CN110881290A

CN110881290A - Seeder machine box, seeder and novel seed

Info

Publication number: CN110881290A
Application number: CN201911358392.8A
Authority: CN
Inventors: 林调龙
Original assignee: Xiamen Longchuang Agricultural Technology Co Ltd
Current assignee: Xiamen Longchuang Agricultural Technology Co Ltd
Priority date: 2019-12-25
Filing date: 2019-12-25
Publication date: 2020-03-17

Abstract

A seeder box, a seeder and a novel seed are composed of a box main body and a magnetic turntable; the machine box main body is provided with a material hopper and a material groove, a seed groove is separated from the material groove, and the seed groove is communicated with the material hopper in a mode of being capable of receiving materials in the material hopper; a magnetic rotary disc is rotatably and tightly buckled with the material groove and tightly presses the seed groove, and the side wall of the magnetic rotary disc facing the material groove is provided with at least one magnetic material; the material groove is provided with a discharge port allowing materials to fall out, and a scraping edge capable of scraping the materials on the magnetic rotating disc rotating to the discharge port is arranged beside the discharge port. The novel seed surface is equipped with the material layer that can be adsorbed by magnetic substance, because magnetic material and novel seed are the adsorption relation one to one, utilizes the bottom to scrape along can scraping novel seed one by one respectively and drop soil, has realized high-accuracy seeding.

Description

Seeder machine box, seeder and novel seed

Technical Field

The invention relates to the field of agriculture, in particular to a seeder box, a seeder and a novel seed.

Background

The seeder is agricultural machine, and current seeder mainly includes following several:

1. a broadcast seeder: a common model is a centrifugal spreader attached to the rear of an agricultural transport vehicle. Consists of a seed box and a broadcast sowing wheel;

2. a drill seeder: the seeder is mainly used for seeding small-sized seeds such as grains, vegetables and pasture, and is commonly used in a grain drill. During operation, the travelling wheels drive the seed discharging wheels to rotate, and seeds are discharged into the seed conveying pipe from the seed cups in the seed box according to the required seeding quantity.

Both of the above machines are suitable for single mass sowing, i.e. more than one seed per sowing.

However, seeds for some crops are very expensive and fine in size, requiring more sophisticated sowing machines to accomplish this; therefore, a new seeding machine, such as an air-suction seeding apparatus, has been developed, which uses a negative pressure seeding caused by a fan on one side of a seeding plate; the pneumatic seed sowing device is used for positive-pressure seed sowing generated in a seed box by utilizing airflow generated by a fan, the influence of the wind pressure on the seed filling process is smaller than that of an air-suction type, and the work is more stable; the air-blowing type seed sowing device is provided with a seed sowing wheel similar to a pocket wheel, and after seeds enter the pockets, air flow generated by a fan blows from an air nozzle to press into a molding hole. However, in the above manner, the seeding machine is relatively large due to the requirement of relatively large air flow equipment (such as a fan and the like), and facilities such as a circuit and the like need to be laid for the seeding machine, so that the laying cost is too large, and the seeding machine is extremely inflexible to use; and because of the uncontrollable nature of the air current, it is difficult to ensure that the seed quantity of broadcasting each time is accurate, and especially difficult to determine the accuracy of broadcasting a seed each time.

Disclosure of Invention

The invention aims to provide a seeder box which can be flexibly applied, has high broadcasting precision and simple application facilities and a seeder.

A second object of the present invention is to provide a novel seed that can be adsorbed by a magnetic substance, which can be applied to this scheme.

In order to achieve the above purpose, the solution of the invention is: a seeder machine box which characterized in that: consists of a case body and a magnetic turntable; the machine box main body is provided with a material hopper and a material groove, a seed groove is separated from the material groove, and the seed groove is communicated with the material hopper in a mode of being capable of receiving materials in the material hopper; a magnetic rotary disc is rotatably and tightly buckled with the material groove and tightly presses the seed groove, and the side wall of the magnetic rotary disc facing the material groove is provided with at least one magnetic material; the material groove is provided with a discharge port allowing materials to fall out, and a scraping edge capable of scraping the materials on the magnetic rotating disc rotating to the discharge port is arranged beside the discharge port.

