JPH09154352A - Fertilizer application seeder - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a fertilizer application seeder, capable of seeding granular materials such as seeds of paddy rice with a good accuracy and improved in operating efficiency by keeping granular material housing grooves installed in the outer peripheral part of a rotor in a shape, having a prescribed width and assuming a saw-toothed form when viewed from the side. SOLUTION: This fertilizer application seeder is obtained by installing granular material housing grooves 20 for housing granular materials fed from a granular material feeding unit in the outer peripheral part of a rotor 19 rotating in the vertical direction so as to accelerate and release the granular materials housed in the granular material housing grooves 20 in the circumferential direction by the rotation of the rotor 19 and guide the accelerated granular materials to a plowed or a puddled field or a plowed and a clod crushed field with a guide unit and interpenetrate the granular materials to a nearly prescribed depth in the plowed or the puddled field or release the granular materials into the plowed or clod crushed field. The granular material housing grooves 20 provided in the outer peripheral part of the rotor 19 are kept in a shape, having a prescribed width and assuming a saw-toothed form when viewed from the side.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION The present invention relates to a method for accelerating the penetration of a granular material such as a rice seed or a granular fertilizer into a cultivated and submerged paddy field to a predetermined depth or into a cultivated paddy field. The present invention relates to a fertilizer sowing apparatus that releases wheat and granular fertilizer to a plowed and crushed field.

[0002]

2. Description of the Related Art In Japan, rice direct sowing cultivation techniques (systems) are broadly divided into three systems: flooded direct sowing, eclectic direct sowing, and dry rice direct sowing. The seeding work in each system is mainly performed in a soaked field (paddy field) in direct sowing, in a paddy field without flooding after cultivation in eclectic direct sowing, in a plowed or non-tillage field in dry field direct sowing. , Respectively. Since the dry field direct sowing and the eclectic direct sowing do not involve scratching, the application area is naturally limited due to water leakage and the like, but it is considered that there are few limiting factors in application in the sowing method of flooded direct sowing.

At present, as the direct flooding method, mechanical row sowing,
There are pneumatic feeding and injection type sowing, spraying with a mist machine, and sowing with a helicopter. Each of these methods is a method in which water is dropped and sown when the replaced field reaches an appropriate hardness.

[0004]

In this case, if there is a height difference on the rice field, it is difficult to finish the hardness of the field uniformly,
In addition, when the central part of the field is leveled lower, the degree of waterfall becomes insufficient, so that a certain seeding depth cannot be obtained, and the stability of germination and seedling establishment is lacking.

[0005] In terms of each direct sowing method, mechanical sowing is the deepest sowing among the above methods and can be sowed in the form of a streak, but high working efficiency is not obtained and the cost reduction effect is small. In the pneumatic injection type seeding, it is difficult to add a sufficient speed to the injected granules, and the seeding depth is shallow. The method of spraying with a mist machine and the method of spraying with a helicopter are high in sowing work efficiency, but because of sowing, sowing is uneven and sowing depth is shallow. For this reason, when a strong rain or a strong wind is encountered at the time of emergence, the emergent seeds float on the flooded water, and are often blown away, causing a serious problem in many cases. Also, if the seeding depth is shallow, the root system will be insufficiently developed, and it will be susceptible to lodging damage due to typhoons and the like.

[0006] On the other hand, rice cultivation in Japan is in a severe situation triggered by price differences between Japan and overseas, and there is a strong demand for the development of low-cost production technology. For low-cost production of rice cultivation, it is necessary to shift from the current large number of seedling transplantation (rice planting) cultivation technology systems to a direct sowing cultivation technology system that achieves significant labor savings, as well as stable production. There is a demand for the realization of technology.

[0007] In order to solve the above-mentioned problems, the applicant of the present invention has disclosed in Japanese Patent Application No. 6-83261 a method of sowing paddy rice seeds in plowed and soaked paddy fields. In a direct seeding apparatus, a granule housing groove for accommodating and discharging granules is provided on an outer peripheral portion of a rotating body that rotates in a vertical direction, and the granules are circumferentially moved by rotating the rotating body in this granule housing groove. We proposed a submerged direct sowing device that was equipped with an accelerating plate that accelerates when discharging, and that the granules that are accelerated and released by the rotation of the rotating body are guided to the rice field surface, penetrate to approximately a predetermined depth, and are seeded. .

