KR20070097248A - Garlic seeding machine - Google Patents

Abstract

A seeding machine with a reduced breakage rate of seed is provided to prevent the garlic seeds from being broken or overlapped, to achieve the relatively easy and quick seeding work, and the weight reduction of a working rod, and to allow a user to easily operate the machine. A garlic seeding machine with a reduced breakage rate of a seed includes: a body, supplied with a power from a power transfer, and having an inner receptacle; a furrow forming member, arranged in a one lower side of the body, and forming many furrows with a determined depth in a position to be seeded; a seed distribution frame, arranged in the inner receptacle of the body, and having many seed patch cups arranged on a seed distribution belt(210) in a matrix form; a seed receiving member(230), arranged in a one lower end of the seed distribution belt, and receiving a determined amount of the input seeds; a seed dropping guide tube, arranged to an extent of the row number of the matrix, and located in a other upper end of the seed distribution belt; and a soil covering member(174), covering up the seed, dropped in the furrow, with a soil.

Description

Seed planter with improved seed breaking rate {Garlic seeding machine}

1 is an external view of a seed planter according to an embodiment of the present invention

2 is an external view of the seed planter of FIG. 1 seen in the opposite direction of FIG.

3 is a view for explaining a seeding operation state of the seed planter of FIG.

4 is a plan view of the seed planter of FIG.

5 is a view for explaining the lifting operation of the seed receiving portion in FIG.

6 is a view for explaining an unwinding operation of the seed receiving part of FIG. 1.

FIG. 7 is a view provided to explain the seed seeding operation performed in the seeding frame of FIG. 1.

The present invention relates to seed planters, and more particularly to seed planters suitable for planting angular seeds such as garlic and the like.

Typically, garlic used to make medicinal or spices is classified into imported from Spain and domestically produced, and consists of scale stems in the ground and stems on the ground (garlic). Underground scale stems usually contain 5 or 6 pages of garlic kernels. Such garlic kernels are used as garlic seeds for farming garlic, and for planting efficiency, they are planted in the field by a mechanical device commonly called garlic planters.

Garlic seeds, which are sown in paddy fields or fields, grow in size and vary in size depending on where they are produced or grown, so they are much more difficult than sowing of other seeds. First of all, it is important for the success of garlic farming to be well-selected before giving garlic to the garlic planter. The worker cuts the garlic stem with scissors and cuts the scale stem by the number of pages. Then, the worker sorts the garlic seeds into large, medium and small using a wire mesh material divided into large, medium and small (aka wire mesh freezing), and then puts them into the garlic planter in order. Eventually, after the soybean garlic seeds have been planted, the feeding cups or openings for supplying the garlic are appropriately adjusted so that the middle garlic seeds are planted, and afterwards, the soybean garlic seeds are planted.

Examples of garlic planters generally disclosed in the art are disclosed in Korean Utility Model Publication No. 96-33155 and Korean Utility Model Publication No. 20-0330439.

First, the garlic planter disclosed in the Publication No. 96-33155 has a trapezoidal-type garlic supply container with a wide garlic supply side and a narrow extraction part so that the garlic is planted upright, and the two bucket through holes are taken out of the garlic. It is a structure formed in the lower side of a part. However, in the case of vertical sowing, where the garlic is rooted downward, sprouts may come out while being upside down or lying down. Applicants have found that there is no difference over several experiments. In addition, the garlic planter as described above has a structure that is difficult to sowing a lot, at the same time, also the bucket through hole of the garlic extraction portion can be frequently blocked so that when the seeding work is frequently interrupted or sowing progressed in the clogged state, so-called garlic is planted. The problem of high failure rate can be caused.

On the other hand, the garlic planter disclosed in the registration number 20-0330439 has the advantage of performing efficient garlic sowing work by automatically performing mockup work, sowing work, cover work work for garlic sowing, but handling a lot of weight It is heavy and can be often broken or overlap sowing, even if there is no progress of the manager, there is a problem that the seeding operation is performed because the power transmission occurs if the clutch is not operated.

