KR101147795B1 - Interval type seeding apparatus which can overturn earth - Google Patents

Abstract

The cover clay spreader according to the present invention is characterized in that it comprises a cover device (2 ') for covering the soil immediately after the seed sowing the seed while moving by the moving means (4), wherein the cover device (2') ) Is provided with the cover drive shafts 7a 'and 7b' in parallel with the wave guide drive shafts 7a and 7b in the rearward direction of the seed blasting device 2 with respect to the moving direction by the moving means 4, and the cover drive shaft 7a '. , 7b 'is rotated in conjunction with the rotation of the wave drive shafts 7a and 7b by the power transmission means 14', and covers the one-to-one correspondence with the seed feed rollers 8 to the cover drive shafts 7a 'and 7b'. The feed roller 8 'is laid out, and the cover feed roller 8' is provided with a plurality of cover inserting grooves 16 'along the circumferential surface, and the cover feed hopper 10 above the cover feed roller 8'. '(1') seed sown in the ground through cover insertion groove (18 ') when cover covering roller (8') rotates (1) Cover 10). According to the present invention, since seed such as rice seed is sown by the wave, the cover is made on the seed sown as it follows the seeded position, so that birds fly and germinate, so that the seeded rice is difficult to harm. And during the sowing period, strong sunlight can prevent the planted rice seeds from drying easily. In addition, when the water is irrigated on the front to prevent the drying of rain or rice seeds, the sprouted rice seeds can be prevented from floating on or in the water.

Cover soil digger, rice seed, sowing, cover soil feeding roller, cover soil shaft, sand type siliceous fertilizer

Description

  Interval type seeding apparatus which can overturn earth}

The present invention relates to a clay soil spreader, and more particularly, to seed soil such as rice seedlings as a seed wave, followed by soil seeding on the seeded seed while going along the seeded position.

Uncovered soil-type direct looms have already been disclosed in Korean Utility Model Registration No. 334764 (Nov. 20, 2003). However, when the rice seed is cultivated, the rice seed is simply dropped on the soil surface by using the soil-free type sowing machine.

First, it is difficult to secure safe seedlings because the sown seed is exposed to the surface of the soil as it is to feed various birds (birds).

Second, the sown seeds are easily dried and germinated due to strong sunlight during the sowing period.

Third, when irrigation of water on the front to prevent dryness of rainfall or rice seed, the minimized (sprouted) rice seed floats on or in the water, preventing normal root lubrication, resulting in low seeding rate.

Fourth, germination and germination are very poor because the rice seed sown by the surrounding soil at the time of precipitation or irrigation is buried and the oxygen (O2) is restricted, so that it is not a normal seedling.

Therefore, the problem to be solved by the present invention is to provide a cover clay seeder that can solve the above-mentioned conventional problems by covering the seed sowing seed and so on, followed by the seeded seed immediately following the seeded position. .

 A clay clay spreader according to the present invention for achieving the above object, as a clay clay spreader to cover the seed immediately after seeding the seed while moving by the moving means, specifically,

The dot drive shaft is rotated by the power transmitted from the power unit of the moving means, and a seed feed roller is arranged on the dot drive shaft, and the seed feed roller is formed with a plurality of seed inserting grooves along the circumference of the seed feed. A seed seeding device which allows the seed filled in the seed feed hopper above the roller to be seeded on the ground through the seed inserting groove when the seed feed roller rotates;

A clay drive shaft is installed in the rearward direction of the seed wave device in parallel to the seed wave driving axis in the moving direction by the moving means, and the clay drive shaft rotates in association with the rotation of the dot wave driving shaft by a power transmission means, and the cover A cover feed roller is arranged on the driving shaft so as to correspond to the seed feed roller one to one, and the cover feed roller has a plurality of cover inserting grooves formed along the circumference of the cover, and the cover covered with the cover feed hopper above the cover feed roller is formed. A covering device to cover the seed sown on the ground through the cover insertion groove when the cover supply roller rotates; And

And a harrow plate forming seedling bone at a position at which the seed is dotted while stopping the ground.

Sprockets are respectively provided on the dot wave driving shaft and the cover earth driving shaft, and the power transmission means is installed to be wound on the sprockets of the point wave driving shaft and the cover earth driving shaft as a chain.

