KR20140092188A - A sowing and fertilization machine for a rice transplanter - Google Patents

Abstract

The present invention relates to a sowing and fertilization machine for a rice transplanter. The sowing and fertilization machine includes: a seed planting unit which has a driving shaft to be rotated by the power delivered from the power unit of a transplanter and a plurality of seed supply rollers which are installed on the driving shaft at regular intervals, receive seeds from each seed supply hopper placed above, and plant the seeds by a certain amount onto the ground; a seed planting furrow forming unit which includes a base frame installed in front of the seed planting unit and a plurality of seed planting furrow forming plates facing the seed supply rollers back and forth in the lower part of the base frame, wherein the seed planting furrow forming plates are combined to the lower part of the base frame by a hinge to be rotatable, are installed to be elastically supported while being pressurized downward by an elastic spring, and form seed planting furrows on the ground at positions to which seeds are to be planted; a fertilizer scattering unit which has a driven shaft to be rotated together with the driving shaft while being linked to the driving shaft at the front of the seed planting unit and a plurality of fertilizer supply rollers which are installed on the driven shaft at regular intervals, receive a fertilizer from each fertilizer supply hopper, and scatter the fertilizer by a certain amount onto the ground; and a harrow plate which comprises an inclined plate and a lower grading plate, is connected to and mounted in the lower part of the rear of the transplanter, forms drainage furrows while grading the surface of the ground, forms fertilizer scattering furrows at positions to which the fertilizer is to be scattered, and covers the fertilizer with soil.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a saucer-type fertilizer machine for a rice transplanter,

The present invention relates to a device for dispersing and spraying fertilizer between seeds of a variety of crops such as rice seeds in multiple rows on a cropland while spraying a portion sprayed with fertilizer, The seeds are supplied from the seed supply hoppers provided at the upper part and the seeds are supplied to the lower part by a predetermined amount A plurality of seed seeding plates are provided in a lower portion of the base frame in correspondence with a plurality of seed feed rollers and a plurality of seed seeding corrugated plates corresponding to front and rear sides of the base frame, And is urged downward by an elastic spring in a state of being pivotably hinged to the lower portion of the base frame And a driven shaft rotatably connected to the driving shaft by driving means and disposed in front of the seed spindle, wherein the driven shaft is provided at a position where the seed is splayed, A fertilizer spreader which feeds the fertilizer from each of the fertilizer supply hoppers provided at the upper portion to a lower portion and distributes the same in a predetermined amount by a predetermined amount, a slope plate and a lower stop plate, And a drill plate for forming a drainage valley while stopping the ground surface and forming a fertilizer dissemination point for each fertilizer application position and performing a soil treatment.

Generally, a straight-line machine is a device for cultivating crops by spraying seeds of crops such as rice seeds directly to agricultural lands while being pulled by a pulling device such as a rearing machine or a tractor. It is effective.

Conventionally, a direct shearing machine capable of directly dispersing seeds on agricultural land has been conventionally designed by the present applicant and registered with the Korean Registered Utility Model Registration No. 20-0334764. However, the above conventional shearing machine for a rice making machine has a problem that, The seeds are gradually diffused at regular intervals so that the seeds are dispersed at regular intervals, and then the operator manually dispenses the fertilizers at intervals at intervals of the seeds, so that the fertilizer is additionally fertilized after the seeds There is a problem that a lot of time and labor are required in the process.

In order to solve such a problem, Korean Registered Utility Model Registration No. 20-0461002, which was proposed and registered by the applicant of the present invention, pre-registered in Korean Registered Utility Model Registration No. 20-0461002, is a sawing machine for picking up seeds and stopping the ground, And a seed feed roller having a plurality of seed insertion grooves formed along a circumferential surface of the drive shaft, the seed feed roller being disposed at a predetermined interval Wherein a plurality of feed rollers are disposed between the plurality of seed feed rollers, and a plurality of feed rollers, each having a plurality of feed rollers formed along a circumferential surface thereof, are axially spaced apart from each other and spaced apart from each other, And a seed feed hopper is provided at an upper portion thereof, Feeds a certain number of seeds from the feed hopper part and feeds the fertilizer through the seed inserting groove every time the seed feed roller rotates and feeds the fertilizer to the upper part of each of the fertilizer feed rollers, A seed fertilizer hopper which receives a predetermined amount of fertilizer from each of the fertilizer supply units and scatters the fertilizer at intervals of a predetermined interval between portions where the seeds are scattered through the fertilizer insertion grooves each time the fertilizer supply roller rotates; A seeder for seedling and a fertilizer sponge composed of a harness plate for forming a seeding seed at a position where the seed is scattered and forming a fertilizer dissemination score at a position where the fertilizer is scattered, .

However, in the conventional rice seed and fertilizer sprocket, a plurality of seed seeding grooves formed at the rear end portion of the one-plate harness plate are formed at regular intervals, Seed Sowing In the process of forming a plurality of seed sowing cores as the osteosynthesis groove passes over the ground, if a stone or hardly consolidated soil protrudes on any one of the ground, the harrow plate hits the stone or soil, There is a problem that the seeds are not completely formed in the part where the stones or the soil are present and the impact is transmitted to the whole of the harness plate as a whole, so that the harness plate is easily damaged or the welded parts are broken and separated. The fertilizer seeding grooves are formed at regular intervals in the harness plate of the fertilizer seeding type, The fertilizer, which is scattered in the part where the fertilizer seeding bone is formed by the grooves, is kept exposed to the outside, and when the wind is blown, the fertilizer made of the powder component in the small particle state is easily blown out to the outside.

