CN112056056A

CN112056056A - Vegetable seed continuous sowing device and implementation method thereof

Info

Publication number: CN112056056A
Application number: CN202010885284.2A
Authority: CN
Inventors: 张玉柱; 张金龙; 赵贵根; 郑婷婷; 孔凯丽; 李绍海; 李俊松
Original assignee: Hexian Desheng Agricultural Development Co ltd
Current assignee: Hexian Desheng Agricultural Development Co ltd
Priority date: 2020-08-28
Filing date: 2020-08-28
Publication date: 2020-12-11

Abstract

The invention discloses a vegetable seed continuous sowing device and an implementation method thereof, and belongs to the technical field of vegetable seed sowing. According to the continuous vegetable seed sowing device and the implementation method thereof, continuous sowing can be realized through the continuous sowing mechanism, vegetable seeds do not need to be sowed manually in the continuous sowing process, the labor intensity is low, the workload of operators can be reduced, and the continuous sowing efficiency is greatly improved.

Description

Vegetable seed continuous sowing device and implementation method thereof

Technical Field

The invention relates to the technical field of vegetable seed sowing, in particular to a vegetable seed continuous sowing device and an implementation method thereof.

Background

Vegetable seeds are seeds used for producing vegetables, and are classified into conventional seeds and hybrid seeds. The conventional vegetable seeds are seeds grown by the vegetable itself through a natural law, and the vegetable hybrid seeds (F1 is generally hybridized into a first-generation hybrid) are pollinated by plants with different characteristics (male parent and female parent) so as to change the characteristics of the varieties.

When the vegetable seed was sowed, mostly the manual work carries vegetable seed to sow, and this kind of seeding mode needs manual seeding, and its intensity of labour is big, has increased operating personnel's work burden and has made continuous seeding inefficiency.

Disclosure of Invention

The invention aims to provide a continuous vegetable seed sowing device and an implementation method thereof, which can realize continuous sowing through a continuous sowing mechanism, do not need manual sowing in the continuous vegetable seed sowing process, have low labor intensity, reduce the workload of operators and greatly improve the continuous sowing efficiency so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a continuous seeder of vegetable seed, includes the chassis, push-and-pull handle is installed to the rear end on chassis, install actuating mechanism on the chassis, the chassis passes through actuating mechanism and removes, install the support frame on the chassis, the holding tank has been seted up to the middle-end of support frame, the seeding case has been placed in the holding tank, the barrier plate is all installed to the both sides terminal surface of seeding case, the seeding case passes through the barrier plate card on the support frame, the chamber door is installed to the upper end of seeding case, install the handle on the chamber door, the lower extreme of seeding case is provided with the seeding mouth, the inboard of seeding case still is provided with continuous seeding mechanism, continuous seeding mechanism installs on the inner wall of seeding case.

Further, actuating mechanism includes driving motor A, belt pulley A, belt pulley B, rotatory axostylus axostyle A and rear wheel, driving motor A installs on the chassis, belt pulley A is installed through the spline to driving motor A's output shaft, belt pulley A is connected with belt pulley B through belt A, belt pulley B installs on rotatory axostylus axostyle A through the spline, the both ends of rotatory axostylus axostyle A all install on the rear wheel, the rear wheel is installed in the rear end on the chassis.

Further, actuating mechanism includes belt pulley C, belt B, belt pulley D, rotatory axostylus axostyle B and front wheel, belt pulley C is still installed through the spline to rotatory axostylus axostyle A, belt pulley C is connected with belt pulley D through belt B, belt pulley D passes through the spline and installs on rotatory axostylus axostyle B, rotatory axostylus axostyle B's both ends are all installed on the front wheel, the front end on the chassis is installed to the front wheel.

Further, continuous sowing mechanism includes driving motor B, lead screw, fixing base, sliding block, guide holder, connecting rod and shutoff seat, the fixing base is installed on the inner wall of seeding case, install driving motor B on the fixing base, driving motor B's output shaft has the lead screw, the lead screw is installed on the fixing base, lead screw threaded connection has the sliding block, the sliding block passes through the guide holder and installs on the fixing base, the shutoff seat is still installed through the connecting rod to the sliding block, the sealed drainage cover plate of shutoff seat.