As a result, it is not easy to check the seeding even if the seeding plant proceeds across several grooves without the garlic seeds being planted since the seed of the garlic is not in the visible position. Due to inexperienced operation, when the first gear is planted using the second gear, sparse spacing problems occur when sprouting, and garlic seeds sometimes float at the same time. Problems, for example, can happen in the spring, leaving only one and leaving the rest. In such cases, the inconvenience and economic loss of preparing and injecting much more garlic seeds can occur.

It is therefore an object of the present invention to provide an improved seed planter which can solve the problems arising in the above-mentioned conventional planters.

Another object of the present invention is to provide a seed planter with improved defect rate and overlap sowing problem.

It is a further object of the present invention to provide an improved garlic seed planter in which sowing can be done relatively easily and quickly.

It is another object of the present invention to provide an improved seed planter which is simple to operate the planter in operation and reduces the work load.

According to an exemplary technical aspect of the present invention for achieving the above objects, a seed planter suitable for sowing angular seeds such as garlic seeds and the like:

A body receiving power from the power transmitter and having an inner receiving portion;

A bone riding portion formed at a lower portion of one side of the body to form a plurality of bone riding of a predetermined depth at a position to be seeded;

It is attached to the inner receiving portion of the body, has a plurality of seed fetch cups installed on the seeding belt in the form of a matrix of rows and columns and formed at an angle with respect to the horizontal plane of the body so as to reduce the deficiency of the inclined shape A seeding frame for performing seed seeding;

A seed receiving portion for receiving a predetermined amount of seeds placed at a lower end of the seeding belt of the seeding frame and forcing the seed toward the seeding belt in response to a decrease in seed amount by seeding;

A fallout induction pipe located at the other end of the seeding belt and installed by the number of rows of the matrix to receive the seed falling from the seed fetch cup and transfer it to the seeding position;

It characterized in that it comprises a cover formed in the lower portion of the other side of the body to cover the soil raised by the bone riding on the seed falling through the fallout induction pipe.

Here, the inclination angle of the seeding frame may be variably set in a range of about 50 degrees to 70 degrees with respect to a horizontal plane, one end of the seeding frame is connected to the eccentric axis of the body and vibrated one by one for each seed fetch cup Seeds can be raised to reduce double chip sowing.

In addition, preferably, when the seed planter is connected to a conventional manager, a weight assembly may be further installed at the front of the manager to allow weight movement by height.

Preferably, the breeding belt is operated by a power source obtained from a rolling wheel of a power transmitter such as a manager or a cultivator, and the goal forming portion is operated by a power source obtained directly from an engine rotation part of the power transmitter.

According to the configuration of the seed seeding machine as described above, the seed seeding rate and the overlapping chip sowing problem is improved, so that the seeding operation is made quickly and easily.

The above and other objects, features, and operational advantages of the present invention will become more apparent from the following description of the preferred embodiments of the present invention described below with reference to the accompanying drawings.

First, Figure 1 is an external view of the seed planter according to an embodiment of the present invention. Since the mechanical device of Figure 1 is a seed planter suitable for sowing angular seeds, such as garlic seeds, it can be called as a garlic planter.

2 is an external view of the seed planter of FIG. 1 seen in the opposite direction of FIG. 1, and FIG. 3 is a view for explaining a seeding operation state of the seed planter of FIG. 1. 4 shows the planar shape of the seed planter of FIG. 1.

1 to 4, there is shown a structure in which the seed planter 100 is connected to a power transmitter 10 such as a manager or tiller which is generally supplied to rural areas.

The seed planter 100 includes a body 110, a bone formation unit 190, a seeding frame 140, a seed receiving unit 230, a fallout induction tube 180, and a cover forming unit 174. .

The body 110 receives power from the power transmitter 10 and has an inner accommodating portion for accommodating the distribution frame 140.

The golf ride forming unit 190 is installed on one side lower portion of the body 110 to form a plurality of golf rides of a predetermined depth at a position to be seeded. In the present embodiment, four rows of plow blades are rotated by the rotational power of the chain 165 to create four rows of valleys.

