.

A direct sowing machine (hereinafter abbreviated as 'seeder') is an agricultural machine that is towed and installed at the rear of a tractable passenger vehicle such as a tractor or rice transplanter, and sows and fertilizes seeds directly on the cultivated land by the power of the passenger vehicle. Usually, the ground is flat. The work of making the seedlings, sowing and fertilizing the seeds by forming a furrow, and the work of covering the sown seeds are performed collectively.

The seed bone and fertilizer bone are formed by a seed and fertilizer bone forming device operated in contact with the ground. As an example, Korean Patent Publication No. 10-1864782 (hereinafter referred to as a 'prior patent') has been disclosed.

The seed and fertilizer bone forming apparatus disclosed in the prior patent is arranged in parallel in the horizontal direction at the lower part of the seeding machine, and the plate body 10, the fertilizer bone forming protrusion 20 protruding downward in front of the bottom surface of the plate body, and the fertilizer It is formed to have the same width as the fertilizer bone formation projection immediately behind the bone formation projection and has a lower protrusion height than the fertilizer bone formation projection. It is composed of the sesamoid formation protrusion 30, the fertilizer outlet 40 formed between the manure bone forming protrusion and the sesamoid forming protrusion, and the seed outlet 50 formed at the rear of the sesamoid forming protrusion.

This prior patent discloses a layered sowing and fertilization method in which, after fertilizer is applied inside a deeply dug manure bone, the fertilizer bone is covered by the seed bone forming protrusion 30, and the seed bone is formed on the cover layer to sow the seeds therein. This is to increase the fertilization effect by taking the shape, but in reality, the fertilizer bone is not well covered, so the fertilizer and the seeds are mixed. There was a problem that significantly lowered the

In addition, since the drainage bone forming protrusion 60 located at the rear of the bottom surface of the plate body 10 has a large protrusion and a large area, it is easily worn while rubbing against the ground in the process of forming the drainage bone. In particular, in the case where the seed and fertilizer bone forming apparatus is an injection product, the wear rate is higher, and consequently, there is a problem in that the replacement cycle of the seed and fertilizer bone forming apparatus is also increased.

Patent Document 1: Registered Patent Publication No. 1864782

The problem to be solved by the present invention is to provide a seed and fertilizer bone forming apparatus in which fertilizer bone forming protrusions and seed osseous forming protrusions are displaced in the left and right directions so that side fertilization is possible.

In addition, the present invention is to provide a seed and fertilizer bone forming apparatus capable of reinforcing the strength of the trabecular bone formation protrusion by embedding a metal reinforcing plate in the trabecular bone formation protrusion by insert injection.

In addition, the present invention is to provide a seed and fertilizer bone forming apparatus capable of suppressing an increase in the number of parts and reducing the number of assembling man-hours by integrally providing a soil covering blade for covering fertilizer troughs for side-drying by injection.

In addition, the present invention is to provide a seed and fertilizer bone forming apparatus that can reduce the number of assembly man-hours as well as achieve structural simplification by integrally configuring the fertilizer bone-forming protrusion and the fertilizer discharging part.

The technical problems to be achieved in the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned can be clearly understood by those of ordinary skill in the art to which the present invention belongs from the description below. There will be.

The present invention for solving the above problems is a seed and fertilizer bone forming apparatus that is provided on the lower side of a sowing machine, and forms seed and fertilizer bones while advancing by the sowing machine while grounded to the ground during sowing,
A smooth stop plate grounded to the ground during sowing and provided with removal parts on both sides;
Among the bottom surfaces of the stop plate, it is detachably coupled to the front of both removal parts by screws, and on the lower side, a fertilizer bone forming protrusion for forming a fertilizer trough is provided on the ground, and a L-shape upward from the rear end of the fertilizer ridge forming protrusion. It is formed to be bent upwardly, and it consists of a fertilizer discharge part provided with a fertilizer discharge passage through which fertilizer is discharged in the vertical direction therein. The fertilizer trough forming and discharging member configured to be smoothly discharged when the soil on the ground is introduced during the process of forming the fertilizer trough by the forming protrusion, and the upper end of the fertilizer discharging part has a funnel shape; and
Among the bottom surfaces of the stationary plate, it is provided to protrude downward on the inside of both removal parts, and is disposed to be deviated from the fertilizer bone forming protrusion in the left and right directions, and forming the seed bone forming protrusion in the vicinity of the fertilizer trough on the ground and adjacent to it; includes; and
It is provided to protrude downwardly at the rear of the bottom surface of the stopper, further comprising a drainage bone forming protrusion that forms a drainage trough, wherein the drainage bone forming projection is integrally injected into the stop plate, and a metal reinforcement plate is embedded therein by insert injection, The metal reinforcing plate further includes an insert-injected portion close to the outer circumferential surface along the shape of the trabecular bone formation protrusion,
At the rear of the fertilizer trough forming part on both sides of the stop plate, it is provided obliquely outward from the tip to the rear end, and further includes a cover blade for raking and collecting the soil excavated when forming the fertilizer trough and injecting it into the fertilizer trough to cover it,
Among the upper surface of the stopper, the portion to which the binding bracket to be bound to the planter is coupled further includes that the thickness is thicker than that of other portions,
The fertilizer bone forming protrusion is provided with a seed and fertilizer bone forming apparatus further comprising a coating layer containing 15 to 75% by weight of an inorganic binder and 25 to 85% by weight of a polymer binder to improve durability.

