CN110663321A - Automatic guide rail type millet seed scattering device with uniform subdivision - Google Patents

Abstract

The invention discloses an automatic guide rail type millet sowing device with uniform subdivision, relates to the technical field of millet sowing devices, and solves the problems that an existing sowing device causes a phenomenon that a sowing track is inclined, does not have a vibration function, and cannot uniformly sow millet seeds in the device uniformly. An automatic guide rail type millet seed spreading device with uniform subdivision comprises a ground rail, a seeding rail and a vibration ring; the ground rail is fixed on the ground for use; the sowing rail is positioned at the upper part of the ground rail; the vibration rings are respectively and fixedly connected to the middle of a transmission rod of the reversing mechanism and the middle of a rotating shaft at the front end of the side wheel set a. The device is when scattering millet kind, and the seeding rail can be along ground rail lateral shifting, and the kind groove can carry out longitudinal movement along the seeding rail for the seeding of millet kind is more normal clean and tidy, and the later stage crop of being convenient for reaps, and the device possesses vibrations function, makes the seeding of millet kind more even, has improved the device's adaptability.

Description

Automatic guide rail type millet seed scattering device with uniform subdivision

Technical Field

The present invention belongs to a grain seed scattering device. The technical field of agricultural equipment, in particular to an automatic guide rail type millet seed scattering device with uniform subdivision.

Background

The meaning of seeding is to sow crops seed, or plants with the mode of seeding, and agricultural seeding is important step in the farming, and traditional seeding mode is manual seeding, and is slow like this, and is inefficient, and in order to improve the work efficiency when seeding, a large amount of farming personnel have now adopted the seeder to sow.

If the application number is: CN201710276552.9 discloses an automatic seeding device. The invention aims to provide an automatic seeding device which can save manpower and time, has low labor intensity and high working efficiency. In order to solve the technical problem, the invention provides an automatic seeding device, which comprises a bracket, a moving device, a seeding device and the like; the bracket is provided with a mobile device, the bracket on the right side of the mobile device is provided with a seeding device, and the mobile device is connected with the seeding device. The invention achieves the effects of saving manpower and time, reducing labor intensity and having high working efficiency.

Present seeder generally needs its seeding orbit of artificial guide, artificial control seeder's seeding orbit often can cause the crooked phenomenon of seeding orbit, it is crooked to lead to the growth orbit of later stage crop, it causes the trouble to reap for reaping of later stage crop, be difficult for reaping the crop, and present seeder does not generally possess the vibrations function, can not be even with the inside millet kind of device broadcast evenly, cause the phenomenon that the seeding is too close or the seeding is too sparse easily, influence the output of later stage crop.

In view of the above, the present invention provides an automatic guide rail type rice seed scattering device with uniform subdivision to achieve the purpose of more practical value by improving the existing structure and defects.

Disclosure of Invention

In order to solve the technical problems, the invention provides an automatic guide rail type grain seed scattering device with uniform subdivision, which aims to solve the problems that the existing seeding device generally needs to artificially guide the seeding track, the seeding track of the artificial control seeding device is always inclined, the growth track of later-stage crops is inclined, the harvesting of the later-stage crops is troublesome, the crops are not easy to harvest, the existing seeding device generally does not have a vibration function, the grains in the device cannot be uniformly scattered, the phenomenon of over-dense seeding or over-sparse seeding is easily caused, and the yield of the later-stage crops is influenced.

The invention relates to an automatic guide rail type cereal seed scattering device with uniform subdivision, which has the purposes and effects that the device is achieved by the following specific technical means:

an automatic guide rail type millet seed spreading device with uniform subdivision comprises a ground rail, a seeding rail, a seed groove, a driving mechanism, a side wheel set a, a reverse mechanism and a vibration ring; the ground rail is fixed on the ground for use; the seeding rail is positioned at the upper part of the ground rail, and the seeding rail can move on the top surface of the ground rail through the rail moving mechanism; the track moving mechanism consists of a moving wheel and a moving motor, and the moving motor is screwed and fixed on one side of the seeding track through screws; the movable wheels are movably connected to the periphery of the sowing rail; a grain scattering sieve is inserted in the seed groove in an interference manner; the driving mechanism is screwed and fixed on one side of the seed groove through a screw; the side wheel set a is fixedly connected with the side wheel set b through a rotating shaft; the reversing mechanism is movably connected in the connecting sheet at the lower end of the seed groove; the vibration rings are respectively and fixedly connected to the middle of a transmission rod of the reversing mechanism and the middle of a rotating shaft at the front end of the side wheel set a.