As said cover, it is preferable to use sand-like particle | grains, and it is preferable to use a siliceous fertilizer.

According to the present invention, since seed such as rice seed is sown by the wave, the cover is made on the seed sown as it follows the seeded position, so that birds fly and germinate, so that the seeded rice is difficult to harm. And during the sowing period, strong sunlight can prevent the planted rice seeds from drying easily. In addition, when the water is irrigated on the front to prevent the drying of rain or rice seeds, the sprouted rice seeds can be prevented from floating on or in the water.

In particular, the use of siliceous fertilizers of sand particles as cover material not only reflects all the benefits of siliceous fertilizers, but also results in cracks when the natural double layer structure of the cover material and soil is hardened. Influx occurs and the initial seed germination and hair growth are extremely normal due to vigorous respiration of rice seed.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The following embodiments are merely provided to understand the contents of the present invention, and those skilled in the art will be able to make many modifications within the technical scope of the present invention. Therefore, the scope of the present invention should not be construed as being limited to these embodiments.

1 is a view for explaining a cover clay point method according to the present invention. As shown in FIG. 1, the covering method according to the present invention is characterized in that the covered rice material 120 is immediately covered along the back while blasting at least 10 abbreviated rice seeds 110 at regular intervals, for example, at an interval of about 14 cm. do.

If the cover is made so that birds fly and germinate, sown rice seed (110) is difficult to harm. And during the sowing period, strong sunlight can prevent the planted rice seeds from drying easily. In addition, when the water is irrigated on the front to prevent the drying of rain or rice seeds, the sprouted rice seeds can be prevented from floating on or in the water.

As the cover material 120, it is preferable to use a specific gravity larger than the rice seed 10 so that the rice seed 110 can be pressed appropriately from above, and using sand-type particles (sasang, 沙 像) to allow oxygen to go in and out. It is preferable. Then, as shown in FIG. 2a, when the rice seed 110 sown by the surrounding soil during precipitation and irrigation is buried in the soil 150, oxygen (O ₂ ) is restricted from entering and exiting, resulting in poor germination and germination. As shown in 2b, when the cover material 120 forms sand-like particles, the cracks occur when the natural double layer structure of the cover material 120 and the soil 150 is hardened, so that smooth inflow of air occurs, and Active breathing leads to extremely normal early germination and hair growth.

On the other hand, siliceous fertilizers are used to absorb rice during the growing season, reducing water evaporation loss through cuticles, increasing plant resistance to lowering the penetration potential of the root area (root), as well as being beneficial for stress resistance. Initial root stiffness of rice seed 110, seedlings tolerate weather disasters such as sudden low temperatures. In addition, because the cuticle-silicate layer is formed in the stem tissue and becomes stiff, the cuticle-silicate layer acts as a barrier against caterpillar moths, fungi, and mites by physical strength, and prevents fall (logging) after growth.

In particular, silicon absorption by siliceous fertilizers maintains the uprightness of the leaves, which favors colony photosynthesis, which helps to increase photosynthesis, not only makes rice resistant to pest infestation, but also increases the oxidative power of rice roots, iron and manganese. Prevents excessive absorption. Magnesium (Mg) contained in siliceous fertilizer improves rice quality and taste, and improves rice quality by controlling protein content of rice by antagonizing with nitrogen fertilizer.

Therefore, although it is preferable to use sand-type particle (gland, siliceous) siliceous fertilizer as the cover material 120, if it is not limited to this, and if it is in the form of sand-type particle | grains, sand, masato, minerals, rice hulls, etc. can be used. It may be.

3 to 7 are diagrams for explaining the uncovered soil direct loom that the applicant (former) is already registered as Republic of Korea Utility Model Registration No. 334764 (Nov. 20, 2003).

Specifically, the soil-free direct-growing machine 1 is a seed seeding device 2 for seeding the seed on the ground, and seeded at a position which is located below the seed seeding device 2 while working on the ground while stopping the ground. It consists of a harrow board 3 forming a valley.

The soil-free loom 1 is moved through a moving means 4, such as a rice transplanter or a tractor, and the seed rupture device 2 includes a main frame 6, drive shafts 7a and 7b, a seed feed roller 8, It comprises a guide frame 9, and the seed feed hopper 10.