Furthermore, the drainage cover plate is installed on the inner wall of the seeding box and located above the plugging seat, and a seed discharging port is formed in the lower end of the drainage cover plate.

Furthermore, the seed discharging port is matched with the blocking seat, and the blocking seat drives the screw rod to lift through the driving motor B to seal the seed discharging port.

According to another aspect of the present invention, there is provided a method for implementing a continuous vegetable seed sowing device, comprising the steps of:

s1: after the seeds are placed in the seeding box, the seeding box is placed in the accommodating tank and clamped on the supporting frame through the barrier plate;

s2: the driving motor A drives the belt pulley A to rotate, and the belt pulley A is connected with the belt pulley B through the belt A, so that the belt pulley A and the belt pulley B can be driven to rotate along with the belt pulley A and the belt pulley B in the rotating process, and the rotating shaft rod A and the rear wheel can also rotate along with the belt pulley A;

s3: the rotating shaft rod A can enable the belt pulley C to rotate along with the rotating shaft rod A in the rotating process, and the belt pulley C is connected with the belt pulley D through the belt B, so that the belt pulley C can drive the belt B and the belt pulley D to rotate along with the belt B and the belt pulley D in the rotating process, and the rotating shaft rod B and the front wheel can also rotate along with the belt pulley D;

s4: the front wheel and the rear wheel can control the advancing direction of the chassis through the push-pull handle in the rotating process, the driving motor B drives the screw rod to rotate in the driving process of the chassis, so that the sliding block moves downwards under the guiding action of the guide seat, the connecting rod and the plugging seat also move downwards along with the sliding block, the plugging seat does not seal the seed discharging port any more, and at the moment, seeds in the seeding box are sowed in the soil through the seed discharging port and the seeding port;

s5: after a sowing position, the driving motor B drives the screw rod to rotate, so that the sliding block moves upwards under the guiding action of the guiding seat, the sliding block moves upwards to enable the connecting rod and the plugging seat to move upwards along with the sliding block, the plugging seat seals the seed discharging port, seeds in the seeding box are not sown in the soil through the seed discharging port and the seeding port at the moment, when the seeding box moves to the next sowing position, the plugging seat does not seal the seed discharging port any more, the seeds in the seeding box are sown in the soil through the seed discharging port and the seeding port at the moment, the steps are circulated in sequence, and continuous sowing is realized.

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

the invention relates to a vegetable seed continuous seeding device and an implementation method thereof, after seeds are placed in a seeding box, the seeding box is clamped on a support frame through a barrier plate, a driving motor A drives a front wheel and a rear wheel to rotate, and controls the advancing direction of a chassis through a push-pull handle, during the running process of the chassis, a driving motor B drives a screw rod to rotate so as to make a sliding block move downwards and drive a plugging seat to move downwards along with the sliding block, so that the plugging seat does not seal a seeding opening any more, at the moment, the seeds in the seeding box are seeded in the soil through the seeding opening and the seeding opening, after the seeding position is reached, the driving motor B drives the screw rod to rotate so as to make the sliding block move upwards and drive the plugging seat to move upwards along with the sliding block, so that the plugging seat seals the seeding opening, at the moment, the seeds in the seeding box do not pass through the seeding opening and the seeding opening any more, at the moment, seeds in the sowing box are sown in the land through the seed discharging port and the sowing port again, the seeding is sequentially circulated, continuous sowing is realized, vegetable seeds are sown without manual operation in the continuous sowing process, the labor intensity is low, the workload of operators can be reduced, and the continuous sowing efficiency is greatly improved.