Furthermore, the driving mechanism is composed of a driving motor, a driving wheel and a synchronizing wheel, wherein a rotating wheel of the driving motor is in transmission connection with the driving wheel through a chain, the synchronizing wheel is fixedly connected to one side of two idler wheels of the side wheel set b, and the synchronizing wheel is in transmission connection with the side wheel set b through the chain.

Furthermore, the reversing mechanism is composed of a gear, a reversing wheel and a follow-up wheel, the gear is fixedly connected to one side of a roller at the front end of the side wheel set a, the reversing wheel is movably connected in a connecting sheet below the seed groove, the reversing wheel is in meshing transmission connection with the gear through gear teeth, and the reversing wheel is in transmission connection with the follow-up wheel through a chain.

Furthermore, four piston rods are arranged below the seed groove, a spring is arranged outside each piston rod, and the piston rods penetrate through the grain scattering sieve.

Furthermore, the top surfaces of the seed grooves and the grain spreading sieve are designed in a shape of gathering downwards.

Furthermore, the cross section of the grain scattering sieve is in a convex shape, and the edge positions of two sides of the grain scattering sieve are vertical to the central position of the vibrating ring.

Furthermore, two symmetrical convex teeth are arranged on the side surface of the ring body of the vibration ring.

Furthermore, the gear and the synchronizing wheel are one-way ratchets, and the transmission direction of the gear and the synchronizing wheel is the advancing direction of the seed groove.

Compared with the prior art, the invention has the following beneficial effects:

firstly, the device is when scattering millet kind, the seeding rail can be along ground rail lateral shifting, make the device's lateral shifting orbit fixed, the kind groove can carry out longitudinal movement along the seeding rail, make the longitudinal shifting orbit of device fixed, do not need artificial control and intervention seeding orbit, only need to control the removal instruction of seeding rail and kind groove through rail moving mechanism and actuating mechanism and can accomplish the scattering to the millet kind, make the scattering of millet kind more normal clean and tidy, the later stage crop of being convenient for reaps, the practicality of the device has been improved.

Secondly, the device has a vibration function, when the seeds are accumulated in the seed groove, the seeds can not fall through the sieve pores of the seed sieve and scatter seeds due to the accumulation and extrusion of the seeds, when the device moves, the vibration ring can jack up the grain scattering sieve regularly by the convex teeth when rotating along with the side wheel set a, the grain scattering sieve can quickly reset under the action of the spring after jacking up the grain scattering sieve, single vibration of the grain scattering sieve is completed, so that the grains stored in the seed groove can be uniformly jacked up and vibrated, the seeds can be sowed once through the sieve pores of the grain scattering sieve under the action of vibration, no seeds can fall through the sieve pores of the grain scattering sieve due to the accumulation of the seeds in the grain scattering sieve after the vibration, and the seeds in the grain scattering sieve can be sowed again when the grain scattering sieve vibrates next time, the millet seeds can not be repeatedly sown, the sowing of the millet seeds is more uniform, and the adaptability of the device is improved.

Moreover, the device's reversal mechanism can make the rotation opposite direction of two vibrations rings, can be stable will spill millet sieve jack-up, and gear and synchronizing wheel are one-way ratchet, and when planting the groove and moving back, gear and synchronizing wheel can not drive the transfer line and the pivot rotation of corresponding vibrations ring for the vibrations ring can not follow the rotation, has avoided blocking when reversing to the vibrations ring and has spilt the phenomenon emergence that the millet sieve made the device unable removal, has improved the device's flexibility.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural view of the ground rail, the sowing rail and the rail moving mechanism of the present invention.