The seeding frame 140 is attached to the inner receiving portion of the body 110, has a plurality of seed fetch cups 212 installed on the seeding belt 210 in the form of a matrix of rows and columns to reduce the defects It is formed to form a predetermined angle with respect to the horizontal plane of the body 110 so that the seed seeding of the inclined form is performed. Here, the inclination angle of the breeding frame 140 may be variably set in a range of about 50 degrees to 70 degrees with respect to the horizontal plane, and generally achieves about 60 degrees. The other end of the breeding frame 140 is inserted into the shaft 236 to be rotatable, and one end thereof is connected to the supporting rod 158 assembled with the connecting portion 156 of the connecting bracket 159. Accordingly, since one end of the seeding frame 140 is connected to the eccentric shaft 162 of the body 110 through the support rod 158, the seeding frame 140 is vibrated at a predetermined frequency during seeding operation. . As a result, only one seed is floated for each seed fetch cup 212, so that overlapping chip seeding is reduced.

The seed receiving unit 230 receives a certain amount of seed that is placed at the lower end of the seeding belt 210 in the seeding frame 140 with the help of the ratchet mechanism 133 and reduces seed amount by seeding. Correspondingly, the seed is driven toward the seeding belt 210.

The fallout induction pipe 180 is installed at the other end of the seeding belt 210 and installed by the number of rows of the matrix to transfer the seed falling from the seed fetch cup 212 to the seeding position. As shown in FIG. 4, the fallout pipes are all four in this embodiment and are labeled as reference numerals 180, 180a, 180b, and 180c, respectively. In addition, the bottoms of the four fallout guide tubes are denoted by reference numerals 182, 182a, 182b and 182c, respectively, to clarify that the funnel-shaped top and the tubular bottom are integrated.

The cover forming unit 174 is installed on the lower side of the other side of the body 110 to cover the soil raised during the goal to the seed falling through the fallout induction pipe 180.

When the seed planter 100 is connected to the conventional manager 10, a weight weight assembly 20 may be installed at the front of the manager to move the weight by height. That is, the weight 24 is moved between the front stop bar 25 and the rear stop bar 21 of the manager along the guide rail 25. Therefore, when the operator of the manager is holding down the handle 11 and pressing down, the weight 24 is positioned near the stop bar 21 in the direction of the worker, that is, the rear stop bar 21 of the manager. The weight 24 is located in a direction away from the worker, ie close to the front stop bar 27 of the manager. The weight weight assembly 20 reduces the load and handling difficulty of the operator using the seed seeder by causing the weight weight 24 to be tilted backwards or forwards during sowing of the seed and during movement before and after sowing of the seed. .

The breeding belt 210 shown in FIG. 3 is ultimately operated by a power source obtained from the rolling wheel 2 of the power transmitter 10, and the valley formation unit 190 is the power transmitter 10. It is operated by a power source obtained directly from the engine rotation part 16 of the motor. The reason why the seeding belt 210 is ultimately operated by the power source obtained from the rolling wheel 2 of the power transmitter 10 is that seed seeding work is performed when the rolling wheel 2 proceeds in the advancing direction. To make it possible. If the power obtained from the engine rotating unit 16 is used directly, the seeding operation may be performed unless the power source is shut off by operating the clutch when the power transmitter 10 is stopped without moving. Accordingly, the chain gear 104 protruding from the hub shaft 8 of the rolling wheel 2 is a chain gear for relaying the body 110 constituting the one-side plate frame of the seed planter 100 through the connecting chain 106. Another chain gear 109, which is located inside of the relay chain gear 108 and shown in FIG. 4, is thus turned around so that the driven chain gear 116 is rotated through the connecting chain 112. Rotates. When the rotational force is transmitted by the operation of the clutch unit 118, the kinetic chain gear 143a installed in the other side plate frame (110-1 in FIG. 2) facing the body 110 rotates. When the motive chain gear 143a rotates, the driven chain gear 143 in which a plurality of chain gears are coupled to the same shaft through the connecting chain 117 finally rotates. Through the operator's chain gear shifting operation, the driven chain gear 143 shifts the connecting chain 117 between the chain gear with the largest radius of rotation and the smallest chain gear in order to allow the seeding interval to be adjusted in the same ridge. It will be located step by step. That is, when the shift operation is the same as the shift principle of the gear bicycle, the spacing between the seed sowing is adjusted.

