CN106717310B

CN106717310B - Automatic seeding equipment of improvement type plant

Info

Publication number: CN106717310B
Application number: CN201611026070.XA
Authority: CN
Inventors: 郭文英
Original assignee: Shandong Greenwind Agricultural Group Co ltd
Current assignee: SHANDONG GREENWIND AGRICULTURAL GROUP Co.,Ltd.
Priority date: 2016-11-20
Filing date: 2016-11-20
Publication date: 2020-06-30
Anticipated expiration: 2036-11-20
Also published as: CN106717310A

Abstract

The invention discloses improved automatic plant sowing equipment, which comprises a support frame, a first rope piece, a first guide wheel, a first rod piece, a second rod piece, a punching piece, a first motor, a second motor and a third motor, wherein the first rope piece is respectively and fixedly connected with the second rod piece and the side wall of an output shaft of the first motor, the first rope piece is sleeved on the first guide wheel, the first spring seat is installed on the side portion of the second rod piece, the first spring is installed between the first spring seat and the first rod piece, the first rotating shaft is installed on the supporting frame and connected with the output shaft of the second motor, the rotating disc is installed on the first rotating shaft, a plurality of seed grooves are formed in the outer circumferential wall of the rotating disc, the second rotating shaft is installed on the right side of the rotating disc in a rotating mode on the supporting frame, the rotating plate is installed on the second rotating shaft, and the second rotating shaft is connected with the output shaft of the third motor. The invention can obviously reduce the labor intensity of farmers and greatly improve the seeding efficiency.

Description

Automatic seeding equipment of improvement type plant

Technical Field

The invention belongs to the technical field of agricultural machinery, and particularly relates to improved automatic plant sowing equipment.

Background

In the process of sowing seeds of plants, farmers need to firstly turn over soil, then treat the turned soil to be relatively flat and loose, then dig a pit, then place the seeds of the plants into the pit, and finally push partial scattered soil around the pit into the pit to complete the sowing of the seeds.

At present, existing equipment can well dig soil, and related equipment can arrange the soil after digging treatment to be relatively flat and loose, but manual pit digging, manual seed placement and manual filling are needed (partial loose soil around the pit is pushed into the pit). The seeding mode of manual digging, seed placing and filling can obviously improve the labor intensity of farmers and greatly reduce the seeding efficiency.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide improved automatic plant sowing equipment which can obviously reduce the labor intensity of farmers and greatly improve the sowing efficiency.

In order to achieve the purpose, the invention adopts the following technical scheme:

an improved automatic plant sowing device comprises a support frame, a first rope piece, a first guide wheel arranged at the top end of the support frame, a first rod piece arranged on the support frame, a second rod piece rotatably arranged on the first rod piece, a punching piece fixedly arranged at the tail end of the second rod piece, a first motor, a second motor and a third motor fixedly arranged on the support frame, wherein the head end of the first rope piece is fixedly connected with the second rod piece, the tail end of the first rope piece is fixedly connected with the side wall of an output shaft of the first motor, the first rope piece is sleeved on the first guide wheel, a first spring seat is arranged on the side part of the second rod piece, a first spring is arranged between the first spring seat and the first rod piece, one end of the first spring is fixedly connected on the first rod piece, and the other end of the first spring is fixedly connected on the first spring seat, the utility model discloses a motor, including support frame, second motor, first rotation axis, the support frame is last rotationally to install first rotation axis, first rotation axis is connected with the output shaft of second motor, install the rolling disc on the first rotation axis, be provided with a plurality of seed grooves on the outer circumferential wall of rolling disc, the second rotation axis is rotationally installed at the right side position department of rolling disc in the support frame, install the rotor plate in the second rotation axis, the second rotation axis is connected with the output shaft of third motor.

First member rotationally installs on the support frame, still install second leading wheel and fourth motor on the support frame, be connected with the second rope spare between the output shaft of fourth motor and the first member, the head end and the first member fixed connection of second rope spare, the terminal lateral wall fixed connection with the output shaft of fourth motor of second rope spare, and this second rope spare is twined on the second leading wheel, the curved sword is installed to the bottom side of first member, still install the second spring holder on the support frame, install the second spring between second spring holder and the first member, fixed mounting has the gag lever post on the support frame.