Fig. 3 is a schematic view of the structure of the seed trough, the grain spreading sieve, the driving mechanism and the reversing mechanism.

Fig. 4 is a schematic structural view of the seed tank, the grain spreading sieve, the driving mechanism and the reversing mechanism after being disassembled.

Fig. 5 is a schematic structural view of the driving mechanism of the present invention.

Fig. 6 is a schematic structural view of the reversing mechanism of the present invention.

Fig. 7 is a schematic view of the structure of the grain spreading screen and the vibrating ring of the present invention.

Fig. 8 is an enlarged schematic view of the portion a of the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a ground rail; 2. sowing a rail; 3. a rail moving mechanism; 4. a seed tank; 5. a drive mechanism; 6. a side wheel set a; 7. a reversing mechanism; 8. grain scattering and screening; 9. a vibrating ring; 10. a side wheel group b; 301. a moving wheel; 302. a moving motor; 401. a piston rod; 402. a spring; 501. a drive motor; 502. a driving wheel; 503. a synchronizing wheel; 701. a gear; 702. a reverse rotation wheel; 703. a follower wheel; 901. a convex tooth;

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 8:

the invention provides an automatic guide rail type millet sowing device with uniform subdivision, which comprises a ground rail 1, a sowing rail 2, a seed groove 4, a driving mechanism 5, a side wheel set a6, a reversing mechanism 7 and a vibrating ring 9, wherein the ground rail is provided with a plurality of seed grooves; the ground rail 1 is fixed on the ground for use; the sowing rail 2 is positioned at the upper part of the ground rail 1, and the sowing rail 2 can move on the top surface of the ground rail 1 through the rail moving mechanism 3; the track moving mechanism 3 consists of a moving wheel 301 and a moving motor 302, and the moving motor 302 is screwed and fixed on one side of the track of the sowing rail 2 through screws; the moving wheel 301 is movably connected to the periphery of the sowing rail 2; a grain scattering sieve 8 is inserted in the seed groove 4 in an interference manner; the driving mechanism 5 is screwed and fixed on one side of the seed groove 4 through a screw; the driving mechanism 5 is composed of a driving motor 501, a driving wheel 502 and a synchronizing wheel 503, a rotating wheel of the driving motor 501 is in transmission connection with the driving wheel 502 through a chain, the synchronizing wheel 503 is fixedly connected to one side of two idler wheels of the side wheel set b10, and the synchronizing wheel 503 is in transmission connection through the chain, as shown in fig. 5, the driving motor 501 can synchronously drive the side wheel set a6 and the side wheel set b10 to synchronously rotate together, so that the device moves more stably, and the stability of the device is improved; the side wheel group a6 is fixedly connected with the side wheel group b10 through a rotating shaft; the reverse mechanism 7 is movably connected in a connecting piece at the lower end of the seed groove 4; the reversing mechanism 7 is composed of a gear 701, a reversing wheel 702 and a follower wheel 703, the gear 701 is fixedly connected to one side of a roller at the front end of the side wheel set a6, the reversing wheel 702 is movably connected in a connecting sheet below the seed groove 4, the reversing wheel 702 is in meshing transmission connection with the gear 701 through gear teeth, and the reversing wheel 702 is in transmission connection with the follower wheel 703 through a chain, as shown in fig. 6, the design enables the rotation directions of the gear 701 and the reversing wheel 702 to be opposite under the action of meshing of the gear teeth, so that the rotation directions of the two vibrating rings 9 are opposite, the phenomenon that the device cannot move due to the fact that the convex teeth 901 of any one vibrating ring 9 clamp the grain scattering sieve 8 is avoided, and the adaptability of the device is improved; the vibration ring 9 is respectively and fixedly connected with the middle part of the transmission rod of the reversal mechanism 7 and the middle part of the rotating shaft at the front end of the side wheel group a 6; two symmetrical convex teeth 901 are arranged on the side surface of the ring body of the vibration ring 9, as shown in fig. 7; wherein, four piston rods 401 are arranged below the seed trough 4, a spring 402 is arranged outside the piston rods 401, the piston rods 401 pass through the grain scattering sieve 8, as shown in fig. 3 and 8, the design enables that after the grain scattering sieve 8 is jacked up by the convex teeth 901 of the vibration ring 9, the vibration ring 9 continues to rotate the convex teeth 901 to separate from the grain scattering sieve 8, under the action of the spring 402, the grain scattering sieve 8 is rapidly reset downwards, single vibration of the grain scattering sieve 8 is completed, the seeds in the seed trough 4 are sowed once, the seeds are continuously piled up and cannot leak from the seed trough 4 through the grain scattering sieve 8, the seeds are continuously sowed once after the seeds are sowed once after the next vibration, the repeated scattering and leakage of the seeds are avoided, the seeds are sowed more uniformly, and the practicability of the device is improved; the top surfaces of the seed groove 4 and the grain scattering sieve 8 are designed into a shape gathering downwards, as shown in the attached drawings 3, 4 and 7, the design enables the seeds to be more smoothly accumulated on the top of the grain scattering sieve 8 during the sowing process, so that the seeds in the seed groove 4 are more thoroughly scattered; the cross section of the grain scattering sieve 8 is in a convex shape, and the edge positions of two sides of the grain scattering sieve 8 are perpendicular to the central position of the vibration ring 9, as shown in the attached drawings 4 and 7, the design enables the vibration ring 9 to jack up the grain scattering sieve 8 regularly through the convex teeth 901 when rotating along with the side wheel set a6, and the regular vibration of the grain scattering sieve 8 is realized through the matching action of the convex teeth 901 and the spring 402, so that the purpose of continuously scattering the grains in the seed groove 4 is achieved, and the practicability of the device is improved; wherein, gear 701 and synchronizing wheel 503 are one-way ratchet, and the direction of drive of gear 701 and synchronizing wheel 503 is the advancing direction of kind groove 4, this design makes when kind groove 4 moves back, gear 701 and synchronizing wheel 503 can not drive the transfer line and the pivot rotation of corresponding vibrations ring 9, make vibrations ring 9 can not follow side wheelset a6 and side wheelset b10 and rotate, the phenomenon of blocking when having avoided shaking ring 9 reversal and spilling millet sieve 8 and making the device unable removal takes place, the flexibility of the device has been improved.