As the driven chain gear 143 rotates, as shown in FIG. 3, the upper roller 202 for driving the seed belt 210 rotates together in a counterclockwise direction. That is, the upper roller 202 and the driven chain gear 143 are assembled on the same central axis. The upper roller 202 is supported on both sides by the elastic members 144, 146, and 148 as shown in FIGS. 1 and 4 opposite the lower roller 204 to tension the distributed belt 210. . Accordingly, the lower roller 204 also rotates. The seeding belt 210 is composed of a wide barrel belt, in which a plurality of seed fetch cups 212 are hung in a matrix of rows and columns as shown in FIG. The seed fetch cup 212 has a form of gourd or scoop made of rubber, plastic, or iron plate material to have a structure suitable for floating garlic seeds. The scoop type fetch cup 212 has a half moon shape and has a structure that can be adjusted in width so as to facilitate the large, medium and small fetch of garlic seeds (tempering). In addition, when the inclined seeding of about 60 degrees is made in four rows, the garlic seeds (seeds) are attracted to the barrel belt surface rotated between the seed fetch cups 212 to move the garlic to prevent the movement of several Between the rows of cups, ie, seed fetch cups 212, a three-dimensional triangular blindfold bar (not shown) of a thin prism-shaped iron plate may be installed. This is to ensure that only one garlic seed is accurately contained and transported in one seed fetch cup 212. For example, when two or more garlic seeds are floated in the seed fetch cup 212, the germination frame 140 is vibrated to carry only one garlic seed and the other seeds fall back to the seed receiving portion 230, Even when garlic seeds are inserted between the rows of the seed fetch cups 212, the garlic that has been transported by the vibration of the three-dimensional triangular blind bar and the seed frame 140 falls back to the seed receiving portion 230. As a result, the breaking rate is lowered and the garlic seeds are easily floated, but only one seed is transferred to one cup, so that double-chip sowing is remarkably prevented.

On the other hand, the bone formation operation to cultivate the bones and the moles of the garlic seed to be sown is achieved by rotating the four plow blades 190, 190-a, 190-b, 190-c shown in FIG. When the chain shaft 161 rotates through the chain 164 connected to the engine rotation part 16 of the power transmitter 10, the chain gear connected to the chain shaft 161 is chain 165 as shown in FIG. 2. Turn the chain gear 193. Since the chain gear 193 rotates the rotation shaft 192 of the bone formation part 190, four plow blades 190, 190-a, 190-b, which are integrally fixed to the circumference of the rotation shaft 192, 190-c) is also rotated accordingly so that four rows of bone skating operations are achieved just before the sowing of garlic seeds. Here, the bone depth at the time of the goal of the goal can be adjusted by loosening the body height setting bolt 115a and lifting the body 110 up or down as shown in FIGS. 1 and 2. Of course, it may alternatively be adjustable by manually turning the lead screw device mounted. Since the cutout 111 is formed to be inclined in the body 110, it may be moved up and down with respect to the connecting portion 16a of the power transmitter 10 as shown in FIG. 3. Here, when the body 110 is held up to the maximum height and the bolts 115 and 115a are fixed, the four plow blades do not touch the ground, which is performed when the seed planter 100 is moved to a general road.

Garlic seed sowing in a very narrow sense is achieved by both the seeding through the breeding belt 210 and the fallout operation through the fallout induction pipe 180. In other words, the golfing work and the cover work are the actions that occur before and after seed sowing. When the highest point of the seeding belt 210 is reached, the garlic seeds fall freely in the seed fetch cup 212, which falls down along the fallout induction tube 180. Garlic seeds falling four by four through the lower part of the four fallout guide pipes (182, 182a, 182b, 182c) are placed in the bone which has already been boned, and the cover forming part made of a flexible material such as rubber sheet 174 is covered with soil as it performs cover work. Thereafter, it is compacted with a constant compaction force by the pressing roller 172 of FIG.