Disclosure of the Invention The present invention has been made in order to solve the above-mentioned problems, and has as its object to provide a seed seeding-forming unit for seed-seeding bone formation on the ground at a position where seeds are scattered in front of a seed- The seedling forming part has a long rectangular frame shape, and a plurality of seed supplying rollers and a plurality of seeding seeding forming plates are provided on the lower part of the base frame fixedly mounted on the supporting frame of the herbivore, Seeding plate is stably seeded, even when one seed-disseminated bone-forming plate strikes the soil that has been seeded in the base so that the seed- In the case of being pressed downward by the elastic spring in the joined state and being elastically supported and striking the stone or the soil And the first and second fertilizer cover plates are installed on both sides of the left and right sides of the plurality of the fertilizer feed pipes which penetrate through the rear end portion of the harness plate so that the fertilizer seeding fertilizer sprayed on both sides It is an object of the present invention to prevent dust from being blown up by the wind in order to prevent the fertilizer,

In order to achieve the above object, there is provided a seed feed hopper having a plurality of seed feed rollers installed at an upper portion thereof and having a drive shaft rotated by a power transmitted from a power portion of a pasturing machine, And a plurality of seed seeding forming plates corresponding to the front and rear of the seed feeding rollers are provided in a lower portion of the base frame, And each seed-disseminated bone-forming plate is hinged to a lower portion of a base frame so as to be rotatably hinged thereto, and is elastically supported while being pressed downward by an elastic spring so that seed seeding bone is formed on the ground at every position where the seeds are scattered A seed seeding bone formation part, and a drive shaft connected to the seed spindle part in front of the drive shaft A fertilizer spreader for feeding a fertilizer from each of the fertilizer supply hoppers provided with a plurality of fertilizer supply rollers provided at a predetermined interval to the driven shaft and dispersing and dispensing the same at a predetermined amount, And a lower stopper plate connected to the rear lower portion of the rice mill to form a drainage valley while stopping the ground surface and forming a fertilizer seeding bed for each fertilizer spreading site, have.

As described above, according to the present invention, there is provided a seed seeding bone forming part forming seed seeding bones on the ground at positions where the seeds are scattered in front of the seed spanning part which breaks several lines at regular intervals, A plurality of seed feed rollers and a plurality of seed seeding plates are provided at the lower part of the base frame fixedly mounted on the support frame of the herringbone in the shape of a frame having a long rectangular shape to the left and right. Even when a seed-disseminated bone-forming plate collides with one of the seed-disseminated bone-forming plates, the other seed-disseminated bone-forming plates can stably form seed-seeded bone, and each of the seed-disseminated bone-forming plates is rotatably hinged And is elastically supported while being pressed downward by an elastic spring, so that even when striking a stone or soil, And the first and second fertilizer covering plates are provided on both sides of the left and right sides of the plurality of the feed pipes provided through the rear end portion of the harness plate so that the fertilizer seeding sprinkled with fertilizer is collected from both sides , There is an effect that the fertilizer made of the powder component can be prevented from being blown away by the wind by overlapping in the second order.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a side schematic view showing a state in which a combing-purpose combiner for a rice-
Fig. 2 is a perspective view showing a disassembled state of a seed pointing portion in a biosynthesis type combiner according to the present invention
Fig. 3 is a perspective view showing a decomposition state of the seed-disseminated bone formation part in the biodegradable combing-type combiner according to the present invention
FIG. 4 is a perspective view schematically showing the disassembled state of the fertilizer dispensing part in the biodegradable combing-
Fig. 5 is a perspective view of a perspective view showing a harness plate of a combing-purpose combing-type geared machine according to the present invention
FIG. 6 is a rear schematic view showing a state in which a combing-purpose combiner for a rice-making machine according to the present invention is mounted on the rear side of a conventional rice-
7 is an enlarged schematic view of the "A" portion of Fig. 6
8 is a perspective view showing another embodiment of the lower stopper plate in the biodegradable combing-type perforator according to the present invention.
FIG. 9 is a rear schematic view showing a state in which the lower stopper plate of another embodiment is mounted on the rear side of a typical rice-growing machine, in the rice-growing combi-
Fig. 10 is a schematic plan view showing a state in which seeds are scattered on a ground surface by a combing-purpose combiner for a rice-growing machine according to the present invention and fertilizer is sprayed therebetween

Hereinafter, a preferred configuration according to the present invention will be described in detail with reference to the drawings.

As shown in FIGS. 1 to 10, the seedling combing combiner 1 of the present invention is pulled by a moving means such as a normal rearing machine 2, while the seeds of various crops, such as rice seeds, A device for dispersing and distributing fertilizer between the seeds and dispersing and spraying the fertilizer is provided at the rear upper part of the herbicide (2). By the power transmitted from the power part of the herbicide (2) A plurality of seed feed rollers 11 rotated at predetermined intervals on the drive shafts 7a and 7b are rotated to feed the seeds from the respective seed feed hoppers 12 provided at the upper part, A plurality of seed feed rollers 11 and a plurality of seed feed rollers 11 are provided at a lower portion of the base frame 20, Bring back Seed seeding plate 21 is installed and each seeding seeding plate 21 is pressed downward by an elastic spring 28 in a state of being hinged to the lower portion of the base frame 20 so as to be rotatable A seed seeding bone forming part 19 which is provided so as to be elastically supported so as to form seed seeding bones on the ground surface at positions where the seeds are scattered; a driving shaft 7a, 7b and driving means A plurality of fertilizer supply rollers 37 provided on the driven shafts 35a and 35b at predetermined intervals and provided with driven shafts 35a and 35b which are connected to the rotary shafts 15a and 15b, A fertilizer spreader 33 that feeds the fertilizer from the hopper 38 and distributes the fertilizer to the lower portion by a predetermined amount, a slope plate 49 and a lower stopper plate 53, To form drainage valleys, and for each location where fertilizer is sprayed, And it consists of a harrow plate 48 to process-applied.