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According to an embodiment of the present invention, as the fertilizer bone forming protrusions and the seed osseous forming protrusions are displaced in the left and right directions to form a structure in which side fertilization is possible, it is possible to solve the problem of damage to the seeds due to the toxicity of the fertilizer. It has the advantage of increasing the germination rate.

In addition, according to the embodiment of the present invention, there is an advantage in that the strength of the trabeculae forming protrusion, which has a relatively high degree of wear, can be increased compared to the existing one by embedding a metal reinforcing plate in the trabecular bone forming protrusion by insert injection.

In addition, according to the embodiment of the present invention, the cover blade for covering the fertilizer trough for side fertilization is integrated by injection, so that there is no need to manufacture separate parts and there is no need to assemble, so there is an advantage in manufacturing and assembling.

In addition, according to an embodiment of the present invention, by integrating the fertilizer bone forming protrusion and the fertilizer discharge part, there is an advantage in that the structural simplification can be achieved and the assembly man-hours can be reduced.

The effects of the present invention are not limited to the above effects, and it should be understood to include all effects that can be inferred from the configuration of the invention described in the detailed description or claims of the present invention.

1 is a configuration diagram of the seed and fertilizer bone forming apparatus disclosed in the prior patent;
2 is a partially exploded perspective view of the seed and fertilizer bone forming apparatus according to the present invention;
3 is a bottom perspective view of the seed and fertilizer bone forming apparatus according to the present invention;
4 is a cross-sectional view taken along line AA of FIG.
5 is an installation state diagram of the seed and fertilizer bone forming apparatus according to the present invention;

The specific aspects and specific technical features of the present invention will become more apparent from the following detailed description and examples taken in conjunction with the accompanying drawings. In the present specification, in adding reference numbers to the components of each drawing, it should be noted that only the same components are given the same number as possible even though they are indicated on different drawings. In addition, terms such as “first”, “second”, “one side”, and “other side” are used to distinguish one component from another component, and the component is not limited by the terms. . In describing the present invention, detailed descriptions of related known technologies that may unnecessarily obscure the gist of the present invention will be omitted.

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

2 is a partially exploded perspective view of the seed and fertilizer bone forming apparatus according to the present invention, FIG. 3 is a bottom perspective view of the seed and fertilizer bone forming apparatus according to the present invention, FIG. 4 is a cross-sectional view taken along line A-A of FIG. 2, and FIG. 5 is the present invention It is an installation state diagram of the seed and fertilizer bone forming apparatus according to

First, as shown in FIG. 5, the seed and fertilizer bone forming apparatus 100 according to the present invention is installed in a plurality in the left and right directions on the lower side of the seeding machine 1, so that the seeding machine 1 is grounded to the ground during the sowing operation. As it advances together, it forms seed bone and fertilizer bone.

The seed and fertilizer bone forming apparatus 100 may include a stop plate 110 , a fertilizer bone forming and discharging member 130 , and a seed bone forming protrusion 150 as shown in FIGS. 2 and 3 .

The stop plate 110 is in the form of a smooth plate and is grounded to the ground during the sowing operation, and serves as a matrix for configuring the fertilizer trough formation and discharge member 130 , the seed trough formation protrusion 150 , and the like, and has a flat bottom surface. It presses on the ground to stop it (整地).