From now on, the seed seeding operation for easily fetching garlic seeds into the seed fetch cup 212 will be described with reference to FIGS.

First, FIG. 5 is a view for explaining a lifting operation of the seed receiving unit 230 in FIG. 1, and FIG. 6 is a view for explaining an unwinding operation of the seed receiving unit 230 in FIG. 1. In addition, FIG. 7 is a view provided to explain the seed seeding operation performed in the seeding frame 140 of FIG. 1.

Referring to the drawings, one end and the other end of the seed receiving portion 230 made of a flexible material is connected to the lower end 232 and the winding roller 137 of the seed belt 210, respectively. Thus, it is possible to receive a certain amount of the seed to be introduced and to play a role to push the seed toward the seeding belt 210 in response to the reduction of the seed amount by sowing. The winding roller 137 rotates little by little in the direction of the arrow of FIG. 5 based on the operation of the ratchet gear and the ratchet stop by the driving of the ratchet gear 138 which is gradually moved in accordance with the linear motion of the connecting rod 122 of FIG. 1. Will be In accordance with the operation of the ratchet mechanism 133 consisting of the components 138, 134, 135, 132, 133, 132a, and 134a, the seed receiving portion 230a, which is squeezed inside the diaphragm frame 140-4, as shown in FIG. As the work progresses, the garlic seed (1) is poured in the direction of the arrow (A1) by raising in the direction of the arrow. Accordingly, the seed is concentrated near the lower portion of the seeding belt 210 so that the garlic seeds are easily floated in the seed fetch cup 212. This is the lifting operation of the seed receiver 230.

If the winding operation as shown in FIG. 5 continues, as shown in FIG. 6, the winding amount of the winding roller 137 is as shown in FIG. 6, so that the other end of the seed receiver 230 may not be wound further. That is, in this case, it is necessary to release the winding because there is almost no seed introduced. In that case the stop roller 139 is lifted and the ratchet stop is released. Accordingly, the ratchet gear 138 quickly rotates in the rotational direction of FIG. 6 to restore the form 230a of FIG. 7. This is the loosening operation of the seed receiver 230. On the other hand, when the seed amount is less than a certain amount in accordance with the decrease of the seed amount, a display or warning function may be added to request replenishment of garlic seeds using a photo coupler or a weight sensor.

As shown in FIG. 7, as the seed pour operation of the inclined seedling and the cushion horse is performed, an easy and rapid seeding operation is implemented, thereby minimizing or drastically reducing defects and overlap seeding.

Seed planter 100 as described above has the following advantages. First, since the bone formation work, the seeding work with a small breaking rate and overlapping chip rate, and the cover work work together at the same time, a reliable seeding work and a reduction of manpower can be achieved. In addition, since the four-row sowing is carried out once, sowing is performed quickly, and it is possible to visually check whether the garlic seeds fall out of the seed fetch cup, so that a quick replacement is possible at the time of deficiency. And since it can be attached to a paddy field manager or cultivator, which is widely distributed in farms, the operation of the machine is simplified.

Hereinafter, with reference to all the drawings at random, the operation of the seed planter 100 according to an embodiment of the present invention will be described.