Drawings

FIG. 1 is a schematic view of a vegetable seed continuous sowing apparatus of the present invention;

FIG. 2 is a schematic view of the drive mechanism mounted on the chassis of the present invention;

FIG. 3 is a schematic view of the seeding box mounted on the support of the present invention;

FIG. 4 is an exploded view of the seeding box mounted on the support of the present invention;

FIG. 5 is a schematic sectional view of a sealed seed discharge port of the plugging seat of the present invention;

FIG. 6 is a schematic sectional view of the blocking seat no longer sealing the seed discharge port of the present invention;

FIG. 7 is a schematic view of a draft shield plate of the present invention;

fig. 8 is a schematic view of the continuous sowing mechanism of the present invention.

In the figure: 1. a chassis; 11. a push-pull handle; 2. a drive mechanism; 21. driving a motor A; 22. a belt pulley A; 23. a belt A; 24. a belt pulley B; 25. rotating the shaft lever A; 26. a rear wheel; 27. a belt pulley C; 28. a belt B; 29. a belt pulley D; 210. rotating the shaft lever B; 211. a front wheel; 3. a support frame; 31. accommodating grooves; 4. a seeding box; 41. a blocking plate; 42. a sowing port; 43. a box door; 431. a handle; 5. a continuous seeding mechanism; 51. driving a motor B; 52. a screw rod; 53. a fixed seat; 54. a slider; 55. a guide seat; 56. a connecting rod; 57. a plugging seat; 6. a drainage cover plate; 61. a seed discharging port.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, 3 and 4, a continuous vegetable seed sowing device comprises a chassis 1, a push-pull handle 11 is installed at the rear end of the chassis 1, a driving motor a21 drives a front wheel 211 and a rear wheel 26 to rotate, the advancing direction of the chassis 1 is controlled by the push-pull handle 11, a driving mechanism 2 is installed on the chassis 1, the chassis 1 moves through the driving mechanism 2, a support frame 3 is installed on the chassis 1, a holding tank 31 is opened at the middle end of the support frame 3, a sowing box 4 is placed in the holding tank 31, blocking plates 41 are installed on both side end faces of the sowing box 4, the sowing box 4 is clamped on the support frame 3 through the blocking plates 41, a box door 43 is installed at the upper end of the sowing box 4, a handle 431 is installed on the box door 43, a sowing port 42 is arranged at the lower end of the sowing box 4, a continuous sowing mechanism 5 is further arranged on the inner side of the, continuous sowing can be realized through the continuous sowing mechanism 5, vegetable seeds do not need to be sown manually in the continuous sowing process, the labor intensity is low, the workload of operators can be reduced, and the continuous sowing efficiency is greatly improved.

Referring to fig. 2, the driving mechanism 2 includes a driving motor a21, a pulley a22, a belt a23, a pulley B24, a rotating shaft a25 and a rear wheel 26, the driving motor a21 is mounted on the chassis 1, an output shaft of the driving motor a21 is splined to a pulley a22, a pulley a22 is connected to a pulley B24 through a belt a23, a pulley B24 is splined to a rotating shaft a25, both ends of the rotating shaft a25 are mounted on the rear wheel 26, the rear wheel 26 is mounted on the rear end of the chassis 1, the driving mechanism 2 includes a pulley C27, a belt B28, a pulley D29, a rotating shaft B210 and a front wheel 211, the rotating shaft a25 is further splined to a pulley C56, the pulley C27 is connected to a pulley D29 through a belt B28, a pulley D29 is mounted on the rotating shaft B210 through a spline, both ends of the rotating shaft B210 are mounted on the front wheel 211, the front wheel 211 is mounted on the front end of the chassis 1, the driving motor a21 is mounted to a, since the pulley a22 is connected to the pulley B24 through the belt a23, the pulley a22 can drive the belt a23 and the pulley B24 to rotate along with the belt a23, so that the rotating shaft a25 and the rear wheel 26 rotate along with the belt a 3538, the rotating shaft a25 can drive the pulley C27 to rotate along with the belt a22, and the pulley C27 is connected to the pulley D29 through the belt B28, so that the pulley C27 can drive the belt B28 and the pulley D29 to rotate along with the belt B28 and the pulley D29, so that the rotating shaft B210 and the front wheel 211 rotate along with the belt B6332, and the chassis 1 is convenient to move.