The front of the stop plate 110 may have a convexly curved shape forward in order to reduce damage caused by impact force when colliding with an obstacle such as a stone. can be The removal unit 111 serves as a reference point for displacing the fertilizer bone forming protrusion (to be described later) and the seed bone forming protrusion 150 of the fertilizer bone forming and discharging member 130 in the left and right directions, and to cover the fertilizer bone It becomes an effective space for composing a cover space and a cover blade (to be explained later).

Fertilizer bone forming and discharging member 130 is to play the roles of manure corrugation and fertilizer discharge in parallel, and the fertilizer bone forming protrusion 131 for forming fertilizer valleys on the ground and the fertilizer discharging part 132 for discharging fertilizer to the fertilizer valleys ) is bent into an L-shape to form an integral shape.

The fertilizer bone forming protrusion 131 is bound to the stop plate 110 via a screw while being disposed in front of both removal parts 111 among the bottom surface of the stop plate 110 . The height of the fertilizer bone forming protrusion 131 is configured to be gradually lowered from the rear to the front, and the upper surface is parallel and the lower surface can be curved in an upward curved shape as the front goes forward. activity can be ensured.

The fertilizer discharge part 132 is bent upwardly from the rear end of the fertilizer bone forming protrusion 131 to form an upright shape, and a funnel-shaped fertilizer receiving part 132a for receiving the supplied fertilizer without spilling can be provided at the upper end. In addition, a fertilizer discharge passage 132b through which fertilizer is discharged in the vertical direction may be provided inside the fertilizer discharge unit 132 . Here, the upper side of the fertilizer discharge passage 132b is blocked in all directions, but the lower side may have one side open except for the bottom surface through which the fertilizer is discharged. The reason is due to the fact that the fertilizer bone formation protrusion 131 and the fertilizer discharge part 132 are integrally configured. That is, the soil on the ground flows into the lower part of the fertilizer discharge passage 132b during the process of forming the fertilizer valley in a relationship in which the fertilizer discharge part 132 is integrally formed immediately behind the fertilizer bone forming protrusion 131, and the lower end of the passage can be stopped However, if one side of the lower side of the fertilizer discharge passage 132b is opened, the soil will be discharged through this, thereby preventing clogging. The opening 132c is advantageous for smooth discharge of soil to be formed on the rear surface of the fertilizer discharge passage 132b in consideration of the progress direction of the seed and fertilizer bone forming apparatus 100 .

Since the fertilizer bone formation and discharge member 130 is detachable from the stop plate 110, it is easy to replace when damaged.

The sesamoid forming protrusion 150 is to form the sesamoid on the ground, and is provided to protrude downward on the inside of both removal parts 111 of the bottom surface of the stopper 110 . Therefore, the fertilizer bone forming protrusion 131 and the seed bone forming protrusion 150 are arranged to be shifted from each other in the left and right directions, so that the seed bone is formed in the adjacent side of the fertilizer bone, so side fertilization is possible, which is pointed out as a problem in the past It becomes possible to solve the problem of damaged seeds by fertilizer.

The front surface of the sesamoid formation protrusion 150 may be formed to be inclined backward from the top to the bottom. This is a configuration for smooth chiseling by alleviating friction with the soil during seed digging.

In addition to the above configuration, the seed and fertilizer bone forming apparatus 100 according to the present invention may further include a cover blade 170 for covering the fertilizer bone. The cover blade 170 may be provided obliquely on both sides of the rear side of the fertilizer trough forming protrusion 131 of the stopper 110. Specifically, it is provided obliquely outwardly from the tip to the rear end, forming fertilizer troughs according to the angle of inclination. The excavated soil is raked and put into the fertilizer valley. A point to be noted here is that the toning blade 170 is integrally formed with the stop plate 110 . Although it is known that a technology equipped with a soil covering means is disclosed in an existing planter, the existing covering means is of a separate configuration, so a manufacturing facility for manufacturing it and an assembly process for assembling are required, whereas the present application provides a stop plate by molding As it is integrally formed in 110, it has the advantage of not requiring a separate manufacturing facility and assembly process.

