KR101031361B1 - Apparatus for sowing - Google Patents

Abstract

PURPOSE: A sowing apparatus is provided to enable an operator to easily drill a hole in the surface and to insert garlic into the hole. CONSTITUTION: A sowing apparatus comprises: a housing(20); a seeding plate(30) which is installed in the housing in order to slide forward and backward; a settling member(40) which is perpendicularly projected from the seeding plate; a punching member(50) which is installed in the housing in order to ascend and descend; a discharge member(60) which is installed in the housing in order to ascend and descend; a driving part(70) which is linked with the discharge member and slides the seeding plate; a first elastic member offering elastic force in the direction that the punching member rises; and a second elastic member offering elastic force in the direction that the discharge member rises.

Description

Sowing device {Apparatus for sowing}

The present invention relates to a sowing device, and more particularly, to a sowing device for easily sowing seeds such as garlic to the ground.

In general, garlic is a perennial herb of the family Liliaceae, which is composed of scales in the ground and stems on the ground. The scales in the ground are 5 to 6 pages, which are used as tonic, but most of them are used to make spices. do. Recently, garlic powder is used, and the main ingredient is synthesized and used for medicinal purposes.

Sowing of these garlic usually depends on the manual work of the operator. The worker crushes the ground to a certain depth using a homina plow, etc., then puts the garlic selected individually on the crushed ground, and covers the soil sowing.

The above-mentioned seeding method takes too much seeding time, manpower, etc., which leads to a loss of the labor force of the farm, which causes a problem that the profitability of garlic farming is weakened.

The present invention has been made to improve the above problems, and an object of the present invention is to provide a seeding device that can be easily drilled holes in the ground, and inserting garlic into the holes.

The seeding device according to the present invention for achieving the above object is installed in the housing and the housing so as to be slidable in the front-rear direction, the upper surface so that a plurality of seed to be seeded at a position spaced apart from each other along the front-rear direction. A seeding plate provided with a through hole of the seeding plate corresponding to the edge of the through hole so that the seed can be seated in the through hole protrudes in the direction of the center of the through hole, but flexible to bend by external force And a seating member, a perforating member installed in the housing so as to move up and down in a vertical direction, and forming a planting hole for inserting the seed into the seeding ground when descending, and the seed in the planting hole formed by the drilling member. It is installed to move up and down in the housing corresponding to the upper side of the seeding plate to insert the A discharge member for lowering the lower part of the seed member seated in the through hole by the seating member to discharge the seed plate downwardly through the through hole, and the lower side of the discharge member when the discharge member is lowered; A drive unit interlocked with the discharge member to slide the seed plate so that the through hole on which the seed is seated, and installed in the punch member, provides elastic force in a direction in which the punch member is raised when the punch member is lowered. And a second elastic member installed on the discharge member and providing an elastic force in a direction in which the discharge member rises when the discharge member is lowered.

The punching member is formed to be flexible, and the housing further includes a guide member for guiding the seed discharged through the through hole by the lower end of the punching member and the discharge member downward.

The guide member is located below the seeding plate at a position corresponding to the lower side of the punching member and the discharge member, and extends in the vertical direction so that the lower end of the punching member and the seed flow therein, It is preferable that a flow path having a smaller cross section is formed, the upper surface of which is formed to be open so that the lower end of the seed and the punching member can be introduced, and a discharge hole communicating with the flow path is formed on the lower surface.

 The drive unit is coupled to the first engagement member extending in an up and down direction on an outer circumferential surface of the discharge member, a first rotation shaft rotatably supported at both ends by the housing opposite to the first engagement member, and the first rotation shaft. And a second engagement member engaged with the first engagement member, a third engagement member formed on the seeding plate and extending along the sliding direction of the seeding plate, and the housing opposite to the third engagement member. A second rotational shaft rotatably supported, a fourth engagement member fastened to the second rotational shaft and fastened to the third engagement member, a first power transmission member fastened to the first rotational shaft, and the first power A second driving force coupled to the second rotation shaft by a one-way coupling to receive the power from the transmission member to rotate the second rotation shaft, and to rotate the second rotation shaft only in the forward direction of the seeding plate; And a transmission unit installed on the first and second power transmission members and provided with a third power transmission member for transmitting the rotational force of the first rotation shaft to the second rotation shaft.