Install the fifth motor on the support frame, install the casing on the fifth motor, be connected with the transmission post on the output shaft of fifth motor, the transmission post is located the casing, threaded connection has the propulsion pipe on the transmission post, the cover is equipped with the solid fixed cylinder on the propulsion pipe, the cartridge has guide screw on the solid fixed cylinder, fixed cartridge has the connecting rod on the propulsion pipe, the terminal fixedly connected with installation piece of connecting rod, the pulley is installed to the bottom of installation piece, be provided with first direction chamber on the propulsion pipe, guide screw's end portion cartridge is at first direction intracavity.

The first rod piece is provided with a first cavity for the second rod piece to pass through, and a third guide wheel for guiding the second rod piece is further installed in the first cavity.

Still install the feeder hopper on the support frame, the discharge gate of feeder hopper is laminated with the outward flange of rolling disc mutually, the outward flange department of rolling disc still installs and keeps off the ring.

Still be provided with the second cavity that supplies first rope spare to pass on the support frame, still install first locating plate on the support frame, first locating plate laminates with first rope spare mutually.

The support frame is further provided with a third cavity for the second rope to penetrate through, the support frame is further provided with a second positioning plate, and the second positioning plate is attached to the second rope.

The support frame is also provided with a balancing weight and a storage box.

The side part of the mounting block is provided with a first buckling part, and the support frame is provided with a second buckling part buckled with the first buckling part.

The support frame is provided with a holding part.

The air cylinder is installed at the bottom of the supporting frame through an air cylinder seat, a plane plate is connected to a telescopic rod of the air cylinder, a sliding block is installed on the side portion of the plane plate, and a sliding groove for the sliding block to slide up and down is formed in the supporting frame.

The pushing pipe is provided with a guide post, and the shell is provided with a second guide cavity for inserting the end head part of the guide post.

The invention has the beneficial effects that:

through the arrangement of the structure, when the punching piece is aligned to the position to be dug, the first motor is started to drive the first rope piece to move, so that the second rod piece and the punching piece are driven to be lifted upwards, the first spring is continuously compressed in the process, then the first motor is reversely rotated, the first rope piece loses the original tension, then the second rod piece and the punching piece quickly move towards the direction of the position to be dug under the action of the reverse elasticity of the first spring, the hole digging work can be well completed through the punching piece, then the first motor is positively rotated for a period of time to reset the second rod piece, then the whole equipment is leftwards moved for a period of time, when the pit part in the soil is positioned under the rotating disc, the second motor is started to drive the first rotating shaft and the rotating disc to rotate, when seeds in the seed grooves move to the position right above the pit part in the soil, under the action of gravity, the seeds fall to the pit position in the soil, then the second motor is closed, then the whole equipment is moved leftwards, in the moving process, the third motor is started to drive the second rotating shaft to rotate, further the rotating plate is driven to rotate for a certain angle, and under the combined action of the inclined rotating plate and the left movement of the whole equipment, partial scattered soil around the pit can be pushed into the pit to complete the seeding of the seeds.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at the corresponding location;

FIG. 3 is an exploded view of a fifth motor, a driving post, a fixed cylinder, a pushing tube, a guiding post, a guiding screw and a housing according to the present invention;

FIG. 4 is a schematic view of the push tube and fixed barrel of the present invention in mating relationship;

FIG. 5 is a schematic view of the push tube and drive column of the present invention in combination.

Wherein, 1, a support frame; 2. a first cord piece; 3. a first guide wheel; 4. a first bar member; 5. a second bar member; 6. punching a hole; 7. a first motor; 8. a second motor; 9. a third motor; 10. a first spring seat; 11. a first spring; 12. a first rotating shaft; 13. rotating the disc; 14. a seed groove; 15. a second rotating shaft; 16. a rotating plate; 17. a second guide wheel; 18. a fourth motor; 19. a second rope member; 20. bending a cutter; 21. a second spring seat; 22. a second spring; 23. a limiting rod; 24. a bolt; 25. a fifth motor; 26. a drive post; 27. a fixed cylinder; 28. pushing the pipe; 29. a guide post; 30. a first guide chamber; 31. a guide screw; 32. a housing; 33. a second guide chamber; 34. a first cavity; 35. a third guide wheel; 36. a feed hopper; 37. seeds; 38. a second cavity; 39. a first positioning plate; 40. a third cavity; 41. a second positioning plate; 42. a balancing weight; 43. a storage box; 44. a second fastening part; 45. a first fastening part; 46. a grip portion; 47. a cylinder; 48. a flat plate; 49. mounting blocks; 50. a pulley; 51. a connecting rod; 53. a fifth cavity; 54. a sixth cavity; 55. a fourth cavity; 56. a baffle ring; 57. a support portion; 58. a cylinder block.