The seed and fertilizer bone forming apparatus 100 according to the present invention may further include a drainage bone forming protrusion 190 provided to protrude downwardly from the center of the rear end of the bottom surface of the stopper 110 to form a drainage bone. The drainage bone forming protrusion 190 may be integrally formed with the stop plate 110 by injection. In addition, since the drainage bone forming projection 190 has a larger volume and higher height than the previous fertilizer bone formation projection 131 and the sesamoid formation projection 150, the friction with the ground is large in the process of forming the drainage bone. The wear rate is faster than the part. In order to prevent this, the present invention can embed the metal reinforcing plate 191 by insert injection into the drainage bone forming protrusion 190 as shown in FIG. 4 . In this case, even if the non-metal part of the drainage bone forming protrusion 190 is worn, no further wear is carried out by the metal reinforcing plate 191 , so it is possible to extend the life of the drainage bone forming projection 190 .

In the seed and fertilizer bone forming apparatus 100 according to the present invention, a portion of the upper surface of the stopper 110 to which the binding bracket 101 for binding with the seeding machine is coupled may be thicker than other portions. In other words, the portion to which the binding bracket 101 is coupled is a part that supports the entire seed and fertilizer bone forming apparatus 100 and thus receives a continuous fatigue load. it will be composed

On the other hand, in the fertilizer bone forming and discharging member 130 according to the present invention, the fertilizer bone forming protrusion 131 is a site in constant friction with the ground, so it is preferable that a coating layer is formed on the surface to improve durability.

That is, the coating layer may include 15 to 75% by weight of the inorganic binder and 25 to 85% by weight of the polymer binder.

The inorganic binder is for increasing strength and durability, and 15 to 85% by weight of light calcium carbonate, 10 to 55% by weight of talc, 1 to 30% by weight of aluminum powder, 1 to 20% by weight of silica powder, 1 to 20% by weight of magnesium oxide , 1 to 20% by weight of zinc oxide, 001 to 10% by weight of potassium aluminum sulfate, 001 to 10% by weight of zeolite, and 001 to 10% by weight of alkali metal silicate.

Precipitated calcium carbonate is used to improve fillability and strength. The light calcium carbonate is preferably contained in an inorganic binder in an amount of 15 to 85% by weight. When the content exceeds 85% by weight, the strength is improved, but workability is lowered and economical efficiency is lowered. When the content of light calcium carbonate is less than 15% by weight Workability is improved, but the effect of improving fillability and strength may be weak.

Talc is used to improve fillability and impact strength. Talc is preferably contained in an amount of 10 to 55% by weight in the inorganic binder. When the content of talc exceeds 55% by weight, impact strength is improved but workability is reduced, and when the content is less than 10% by weight, workability is improved but impact The strength improvement effect may be weak.

Aluminum powder is used to prevent shrinkage of the composition. The aluminum powder is preferably contained in an inorganic binder in an amount of 1 to 30% by weight. If the content of the aluminum powder exceeds 30% by weight, the effect of reducing shrinkage is improved, but workability may be reduced, and if the content is less than 1% by weight, the workability Performance is improved, but the effect of reducing shrinkage may be weak.

Silica powder is used for long-term strength expression and durability enhancement by generating calcium silicate hydrate by pozzolanic properties and silicate ions. When the weight ratio of silica powder is increased, the early strength is lowered, but long-term strength expression and durability are increased. The silica powder is preferably contained in an amount of 1 to 20% by weight in the inorganic binder. When the content of silica powder is less than 1% by weight, the effect of improving strength and durability may be weak, and when the content exceeds 20% by weight, the effect of early strength expression is reduced.

Magnesium oxide is used to improve flame retardancy. Magnesium oxide is preferably contained in an amount of 1 to 20% by weight in the inorganic binder, and when the content of magnesium oxide exceeds 20% by weight, flame retardancy is improved, but workability and strength may be reduced, and the content of magnesium oxide is 1 If it is less than % by weight, workability and strength may increase, but the flame retardant effect may be weak.

Zinc oxide can be used for antifouling, antiseptic and antibacterial roles. The zinc oxide is preferably contained in an amount of 1 to 20 wt% in the inorganic binder. When the weight ratio of zinc oxide increases, antifouling performance is shown, and when the content of zinc oxide is less than 1% by weight, the antiseptic, antibacterial and antifouling performance effects may be weak, and when the content exceeds 20% by weight, the strength expression is reduced, It is not economical because the manufacturing cost is high.