The main frame 6 is a frame that becomes a frame of the seed scavenger 2 and has a long rectangular shape. The main frame 6 is fixed to the upper part of the support frame 5 of the rear part of the moving means 4 through the scavenger fixing plate 11. .

The dotted wave driving shafts 7a and 7b are divided into two and are arranged to be arranged in a line at the inner center portion of the main frame 6, and each of the dotted wave driving shafts 7a and 7b has a sprocket 12 and a plurality of seed feed rollers 8 ), The radial bearing 13 is built up.

The guide frame 9 is installed at the upper end of the main body frame 6, and the seed supply hopper 10 is placed on the upper part of the guide frame 9. A roller insertion groove 27 is formed in the guide frame 9, and the seed supply roller 8 is fitted into the roller insertion groove 27.

At one end of the roller insertion groove 27 is provided with a guide plate 42 consisting of an upper guide 29 and a lower guide 30, the guide plate 42 is formed with a long rectangular gap adjusting groove 43 The gap between the seed feed roller 8 and the guide plate 42 is adjusted by fastening the guide plate 42 to the guide frame 9 by fastening a screw to the gap adjusting groove 43 to adjust the seed insertion groove 16. Adjust the number of seeds inserted into the plant.

The rotation shaft 15 of the support frame 5 and the dot wave driving shafts 7a and 7b are connected by the chain 14. The rotating shaft 15 rotates directly by the power of the moving means 4, and the sprocket 12 for winding the chain 14 to transmit such rotation to the wave drive shafts 7a and 7b through the chain 14. The dot wave drive shafts 7a and 7b are provided. Of course, a sprocket for winding the chain 14 is also installed on the rotating shaft 15, the illustration is omitted.

The radial bearing 13 is a bearing used for smooth rotation when a load acting perpendicular to the shaft is normally provided on both sides of each of the wave drive shafts 7a and 7b so that the wave drive shafts 7a and 7b rotate smoothly. do.

The reason for dividing the dot wave driving shafts 7a and 7b into two is that the moving means 4 can separately drive each of the wave wave driving shafts 7a and 7b in the case where the width of the field is narrow. This is to prevent overlapping seeding on the ground by driving only 7b).

A plurality of seed feed rollers 8 are arranged in a row on each of the dot wave driving shafts 7a and 7b, and a plurality of seed inserting grooves 16 are formed at regular intervals on the circumferential surface of the seed feed rollers 8.

When the rotary shaft 15 is rotated by the power of the rice transplanter 4, the dot wave driving shafts 7a and 7b are rotated along the chain 14, and the seed feed roller 8 is rotated. At this time, the seed that has been filled in the seed supply hopper 10 falls into the ground while being filled in the seed insertion groove 16 of the seed supply roller 8.

The harrow plate 3 is fixedly installed on the connector 37 and the rice transplanter fixing shaft 33 which are protruded at the lower end of the rear frame 32 of the rice transplanter 4, and comprises an inclined plate 34 and a lower stop plate 35. do. The inclined plate 34 is inclined at a predetermined angle, and primarily stops the ground in the direction in which the rice transplanter 4 proceeds, and the connecting piece 36 and the rear frame 32 welded to the upper surface thereof. The connector 37 formed at the lower end of the fastener is fastened.

The lower stop plate 35 is placed in the horizontal direction, and one end is welded and integrally attached to the lower end of the inclined plate 34, and the seeding roller forming groove is spaced at the same interval as the interval at which the seed feed rollers 8 are arranged on the other lower part. A plurality of 38 are formed. Fixing fasteners 39 formed on the upper surface portion of the lower stop plate 35 and the fixing piece 40 of the rice transplanter fixing shaft 33 is fastened. The drainage bone forming plate 41 is installed on the lower surface of the center of the lower stop plate 35 so that the seeding bone is formed on the ground and the drainage bone is formed at the same time.

8 and 9 are perspective views for explaining the features of the clay earthenware according to the present invention, Figure 10 is a view of the bottom of the clay earthenware from the rear of the moving direction of the clay earthenware.