Referring to fig. 5-8, the continuous seeding mechanism 5 includes a driving motor B51, a screw rod 52, a fixed seat 53, a sliding block 54, a guiding seat 55, a connecting rod 56 and a blocking seat 57, the fixed seat 53 is installed on the inner wall of the seeding box 4, the fixed seat 53 is installed with the driving motor B51, the output shaft of the driving motor B51 is connected with the screw rod 52, the screw rod 52 is installed on the fixed seat 53, the screw rod 52 is connected with the sliding block 54 in a threaded manner, the sliding block 54 is installed on the fixed seat 53 through the guiding seat 55, the sliding block 54 is also installed with the blocking seat 57 through the connecting rod 56, the blocking seat 57 seals the flow guiding cover plate 6, the flow guiding cover plate 6 is installed on the inner wall of the seeding box 4 and is located above the blocking seat 57, the lower end of the flow guiding cover plate 6 is provided with a seed discharging port 61, the seed discharging port 61 is matched with the blocking seat 57, the advancing direction of the chassis 1 can be controlled by pushing and pulling the handle 11, during the running process of the chassis 1, the driving motor B51 drives the screw 52 to rotate, so that the sliding block 54 moves downwards under the guiding action of the guiding seat 55, the sliding block 54 moves downwards to enable the connecting rod 56 and the blocking seat 57 to move downwards along with the sliding block, so that the blocking seat 57 no longer seals the seed discharging port 61, at the moment, seeds in the seeding box 4 are sowed in the land through the seed discharging port 61 and the seeding port 42, after a sowing position, the driving motor B51 drives the screw 52 to rotate, so that the sliding block 54 moves upwards under the guiding action of the guiding seat 55, the sliding block 54 moves upwards to enable the connecting rod 56 and the blocking seat 57 to move upwards along with the seeding port 61, so that the blocking seat 57 seals the seed discharging port 61, at the moment, the seeds in the seeding box 4 are no longer sowed in the land through the seed discharging port 61 and the seeding port 42, when the seeding box 4 moves to the, at this time, the seeds in the sowing box 4 are sown in the land again through the seed outlet 61 and the sowing port 42, and are circulated in sequence to realize continuous sowing.

In order to better show the implementation flow of the continuous vegetable seed sowing device, the present embodiment provides an implementation method of a continuous vegetable seed sowing device, including the following steps:

s1: after the seeds are placed in the seeding box 4, the seeding box 4 is placed in the accommodating groove 31, and the seeding box 4 is clamped on the support frame 3 through the barrier plate 41;

s2: the driving motor A21 drives the belt pulley A22 to rotate, and the belt pulley A22 is connected with the belt pulley B24 through the belt A23, so that the belt pulley A22 can drive the belt A23 and the belt pulley B24 to rotate along with the belt A23 and the belt pulley B24 in the rotating process, and the rotating shaft rod A25 and the rear wheel 26 rotate along with the belt pulley A23;

s3: the rotating shaft A25 can make the pulley C27 rotate along with the rotating shaft A25, and the pulley C27 is connected with the pulley D29 through the belt B28, so the pulley C27 can drive the belt B28 and the pulley D29 to rotate along with the rotating shaft B210 and the front wheel 211 to rotate along with the rotating shaft B29;

s4: the front wheel 211 and the rear wheel 26 can control the advancing direction of the chassis 1 through the push-pull handle 11 in the rotating process, the driving motor B51 drives the screw rod 52 to rotate in the driving process of the chassis 1, and further the sliding block 54 moves downwards under the guiding action of the guiding seat 55, the sliding block 54 moves downwards to enable the connecting rod 56 and the blocking seat 57 to move downwards along with the sliding block, so that the blocking seat 57 does not seal the seed discharging opening 61 any more, and at the moment, seeds in the seeding box 4 are sowed in the soil through the seed discharging opening 61 and the seeding opening 42;