[0008] As a result of research aimed at putting the submerged direct sowing apparatus to practical use, it was found that the main components should be improved, so that not only rice seeds but also granular fertilizers, wheat and the like were fertilized and sowed. It is an object of the present invention to provide a fertilizing and sowing apparatus that can be used.

[0009]

In order to achieve the above object, the present invention provides (1). The outer peripheral portion of a rotating body that rotates in a vertical direction accommodates the granular body supplied from the granular body supplying body. The particle storage groove for discharging the particles is provided, and the particles stored in the particle storage groove are accelerated in the circumferential direction by the rotation of the rotating body to be discharged, and the accelerated particles are cultivated or scraped by the derivative, or Provided on the outer circumference of the rotating body by guiding it to the plowed / crushed soil field so that it penetrates into the plowed / soiled field to a substantially predetermined depth or is discharged to the plowed / crushed field. The granule-containing groove to be formed has a predetermined width and has a sawtooth shape in a side view,

(2) Each saw tooth-shaped side view of the granular material accommodating groove provided on the outer peripheral portion of the rotating body is formed into an acute angle with respect to the rotation direction.

(3) With respect to the rotating direction of the rotating body, the granular material supply body is opened at the upper position of the portion where the granular material accommodating groove is downward and descends, and the derivative is opened at the lower position thereof. , Respectively.

[0012]

The fertilizing and sowing apparatus of the present invention having the above-described structure performs the following actions. . On the outer peripheral part of the rotating body which rotates in the vertical direction, a granular body accommodating groove for accommodating and discharging the granular body supplied from the granular body supply body,
It has a certain width and a saw-tooth shape in side view, and the rotation of the rotating body accelerates and discharges the particles stored in the particle storage groove in the circumferential direction, and the accelerated particles are plowing with the derivative.・ The direct seeding device (unit) can be introduced by directing to the paddy field that has been scratched and penetrating into the paddy field to a predetermined depth.
The grain direct sowing machine incorporating the above is mounted on a tractor in combination with, for example, a scraping work machine, and at the same time, the paddy rice granules are penetrated into the paddy field that has been scraped to a predetermined depth. Sowing work is performed with high efficiency and accuracy. In addition, between the rows of directly sown rice, fertilization of granular fertilizer with high efficiency and accuracy is performed. Further, the rotation speed of the rotating body is slowed to release wheat and granular fertilizer to the plowed / crushed soil field.

.. The individual particles having a sawtooth shape in a side view of the particle accommodating groove provided on the outer peripheral portion of the rotating body are formed into an acute angle with respect to the rotation direction, respectively. It is securely stored in the storage groove, and the granules are accelerated and released in the circumferential direction by the rotation of the rotating body, guided to the paddy field plowed and scraped by the derivative, and penetrates into the paddy field to almost a predetermined depth. Let In addition, the rotation speed of the rotating body is slowed to release wheat and granular fertilizer to the plowed / crushed soil field.

[0014] With respect to the rotating direction of the rotating body, by opening the granular material supplying body at the upper position of the part where the granular material containing groove is downward and descending, and by opening the dielectric material at the lower position thereof, the rotating body is rotated. The granular material received from the granular material supply body is accommodated in the granular material storage groove, and the granular material is accelerated by the rotation of the rotating body and is accelerated to be released from the derivative to the paddy field that is scarcely left in the granular material storage groove. Then, it penetrates into the paddy field to a specified depth. In addition, slow the rotation speed of the rotating body to
Releases wheat and granular fertilizers to crushed fields.

[0015]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the present invention will be specifically described below with reference to the drawings. In FIG.
Is a tractor, and a top link 2
A rotary scraping device 4 is mounted so as to be able to move up and down via a three-point link hitch mechanism including a lower link 3 and a lower link 3. Power is transmitted from the tractor 1 side to the rotary scraping device 4 via a transmission shaft 5, and the scraping rotor 6 is rotated in a predetermined (arrow) direction to perform a scraping operation. Behind the substitute rotor 6, a leveling plate 7 and a leveling rubber plate 8 are provided.