When a small amount of aluminum potassium sulfate is added to cement, it compensates for the shrinkage of the hardened cement body and is used to prevent cracks and deterioration of durability caused by self-shrinkage and drying shrinkage of the hardened cement body. It is preferable that 001 to 10 weight% of aluminum potassium sulfate is contained in an inorganic binder. When the weight ratio of potassium aluminum sulfate increases, the expansion effect is exhibited. When the content of potassium aluminum sulfate is less than 001% by weight, the shrinkage compensation effect may be weak, and when the content of potassium aluminum sulfate exceeds 10% by weight, excessive expansion occurs. Rather, cracks may occur.

Zeolite is a porous inorganic material and acts as an adsorbent. The zeolite is preferably contained in an inorganic binder in an amount of 0.01 to 10% by weight. When the weight ratio of zeolite increases, hydrophilicity and viscosity improvement performance is exhibited. If the content of zeolite is less than 0.01 wt%, the effect of improving hydrophilicity and viscosity may be weak, and when the content of zeolite exceeds 10 wt%, workability is reduced and the manufacturing cost is high, which is not economical.

Alkali metal silicates are used to impart alkali, improve water resistance and durability. The alkali silicate is preferably contained in an inorganic binder in an amount of 001 to 10% by weight, and when the content of alkali metal silicate exceeds 10% by weight, water resistance and durability are improved, but price competitiveness may be reduced, and the content of alkali metal silicate is 001 If it is less than % by weight, the effect of improving water resistance and durability may be weak. The alkali metal silicate may be used by selecting any one or more of calcium silicate, potassium silicate, and lithium silicate.

This embodiment and the drawings attached to this specification merely clearly show some of the technical ideas included in the present invention, and those skilled in the art can easily infer within the scope of the technical ideas included in the specification and drawings of the present invention. It is obvious that all possible modifications and specific embodiments are included in the scope of the technical spirit of the present invention.

100: seed and fertilizer bone forming device 110: stop plate
111: removal unit 130: fertilizer bone formation and discharge member
131: fertilizer bone formation protrusion 132: fertilizer discharge part
132b: fertilizer discharge passage 150: seed bone formation projection
170: ventral blade 190: trabecular bone formation process

Claims (5)

A seed and fertilizer bone forming device provided on the lower side of the sowing machine, grounded to the ground during sowing, and forming seed and fertilizer bones while advancing by the sowing machine,
A smooth stop plate grounded to the ground during sowing and provided with removal parts on both sides;
Among the bottom surfaces of the stop plate, it is detachably coupled to the front of both removal parts by screws, and on the lower side, a fertilizer bone forming protrusion for forming a fertilizer trough is provided on the ground, and a L-shape upward from the rear end of the fertilizer ridge forming protrusion. It is formed to be bent upwardly, and it consists of a fertilizer discharge part provided with a fertilizer discharge passage through which fertilizer is discharged in the vertical direction therein. The fertilizer trough forming and discharging member configured to be smoothly discharged when the soil on the ground is introduced during the process of forming the fertilizer trough by the forming protrusion, and the upper end of the fertilizer discharging part has a funnel shape; and
Among the bottom surfaces of the stationary plate, it is provided to protrude downward on the inside of both removal parts, and is disposed to be deviated from the fertilizer bone forming protrusion in the left and right directions, and forming the seed bone forming protrusion in the vicinity of the fertilizer trough on the ground and adjacent to it; includes; and
It is provided to protrude downwardly at the rear of the bottom surface of the stopper, further comprising a drainage bone forming protrusion that forms a drainage trough, wherein the drainage bone forming projection is integrally injected into the stop plate, and a metal reinforcement plate is embedded therein by insert injection, The metal reinforcing plate further includes an insert-injected portion close to the outer circumferential surface along the shape of the trabecular bone formation protrusion,
At the rear of the fertilizer trough forming part on both sides of the stop plate, it is provided obliquely outward from the tip to the rear end, and further includes a cover blade for raking and collecting the soil excavated when forming the fertilizer trough and injecting it into the fertilizer trough to cover it,
Among the upper surface of the stopper, the portion to which the binding bracket to be bound to the planter is coupled further includes that the thickness is thicker than that of other portions,
The fertilizer bone forming protrusion is coated with a coating layer containing 15 to 75% by weight of an inorganic binder and 25 to 85% by weight of a polymer binder to improve durability. delete delete delete delete

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