The seeding device according to the present invention can seed the garlic on the ground even if the worker does not bend the back, and can sequentially seed the garlic of the sliding seedling plate, which can save time and manpower required for sowing work. have.

1 is a partial cross-sectional perspective view of a seeding device according to the present invention,
2 is a cross-sectional view of the seeding device of FIG.
3 is a cross-sectional view of the drilling operation of the seeding device of FIG.
4 is a cross-sectional view of the operation of the discharge member of the seeding device of FIG.
5 is a cross-sectional view of the seed discharging process of the seeding device of FIG.

Hereinafter, the seeding apparatus according to the present invention with reference to the accompanying drawings in more detail.

1 to 5 show a seeding device 10 according to the present invention.

Referring to the drawings, the seeding device 10 is installed in the housing 20 and the housing 20 to be slidable in the front and rear directions, and a plurality of through holes through which the seeds such as garlic to be seeded can pass through the upper surface. 31 is provided with a seeding plate 30, a seating member 40 formed in the seeding plate 30 so that the seed can be seated in the through hole 31, and the lifting and lowering in the vertical direction Perforated member 50 is installed so as to drill the holes to be seeded on the ground, and installed in the housing 20 to move up and down in the vertical direction to press the seed seated on the seating member 40 to discharge to the ground The discharge member 60, the drive unit 70 for sliding the seeding plate 30 in conjunction with the discharge member 60, and the drilling member 50 is installed in the drilling member 50 when the drilling member (falling) It is installed in the first elastic member 81 and the discharge member 60 to provide an elastic force in the direction in which the 50 rises, and discharged When the ash 60 is lowered, the second elastic member 82 provides an elastic force in the direction in which the discharge member 60 rises, and the seed discharged from the lower end of the drilling member 50 and the seeding plate 30 are lowered. It is provided with a guide member 90 to guide the.

The housing 20 includes a case 21 having an installation space therein and a restraining block 22 installed in the case 21 to slidably restrain the punching member 50 and the discharge member 60. .

The case 21 is formed in a rectangular cross section, the installation space formed in the case 21 is the seeding plate 30, the drilling member 50, the discharge member 60, the drive unit 70, the guide member 90 It is formed in a predetermined area so that it can be installed.

At this time, the case 21 is formed so that the front surface is open to the moving direction of the seeding plate 30 so that the seeding plate 30 can be easily slid in the installation space, the lower end of the lower surface of the punching member 50 And it is preferable that the seed is formed to be open so that it can be easily drawn out to the ground.

On the rear surface of the case 21, the guide rods 23 are installed at positions spaced downward from each other so that the seeding plate 30 can be slidably installed in the front and rear directions within the installation space.

The guide rod 23 is formed in an annular bar shape having a predetermined thickness, one end of which is formed in the rear surface of the case 21 and the other end of which extends in the front direction of the case 21. At this time, the guide rod 23 is preferably extended to a length larger than the length of the case 21 so that the other end can be exposed to the outside of the case 21.

In addition, the two guide rods 23 have a length larger than the diameter of the through hole 31 so that the two guide rods 23 can be coupled to the edge of the seed plate 30 to prevent the seed plate 30 from penetrating the through hole 31. It is preferred to be spaced apart by.

The restraining block 22 is installed on the front side of the case 21 and above the guide rod 23 and is formed in a cylindrical shape extending in the vertical direction. At this time, the restraining block 22 is preferably installed to be exposed to the upper surface of the case 21 of the upper surface so that the drilling member 50 and the discharge member 60 can be easily manipulated.

The first insertion hole 24 is formed on the upper surface of the rear restraint block 22 based on the seeding plate 30 in a vertical direction so that the discharge member 60 can be inserted in the vertical direction. . At this time, the first engagement member 71 of the driving unit 70, which will be described later, is exposed to the outside of the restraining block 22 on the rear outer peripheral surface of the restraining block 22 so as to be lifted and lowered by the discharge member 60. Extending in the direction, the guide slot 27 communicating with the first insertion hole 24 is provided.

At the lower end of the first insertion hole 24, the first fixing protrusion 26 protrudes toward the center of the first insertion hole 24 so that the lower end of the second elastic member 82 to be described below is constrained.