A fertilizer sowing apparatus (unit) 10 according to the present invention is mounted on a support frame 9 extending rearward from the body of the rotary scraping device 4. A plurality of sets (9 sets in this embodiment) of the fertilizer sowing apparatus 10 are provided at predetermined intervals in the horizontal direction, and each interval is adjustable.
Further, the number of the fertilizer / seeding apparatuses 10 can be increased or decreased. Further, as in this embodiment, the fertilizer sowing device 10 may be separately mounted on the rotary substitute scraping device 4 or may be integrated with the rotary substitute scraping device 4 to be configured as a dedicated machine for sowing and fertilizing sowing. Things.

The fertilizer application and seeding apparatus 10 includes a granular feeder roll 12 driven by a motor (not shown) below a granular hopper 11 containing rice seeds (which may be calper-coated seeds) or granular fertilizer. In contact with the surface of the granule delivery roll 12, the granule delivery roll 1
There is provided a granule feeding portion 14 provided with a brush 13 for making the amount of the granules accommodated in the second recess substantially constant. At the bottom of the granule feeding section 14, a granule outlet pipe 15 a for sending out the seed S fed from the granule feeding section 14 is connected and connected, and the lower end thereof has a rectangular cross section opened toward the granule discharging section 16. (See FIG. 3 (a)).

1 to 3 (b).
As shown in detail, a circular rotating body 19 having a predetermined width W is rotated in a predetermined (arrow) direction through a rotating shaft 18 rotated by a motor in a circular casing 17 having a predetermined width. It is supported. The outer periphery of the rotating body 19 is provided with a number of sawtooth-shaped granular storage grooves 20 for storing the seed S or the granular fertilizer supplied from the granular supply pipe 15b. Then, the seed S or the granular fertilizer accommodated in the granular accommodating groove 20 is accelerated and released in the circumferential direction by the rotation of the rotating body 19, and the accelerated seed S or the granular fertilizer is discharged as shown in FIG. Guide tube 2 also shown
The plant is guided to a plowed paddy field, and is penetrated into the paddy field at a substantially predetermined depth, and is directly sowed and fertilized.

The individual shape of the sawtooth shape of the grain receiving groove 20 provided on the outer peripheral portion of the rotating body 19 is
Are formed at acute angles with respect to the rotation direction. In addition, a portion where the granular material accommodating groove 20 is lowered with respect to the rotation direction of the rotating body 19, that is, FIG.
At the right side from the perpendicular passing through the center of the rotation shaft 18, that is,
The lower end of the granular material supply pipe 15b is opened at the upper position of the portion from 0 o'clock to 6 o'clock with the clock hand, and the guide pipe 21 is opened at the lower position thereof so as to approximate the width W of the granular material accommodation groove 20. doing.

Here, the granule discharging portion 16 in this embodiment is used.
Are as follows. Diameter of casing 17 = 200 mm, diameter of rotating body 19 = 18
0 to 186 mm, the outer periphery of the rotating body 19 and the casing 17
22 = 3-6 mm, width W of granule storage groove 20 = 20-30 mm, inner diameter of granule supply pipe 15b = 16
mm, granules Inner diameter of guide tube 21 = 22-30 x 22-3
0 mm, number = 32 grains receiving groove 20 forming a saw tooth in the rotating member 19, the pitch L ₂ and the depth of the granules receiving groove 20 which forms a sawtooth = 15 mm, to the casing 17 of the granules guide tube 21 Mounting angle = 15 °, granule supply pipe 15
Casing formed at the opening to casing 17
17, the linear portion L ₁ = 8 mm, and the material of the rotating body 19 is preferably foamable rubber.

In the fertilizer-seeding device 10 having such a structure, the device 10 is replaced by the rotary scraping device 4 as shown in FIG.
In combination with the tractor 1 via a three-point link hitch mechanism consisting of a top link 2 and a lower link 3, and is introduced into a cultivated, crushed, and flooded paddy field, and is replaced by a rotary scraping device 4. Simultaneously with the scraping operation, the seeds S of rice or the granular fertilizer are sowed and fertilized by the fertilizer sowing apparatus 10 on the padded surface P. In addition, the fertilizer sowing device 10
Can be integrated into the rotary scraping device 4 to be a dedicated machine for sowing and fertilizing and sowing, and the fertilizing and sowing work can be performed on the paddy surface P that has been scratched at the same time as the sowing. Of course, the fertilizer sowing apparatus 10 can be used alone, but in this case, it is necessary to introduce the fertilizer sowing work into a paddy field that has been scraped separately from the scraping work, which is disadvantageous in the work process.