As shown in FIGS. 1, 2 and 6, the seed spot wave part 3 is fixed to the upper part of the support frame 4 provided at the back of the conventional rice-growing machine 2, A main frame 6 fixed to the upper surface of the pedestal 5a provided on the upper part of the support frame 4 behind the elevator 2 is installed so as to be positioned horizontally, The frame 6 is horizontally laid horizontally in the form of a rectangular frame having a long rectangular shape and a drive shaft (not shown) rotated by the power transmitted from a power unit (not shown) The drive sprockets 8 and the interlocking sprockets 9 and the radial bearings 10a and 10b are arranged in a row in a state where the drive shafts 7a and 7b are divided into two, ) And a plurality of seed feed rollers (11) The seed feed rollers 11 are integrally rotated together with the drive shafts 7a and 7b and a seed feed hopper 12 is installed on the seed feed rollers 11 And a seed guide tube 13 is provided under each of the seed feed rollers 11 so that the vertical direction of the seed feed rollers 11 is perpendicular to the longitudinal direction of the seed feed rollers 11, So that the seeds are guided so as to be scattered downward.

6, the driving sprocket 8 is connected to the rotary shaft 14 of the support frame 4 by driving means 15a such as a chain or a belt, The driving force transmitted from the driving shaft 7a and 7b rotates the driving shaft 7a and 7b through the rotary shaft 14 and the interlocking sprocket 9 is moved to the driven shafts 35a and 35b of the fertilizer dispensing unit 33 The driven sprocket 36 is connected to the driven sprocket 36 by drive means 15b such as a chain or a belt so that the rotational force of the drive shafts 7a and 7b is transmitted to the driven shafts 35a and 35b to be rotated together, As shown in FIGS. 2 and 6, the radial bearing 10a is a bearing used for smooth rotation when a load acting normally on the shaft is received. The radial bearing 10a is provided on both left and right ends of the drive shaft 7a The drive shafts 7a and 7b are supported so as to smoothly rotate the drive shafts 7a and 7b All.

When the driving shaft 7a or 7b is divided into two as described above and the driving shaft 7a or 7b is driven separately in the herringbone 2 so that the width of the agricultural land is narrow, 7b to prevent the seeds from overlapping on the ground surface.

1, 2, and 6, the plurality of seed feed rollers 11 are detachably disposed on the drive shafts 7a and 7b at predetermined intervals, and a plurality of seed feed rollers 11 are formed on the circumferential surface of each seed feed roller 11, A plurality of seed inserting grooves 16 are formed at intervals in the longitudinal direction of the seed feed hopper 12 so that a certain amount of seed supplied from the seed feed hopper 12 is inserted into the seed feed groove 16, .

1, 2 and 6, the seed feed hopper 12 is positioned above the plurality of seed feed rollers 11 so that the seeds stored therein can uniformly control the seed feed rollers 11 The seed feed roller 11 is connected to a lower portion of the hopper so that a predetermined amount of seed is injected and stored therein. The seed feed hopper 12 is fixedly connected to the seed hopper 12 by a lower fixed plate 17a fixed to an upper end of the main body frame 6, The seed feed hopper 12 is connected to the lower fixing plate 17a in a forward and rearward positional shift manner to adjust the amount of seed to be inserted into the seed insertion groove 16 of the seed feed roller 11 The seeds 18a are interposed so that the seed stored in the seed feed hopper 12 is regulated in a certain amount by the supply amount regulating plate 18a and the seeds Is inserted into the seed guide tube (16) and is passed through the seed guide tube (13) to be scattered on the seed seeding bone on the ground.

As shown in FIGS. 1, 3, 6 and 7, the seed-dissolving bone forming part 19 is a part for forming a seeding seed to which seeds that are scattered in multiple lines are seeded by the seed spot wave part 3, A base frame 20 provided in front of the dotted wave portion 3 is provided and a plurality of seed seeding corrugated plates (not shown) are formed in a lower portion of the base frame 20 in correspondence with a plurality of seed feed rollers 11 21 are installed on the base frame 20 so that each of the seeding seeding plate 21 is elastically supported while being pressed downward by an elastic spring 28 in a state of being pivotally hinged to the lower part of the base frame 20, Seeding seeds are formed at a certain depth on the ground for each position where the seeds are scattered.

As shown in FIGS. 3 and 6, the base frame 20 is vertically erected in the form of a rectangular frame having a long rectangular shape, and the mounting bar 22 protrudes inward and downward on both left and right sides of the base frame 20, And the mounting bar 22 is fixedly installed on the upper part of the support frame 4 at the rear of the upper part 2. The lower part of the base frame 20 is provided with a plurality of A plurality of seed spreading corrugated plates 21 are provided at left and right intervals so as to correspond to the seed feed rollers 11 in the front and rear directions.

In each seed-dissolving bone formation plate 21, a seeded seed-forming groove 23 is formed in a rearwardly inclined state and a downwardly oriented seed-seeding groove forming groove 23 in an upwardly inclined state. And the upper extension plate 24 is fixed to the lower portion of the base frame 20 by a pair of fastening pieces 25 fixedly attached to the lower portion of the base frame 20 at a predetermined distance A pair of fastening pieces 25 and a pair of projecting pieces 26 are inserted into the hinge shaft 26 with the projecting pieces 26 fixedly attached to both left and right sides of the end portion of the upper extension plate 24 interposed therebetween, 3 and 7, the seed-dissolving corrugated plate 21 is rotatably hinged around the hinge shaft 27. The seed-dissolving corrugated plate 21 is rotatably hinged about the hinge shaft 27, One end of the elastic spring 28 is connected to the upper extension plate 24 in a state where the elastic spring 28 is fitted, And the other end of the elastic spring 28 is coupled to the upper portion of the clamping piece 25 so as to be resiliently supported on any one of the plurality of fastening holes 29 punctured at regular intervals in the longitudinal direction, The upper extension plate 24 of the seed-dissolving corrugated plate 21 is elastically supported downward by a resilient spring 28 with a constant force while adjusting the elastic force of the elastic spring 28 according to the above-described configuration.