The specific use mode and function of the embodiment are as follows:

in the invention, the seeds are poured into the seed trough 4, at the moment, the seeds in the seed trough 4 are accumulated, the seeds cannot leak to the ground through the sieve holes of the seed scattering sieve 8, the sowing rail 2 is moved to a proper position along the ground rail 1 by controlling the power switch of the moving motor 302 of the rail moving mechanism 3, the seed trough 4 reciprocates once along the sowing rail 2 by controlling the driving motor 501 of the driving mechanism 5, when the seed trough 4 moves forwards, the gear 701 rotates along the side wheel set a6, the rotating directions of the gear 701 and the reverse wheel 702 are opposite under the meshing action of the gear teeth of the gear 701 and the reverse wheel 702, so that the rotating directions of the vibrating ring 9 are also opposite, when the vibrating ring 9 rotates, the seed scattering sieve 8 can be jacked up regularly through the convex teeth 901, after the grain sieve 8 is jacked up, the seed scattering sieve 8 is reset under the action of the spring 402 by the seed scattering sieve 8, and the single vibration of the seed sieve 8 is completed, so that the seeds stored in the seed trough 4 can be uniformly jacked and vibrated, the seeds can be sowed once through the sieve holes of the grain scattering sieve 8 under the action of vibration, the seeds can not fall through the sieve holes of the grain scattering sieve 8 due to the accumulation of the seeds in the seeds after vibration, the seeds in the seeds can be sowed again when the grain scattering sieve 8 vibrates next time, when the seed trough 4 moves back, the gears 701 and the synchronizing wheels 503 cannot drive the transmission rod and the rotating shaft of the corresponding vibration ring 9 to rotate because the gears 701 and the synchronizing wheels 503 are one-way ratchets and the transmission direction of the gears 701 and the synchronizing wheels 503 is the advancing direction of the device, when the seed trough 4 moves back, the gears 701 and the synchronizing wheels 503 cannot drive the transmission rod and the rotating shaft of the corresponding vibration ring 9 to rotate, so that the vibration ring 9 cannot rotate along with the side wheel set a6 and the side wheel set b10, the phenomenon that the grain scattering sieve 8 is blocked to cause the device to not move when the vibration ring 9 rotates reversely is avoided, and after the seed trough 4 is reset, the power switch of the, the sowing rail 2 moves along the ground rail 1 to other positions, and the steps are repeated to sow the seeds on the bottom surfaces of the other positions.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (8)