In the fertilizer / seeding apparatus 10, the rice seeds S or the granular fertilizer contained in the granular hopper 11 are delivered by a granular delivery roll 12 which is rotated at a constant speed by a motor at a substantially constant rate. The powder is supplied to the particle discharge section 16 through the particle discharge pipe 15a and the particle supply pipe 15b. In the granule discharging section 16, the seed S or the granular fertilizer supplied from the granule supply pipe 15 b is supplied to the casing 1.
Inside the rotating body 19, the rotating body 19 is accommodated in the granular body accommodating groove 20 which is rotated at a constant speed around the rotating shaft 18 by the motor, and is accelerated in the circumferential direction by the rotation of the rotating body 19 to be discharged. The released seed S or the granular fertilizer is guided by the guide tube 21 and is scraped by the scraping rotor 6 to be flattened.
Then, the paddy is penetrated into the paddy field leveled by the leveling rubber plate 8 to a substantially predetermined depth, sowed and fertilized.

In this fertilization and seeding operation, about 4 to 6 seeds are sown. The number of seeds (or fertilization) can be arbitrarily set by changing the groove width of the grain feeding roll 12. Can be adjusted as appropriate. The sowing interval is determined by the moving speed of the machine, the amount of seed S or the amount of the granular fertilizer to be delivered by the granule delivery roll 12 and the rotating body 1.
The seeding is determined by the rotation speed of the rotating body 9 and the like, and the seeding can be performed by changing the amount of the seed S or the granular fertilizer delivered by the granule delivery roll 12 and the rotation speed of the rotating body 19. The fertilizing operation can be performed between the sowing lines simultaneously with the sowing or between the sowing lines separately from the sowing operation.
When the fertilization operation is performed as topdressing, the rotary scraping device 4 is not required. Further, seeds S or wheat seeds may be stored in the granular hopper 11 in place of the granular fertilizer, and the rotation speed of the granular unreeling roll 12 may be reduced to sow the plowed and crushed soil. it can. In this case, by using the rotary scraping device 4 as a rotary tilling and crushing device, it is possible to simultaneously perform tilling and crushing and fertilizing and sowing work, and a soil covering device may be connected as necessary.

The rotating body 1 of the fertilizer seeding apparatus 10 according to the present invention
FIG. 5 shows the results of testing the relationship between the rotation speed of No. 9 and the seed burial (penetration) depth, and the relationship between the drop height and the seed burial (penetration) depth when the seeds were naturally dropped. As is evident from the results, the seed burial (penetration) of the fertilizing and sowing apparatus 10 according to the present invention = the certainty of sowing has been proved.

FIG. 6 shows the test result of the dispersion ratio of the seed S discharged from the granular material guiding tube 21 on the horizontal surface when the distance between the lower end of the granular material guiding tube 21 and the sowing surface is changed. As is clear from the figure, even if the distance between the lower end and the sowing surface was changed, the dispersion in the horizontal plane was relatively small, and it was proved that there was no practical problem.

[0026]

As described above, the fertilizer / seeding apparatus of the present invention can provide the following effects.

[0027] The outer periphery of the rotating body which rotates in the vertical direction is provided with a granular body accommodating groove for accommodating and discharging the granular body supplied from the granular body supplying body, and the granular body accommodated in the granular body accommodating groove by the rotation of the rotating body. Is discharged in an accelerated manner in the circumferential direction, and the accelerated granules are guided by a derivative to a field that has been ploughed or scraped, or ploughed and crushed, and then penetrates into the ploughed or scraped field to a substantially predetermined depth. Or to release it to a field that has been cultivated and crushed, and the granular material storage groove provided on the outer peripheral portion of the rotating body has a predetermined width and has a sawtooth shape in side view. A predetermined amount of paddy rice seeds or granular fertilizer can be penetrated into the prepared rice field at a substantially predetermined depth to perform sowing at a desired depth or fertilization with a high work efficiency and evenly sowing. And because the sowing depth is almost constant, the germination is good, and because the sowing depth is relatively deep, the root system is sufficiently developed, and it is less susceptible to lodging damage due to typhoons, etc., and stable rice cultivation is achieved. You can In addition, the granular fertilizer can be fertilized to a substantially predetermined depth with high efficiency and accuracy in the paddy fields between the rows of paddy rice. Further, wheat seeds can be sown in a plowed and crushed field by reducing the rotation speed of the rotating body.