The pair of fastening pieces 25 are integrally fixed to the lower surface of the support plate 30 and the support plate 30 is located at a lower portion spaced apart from the upper extension plate 24 by a predetermined distance, A nut 31 is embedded in the extension plate 24 so that the adjustment bolt 32 is screwed into the nut 31 and the lower end of the adjustment bolt 32 passes through the nut 31, And the inclination angle of the upper extension plate 24 is adjusted by releasing or tightening the adjustment bolt 32 so that the angle of the seeding seeding plate 21 connected to the lower portion of the upper extension plate 24 Respectively.

As shown in Figs. 1, 4, 6 and 7, the fertilizer dispensing portion 33 is provided in front of the seed spot wave portion 3, and distributes a certain amount of fertilizer to the ground, And a base frame 34 fixedly installed on a top surface of a pedestal 5b provided at an upper portion of a front portion of the support frame 4 behind the bass station 2, Is installed horizontally in the upper part of the front side of the main body frame 6 in the shape of a long rectangle in the horizontal direction having a width and a length corresponding to the main body frame 6 of the seed spot wave part 3, The driven shaft 35a rotated by the power transmitted from the drive shafts 7a and 7b of the seed splitting portion 3 is positioned in the center middle portion of the driven shaft 35a, (35b) are arranged side-by-side in a state of being divided into two Each driven sprocket 36, the radial bearing 10b and the plurality of fertilizer feed rollers 37 are axially spaced at predetermined intervals and integrally rotated together with the driven shafts 35a and 35b to rotate the driven shafts 35a and 35b, A plurality of fertilizer supply rollers 37 provided in the feed hopper 3 are arranged such that the seed feed rollers 11 of the seed spot wave part 3 are positioned therebetween. A feeder 38 is installed to receive a predetermined amount of fertilizer from the fertilizer supply hopper 38. A blower 39 and an air discharge hose 38 are installed in the lower part of each of the fertilizer supply rollers 37, 40 are connected to each other so that the fertilizer falling downward by a predetermined amount each time the fertilizer supply roller 37 rotates is dispersed by the air discharged from the air discharge hose 40 so that the seeds And is uniformly distributed.

4 and 6, the driven sprocket 36 includes an interlocking sprocket 9 and a driving means 15b such as a chain or a belt, which are installed in the drive shafts 7a and 7b of the seed spot wave portion 3 So that the rotational force of the drive shafts 7a and 7b is transmitted to the driven shafts 35a and 35b to be rotated together. The radial bearing 10b is normally smooth when receiving a load acting perpendicularly to the shaft The driven shaft 35a supports the driven shafts 35a and 35b in a state of being axially supported on both left and right ends of the driven shafts 35a and 35b as shown in FIG. (35b) is smoothly rotated.

When the driven shaft 35a and the driven shaft 35b are divided into two as described above and the respective driven shafts 35a and 35b are separately driven in the herding machine 2 so that the width of the agricultural land is narrow, 35a and 35b to prevent the fertilizer from being sprayed on the ground in a redundant manner.

The plurality of fertilizer supply rollers 37 are provided on the driven shafts 35a and 35b so as to be spaced apart from each other by a predetermined distance between the plurality of seed supply rollers 11 as shown in FIGS. A plurality of fertilizer insertion grooves 42 are formed at predetermined intervals on the circumferential surface of each fertilizer supply roller 37 so that a fertilizer supply hopper 38 is disposed inside the fertilizer insertion groove 42, The fertilizer supply roller 37 is rotated in the downward direction.

Each fertilizer supply roller 37 is provided with a fertilizer guide pipe 41 at the bottom thereof to guide the fertilizer falling down to a vertical lower portion of the fertilizer supply roller 37 by a predetermined amount and to be evenly distributed on the ground surface, As shown in FIGS. 1, 4, 5 and 7, the guide tube 41 is a cylindrical tube having open upper and lower parts, and a lower storage part 43 is integrally formed at an upper part thereof. The lower portion of the fertilizer supply roller 37 is inserted through the inlet 44 opened in the form of a semicircular opening with the lower portion of the fertilizer supply roller 37 being inserted into the lower storage portion 43 1 and 6, the air supply duct 45 of one or a plurality of blowers 39 installed on the upper part of the rice hatching machine 2 is installed at the lower front part of the lower storage part 43, One end of the connected air discharge hose 40 And a connection bracket 46 fixed to the lower end surface of the base frame 34 by bolts or screws is integrally formed at the upper end of the lower housing part 43, The lower portion of the fertilizer supply roller 37 is inserted into the lower storage portion 43 of the main body 41 and the connection bracket 46 is positioned in contact with the lower end surface of the base frame 34, So that the fertilizer inserted into the fertilizer insertion grooves 42 of the respective fertilizer supply rollers 37 is prevented from being gathered in a loose state by the air from the air discharge hose 40 in the course of falling down, And is sprayed to the vertical lower part at a predetermined position through the inside of each fertilizer guide pipe 41 while being dispersed.

As shown in FIGS. 1 and 6, the blower 39 is a conventional air supply device. One or a plurality of blowers 39 are installed at a rear upper portion of the rice cooker 2 to supply air to the air discharge hoses 40, A plurality of air discharge hoses 40 are connected to the air supply duct 45 so that air from the blower 39 is supplied to the air supply duct 45 And is discharged to the inside of the fertilizer guide pipe 41 through the respective air discharge hoses 40. [

1, each of the air discharge hoses 40 is provided at one end thereof penetrating through the lower storage portion 43 of the fertilizer guide tube 41 so as to be inclined downward at an oblique angle, 40 is discharged to the inside lower side of the fertilizer guide pipe 41 so that the fertilizer from the fertilizer supply roller 37 is dispersed and sprayed downward stably without backward flow.