Referring first to Figure 1, the worker sorts garlic seeds into large, medium, and small, and then divides the carrier bag and holds the seeds. In addition, the worker needs to precede the operation of connecting the seed planter 100 to the power transmitter 10, such as a manager in the farmhouse before going to the rice fields or fields for sowing the garlic seeds. The seed planter 100 is attached through a connecting portion (16a of FIG. 3) for separating and removing the plow (rotary) of the manager. That is, the hitch to hitch is made. In this case, considering that the state has not yet arrived at the site, the plow blade 190 is fixed using the bolt 115 so as not to touch the ground. When the power transmission 10 is a manager, it is preferable to use a reverse gear and the handle 11 is operated by turning to the opposite position. When enough oil is put in the oil tank 15, the engine unit 17 rotates, and when the brake lever 12 is placed on the brake bracket 13, the preparation for movement to the site to be sown is finished. In this case, the weight 24 is located close to the rear stop bar 21 of the manager for smooth operation. When the start of the rolling wheels (2, 2a) and the rear wheels (170, 170a) of the seed planter 100 is rotated to move. At this time, in Fig. 2, a gear shift operation for appropriately selecting the driven chain gear 143 is performed to adjust the seeding interval in advance.

The operator arriving at the site places the weight 24 on the front stop bar 27 to reduce the weight of the operation. And as shown in Figure 7 garlic seed (1) to the seed receiving portion 230 and dismantle the rear wheels (170, 170a) from the body to be in the form as shown in FIG. Of course, as shown in Figure 3 adjusts the bolts 115a on both sides so that all four plow blades 190c are located in the ground by a certain depth.

Finally, in order to start sowing, the operator places the manager in the seeding position and releases the brake lever 12. Then, the rolling wheel 2 rotates the seed planter 100 while rotating, and the valley of the seed planter 100 is started. And a seeding operation in a broad sense including a cover work. Of course, in this case, since the clutch 118 of FIG. 1 is also operated, the chain power is transmitted to the distribution belt 210.

First, the four plow blades (190, 190-a, 190-b, 190-c) is rotated to perform the bone formation process to create four rows of ridges. The chain 164 connected to the engine rotation part 16 of the power transmitter 10 shown in FIG. 1 receives the engine rotational force to drive the chain shaft 161 shown in FIG. When the chain shaft 161 is rotated, the chain gear connected to the chain shaft 161 rotates the chain gear 193 through the chain 165 as shown in FIG. Therefore, the rotation axis of the bone formation unit 190 (symbol 192 shown in Figure 1) is rotated to rotate the four plow blades 190, 190-a, 190-b, 190-c, four rows of bone riding Work is achieved. Here, the depth of the bone can be arbitrarily changed by the operator's lever operation, of course.

The power source of the seeding operation of sowing garlic seeds in four units in four rows made by the bone formation operation is generated from the rolling wheels 2 of the power transmitter 10 shown in FIG. That is, when the rolling wheel 2 starts to move forward, the chain gear 104 protruding on the hub shaft 8 of the rolling wheel 2 rotates integrally with the wheel. Accordingly, as shown in FIG. 1, the connecting chain 106 turns the relay chain gear 108 of the seed planter 100 and is located inside the relay chain gear 108 and is shown in FIG. 4. Another chain gear 109 is thus turned together so that the driven chain gear 116 rotates via the connecting chain 112. Since the clutch portion 118 is already connected, the kinetic chain gear 143a shown in FIG. 2 also rotates. Accordingly, the driven chain gear 143 finally rotates through the connecting chain 117. As the driven chain gear 143 rotates, as shown in FIG. 3, the upper roller 202 for driving the slave belt 210 rotates counterclockwise. Accordingly, the upper roller 202 and the lower roller 204 having a constant tension force are also rotated counterclockwise through the delivery belt 210. As a result, the seeding belt 210 with the seed fetch cup 212 is moved inclined (about 60 degrees) from the bottom to the top for seed seeding, so that the garlic seeds are more easily floated as compared to the vertical direction. Even if two or more garlic seeds are floated in the seed fetch cup 212 or sandwiched between rows of the seed fetch cup 212, the garlic seeds are transported, according to the operation principle as described above. This vibration causes only one garlic seed to remain safely in the seed fetch cup 212 and the remaining seeds fall back to the seed receiver 230. When the highest point of the seeding belt 210 is reached, each of the four garlic seeds falls freely in the seed fetch cup 212, and then falls downward along the ground drop guide tube 180 toward the ground. Garlic seeds falling four by four through the lower part of the four fallout induction tubes (182, 182a, 182b, 182c) are placed in the bone that has already been operated.