Detailed Description

The invention will be further described with reference to the accompanying drawings and the detailed description below:

as shown in fig. 1-5, the improved automatic plant sowing device of the present invention comprises a supporting frame 1, a first rope member 2, a first guide wheel 3 mounted on the top end of the supporting frame 1, a first rod member 4 mounted on the supporting frame 1, a second rod member 5 rotatably mounted on the first rod member 4, a punching member 6 fixedly mounted on the end of the second rod member 5, a first motor 7 fixedly mounted on the supporting frame 1, a second motor 8, and a third motor 9, wherein the head end of the first rope member 2 is fixedly connected with the second rod member 5, the end of the first rope member 2 is fixedly connected with the side wall of the output shaft of the first motor 7, the first rope member 2 is wound on the first guide wheel 3, a first spring seat 10 is mounted on the side of the second rod member 5, a first spring 11 is mounted between the first spring seat 10 and the first rod member 4, one end of the first spring 11 is fixedly connected to the first rod 4, the other end of the first spring 11 is fixedly connected to the first spring seat 10, the first rotating shaft 12 is rotatably installed on the support frame 1, the first rotating shaft 12 is connected to an output shaft of the second motor 8, the rotating disc 13 is installed on the first rotating shaft 12, the rotating disc 13 can rotate synchronously with the first rotating shaft 12, the outer circumferential wall of the rotating disc 13 is provided with a plurality of seed grooves 14, the support frame 1 is rotatably installed with the second rotating shaft 15 at the right side position of the rotating disc 13, the rotating plate 16 is installed on the second rotating shaft 15, the rotating plate 16 can rotate synchronously with the second rotating shaft 15, and the second rotating shaft 15 is connected to an output shaft of the third motor 9. The seed grooves 14 may be adapted to receive seeds 37, and the number of seed grooves 14 is plural and arranged circumferentially along the center line of the rotary disk 13. The punch 6 may be provided in a spherical shape. The plant of the present invention may be a vegetable, fruit tree or other plant.

The end of the first rope 2 can be fixedly connected to the side wall of the output shaft of the first motor 7 and then wound several times along the shaft wall of the output shaft, and when the first motor 7 rotates forward or backward, the first rope 2 will continue to be wound on the side wall of the output shaft of the first motor 7 or the first rope 2 wound on the output shaft of the first motor 7 will be continuously pulled out.

When the punching member 6 is aligned with the position to be dug, the first motor 7 is started to drive the first rope member 2 to move, thereby driving the second rod member 5 and the punching member 6 to be lifted upwards, the first spring 11 is continuously compressed in the process, then the first motor 7 is reversely rotated, the first rope member 2 loses the original tension, then the second rod member 5 and the punching member 6 rapidly move towards the position to be dug under the action of the reverse elasticity of the first spring 11, the digging work can be well completed through the punching member 6, then the first motor 7 is positively rotated for a period of time, the second rod member 5 is reset, then the whole equipment is moved leftwards for a distance, when the pit part in the soil is positioned under the rotating disc 13, the second motor 8 is started to drive the first rotating shaft 12 and the rotating disc 13 to rotate, when the seeds 37 in the seed groove 14 move to be directly over the pit part in the soil, under the action of gravity, the seeds 37 fall to the pit position in the soil, then the second motor 8 is closed, then the whole equipment moves leftwards, in the moving process, the third motor 9 is started to drive the second rotating shaft 15 to rotate, further the rotating plate 16 is driven to rotate for a certain angle, and under the combined action of the inclined rotating plate 16 and the whole equipment moving leftwards, the part around the pit can be pushed into the pit, so far, the pit digging, seed placing and soil filling are completed. In practical operation, the first motor 7 can be rotated forward and backward for multiple times to obtain a soil pit meeting the requirement.