As shown in FIGS. 1 and 7, each of the fertilizer guide pipes 41 is configured such that a lower connection pipe 47, which is a corrugated pipe, is fitted vertically downward, and a lower portion of the lower connection pipe 47 Are connected to upper portions of a plurality of fertilizer supply pipes (54) vertically penetrating the rear end portion of the lower stop plate (53) of the harness plate (48) at left and right predetermined intervals, The fertilizer seeding plate 55 fixedly attached to the front side of the lower portion of the portion through which the fertilizer supply pipe 54 penetrates forms the fertilizer dissemination crest on the ground surface and immediately supplies the fertilizer from the fertilizer supply roller 37 The fertilizer guide pipe 41, the lower connection pipe 47 and the fertilizer feed pipe 54 to spread the fertilizer evenly along the central portion between the seeds, Dispersed and sprayed.

As shown in FIGS. 1, 4 and 6, the fertilizer supply hopper 38 is located above the respective fertilizer supply rollers 37, and the fertilizer in the form of particles stored therein is supplied to the fertilizer supply roller 37 The upper part is wide and the lower part is a narrow hopper shape in a state that the upper part and the lower part are both open. A certain amount of fertilizer is put into and stored in the inside of the hopper so that the fertilizer supply roller (37) A lower fixing plate 17b fixed to the upper end of the base frame 34 is fixedly installed at a lower portion of the fertilizer supply hopper 38, A supply amount regulating plate 18b for regulating the amount of fertilizer to be inserted into the fertilizer insertion groove 42 of the fertilizer supply roller 37 is interposed between the lower fixing plate 17b and the lower fixing plate 17b, (3 8 are inserted into the fertilizer insertion grooves 42 of the respective fertilizer supply rollers 37 while being controlled by the supply amount control plate 18b by a predetermined amount and fed through the fertilizer guide pipes 41, And is dispersed and sprayed on the fertilizer seeding grains on the ground formed by the seedling 48.

As shown in FIGS. 1, 5, 6 and 7, the harness plate 48 is located at a lower portion of the fertilizer spreader 33 and is connected to the rear lower portion of the herding machine 2, And a portion for fertilizing the fertilizer-sprayed portion while forming a fertilizer seeding per every position where the fertilizer is sprayed. The portion of the fertilizer is primarily frozen in a direction in which the herbicide 2 is advanced in a state of being inclined at a predetermined angle And a pair of connecting pieces 50 are welded at predetermined intervals on the upper surface of the swash plate 49 so that the connecting pieces 50 and the rear frames And the lower stopper plate 53 welded in the horizontal direction is integrally formed at the lower end of the swash plate 49. The lower stopper plate 53 is fixed to the lower end of the swash plate 49, And the lower stop plate (53) As shown in Fig. 1, the rear end of the seedling seedling forming part 19 is positioned forward of the seeding seeding plate 21 of the seeding seedling forming part 19, The fertilizer from the lower connection pipe 47 connected to the lower portion of each fertilizer guide pipe 41 is inserted into the fertilizer input pipe 54) to spread on the ground where the fertilizer seeding bone is formed.

The plurality of the fertilizer supply pipes 54 are connected to the lower stopper plate 53 located at the vertically lower portion of the portion where the respective fertilizer supply rollers 37 of the fertilizer spreader 33 are installed, And the upper portion of the lower stopper plate 53 protrudes upward to connect the lower portion of the lower connection pipe 47 and the lower portion of the lower stopper plate 53 protrudes downward from the lower stopper plate 53 A fertilizer seeding plate 55 having a sharp front end is fastened and fixed in front of the lower surface of a portion where each fertilizer supply pipe 54 is installed in the lower stopper plate 53, 55, a certain amount of fertilizer, which is injected through the fertilizer injection pipe 54, is dispersed and sprayed on the fertilizer dissemination cores through the lower and rear openings of the fertilizer injection pipe 54, As shown, Along the center portion between the seed it is that manure is evenly distributed to the front and rear spray line.

The lower stop plate 53 is provided with a first fertilizer covering plate 56 and a second covering covering plate 57 on the left and right sides of the portions through which the respective manure feeding pipes 54 penetrate, The soil in the vicinity of the sprayed fertilizer sowing bone is scraped from both the left and right sides so that the fertilizer composed of powdery ingredients is not lost due to the overlapping of the first and second cargoes, Left and right lateral side plates 58 vertically erected respectively as shown in Figs. 5 and 7 are integrally fixed to the left and right upper side portions of the left and right side portions of the left side plate 58, The first fertilizer covering plate 56 is hingedly connected to the connecting shaft 59 by the connecting shaft 59 and the second fertilizing covering plate 57 is connected to the rear end of the right side plate 58 by the connecting shaft 59 And the first and second fertilizer covering plates 56 and 57 are connected to the rear outer side of the lower stop plate 53 And an angle adjusting groove 60 is formed at the front side of the angle adjusting groove 60. The angle adjusting groove 60 is screwed to the side plate 58 while passing through the wing bolt 61, The first and second fertilizer covering plates 56 and 57 are rotated around the connecting shaft 59 in a state where the butterfly bolt 61 is loosened according to the soil, and the butterfly bolts 61 are tightened So that the first and second fertilizer covering plates 56 and 57 are fixed.

The first and second fertilizer covers 56 and 57 are bent at a predetermined angle in a direction opposite to each other and the length of the first fertilizer coversheet 56 is longer than the length of the second fertilizer covering plates 56 57), and the fertilizer dispersed and distributed on the fertilizer seeding bones is disposed so that the first and second fertilizer covering plates 56, 57 located at the rear of the fertilizer feeding pipe 54 are connected to the lower stopper plate 53 The surrounding soil is collected by pulling the ground according to the pulling, so that the first fertilizer covering plate 56 is firstly covered with the second fertilizer covering plate 57 secondarily covering the ground, .