[0028] Each of the sawtooth-shaped individual shapes of the grain accommodating groove provided on the outer peripheral portion of the rotating body is formed into an acute angle with respect to the rotation direction, so that the grains supplied from the grain supplying body can be accommodated in the granular body. It is securely stored in the groove, and the rotation of the rotating body accelerates the particles in the circumferential direction to release them without leaving them in the particle storage groove. Can be penetrated to almost a predetermined depth. It is also possible to slow down the rotation speed of the rotating body and to fertilize and sow barley or granular fertilizer in a field that has been cultivated and crushed.

[0029] With respect to the direction of rotation of the rotating body, the granular material supply body is opened at the upper position of the portion where the granular material storage groove is downward and descends, and the derivative is opened at the lower position thereof. The granular material received from the granular material supply body is accommodated in the granular material storage groove, and the granular material is accelerated by the rotation of the rotating body and is accelerated to be released from the derivative to the paddy field that is scarcely left in the granular material storage groove. However, it is possible to penetrate the paddy field to a predetermined depth. In addition, the moving distance of the granules by the rotating body is extremely short, the granules can be released without damaging the granules, and it is also possible to fertilize and sow barley or granular fertilizers on a plowed / crushed field.

[Brief description of the drawings]

FIG. 1 (a) is a side sectional view of a particle discharging portion, and FIG. 1 (b) is FIG.
It is an enlarged view of the A portion of FIG.

FIG. 2 is a sectional view taken along line BB of FIG.

FIG. 3 (a) is a partial perspective view of a granular material discharge pipe and a granular material supply pipe, and FIG. 3 (b) is a perspective view of a granular material guide pipe.

FIG. 4 is a side view showing a state in which the fertilizer sowing apparatus according to the present invention is mounted on a rotary scraping device.

FIG. 5 is a graph showing the relationship between the rotation speed of the rotating body and the seed burial (penetration) depth and the relationship between the falling height and the seed burial (penetration) depth when the seeds are naturally dropped according to the present invention.

FIG. 6 is a diagram showing the distribution ratio of seeds released from the granular guide tube in the horizontal plane when the distance between the lower end of the granular guide tube and the seeding surface is changed.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Tractor 2 Top link 3 Lower link 4 Rotary substitute scraper 5 Transmission shaft 6 Replacement scraper 7 Leveling plate 8 Leveling rubber plate 9 Supporting frame 10 Fertilizer application seeding device (unit) 11 Granular hopper 12 Granule feeding roll DESCRIPTION OF SYMBOLS 13 Brush 14 Granule delivery part 15a Granule lead-out pipe 15b Granule supply pipe 16 Granule discharge part 17 Casing 18 Rotating shaft 19 Rotating body 20 Granular accommodating groove 21 Granular guiding pipe 22 Gap S Rice seeds P Rice paddy (rice surface)

Claims (3)

[Claims] 1. An outer peripheral portion of a rotating body that rotates in a vertical direction,
The granular material storage groove for accommodating and discharging the granular material supplied from the granular material supply body is provided, and the granular material accommodated in the granular material storage groove is accelerated in the circumferential direction by the rotation of the rotating body to be discharged and accelerated. The aggregates are guided to a field that has been plowed / soiled or cultivated / soiled with a derivative so that it penetrates into the plowed / soiled field to a substantially predetermined depth, or to a field that has been plowed / smashed The fertilization and sowing device, wherein the granule accommodating groove provided on the outer peripheral portion of the rotating body has a predetermined width and has a serrated shape in a side view. 2. The granular accommodating groove provided on the outer peripheral portion of the rotating body has a sawtooth shape in a side view, each of which has an acute angle with respect to the rotation direction.
The fertilization and seeding device described. 3. The grain supply body is opened at the upper position of the portion where the grain accommodating groove is downward and descends with respect to the rotation direction of the rotating body, and the derivative is opened at the lower position thereof. The fertilizing and sowing apparatus according to claim 1 or 2, which is characterized.