Four garlics are covered with soil as the cover forming unit 174 performs the cover work immediately after the four garlic seeds fall into four rows of bones. And the covered soil is compacted by the push roller 172 of FIG. This compaction makes the shoots grow better than when they are not compacted. This is because the humidity stays longer when it is compacted.

As a result, the seeding work of four rows is performed at a time by continuously performing the bone formation work, the seeding work, the cover and the pressing work. In the case of the present embodiment, four rows of seedings are exemplified, but it is possible to add or subtract up to 2 to 20 rows depending on the case.

As the seeding work progresses, the garlic seed amount gradually decreases, and thus, in addition to the inclined seeding method, a seed-pouring operation in the form of a cushion is performed as shown in FIG. 7. That is, as the connecting rod 122 of FIG. 1 moves linearly, the seed receiving part 230 is lifted as described with reference to FIG. 5, so that seeds are driven toward the seeding belt 210. When the seed pouring operation proceeds as much as the set amount of operation, as described with reference to FIG. 6, the loosening operation of the seed receiving unit 230 occurs, and the receiving space of the seed receiving unit 230 is returned to its original position.

Thus, an easy and quick seeding operation is implemented to minimize or drastically reduce deficit and overlap seeding.

Garlic planter according to an embodiment of the present invention can be subdivided for tillers and managers according to the attachment type, and has a principle of planting the garlic inclined into the bucket one by one, vibrating and dropping at regular intervals, bone, sowing Work, cover, and compaction work in succession, greatly reducing labor and production costs.

The present invention described above has been described based on the exemplary embodiment based on the illustrated drawings, but is not limited thereto, and various modifications may be made without departing from the technical spirit of the present invention by those skilled in the art. It is obvious that variations and modifications are possible, as well as other embodiments that are equivalent. For example, it is a matter of course that the detailed connection structure regarding the path of power transmission, the inclination angle of the dispatch frame and the inclination fetch for preventing the breakage can be changed or modified according to the case.

As described above, according to the seed seeding machine according to the present invention, the seed seeding rate and the overlapping chip sowing problem is improved, so that the seeding operation is quick and easy.

Claims (5)

In seed planters suitable for sowing angular seeds, such as garlic seeds: A body receiving power from the power transmitter and having an inner receiving portion; A bone riding portion formed at a lower portion of one side of the body to form a plurality of bone riding of a predetermined depth at a position to be seeded; It is attached to the inner receiving portion of the body, has a plurality of seed fetch cups installed on the seeding belt in the form of a matrix of rows and columns and formed at an angle with respect to the horizontal plane of the body so as to reduce the deficiency of the inclined shape A seeding frame for performing seed seeding; A seed receiving portion for receiving a predetermined amount of seeds placed at a lower end of the seeding belt of the seeding frame and forcing the seed toward the seeding belt in response to a decrease in seed amount by seeding; A fallout induction pipe located at the other end of the seeding belt and installed by the number of rows of the matrix to receive the seed falling from the seed fetch cup and transfer it to the seeding position; Seed planter characterized in that it comprises a cover formed in the lower portion of the other side of the body to cover the soil raised by the bone hitting the seed falling through the fallout induction pipe. The seed planter according to claim 1, wherein the inclination angle of the seeding frame is set in a range of about 50 degrees to 70 degrees with respect to the horizontal plane of the body. The seed planter according to claim 1, wherein one end of the seeding frame is connected to the eccentric shaft of the body and vibrated so that one seed is floated for each seed fetch cup so that overlapping chip sowing is reduced. The seed planter according to claim 1, wherein when the seed planter is connected to a conventional manager, a weight weight assembly is further installed at the front of the manager to allow weight movement by height. The seed belt according to claim 1, wherein the seed belt is operated by a power source obtained from a rolling wheel of the power transmitter, and the valley forming portion is operated by a power source obtained directly from an engine rotation part of the power transmitter. planter.

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