The lower stopper plate 53 is fixedly attached to the lower surface of the lower portion of the manure supply pipe 54 with one or more drainage forming plates 62 protruding downward by a predetermined length, So as to form a drainage valley between the plurality of fertilizer seeding bones on the ground.

The swash plate 49 is provided with side guide plates 63 standing vertically on both right and left sides of the swash plate 49. The side guide plates 63 are spaced apart from left and right sides of the swash plate 49 by a predetermined distance, The side plate 63 is integrally connected to the connecting plate 64 so that the mud or water on the ground generated by the grounding operation of the swash plate 49 is blocked by the side plate 63, Mud or water floods out on both sides to prevent seeds and fertilizer already sown on the side of the ground from being covered.

8 and 9, the lower stopper plate 53 according to the present invention may include a first fertilizer plasterboard (not shown) disposed on the left and right sides of a portion through which the respective fertilizer inlet pipes 54 penetrate, 56 and the second fertilizer covering plate 57 are elastically supported by the torsion springs 65 and the rear of the first and second covering plates 56, And the lower stop plate 53 is provided so as to prevent the fertilizer, which is a powder component, from being blown by the wind, so that the lower stop plate 53 Left and right side plates 58 vertically erected respectively as shown in Figs. 8 and 9 are integrally fixed to the upper left and right upper side portions of the portion where the respective fertilizer supply pipes 54 are installed in the front and rear direction, The first fertilizer covering plate 56 is attached to the connecting shaft 59 at the rear end portion of the connecting rod 58, And a second fertilizer covering plate 57 is hingedly connected to the rear end portion of the right side plate 58 by a connecting shaft 59. A center portion of each connecting shaft 59 One end of each torsion spring 65 is connected to the left and right side plates 58 and the other end of each torsion spring 65 is connected to the first and second fertilizer plug plates 56 and 57 And the first and second fertilizer covering plates 56 and 57 are elastically supported by a torsion spring 65 downward with a predetermined force.

The adjustment nut 66 is integrally welded to the front and outer side surfaces of the first and second fertilizer covers 56 and 57 and the angle adjusting bolt 67 is vertically attached to the adjustment nut 66. [ The lower end surface of the angle adjusting bolt 67 is in contact with the upper surface of the lower stopper plate 53 so that the angle adjusting bolt 67 can be loosened or tightened, The angle of inclination of the first and second fertilizer covering plates 56 and 57 is adjusted around the connecting shaft 59 while the length of the angle adjusting bolt 67 protruding downward from the nut 66 is changed.

Hereinafter, the operation of the present invention will be described.

By using the combing machine 1 for a rice-growing machine according to the present invention, it is possible to disperse seeds at regular intervals in a cropland while dispersing the fertilizer evenly at intervals at intervals between the seeds, The rotary shaft 14 provided on the support frame 4 of the herringbone 2 is rotated by the power transmitted from the power unit of the herringbone unit 2 as shown in FIG. The driving shafts 7a and 7b of the seed spot wave portion 3 connected by the driving means 15a such as a chain or a belt are rotationally driven to rotate the driving shafts 7a and 7b, The driven shafts 35a and 35b of the fertilizer spreader 33 connected to the drive means 15b of the drive shaft 7a and 7b are rotated together with the drive shaft 7a and 7b, A plurality of seed feed rollers (11) A plurality of fertilizer supply rollers 37 axially disposed at constant intervals are driven and rotated together with the driven shafts 35a and 35b between the seed supply rollers 11. In accordance with the rotation of the seed supply rollers 11, The seeds stored in the supply hopper 12 are filled in the seed insertion grooves 16 formed at regular intervals on the circumferential surface of the seed feed roller 11 and the seeds And is vertically downwardly diffused through the guide tube (13).

At the same time, the fertilizer stored in the respective fertilizer supply hoppers 38 is supplied to the fertilizer insertion grooves 42 formed at regular intervals on the circumferential surface of the fertilizer supply roller 37 in accordance with the rotation of the respective fertilizer supply rollers 37, 1 and 6, the fertilizer guide pipe 41 is filled with the fertilizer and is fed to the lower portion of the lower compartment 43 of the fertilizer guide pipe 41, The air discharge hose 40 having one end thereof penetratingly receives air from the air supply duct 45 of one or a plurality of blowers 39 installed at the rear upper portion of the herbicide 2, While the air is being discharged, the fertilizer inserted into the fertilizer insertion grooves 42 of the respective fertilizer supply rollers 37 is not dropped into a loose state by the air from the air discharge hose 40 while falling down, Each fertilizer guide tube 41 And the lower end of the lower stop plate 53 of the harness plate 48 is connected to the rear end of the lower stop plate 53 through a lower connection pipe 47 fitted to the lower portion of each fertilizer guide pipe 41, And is uniformly dispersed and spread over the ground via the fertilizer inlet pipe 54 interposed at intervals.

As described above, a plurality of seed-seeding corrugated plates 21 provided in the seed-seeding-bone forming part 19 at the time of seed point spreading and fertilizer spreading are arranged under the seed feed rollers 11 in accordance with the movement of the herbicide 2 A plurality of seed seeding bones are formed while passing over the ground so that a certain amount of seeds are gradually diffused from each seed feed roller 11 along the seeding seed bones at a predetermined interval to increase the adhesion rate between the seed and the ground, The seedling bone formation plate 21 is fixed by a resilient spring 28 in a state of being pivotally connected by a hinge shaft 27 between a pair of fastening pieces 25 fixedly attached to the lower part of the base frame 20 Even when the seed-disseminated bone-forming plate 21 strikes one of the stones on the ground or the solidly consolidated soil, the other seed-dissected bone-forming plate 21 stably supports the seeded seeding bone 21 Not only does it form a solid stone or soil When the seeds are collided with the sheep, the seed-dissolving bone-forming plate 21 is lifted upward to buffer the impact, so that the seeding seeding plate 21 is not damaged.