First member 4 rotationally installs on support frame 1, still install second leading wheel 17 and fourth motor 18 on the support frame 1, be connected with second rope spare 19 between the output shaft of fourth motor 18 and the first member 4, the head end and the first member 4 fixed connection of second rope spare 19, the terminal lateral wall fixed connection with the output shaft of fourth motor 18 of second rope spare 19, and this second rope spare 19 is twined on second leading wheel 17, curved sword 20 is installed to the bottom side of first member 4, still install second spring holder 21 on the support frame 1, install second spring 22 between second spring holder 21 and the first member 4, fixed mounting has gag lever post 23 on the support frame 1. The limiting rod 23 can effectively limit the movement of the first rod 4, that is, when the first rod 4 moves to the position of the limiting rod 23, the clockwise rotation cannot be continued, and the limiting rod 23 can be fixed on the support frame 1 through the bolt 24. The specific position of the limiting rod 23 can be designed through actual conditions, and the limiting position of the first rod 4 is different when the limiting rod 23 is at different positions. The bending blade 20 has a sharp portion, and the bending blade 20 is located below the junction of the first pin 4 and the second pin 5.

According to the requirements of specific plant seeds 37, when a deeper pit needs to be obtained, the scheme is adopted, and the specific operation flow is as follows:

after a pit position is obtained through the punching piece 6, the whole equipment is moved to the left for a certain distance, when the bent knife 20 is located at a position corresponding to the pit position, the fourth motor 18 is started, the second rope piece 19 is driven to move, the first rod piece 4 is driven to rotate clockwise, the second spring 22 is continuously stretched in the process, then the fourth motor 18 is reversed, the second rope piece 19 loses the original tension force, then the bent knife 20 moves towards the position direction close to the pit position rapidly under the rebound force action of the second spring 22, and a deeper pit is obtained.

The above-mentioned scheme is designed for obtaining deeper pit, if it is not needed, the step can be skipped to enter the following seed placing procedure.

The end of the second rope 19 may be fixedly connected to the side wall of the output shaft of the fourth motor 18 and then wound several times along the shaft wall of the output shaft, and when the fourth motor 18 rotates in the forward or reverse direction, the second rope 19 will continue to be wound on the side wall of the output shaft of the fourth motor 18 or the second rope 19 wound on the output shaft of the fourth motor 18 will be continuously pulled out.

The length of first rope spare 2 and second rope spare 19 can set up according to actual conditions, when actual preparation, can design one or two meters more, twines on the output shaft that corresponds.

The length values of the first rod 4, the second rod 5 and the curved knife 20 can be set according to actual requirements, and are not described herein.

Install fifth motor 25 on the support frame 1, install casing 32 on the fifth motor 25, be connected with drive column 26 on the output shaft of fifth motor 25, drive column 26 is located casing 32, threaded connection has the propulsion pipe 28 on the drive column 26, the cover is equipped with solid fixed cylinder 27 on the propulsion pipe 28, gu the cartridge has guide screw 31 on the fixed cylinder 27, gu fixed cartridge has connecting rod 51 on the propulsion pipe 28, the terminal fixedly connected with installation piece 49 of connecting rod 51, pulley 50 is installed to the bottom of installation piece 49, be provided with first direction chamber 30 on the propulsion pipe 28, guide screw 31's end cartridge is in first direction chamber 30. The number of pulleys 50 may be two, and the mounting position is as shown in fig. 1. After the pulley 50 is installed, the whole equipment can be conveniently moved left and right. The fifth motor 25, the housing 32, the transmission column 26, the pushing tube 28 and the fixed cylinder 27 are shown in fig. 1 in a simplified schematic (i.e., in the position indicated by the arrow 52), and the specific structure is shown in fig. 3. The connecting rod 51 is fixedly inserted into the end of the push tube 28.

The support 1 of the present invention is configured as shown in fig. 1, and the bottom of the support 1 has four support portions 57. Because the whole equipment of the invention is comparatively heavy, when the whole equipment does not need to work, the pulley 50 can be folded upwards, and the whole equipment is supported by the four supporting parts 57, so that the stability of the whole device can be well maintained, and the service life of the pulley 50 can be prolonged.