On the other hand, the second insertion hole 25 to be penetrated in the vertical direction so that the punching member 50 can be inserted in the vertical direction on the upper surface of the restraining block 22 at a position spaced forward with respect to the first insertion hole (24) Is formed. At the lower end of the second insertion hole 25, the second fixing protrusion 28 protrudes toward the center of the second insertion hole 25 so that the lower end of the first elastic member 81 to be described later is restrained.

The seeding plate 30 is formed in a plate shape having a predetermined thickness and extends in a direction parallel to the longitudinal direction of the case 21. The front surface of the seedling plate 30 is formed at intervals corresponding to the separation distance of the guide rods 23 so that the two guide rods 23 can be inserted, the through-hole to penetrate the seedling plate 30 in the front-rear direction Are formed.

On the upper surface of the seeding plate 30, a plurality of through holes 31 are formed at positions spaced apart from each other along the longitudinal direction of the seeding plate 30. The seed is discharged downward of the seeding plate 30 through the through hole 31. Meanwhile, in the illustrated example, the through holes 31 have the same size, but the size of the through holes 31 is not limited to the illustrated example, but through holes 31 having various sizes are formed according to the size of garlic. May be

The seating members 40 are respectively formed at mutually opposite positions of the seeding plate 30 corresponding to the edge of the through hole 31 so that seeds may be seated in the through hole 31, and the through hole 31 is provided. A predetermined length protrudes in the center direction of the.

The seating member 40 supports the weight of the seed, and is preferably formed of a flexible rubber material to be rotated by the pressing force supplied by the discharge member 60 so that the garlic can be discharged downward of the seeding plate 30. Do.

The punching member 50 is formed in an annular bar shape having a predetermined thickness, extends a predetermined length in the vertical direction, and is installed in the second insertion hole 25 so as to be lifted up and down. At this time, the perforated member 50 is exposed to the upper portion of the upper side of the restraint block 22 when installed in the second insertion hole 25, the lower end so as to penetrate the ground through the guide member 90 It is preferred to extend.

A third fixing protrusion 51 is formed on the outer circumferential surface of the central portion with respect to the vertical direction of the punching member 50 so that the upper end of the first elastic member 81 to be described later can be restrained.

At this time, the punching member 50 is formed in a cross section larger than the garlic seed so that the planting hole can be formed so that the seed can be planted upon contact with the ground, has a predetermined strength, the lower end by the guide member 90 to be described later It is preferably formed of a flexible synthetic resin material so that it can be easily bent.

When the drilling member 50 descends by the operator's operation, the lower end penetrates through the through hole 31 of the seeding plate 30 from which the seed is discharged by the discharge member 60 and contacts the ground with the ground. Form.

The discharge member 60 is formed in an annular bar shape having a predetermined thickness, extends a predetermined length in the vertical direction, and is installed in the first insertion hole 24 so as to be lifted up and down. At this time, when the discharge member 60 is installed in the first insertion hole 24, the upper end of the discharge member 60 is exposed to the upper side of the restraining block 22, so that when the lowering can press the upper part of the seed seated by the seating member 40 It is preferred to extend.

A fourth fixing protrusion 61 is formed on the outer circumferential surface of the discharge member 60 on the opposite side of the first engagement member 71 of the driving unit 70 to be described later so that the upper end of the second elastic member 82 to be described later can be mounted. have. At this time, the discharge member 60 is preferably formed of a flexible synthetic resin material having a predetermined strength so as to press the seed upon contact with the seed, and can be easily bent when contacting the guide member 90.

Discharge member 60 is formed in the lower end of the protective member 62 of the soft material such as a sponge to prevent the lower part of the lower portion presses the upper part of the seed by the operator's operation, to prevent the occurrence of a defect in the upper part of the seed It is.

The driving unit 70 is rotatably supported at both ends by the first engagement member 71 extending along the up-down direction on the outer circumferential surface of the discharge member 60 and the housing 20 opposite to the first engagement member 71. The first rotation shaft 75 is fastened to the first rotation shaft 75, the second engagement member 72 is engaged with the first engagement member 71, is formed on the seeding plate 30, the seeding plate A third engagement member 73 extending along the sliding direction of the 30, a second rotation shaft 76 rotatably supported at both ends of the housing 20 opposite to the third engagement member 73, and The fourth engagement member 74 fastened to the second rotation shaft 76 and fastened to the third engagement member 73 and the rotational force applied to the first rotation shaft 75 to the second rotation shaft 76. The transfer unit 170 is provided.