Further, drainage troughs are formed by one or plural drainage-forming plates 62 fixedly attached to the lower surface of the lower stopper plate 53 while the ground surface is stopped by the harness plate 48, The fertilizer seeding plate 55 on the front side of the lower portion of the portion through which the plurality of the fertilizer supply pipes 54 penetrate through the plate 53 forms the fertilizer seeding grains on the ground surface, The fertilizer from the fertilizer guide pipe 37 is dispersed and spread on the ground via the fertilizer guide pipe 41, the lower connection pipe 47 and the fertilizer feed pipe 54, 1, 5, 6, and 7, the fertilizer dispersed and distributed on the fertilizer seeding cores through the fertilizer inlet pipe 54 is discharged from the lower stopper plate 53 to the respective sides On both right and left sides of the portion through which the fertilizer inlet pipe 54 penetrates, The first and second fertilizer covering plates 56 and 57 protruding downwardly from the rear side of the plate 53 pull the ground along the lower stop plate 53 while collecting the surrounding soil from both sides It is replenished in turn by the car, so that the fertilizer in powder form in the particle state is blown away from the wind.

1. Rice seeds and fertilizer spreader for rice cultivation 2. Rice plant
3. Seed spot wave 4. Support frame
5a, 5b. Base 6. Body frame
7a, 7b. Drive shaft 8. drive sprocket
9. Interlocking sprockets 10a, 10b. Radial bearings
11. Seed feed roller 12. Seed feed hopper
13. Seed guide tube 14. Rotation shaft
15a, 15b. Drive means 16. Seed insert groove
17a, 17b. Lower fixing plates 18a, 18b. Supply throttle
19. seed sowing bone formation part 20. base frame
21. Seeded seeding plate 22. Mounting bar
23. seed sowing osteogenesis groove 24. upper extension plate
25. Fastener 26. Projection
27. Hinge shaft 28. Elastic spring
29. Fastening ball 30. Base plate
31. Nut 32. Adjusting bolt
33. Fertilizer application unit 34. Base frame
35a, 35b. Driven shaft 36. Passive sprocket
37. Fertilizer feed roller 38. Fertilizer feed hopper
39. Blower 40. Air discharge hose
41. Fertilizer guide tube 42. Fertilizer insertion groove
43. Lower compartment 44. Inlet
45. Air supply duct 46. Connection bracket
47. Lower connection tube 48. Harley plate
49. Swash plate 50. Connecting piece
51. Rear frame 52. Connector
53. Lower stop plate 54. Fertilizer input pipe
55. Fertilizer seeding plate 56. First fertilizer cover plate
57. Second fertilizer cover plate 58. Side plate
59. Connecting Shaft 60. Angle adjusting groove
61. Butterfly bolt 62. Drainage forming plate
63. Side guide plate 64. Side connection plate
65. Torsion spring 66. Adjusting nut
67. Angle adjusting bolt

Claims (11)