The specific operation of retracting the pulley 50 upward is: the fifth motor 25 is activated to drive the rotation of the driving post 26, and since the pushing tube 28 is connected with the driving post 26 by screw threads, and the guide screw 31 and the first guide cavity 30 cooperate, the rotation of the driving post 26 will drive the linear motion of the pushing tube 28. Thus, the rotation of the drive post 26 will cause the up and down movement of the push tube 28, and thus the connecting rod 51 and the mounting block 49, and thus the pulley 50. In actual operation, the vertical height position of the pulley 50 can be adjusted only by controlling the forward and reverse rotation of the fifth motor 25. To facilitate the height adjustment of the pulley 50, the up-down position of the pulley 50 can be more smoothly adjusted by an auxiliary tool such as a jack before the above operation. When the whole equipment does not need to work, the pulley 50 is lifted upwards by correctly controlling the rotation direction of the fifth motor 25, and then the whole equipment is supported by the four supporting parts 57, so that the operation is very simple and convenient.

The first rod piece 4 is provided with a first cavity 34 for the second rod piece 5 to pass through, and a third guide wheel 35 for guiding the second rod piece 5 is further installed in the first cavity 34.

The first guide wheel 3 facilitates the movement of the first rope element 2, the second guide wheel 17 facilitates the movement of the second rope element 19, and the third guide wheel 35 facilitates the movement of the second rod element 5.

Still install feeder hopper 36 on the support frame 1, the discharge gate of feeder hopper 36 is laminated with the outward flange of rolling disc 13 mutually, the outer edge of rolling disc 13 still installs and keeps off ring 56. A quantity of seeds 37 may be placed into the hopper 36 and then rotated through the seed chute 14 to just above the pit and then dropped into the pit by gravity. The retainer ring 56 can be mounted on the support frame 1, and the retainer ring 56 can extend from the feed hopper 36 to a position just below the rotary disk 13, so that the seeds 37 can fall into the seed tank 14 and rotate 180 degrees, and then fall.

Still be provided with the second cavity 38 that supplies first rope spare 2 to pass on the support frame 1, still install first locating plate 39 on the support frame 1, first locating plate 39 laminates with first rope spare 2 mutually.

The support frame 1 is further provided with a third cavity 40 for the second rope 19 to pass through, the support frame 1 is further provided with a second positioning plate 41, and the second positioning plate 41 is attached to the second rope 19.

The support frame 1 is also provided with a balancing weight 42 and a storage box 43. The balancing weight 42 can effectively adjust the balance degree of the whole device, and the storage box 43 can facilitate the placement of related objects.

The side part of the mounting block 49 is provided with a first buckling part 45, and the support frame 1 is provided with a second buckling part 44 buckled with the first buckling part 45, so that the mounting block 49 can be conveniently fixed.

The support frame 1 is provided with a holding part 46.

The bottom of the support frame 1 is provided with an air cylinder 47 through an air cylinder seat 58, an expansion link of the air cylinder 47 is connected with a plane plate 48, a slide block (not shown in the figure) is arranged on the side part of the plane plate 48, and the support frame 1 is provided with a slide groove (not shown in the figure) for the slide block to slide up and down. The sliding blocks can be arranged on two sides of the plane plate 48, and the sliding grooves can be correspondingly arranged on two sides of the supporting frame 1, and the sliding grooves extend along the height direction of the supporting frame 1.

After partial loose soil around the pit is pushed into the pit under the combined action of the inclined rotating plate 16 and the left movement of the whole equipment, the loose soil needs to be compacted (partial plants need to be operated), and the scheme design can be adopted. Specifically, when the plane plate 48 is located right above the loose soil, the cylinder 47 is started to drive the plane plate 48 to move downwards, so as to compact the loose soil, and the up-and-down movement of the plane plate 48 can be facilitated due to the matching of the sliding block and the sliding groove.

The thrust tube 28 is provided with a guide post 29, and the housing 32 is provided with a second guide cavity 33 into which the tip of the guide post 29 is inserted. The cooperation of the guide post 29 and the second guide cavity 33 can make the pushing pipe 28 move up and down more smoothly.