s5: after a certain sowing position is reached, the driving motor B51 drives the screw rod 52 to rotate, so that the sliding block 54 moves upwards under the guiding action of the guiding seat 55, the sliding block 54 moves upwards to enable the connecting rod 56 and the blocking seat 57 to move upwards along with the connecting rod, the blocking seat 57 seals the seed discharging port 61, at the moment, seeds in the sowing box 4 are not sowed in the soil through the seed discharging port 61 and the sowing port 42 any more, when the sowing box 4 moves to the next sowing position, the blocking seat 57 is not used for sealing the seed discharging port 61 any more, at the moment, the seeds in the sowing box 4 are sowed in the soil through the seed discharging port 61 and the sowing port 42 again, and the process is circulated in sequence, and continuous sowing.

In summary, the continuous seeding device for vegetable seeds and the implementation method thereof of the present invention, after the seeds are placed in the seeding box 4, the seeding box 4 is clamped on the supporting frame 3 through the blocking plate 41, the driving motor a21 drives the front wheel 211 and the rear wheel 26 to rotate, and controls the advancing direction of the chassis 1 through the push-pull handle 11, during the driving of the chassis 1, the driving motor B51 drives the screw 52 to rotate so as to make the sliding block 54 move downwards and drive the blocking seat 57 to move downwards, so that the blocking seat 57 no longer seals the seeding opening 61, at this time, the seeds in the seeding box 4 are seeded in the ground through the seeding opening 61 and the seeding opening 42, after a seeding point, the driving motor B51 drives the screw 52 to rotate so as to make the sliding block 54 move upwards and drive the blocking seat 57 to move upwards, so that the blocking seat 57 seals the seeding opening 61, at this time, the seeds in the seeding box 4 no longer seeds are seeded in the ground, when the sowing box 4 moves to the next sowing position, the blocking seat 57 moves down to not seal the seed discharging port 61, at the moment, seeds in the sowing box 4 are sowed in the land through the seed discharging port 61 and the sowing port 42 again, the steps are sequentially circulated, continuous sowing is realized, vegetable seeds are sowed in the continuous sowing process without manual sowing, the labor intensity is low, the workload of operators can be reduced, and the continuous sowing efficiency is greatly improved.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims

1. The continuous vegetable seed sowing device is characterized by comprising a chassis (1), a push-pull handle (11) is installed at the rear end of the chassis (1), a driving mechanism (2) is installed on the chassis (1), the chassis (1) moves through the driving mechanism (2), a supporting frame (3) is installed on the chassis (1), an accommodating groove (31) is formed in the middle end of the supporting frame (3), a sowing box (4) is placed in the accommodating groove (31), blocking plates (41) are installed on the end faces of the two sides of the sowing box (4), the sowing box (4) is clamped on the supporting frame (3) through the blocking plates (41), a box door (43) is installed at the upper end of the sowing box (4), a lifting handle (431) is installed on the box door (43), a sowing port (42) is formed in the lower end of the sowing box (4), a continuous sowing mechanism (5) is further arranged on the inner side of the sowing box (4), the continuous seeding mechanism (5) is arranged on the inner wall of the seeding box (4).

2. The continuous vegetable seed sowing device according to claim 1, wherein the driving mechanism (2) comprises a driving motor A (21), a belt pulley A (22), a belt A (23), a belt pulley B (24), a rotating shaft A (25) and a rear wheel (26), the driving motor A (21) is mounted on the chassis (1), the belt pulley A (22) is mounted on an output shaft of the driving motor A (21) through a spline, the belt pulley A (22) is connected with the belt pulley B (24) through the belt A (23), the belt pulley B (24) is mounted on the rotating shaft A (25) through a spline, two ends of the rotating shaft A (25) are mounted on the rear wheel (26), and the rear wheel (26) is mounted at the rear end of the chassis (1).

3. A vegetable seed continuous sowing apparatus according to claim 2, wherein the driving mechanism (2) comprises a belt pulley C (27), a belt B (28), a belt pulley D (29), a rotating shaft B (210) and a front wheel (211), the rotating shaft a (25) is further splined with the belt pulley C (27), the belt pulley C (27) is connected with the belt pulley D (29) through the belt B (28), the belt pulley D (29) is splined on the rotating shaft B (210), both ends of the rotating shaft B (210) are mounted on the front wheel (211), and the front wheel (211) is mounted at the front end of the chassis (1).