1. The utility model provides an automatic guide tracked millet kind device that spills of homogenization subdivision which characterized in that: comprises a ground rail (1), a seeding rail (2), a seed groove (4), a driving mechanism (5), a side wheel set a (6), a reversing mechanism (7) and a vibration ring (9); the ground rail (1) is fixed on the ground for use; the sowing rail (2) is positioned at the upper part of the ground rail (1), and the sowing rail (2) can move on the top surface of the ground rail (1) through the rail moving mechanism (3); the track moving mechanism (3) consists of a moving wheel (301) and a moving motor (302), and the moving motor (302) is screwed and fixed on one side of the track of the sowing track (2) through screws; the moving wheel (301) is movably connected to the periphery of the sowing rail (2); a grain scattering sieve (8) is inserted in the seed groove (4) in an interference manner; the driving mechanism (5) is screwed and fixed on one side of the seed groove (4) through a screw; the side wheel set a (6) is fixedly connected with the side wheel set b (10) through a rotating shaft; the reversing mechanism (7) is movably connected in a connecting sheet at the lower end of the seed groove (4); the vibration ring (9) is respectively and fixedly connected with the middle part of the transmission rod of the reversing mechanism (7) and the middle part of the rotating shaft at the front end of the side wheel set a (6).

2. The uniformly subdivided automated rail-guided grain sowing apparatus as claimed in claim 1, wherein: the driving mechanism (5) is composed of a driving motor (501), a driving wheel (502) and a synchronizing wheel (503), wherein a rotating wheel of the driving motor (501) is in transmission connection with the driving wheel (502) through a chain, the synchronizing wheel (503) is fixedly connected to one side of two rollers of the side wheel set b (10), and the synchronizing wheel (503) is in transmission connection through the chain.

3. The uniformly subdivided automated rail-guided grain sowing apparatus as claimed in claim 1, wherein: the reversing mechanism (7) consists of a gear (701), a reversing wheel (702) and a follow-up wheel (703), the gear (701) is fixedly connected to one side of a roller at the front end of the side wheel set a (6), the reversing wheel (702) is movably connected in a connecting sheet below the seed groove (4), the reversing wheel (702) is in meshing transmission connection with the gear (701) through gear teeth, and the reversing wheel (702) is in transmission connection with the follow-up wheel (703) through a chain.

4. The uniformly subdivided automated rail-guided grain sowing apparatus as claimed in claim 1, wherein: four piston rods (401) are arranged below the seed groove (4), a spring (402) is arranged outside the piston rods (401), and the piston rods (401) penetrate through the grain scattering sieve (8).

5. The uniformly subdivided automated rail-guided grain sowing apparatus as claimed in claim 1, wherein: the top surfaces of the seed groove (4) and the grain spreading sieve (8) are designed in a shape of gathering downwards.

6. The uniformly subdivided automated rail-guided grain sowing apparatus as claimed in claim 1, wherein: the cross section of the grain scattering sieve (8) is convex, and the edge positions of two sides of the grain scattering sieve (8) are vertical to the central position of the vibrating ring (9).

7. The uniformly subdivided automated rail-guided grain sowing apparatus as claimed in claim 1, wherein: two symmetrical convex teeth (901) are arranged on the side surface of the ring body of the vibration ring (9).

8. A uniformly subdivided automated rail-guided seed sowing device according to claims 2 and 3, wherein: the gear (701) and the synchronizing wheel (503) are one-way ratchets, and the transmission direction of the gear (701) and the synchronizing wheel (503) is the advancing direction of the seed groove (4).

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