In addition, the present invention can arrange a plurality of first bars 4, second bars 5, and corresponding related devices side by side, so that the sowing apparatus can sow a plurality of plants at a time.

The support frame 1 is provided with a fourth cavity 55 for the insertion of the first rod 4, the support frame 1 is provided with a fifth cavity 53 for the installation of the rotating disc 13 and the first rotating shaft 12, and the support frame 1 is provided with a sixth cavity 54 for the installation of the second rotating shaft 15 and the rotating plate 16.

Various other changes and modifications to the above-described embodiments and concepts will become apparent to those skilled in the art from the above description, and all such changes and modifications are intended to be included within the scope of the present invention as defined in the appended claims.

Claims

1. The utility model provides an automatic seeding equipment of improvement type plant which characterized in that: the first guide wheel is arranged at the top end of the support frame, the first rod piece is arranged on the support frame, the second rod piece is rotatably arranged on the first rod piece, the punching piece is fixedly arranged at the tail end of the second rod piece, the first motor, the second motor and the third motor are fixedly arranged on the support frame, the head end of the first rope piece is fixedly connected with the second rod piece, the tail end of the first rope piece is fixedly connected with the side wall of the output shaft of the first motor, the first rope piece is wound on the first guide wheel in a sleeved mode, the side portion of the second rod piece is provided with a first spring seat, a first spring is arranged between the first spring seat and the first rod piece, one end of the first spring is fixedly connected onto the first rod piece, the other end of the first spring is fixedly connected onto the first spring seat, and the support frame is rotatably provided with a first rotating shaft, the first rotating shaft is connected with an output shaft of a second motor, a rotating disc is installed on the first rotating shaft, a plurality of seed grooves are formed in the outer circumferential wall of the rotating disc, a second rotating shaft is installed at the right side position of the rotating disc in a rotatable mode on the support frame, a rotating plate is installed on the second rotating shaft, and the second rotating shaft is connected with an output shaft of a third motor;

the first rod piece is rotatably arranged on the support frame, a second guide wheel and a fourth motor are further arranged on the support frame, a second rope piece is connected between an output shaft of the fourth motor and the first rod piece, the head end of the second rope piece is fixedly connected with the first rod piece, the tail end of the second rope piece is fixedly connected with the side wall of the output shaft of the fourth motor, the second rope piece is wound on the second guide wheel in a sleeved mode, a bent knife is arranged on the bottom side of the first rod piece, a second spring seat is further arranged on the support frame, a second spring is arranged between the second spring seat and the first rod piece, and a limiting rod is fixedly arranged on the support frame;

2. An automated sowing apparatus for improved plants according to claim 1, wherein: the first rod piece is provided with a first cavity for the second rod piece to pass through, and a third guide wheel for guiding the second rod piece is further installed in the first cavity.

3. An automated sowing apparatus for improved plants according to claim 1, wherein: still install the feeder hopper on the support frame, the discharge gate of feeder hopper is laminated with the outward flange of rolling disc mutually, the outward flange department of rolling disc still installs and keeps off the ring.

4. An automated sowing apparatus for improved plants according to claim 1, wherein: still be provided with the second cavity that supplies first rope spare to pass on the support frame, still install first locating plate on the support frame, first locating plate laminates with first rope spare mutually.

5. An automated sowing apparatus for improved plants according to claim 1, wherein: the support frame is also provided with a balancing weight and a storage box.

6. An automated sowing apparatus for improved plants according to claim 1, wherein: the side part of the mounting block is provided with a first buckling part, and the support frame is provided with a second buckling part buckled with the first buckling part.

7. An automated sowing apparatus for improved plants according to claim 1, wherein: the support frame is provided with a holding part.

8. An automated sowing apparatus for improved plants according to claim 1, wherein: the air cylinder is installed at the bottom of the supporting frame through an air cylinder seat, a plane plate is connected to a telescopic rod of the air cylinder, a sliding block is installed on the side portion of the plane plate, and a sliding groove for the sliding block to slide up and down is formed in the supporting frame.

9. An automated sowing apparatus for improved plants according to claim 1, wherein: the pushing pipe is provided with a guide post, and the shell is provided with a second guide cavity for inserting the end head part of the guide post.