Further, the material groove is a circular groove, a rotating shaft hole is formed in the center of the material groove, the magnetic rotary disc is matched with the material groove in shape, a rotating shaft is arranged in the center of the magnetic rotary disc, and the magnetic rotary disc is inserted into the rotating shaft hole of the material groove through the rotating shaft of the magnetic rotary disc, so that the magnetic rotary disc can be tightly buckled on the material groove in a rotating mode.

Furthermore, a plurality of magnetic materials are uniformly distributed on a circle which takes the rotating shaft as a central point on the magnetic turntable.

Further, the material hopper is arranged above the machine box main body and provided with a feeding port extending downwards; the material groove is positioned below the machine box main body and is open towards the side edge, and the magnetic turntable is rotatably and tightly buckled in the material groove from the side edge; a material groove is formed by downwards extending a baffle edge from the rotating shaft hole in the material groove and enclosing the bottom and the side wall of the material groove, and a feeding port downwards extending from the material hopper is communicated with the seed groove from an opening of the side wall of the material groove.

Furthermore, a slope is arranged below the seed groove, and the slope is lifted downwards from the bottom of the seed groove and further abuts against the side wall of the bottom of the seed groove.

Further, a first partition is arranged above the seed groove and positioned above a horizontal line where a rotating shaft hole of the material groove is positioned, the first partition extends from the side wall of the material groove above the seed groove to the rotating shaft hole direction of the material groove and has a certain gap with the rotating shaft hole, and a downward inclined slope is formed; and the first partition is provided with an upper first material passing window corresponding to the magnetic material position of the magnetic turntable.

Furthermore, a second partition is arranged on one side, opposite to the seed groove, of the first partition in the material groove, extends from the side wall above the material groove to the rotating shaft hole and is connected with the rotating shaft hole, and a second material passing window is arranged on the position, corresponding to the magnetic material of the magnetic turntable, of the second partition; and a third partition is arranged below the second material passing window and extends from the second partition to the first partition in the direction, and a gap is reserved between the third partition and the first partition.

A planter comprising a planter box as claimed in any one of the above claims and a pusher device, the planter box being disposed on the pusher device and moving with movement of the pusher device.

A novel seed comprises a seed, wherein a material layer capable of being adsorbed by a magnetic substance is wrapped on the outer layer of the seed, and the novel seed can be adsorbed by the magnetic material in the seeder box to be attached to a magnetic turntable.

Further, the material layer which is wrapped by the outer layer and can be adsorbed by the magnetic substance is prepared by mixing diatomite, talcum powder, bentonite, attapulgite and iron.

After adopting above-mentioned scheme, because magnetic material is the adsorption relation one to one with this novel seed, utilize the bottom to scrape along can scraping the soil that drops with novel seed one by one respectively, realized high-accuracy seeding. And the magnetic material is arranged, other related facilities do not need to be additionally paved, the use of a small machine table is facilitated, high-precision seeding can be realized, the miniaturization of the machine can be ensured, and extra cables and electric equipment are not needed to be paved and used. The wide farmers can purchase and use the fertilizer with low cost, and the fertilizer is suitable for the national policy guidance of helping the farmers. High-precision seeding reduces the production cost of farmers and ensures the profit of agricultural products.

Drawings

FIG. 1 is an exploded view of an embodiment of the present invention;

FIG. 2 is an exploded view of the second embodiment of the present invention;

FIG. 3 is a schematic structural view of a main body of the casing according to the embodiment of the present invention;

FIG. 4 is a schematic top view of an embodiment of the present invention;

FIG. 5 is a schematic side view of an embodiment of the invention;

FIG. 6 is a schematic sectional view A-A of FIG. 5;

FIG. 7 is a schematic perspective view of an embodiment of the present invention;

FIG. 8 is a schematic cross-sectional view B-B of FIG. 7;

FIG. 9 is a schematic cross-sectional view of an embodiment of the present invention;

FIG. 10 is a sectional view of an embodiment of the present invention in use;

fig. 11 is a diagram of a novel seed in accordance with an embodiment of the present invention.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