The second engagement member 72 and the fourth engagement member 74 are pinion gears with a plurality of gear teeth formed on the outer circumferential surface thereof, and the first engagement member 71 and the third engagement member 73 are preferably formed with pinion gears. Do. At this time, when the lower end portion of the discharge member 60 contacts the upper surface of the seed, the first engagement member 71 is separated from the second engagement member 72 to have a predetermined length so that the movement of the seeding plate 30 can be stopped. Is formed.

The transmission unit 170 rotates the second rotation shaft 76 by receiving power from the first power transmission member 171 and the first power transmission member 171 fastened to the first rotation shaft 75. The second power transmission member 172 is fastened to the second rotation shaft 76 by a one-way coupling 174 so as to rotate the second rotation shaft 76 only in the forward direction of the seeding plate 30. And a third power transmission member 173 installed on the first and second power transmission members 171 and 172 to transmit the rotational force of the first rotation shaft 75 to the second rotation shaft 76.

The first and second power transmission members 171 and 172 are pulleys, and the third power transmission member 173 is preferably a belt member installed on the outer circumferential surfaces of the first and second power transmission members 171 and 172. The second power transmission member 172 transmits the rotational force only in the direction in which the seed plate 30 advances the second rotation shaft 76 by the one-way coupling 174.

The first elastic member 81 is formed of a coil spring, the lower end is fixed to the second fixing protrusion 28, the upper end of the drilling member 50 to be fixed to the third fixing protrusion 51 of the drilling member 50 Is installed on. The first elastic member 81 is compressed when the punching member 50 descends by an operator, and provides elastic force to the punching member 50 in proportion to the compressed length. When the work by the punching member 50 is completed, the punching member 50 is lifted by the first elastic member 81 and returned to its original position.

The second elastic member 82 is formed of a coil spring, the lower end is fixed to the first fixing protrusion 26, the upper end is fixed to the fourth fixing protrusion 61 of the discharge member 60 discharge member 60 Is installed on. The second elastic member 82 is compressed when the discharge member 60 is lowered by the operator, and provides an elastic force to the discharge member 60 in proportion to the compressed length. When the work by the discharge member 60 is completed, the punching member 50 is raised by the second elastic member 82 to return to the original position.

The guide member 90 is fixedly installed at the lower housing 20 of the seeding plate 30 at a position corresponding to the lower side of the drilling member 50 and the discharge member 60, and the inside of the drilling member 50 It extends in the vertical direction so that the lower end and the seed can flow, it is formed in a conical shape is provided with a flow path 91 is smaller in cross section toward the lower side.

The upper surface of the guide member 90 is formed to be open so that the seed and the lower end of the punching member 50 can be introduced, the lower surface is formed with a discharge hole 92 in communication with the flow path (91). At this time, the discharge hole 92 is preferably formed in a size corresponding to the cross section of the punching member (50).

The lower end of the drilling member 50 descending by the operator is bent along the inner wall surface of the guide member 90, the cross section of which narrows toward the lower side, and is drawn out to the discharge hole 92 so that the seed is discharged to the lower ground of the discharge hole 92. Form a planting hole that can be planted. In addition, the seed discharged into the guide member 90 by the discharge member 60 is discharged to the ground through the discharge hole 92 along the inner wall surface of the guide member 90.

As mentioned above, the lower end and the seed of the punching member 50 are drawn to the same position on the ground by the discharge member 92 by the guide member 90.

Referring to the seeding device 10 of the present invention configured as described above in detail as follows.

The operator places the housing 20 on the ground to be seeded. Next, the operator pushes the upper end of the punching member 50 downward to lower the punching member 50. The descending punching member 50 penetrates through the through hole 31 of the seeding plate 30 from which the seed is discharged by the discharge member 60 and flows into the guide member 90. The lower end of the punching member 50 introduced into the guide member 90 is bent by the inner wall surface of the guide member 90 and drawn out through the discharge hole 92 of the guide member 90, and the guide member 90 The lower end of the punched out member 50 drawn to the outside is in contact with the ground to form a planting hole in which the seed can be planted in the ground.

When the formation of the planting hole is completed, the operator stops the operation of the drilling member 50, the drilling member 50 is raised by the elastic force of the first elastic member 81 to return to the original position.