 The covering clay according to the present invention is characterized in that the covering device (2 ') is further installed in the uncovered type of direct wave. The cover device 2 'is provided to be located behind the seed point device 2 based on the moving direction of the cover device. The cover device 2 'is similar to the seed blasting device 2, and the main frame 6', the cover drive shafts 7a 'and 7b', the cover cover roller 8 ', the sprocket 12b and the radial bearing 13'. ), A guide frame 9 ', a guide plate 42', and a cover feed hopper 10 '.

The main body frame 6 'of the cover device 2' is connected to the rear of the main frame 6 of the seed wave device 2 with respect to the traveling direction of the moving means 4, and the cover roller 8 ' Is installed on the cover drive shafts 7a 'and 7b' of the main body frame 6 'to have a one-to-one correspondence with the seed feed rollers 8.

The cover drive shafts 7a 'and 7b' of the cover device 2 'and the dot wave drive shafts 7a and 7b of the seed dot device 2 are installed in parallel with each other and connected through a chain 14'. Sprockets 12a and 12b for fastening the chain 14 'are provided on the drive shafts 7a and 7b and the cover soil driving shafts 7a' and 7b ', respectively. At this time, the sprocket 12a installed on the wave drive shafts 7a and 7b is separate from the sprocket 12 installed to receive the power of the rotation shaft 15.

When the clay drive shafts 7a and 7b of the seed seeding device 2 are rotated while the clay spreader is moved by the moving means 4 according to the present invention, the clay drive shafts 7a 'and 7b' of the soil cover device 2 'are also shown. This is linked to rotate, so that the seed feed roller 8 and the cover soil feed roller (8 ') is interlocked with each other to cover the cover material 120 on the seed (110) sown as shown in FIG.

1 is a view for explaining the cover clay point method according to the present invention;

2 is a view for explaining the advantages of the cover clay point wave method according to the present invention;

3 to 7 are views for explaining the soil-free direct wave;

8 to 10 are diagrams for explaining the features of the covering clay according to the invention.

<Description of reference numbers for the main parts of the drawings>

1: soil-free direct drill

2: seed wicking device

3: harrow

4: vehicle

5: support frame

6, 6 ′: body frame

7a, 7b: dot drive shaft

7a ′, 7b ′: cover earth drive shaft

8: seed feed roller

8 ′: cover roller

9, 9 ′: guide frame

10: Seed feeding hopper

10 ': cover feed hopper

11: rupture device

12, 12a, 12b: sprocket,

13, 13 ′: radial bearing

14, 14 ′: chain

15: axis of rotation

16: Seed insertion groove

27: Roller insert groove

29: Upper guide

30: lower guide

42, 43 ': guide plate

43: spacing adjustment groove

110: rice seed

120: cover material

150: soil

Claims (4)

In the cover crusher which is carried by the means of transportation and sowing seeds after the seeding, The dotted wave driving shaft is rotated by the power transmitted from the power unit of the moving means, and a plurality of seed feeding rollers are arranged on the dotted wave driving shaft, and each seed feeding roller has a plurality of seed inserting grooves formed along the circumferential circumference thereof. A seed feeding hopper is installed on each of the seed feeding rollers, and the seed filling device is provided so that the seed filled in the seed feeding hopper is sown into the ground through the seed inserting groove when the seed feeding roller rotates; A clay drive shaft is installed in the rearward direction of the seed wave device in parallel to the seed wave driving axis in the moving direction by the moving means, and the clay drive shaft rotates in association with the rotation of the dot wave driving shaft by a power transmission means, and the cover A plurality of cover feed rollers are arranged on the drive shaft so as to correspond to the seed feed rollers one-to-one, and the cover feed rollers have a plurality of cover insertion grooves formed along a circumferential surface thereof, and a cover feed feed hopper is installed on each of the cover feed rollers. A covering device which covers the seed sown on the ground through the cover insertion groove when the cover filling the cover supplying hopper rotates; And And a harrow plate forming seedling bone at a position where the seed is dotted while stopping the ground. Sprockets are respectively provided on the dot drive shaft and the cover earth drive shaft, the power transmission means is a chain cover, characterized in that installed to be wound on the sprockets of the point drive shaft and cover earth drive shaft as a chain. delete The covering method according to claim 1, wherein the covering is in the form of sand-like particles. 4. A cover clay plant according to claim 3, wherein the cover soil is a siliceous fertilizer.

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