Example (b):

as shown in fig. 1-10, a seeder box consists of a box body 1, a magnetic rotary disc 2 and a gland 3; the machine box comprises a machine box main body 1, a machine box main body 11, a material groove 12, a material inlet 111 and a material outlet, wherein the machine box main body 1 is provided with the material hopper 11; the material groove 12 is a circular groove, the material groove 12 is positioned below the machine box main body 1 and is open towards the side edge, and a rotating shaft hole 121 is formed in the center of the material groove 12; a first retaining edge 122 extends downwards from the rotating shaft hole 121 in the material groove 12 to form a seed groove 4 with the bottom and the side wall of the material groove 12, and a feeding port 111 extending downwards from the material hopper 11 is communicated with the seed groove 4 from a side wall opening 14 of the material groove 12, as shown in fig. 6 and 8, a slope 112 is further arranged at a position where the feeding port 111 is communicated with the side wall opening 14, and the slope 112 is inclined downwards to the side wall opening 14 so as to ensure that no material (novel seeds 5) stays at the time when the material of the material hopper 11 enters the side wall opening 14 from the feeding port 111; the shape of the magnetic turntable 2 is matched with that of the material groove 12, a rotating shaft 21 is arranged at the center of the magnetic turntable 2, the magnetic turntable 2 is inserted into a rotating shaft hole 121 of the material groove 12 through the rotating shaft 21 on the magnetic turntable, and the magnetic turntable can be tightly buckled in the material groove 12 in a rotating mode from the side edge;

a discharge port 122 allowing the material to fall down is arranged below the material groove 12, a scraping edge 123 capable of scraping the material on the magnetic turntable 2 to the discharge port 122 is arranged beside the discharge port 122, the scraping edge 123 is obliquely arranged above the discharge port 122, and when the magnetic material 22 on the magnetic turntable 2 adsorbs a novel seed 5, and the novel seed 5 is scraped along the scraping edge 123 and falls down to the discharge port 122 below, as shown in fig. 1 and 6.

A slope 41 is arranged below the seed groove 4, the slope 41 is lifted downwards from the bottom of the seed groove 4, and further abuts against the bottom of the ledge 122 and the bottom 42 of the side wall of the seed groove 4.

A first partition 23 is arranged above the seed tank 4, the first partition 23 is positioned above the horizontal line where the rotating shaft hole 121 of the material tank 12 is positioned, and is positioned above the seed tank 4, the first partition 23 extends from the side wall of the material tank 12 above the seed tank 4 to the direction of the rotating shaft hole 121 of the material tank 12, and a certain gap 231 is reserved between the first partition 23 and the rotating shaft hole 121, so that a downward inclined slope is formed; a first material passing window 232 is arranged at the position of the first partition 23 corresponding to the magnetic material 22 of the magnetic turntable 2.

In the material groove 12, a second partition 24 is further arranged on one side of the first partition 23 opposite to the seed groove 4, the second partition 24 extends from the side wall above the material groove 12 to the rotating shaft hole 121 and is connected with the rotating shaft hole 121, a second material passing window 241 is arranged on the position, corresponding to the magnetic material 22 of the magnetic rotating disc 2, of the second partition 24, a third partition 25 extends from the second partition 24 to the first partition 23 under the second material passing window 241, a gap 251 is reserved between the third partition 25 and the first partition 23, and the third partition 25 is in an upward convex arc shape.

The first partition 23, the second partition 24, the third partition 25 and the scraping edge 123 are all equal in height to the blocking edge 122 in the material tank, and the side wall of the material tank 12 is further provided with a plurality of flanges 125 equal in height to the blocking edge 122 so as to enhance the stability of the magnetic turntable 2 when being buckled; the magnetic turntable 2 is inserted into the rotating shaft hole 121 of the material groove 12 through the rotating shaft 21, is rotatably and tightly buckled in the material groove 12 from the side edge and is tightly pressed on the blocking edge 122, the first partition 23, the second partition 24, the third partition 25 and the scraping edge 123 which form the seed groove 4, so that the material is prevented from falling out of the material groove 12 even if the material is adsorbed on the magnetic turntable 2.