4. A vegetable seed continuous sowing device as claimed in claim 1, wherein the continuous sowing mechanism (5) comprises a driving motor B (51), a screw (52), a fixed seat (53), a sliding block (54), a guide seat (55), a connecting rod (56) and a blocking seat (57), the fixed seat (53) is arranged on the inner wall of the seeding box (4), the fixed seat (53) is provided with a driving motor B (51), the output shaft of the driving motor B (51) is connected with a screw rod (52), the screw rod (52) is arranged on a fixed seat (53), the screw rod (52) is in threaded connection with a sliding block (54), the sliding block (54) is installed on the fixed seat (53) through a guide seat (55), the sliding block (54) is further provided with a plugging seat (57) through a connecting rod (56), and the plugging seat (57) seals the drainage cover plate (6).

5. A vegetable seed continuous sowing apparatus as claimed in claim 4, wherein the drainage cover plate (6) is mounted on the inner wall of the sowing box (4) above the blocking seat (57), and the lower end of the drainage cover plate (6) is provided with a sowing opening (61).

6. A vegetable seed continuous sowing apparatus as claimed in claim 5, wherein the sowing port (61) is adapted to the block seat (57), and the block seat (57) drives the screw rod (52) to lift and lower the block seat (61) by the driving motor B (51).

7. A method for implementing a device for continuously sowing vegetable seeds as claimed in any one of claims 1 to 6, comprising the steps of:

s1: after seeds are placed in the seeding box (4), the seeding box (4) is placed in the accommodating groove (31), and the seeding box (4) is clamped on the support frame (3) through the barrier plate (41);

s2: the driving motor A (21) drives the belt pulley A (22) to rotate, and the belt pulley A (22) is connected with the belt pulley B (24) through the belt A (23), so that the belt pulley A (22) can drive the belt A (23) and the belt pulley B (24) to rotate along with the belt A (23) and the belt pulley B (24) in the rotating process, and the rotating shaft lever A (25) and the rear wheel (26) rotate along with the belt A;

s3: the rotating shaft rod A (25) can enable the belt pulley C (27) to rotate along with the rotating shaft rod A in the rotating process, and the belt pulley C (27) is connected with the belt pulley D (29) through the belt B (28), so that the belt pulley C (27) can drive the belt B (28) and the belt pulley D (29) to rotate along with the belt pulley C (28) in the rotating process, and the rotating shaft rod B (210) and the front wheel (211) rotate along with the belt pulley D (29);

s4: the front wheel (211) and the rear wheel (26) can control the advancing direction of the chassis (1) through the push-pull handle (11) in the rotating process, the driving motor B (51) drives the screw rod (52) to rotate in the driving process of the chassis (1), so that the sliding block (54) moves downwards under the guiding action of the guide seat (55), the sliding block (54) moves downwards to enable the connecting rod (56) and the blocking seat (57) to move downwards, the blocking seat (57) does not seal the seed discharging port (61), and seeds in the seeding box (4) are sowed in the land through the seed discharging port (61) and the seeding port (42);

s5: after a certain sowing position is reached, the driving motor B (51) drives the screw rod (52) to rotate, so that the sliding block (54) moves upwards under the guiding action of the guiding seat (55), the sliding block (54) moves upwards to enable the connecting rod (56) and the blocking seat (57) to move upwards, the blocking seat (57) seals the seed discharging port (61), at the moment, seeds in the sowing box (4) are not sowed in the soil through the seed discharging port (61) and the sowing port (42), when the sowing box (4) moves to the next sowing position, the blocking seat (57) does not seal the seed discharging port (61), at the moment, the seeds in the sowing box (4) are sowed in the soil through the seed discharging port (61) and the sowing port (42) again, and the seeding is circulated in sequence, so that the continuity is realized.