Next, the operator pushes the upper end of the discharge member 60 downward to lower the discharge member (60). The descending force of the descending discharge member 60 is transmitted to the seeding plate 30 through the driving unit 70 so that the through hole 31 in which the seed is seated by the seating member 40 is disposed at the lower end of the discharge member 60. The seeding plate 30 is slid to be positioned.

The lower end of the discharge member 60 is in contact with the upper surface of the seed, the seed by the lowering force of the discharge member 60 bends the seating member 40 and downwards through the seeding plate 30 through the through hole 31. Discharged.

The seed discharged downward of the seeding plate 30 is introduced into the guide member 90, and is inserted into the planting hole formed in the ground by the drilling member 50 through the discharge hole 92. At this time, since a plurality of seeds are seated along the longitudinal direction on the upper surface of the seeding plate 30, it is possible to change the seeding area and to seed the seeds continuously.

The seeding device 10 according to the present invention configured as described above, the seeding device 10 according to the present invention can seed the garlic on the ground even if the worker does not bend the back, the garlic of the seeding plate 30 sliding Since it can be sowing sequentially, there is an advantage that can save the time and manpower required for sowing work.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent embodiments thereof are possible.

Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

10: seeding device
20: housing
30: sowing plate
40: seating member
50: perforation member
60: discharge member
70: drive unit
81: first elastic member
82: second elastic member
90: guide member

Claims (3)

A housing;
A seedling plate which is slidably installed in the housing in a front-rear direction, and a plurality of through-holes formed on an upper surface thereof so that the seed of garlic seed can be penetrated at positions spaced apart from each other in the front-back direction;
A seating member protruding toward the center of the through hole in the seeding plate corresponding to an edge of the through hole so that the garlic seed may be seated in the through hole, and being flexible to be bent by an external force;
A flexible perforated member installed on the housing so as to move up and down in a vertical direction and forming a planting hole for inserting the garlic seeds into the seeding ground when descending;
In order to insert the garlic seeds into the planting hole formed by the punching member is installed in the housing corresponding to the upper side of the seeding plate to be moved up and down in the lower direction, the lower end is lowered to the through hole by the seating member A discharge member which presses the seated garlic seeds and discharges them below the seeding plate through the through hole;
A driving unit sliding to the seeding plate in association with the discharge member so that the through hole in which the garlic seeds are seated is positioned at the lower side of the discharge member when the discharge member is lowered;
A first elastic member installed on the punching member and providing an elastic force in a direction in which the punching member rises when the punching member descends;
And a second elastic member installed at the discharge member and providing an elastic force in a direction in which the discharge member rises when the discharge member is lowered.
The housing is
And a guide member for guiding the garlic seed discharged through the through hole downward by the lower end of the punching member and the discharge member downward.
The guide member is
Located below the seeding plate at a position corresponding to the lower side of the punching member and the discharge member, and extends in the vertical direction so that the lower end of the punching member and the garlic seeds can flow therein, the cross-section is smaller toward the lower side Loss flow path is formed, the upper surface is formed to open so that the lower end of the garlic seed and the punching member, the lower surface is formed with a discharge hole communicating with the flow path,
The driving unit
A first engagement member extending in an up and down direction on an outer circumferential surface of the discharge member;
A first rotating shaft rotatably supported at both ends by the housing opposite to the first engagement member;
A second engagement member fastened to the first rotation shaft and engaged with the first engagement member;
A third engagement member formed in the seeding plate and extending along a sliding direction of the seeding plate;
A second rotary shaft whose both ends are rotatably supported by the housing opposite to the third engagement member;
A fourth engagement member fastened to the second rotation shaft and fastened to the third engagement member;
A first power transmission member fastened to the first rotation shaft, and the second rotation shaft is rotated by receiving power from the first power transmission member, so that the second rotation shaft can be rotated only in the forward direction of the seeding plate. A second power transmission member coupled to the second rotation shaft by a one-way coupling; and a third power transmission installed on the first and second power transmission members to transfer the rotational force of the first rotation shaft to the second rotation shaft. And a delivery unit provided with a member,
The discharge member is a seeding device, characterized in that the soft protective member is formed at the bottom to prevent the generation of a defect in the garlic seeds when contacted with the garlic seeds.

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