The side wall of the magnetic turntable 2 facing the material groove 12 is provided with a plurality of magnetic materials 22, and the magnetic materials 22 are uniformly distributed on a circle taking the rotating shaft 21 as a central point; the magnetic rotary disk 2 is provided with a whole circle of annular groove 27 without facing the outer side of the material groove 12, an annular sealing buckle 6 is consistent with the shape of the annular groove 27, and the annular sealing buckle 6 is buckled in the annular groove 27.

The outer edge of the material groove 12 is provided with three assembly holes 124, a gland 3 is locked outside the material groove 12 by using the three assembly holes 124 and is used for fastening the annular sealing buckle 6 in the annular groove 27 on the outer side of the magnetic rotary disc 2, and further fastening the magnetic rotary disc 2 on the first partition 23, the second partition 24, the third partition 25 and the scraping edge 123, so that the magnetic rotary disc 2 can be prevented from falling off, no gap is reserved among the magnetic rotary disc 2, the first partition 23, the second partition 24, the third partition 25 and the scraping edge 123, and the material (novel seeds 5) can be prevented from falling off from the gap; the center of the gland 3 is provided with a rotating shaft avoiding hole 31, so that when the gland is locked in the material groove 12, the tail end of the rotating shaft 21 of the magnetic rotary disc 2 is accommodated in the rotating shaft avoiding hole 31.

A transparent window 13 is further disposed behind the material tank 12, and the working condition in the material tank 12 can be observed through the transparent window 13, in this embodiment, the transparent window 13 is correspondingly disposed at the positions of the first material passing window 232 and the second material passing window 241, and is disposed in an arc shape.

As shown in fig. 11, a novel seed 5 comprises a seed 51, wherein the seed 51 is coated with a material layer 52 capable of being absorbed by magnetic substances, the material layer 52 does not block nutrition and moisture from entering the interior of the seed, and the material layer 52 can be broken along with the germination of the seed 51, for example, a proper amount of iron is mixed in the material which is often used as a seed coating, so that the seed coating has the characteristic of being absorbed by magnetic substances; or prepared by mixing 35% of diatomite, 20% of talcum powder, 20% of bentonite, 20% of attapulgite and 5% of iron; the new seeds 5 can be attracted by the magnetic material 22 in the housing of the seeding machine and attached to the magnetic turntable 2. When the outer layer of the seeds 51 is coated, the diameter of the final novel seeds 5 can be adjusted consciously to be larger and similar, and the precise screening and sowing are further facilitated.

When the novel seed storage device is actually used, a proper amount of materials (novel seeds 5) are poured into the material hopper 11, the materials enter the side wall opening 14 along with the material inlet 111 and then gather in the seed tank 4, and the materials are always gathered at the slope 41 in the seed tank 4 under the influence of gravity, the novel seeds 5 are raised by the slope 41, so that the novel seeds 5 are closer to the magnetic material 22 of the magnetic turntable 2 and are easier to be adsorbed on the magnetic material 22, and each magnetic material 22 only adsorbs one novel seed 5; when the rotating shaft 21 is rotated to drive the magnetic turntable 2 to rotate, the novel seeds 5 pass through the first partition 23 along with the magnetic turntable 2 and pass through the first material passing window 232; and then the second partition 24 passes through the second material passing window 241, finally the material is transferred to the material outlet 122 below the material groove 12, and the material drops into the soil below from the material outlet 122 after being hung by the scraping edge 123, so that the seeding is realized. And a plurality of magnetic material 22 on the magnetic rotary table 2 adsorb novel seed 5 in proper order and realize above seeding process, and because magnetic material 22 is evenly distributed, therefore this seeding process can realize accurate control.

The size of the first material passing window 232 and the second material passing window 241 is designed to be slightly larger than one novel seed 5, once a certain magnetic material 22 carelessly adsorbs a plurality of novel seeds 5, the redundant novel seeds 5 can be scraped off by the outer walls of the material passing window 232 and the second material passing window 241 when passing through the first material passing window 232 and the second material passing window 241, so that only one novel seed 5 passing through the first material passing window 232 and the second material passing window 241 is ensured, and high-precision seeding is realized; and the unnecessary novel seed 5 that is scraped down by second punishment in advance window 232 at first falls in third wall 25, because the third wall 25 leads to first wall, consequently the novel seed 5 that falls slips to clearance 251 department and falls the way in first wall 23, and first wall 23 is the downward sloping slope, consequently the novel seed 5 that scrapes can slide to clearance 231 along first wall 23 and drop in the seed groove 4, and then guaranteed unnecessary novel seed 5 and fall back in the seed groove 4, avoided the waste of material.