A plurality of seeds 7a and 7b which are installed at the rear upper portion of the rice planting unit 2 and are rotated by the power transmitted from the power unit of the rice planting unit 2, A seed spot wave part 3 supplied with seeds from each seed supply hopper 12 provided at the upper part of the feed roller 11 and gradually diffused downward by a predetermined amount; A plurality of seed seeding corrugated plates 21 are provided at a lower portion of the base frame 20 so as to correspond to a plurality of seed feed rollers 11, And is elastically supported while being pressed downward by an elastic spring 28 in a state of being pivotally hinged to the lower part of the base frame 20 so that seed seeding bone formation (7a) and (7b) are provided in front of the seed spot wave part (3) A plurality of fertilizer supply rollers 37 provided at predetermined intervals on the driven shafts 35a and 35b and provided with driven shafts 35a and 35b connected to and rotated by the driving means 15b, A fertilizer spreader 33 that feeds the fertilizer from each of the fertilizer supply hoppers 38 and distributes the fertilizer to the lower portion by a predetermined amount; a slope plate 49 and a lower stopper plate 53, (48) for forming a drainage valley while stopping the ground surface, and forming a fertilizing seedlings at every position where the fertilizer is sprayed and performing a soil treatment.
[3] The seed-dissemination bone formation plate according to claim 1, wherein each seed-dissolving bone formation plate (21) is formed with an upwardly inclined state and a seeded seeding groove forming groove (23) And an upper extension plate 24 is integrally fixed to the upper extension plate 24. The upper extension plate 24 is inserted between a pair of fastening pieces 25 fixedly attached to a lower portion of the base frame 20 The pair of fastening pieces 25 and the protruding pieces 26 are inserted into the hinge shaft 27 with the protruding pieces 26 fixedly attached to both left and right sides of the end portion of the upper extension plate 24 while being positioned in the front- And an elastic spring 28 is inserted into the hinge shaft 27 so that the seeding seeding plate 21 is rotatably hinged around the hinge shaft 27. The elastic spring 28 is inserted into the hinge shaft 27, One end of the elastic plate 28 is elastically supported on the upper surface of the upper extension plate 24, (25) is elastically supported on any one of a plurality of fastening holes (29) formed at a predetermined interval in the front and rear direction.
3. The apparatus according to claim 2, wherein the pair of fastening pieces (25) are integrally fixed to the lower surface of the support plate (30), and the support plate (30) And a nut 31 is embedded in the upper extension plate 24 so that the adjustment bolt 32 is screwed into the nut 31 and the lower end of the adjustment bolt 32 passes through the nut 31 And the inclined angle of the upper extension plate 24 is adjusted by releasing or tightening the adjustment bolt 32 so that the seeding seeding plate 21 connected to the lower portion of the upper extension plate 24 And the angle is adjusted.
The mounting structure according to claim 1 or 2, wherein the base frame (20) is vertically erected in the form of a rectangular frame having a long rectangular shape, and the mounting bar (22) is formed on both left and right sides of the upper portion of the base frame And the mounting bar 22 is fixedly mounted on the upper part of the support frame 4 at the rear of the herringbone 2 and a plurality of Wherein a plurality of seed seeding forming plates (21) are provided at left and right spaced intervals so as to correspond to the seed feed rollers (11) in the front and back directions.
The method according to claim 1, wherein the lower stop plate (53) comprises a first fertilizer covering plate (56) and a second covering covering plate (56) disposed on both left and right sides of each of the fertilizer inlet pipes (54) (57) are installed in the lower stopper plate (53) so as to collect the fertilizer seedlings scattered from both sides of the fertilizer sprayed on the left and right sides, Left and right lateral side plates 58 vertically erected on both upper surface portions are fixedly attached in the front and rear direction and a first fertilizer covering plate 56 is fixed to the rear end portion of the left side plate 58 by a connecting shaft 59 And a second fertilizer covering plate 57 is hingedly connected to the rear end of the right side plate 58 by a connection shaft 59. The first and second covering plates 56, 57 are protruded downwardly outwardly from the rear of the lower stopper plate 53, and arc-shaped angle adjusting grooves 60 are formed in front of the lower stopper plate 53 And the first and second manure platens 56 and 57, which are inserted through the angle adjusting grooves 60 and penetrate through the side plate 58 while passing through the wing bolt 61, are fixed Wherein the first and second seeding points are connected to each other.
The lower stopper plate (53) according to claim 1 or 2, wherein the lower stopper plate (53) has a rear end located forward of the seeding seeding plate (21) of the seeding seeding section (19) A lower portion of the lower connection pipe 47 connected to the lower portion of each fertilizer guide pipe 41 is connected to the upper portion of the fertilizer supply pipe 54 And a fertilizer seeding plate 55 having a sharp front end is fastened and fixed to a front portion of the lower surface of a portion where each fertilizer supply pipe 54 is installed in the lower stopper plate 53, A fertilizer seeding plate is formed on the ground by the seeding bone formation plate 55 and a certain amount of fertilizer injected through the fertilizer injection pipe 54 is dispersed in the fertilizer seeding bone through the lower and rear openings of the fertilizer injection pipe 54 Wherein the seedling is sprayed.
[Claim 7] The method according to claim 5, wherein the first and second fertilizer covering plates (56) and (57) are formed by bending the rear end portions at a predetermined angle in the direction opposite to each other, Is formed to be shorter than the length of the fertilizer covering plate (57).
A plurality of seeds 7a and 7b which are installed at the rear upper portion of the rice planting unit 2 and are rotated by the power transmitted from the power unit of the rice planting unit 2, A seed spot wave portion 3 supplied with seeds from each seed supply hopper 12 provided at the upper portion of the feed roller 11 and gradually diffused to the lower portion by a predetermined amount; and a drive shaft 7a disposed in front of the seed spot wave portion 3, A plurality of feed rollers 37 provided on the driven shafts 35a and 35b at regular intervals are provided with driven shafts 35a and 35b which are connected to each other by the driving means 7b and the driving means 15b, A fertilizer spreader 33 which feeds the fertilizer from the respective hoppers 38 provided in the upper part and disperses and distributes the fertilizers by a predetermined amount to the lower part; a slope plate 49 and a lower stopper plate 53, It is connected to the lower part of the rear side to form a drainage valley while stopping the ground, and the fertilizer seeding The lower stopper plate 53 has a rear end portion through which a fertilizer inlet pipe 54 is inserted at right and left predetermined intervals and is connected to the left and right sides of each of the fertilizer inlet pipes 54 The first and second fertilizer covering plates 56 and 57 are installed on the lower stopper plate 53 so as to be inclined downward to the rear side of the lower stopper plate 53, The rear end portions of the first and second fertilizer covering plates 56 and 57 are bent at a predetermined angle in a direction opposite to each other and the length of the first fertilizing covering plate 56 is longer than the length of the second fertilizing covering plates 56, Is formed to be shorter than the length of the comb-teeth combiner (57).
[7] The apparatus according to claim 8, wherein the lower stopper plate (53) has left and right side plates (58) vertically erected vertically on both left and right upper side portions of the portion where the respective fertilizer supply pipes (54) A first fertilizer covering plate 56 is hingedly connected to a rear end portion of the plate 58 by a connection shaft 59 and a second fertilizing covering plate 57 is attached to a rear end portion of the right side plate 58 And an angle adjustment groove 60 is formed in front of the first and second fertilizer cover plates 56 and 57. The angle adjustment groove 60 , The first and second fertilizer covering plates (56) and (57) are inserted into the side plate (58) while passing through the wing bolt (61) Combine combiner.
[7] The apparatus according to claim 8, wherein the lower stopper plate (53) has left and right side plates (58) vertically erected vertically on both left and right upper side portions of the portion where the respective fertilizer supply pipes (54) A first fertilizer covering plate 56 is hingedly connected to a rear end portion of the plate 58 by a connection shaft 59 and a second fertilizing covering plate 57 is attached to a rear end portion of the right side plate 58 And a torsion spring 65 is inserted in each connecting shaft 59. One end of each torsion spring 65 is connected to the left and right side plates 58, The other end of the spring 65 is connected to the first and second fertilizer covering plates 56 and 57 so that the rear of the first and second fertilizer covering plates 56 and 57 is elastically supported by the torsion spring 65 downward. Wherein the first and second seeding points of the first and second seedling are connected to each other.
The method of claim 10, wherein the first and second fertilizer covers (56) and (57) are welded with adjustment nuts (66) to the front outer side surface, and the adjustment nut (66) The lower end surface of the angle adjusting bolt 67 is held in contact with the upper surface of the lower stop plate 53 so that the angle adjusting bolt 67 can be loosened or fastened Wherein the inclination angles of the first and second fertilizer covering plates (56) and (57) are adjusted around the axis (59).

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