The above description is only an embodiment of the present invention, and is not intended to limit the design of the present invention, and all equivalent changes made according to the design key of the present invention fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "upper", "lower", "rear", "bottom", "inner", "outer", and the like, indicate orientations and positional relationships based on the orientations and positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description herein, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples described in this specification can be combined and combined by those skilled in the art.

Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present invention.

Claims

1. A seeder machine box which characterized in that: consists of a case body and a magnetic turntable; the machine box main body is provided with a material hopper and a material groove, a seed groove is separated from the material groove, and the seed groove is communicated with the material hopper in a mode of being capable of receiving materials in the material hopper; a magnetic rotary disc is rotatably and tightly buckled with the material groove and tightly presses the seed groove, and the side wall of the magnetic rotary disc facing the material groove is provided with at least one magnetic material; the material groove is provided with a discharge port allowing materials to fall out, and a scraping edge capable of scraping the materials on the magnetic rotating disc rotating to the discharge port is arranged beside the discharge port.

2. The planter box of claim 1, wherein: the material groove is a circular groove, a rotating shaft hole is formed in the center of the material groove, the magnetic rotary disc is matched with the material groove in shape, a rotating shaft is arranged in the center of the magnetic rotary disc, and the magnetic rotary disc is inserted into the rotating shaft hole of the material groove through the rotating shaft on the magnetic rotary disc to realize rotatable and tight buckling on the material groove.

3. The planter box of claim 1, wherein: a plurality of magnetic materials are uniformly distributed on a circle which takes the rotating shaft as a central point on the magnetic turntable.

4. The planter box of claim 1, wherein: the material hopper is arranged above the machine box main body and is provided with a feeding port extending downwards; the material groove is positioned below the machine box main body and is open towards the side edge, and the magnetic turntable is rotatably and tightly buckled in the material groove from the side edge; a material groove is formed by downwards extending a baffle edge from the rotating shaft hole in the material groove and enclosing the bottom and the side wall of the material groove, and a feeding port downwards extending from the material hopper is communicated with the seed groove from an opening of the side wall of the material groove.

5. The planter box of claim 4, wherein: a slope is arranged below the seed groove, and the slope is lifted downwards from the bottom of the seed groove and further abuts against the side wall of the bottom of the seed groove.

6. The planter box of claim 4, wherein: a first partition is arranged above the seed groove and is positioned above a horizontal line where a rotating shaft hole of the material groove is positioned, the first partition extends from the side wall of the material groove above the seed groove to the rotating shaft hole of the material groove and has a certain gap with the rotating shaft hole, and a downward inclined slope is formed; and the first partition is provided with an upper first material passing window corresponding to the magnetic material position of the magnetic turntable.

7. The planter box of claim 6, wherein: in the material groove, a second partition is further arranged on one side, opposite to the seed groove, of the first partition, the second partition extends towards the rotating shaft hole from the side wall above the material groove and is connected with the rotating shaft hole, and a second material passing window is arranged on the position, corresponding to the magnetic material of the magnetic turntable, of the second partition; and a third partition is arranged below the second material passing window and extends from the second partition to the first partition in the direction, and a gap is reserved between the third partition and the first partition.

8. A seeding machine, which is characterized in that: a planter box including a pusher apparatus as claimed in any one of claims 1 to 7, and a pusher apparatus on which the planter box is disposed and which moves as the pusher apparatus moves.

9. A novel seed, characterized in that: comprises a seed, the outer layer of the seed is wrapped with a material layer which can be absorbed by magnetic substances, and the novel seed can be absorbed by the magnetic materials in the case of the seeding machine as claimed in any one of claims 1 to 7 and is attached to the magnetic rotary disc.

10. A novel seed according to claim 9, wherein: the outer layer is coated with a material layer capable of being adsorbed by magnetic substances, and is prepared by mixing diatomite, talcum powder, bentonite, attapulgite and iron.