CN109005795B

CN109005795B - Method for improving corn sowing efficiency

Info

Publication number: CN109005795B
Application number: CN201810603405.2A
Authority: CN
Inventors: 许美凤
Original assignee: Individual
Current assignee: Hailin Tianlong Food Co ltd
Priority date: 2018-06-12
Filing date: 2018-06-12
Publication date: 2020-08-28
Anticipated expiration: 2038-06-12
Also published as: CN109005795A

Abstract

The invention relates to the technical field of agricultural equipment, in particular to a method for improving corn sowing efficiency, wherein three stirring wheels distributed in an equilateral triangle shape are installed in a storage box of a corn sowing machine, and when a driving wheel rotates, the three stirring wheels synchronously rotate, so that corns on the top layer and the bottom layer of the storage box are stirred, the corn circulation speed is greatly improved, and the corns are prevented from being blocked in the storage box; a plurality of discharge pipes are adopted, and the distance between the discharge pipes can be adjusted to be the same as the required planting distance, so that a plurality of seeds are discharged at a time, and the distance between the seeds is the same as the planting distance, thereby realizing accurate and efficient sowing; the blocking plate and the feed opening can alternately pass through the bottom of the first circulation pipe, so that the seed sowing can be stopped after one group of seeds are discharged, the required planting distance can be reserved among different groups of seeds, and the sowing effect is improved.

Description

Method for improving corn sowing efficiency

Technical Field

The invention relates to the technical field of agricultural equipment, in particular to a method for improving corn sowing efficiency.

Background

The corn planter is a planting machine taking crop corn seeds as planting objects, generally the name of the planter is usually called crop species, such as the corn planter and the corn hill planter.

When the current corn seeder is used for seeding, only partial seeds can be broadcast once, and the seeds at different positions can not be sown simultaneously well, so that the seeding efficiency is not high; the stirring to the storage case only exists on the feed opening, and lack agitated vessel to the upper strata of storage case, lead to the unloading speed slower then, still can appear the condition of jam. In view of the above, the present invention provides a method for improving corn sowing efficiency, which has the following characteristics:

(1) according to the method for improving the corn sowing efficiency, the three stirring wheels distributed in an equilateral triangle are arranged in the storage box, and when the driving wheels rotate, the three stirring wheels synchronously rotate, so that the corns on the top layer and the bottom layer of the storage box are stirred, the corn circulation speed is greatly improved, and the corns are prevented from being blocked in the storage box.

(2) According to the method for improving the corn sowing efficiency, the plurality of discharging pipes are adopted, the distance between the discharging pipes can be adjusted to be the same as the required planting distance, so that a plurality of seeds are discharged at a time, the distance between the seeds is the same as the planting distance, and accurate and efficient sowing is realized; the blocking plate and the feed opening can alternately pass through the bottom of the first circulation pipe, so that the seed sowing can be stopped after one group of seeds are discharged, the required planting distance can be reserved among different groups of seeds, and the sowing effect is improved.

(3) According to the method for improving the corn sowing efficiency, when temporary stop is needed, the second rotating motor can be started, so that the baffle plate blocks the blanking pipe, and the situation that the blanking port is just positioned at the bottom of the first circulation pipe and seeds flow out at the moment is avoided.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a method for improving the corn sowing efficiency, wherein the corn sowing machine adopted in the method is provided with three stirring wheels distributed in an equilateral triangle in a storage box, and when a driving wheel rotates, the three stirring wheels synchronously rotate, so that the corns on the top layer and the bottom layer of the storage box are stirred, the corn circulation speed is greatly improved, and the corns are prevented from being blocked in the storage box; a plurality of discharge pipes are adopted, and the distance between the discharge pipes can be adjusted to be the same as the required planting distance, so that a plurality of seeds are discharged at a time, and the distance between the seeds is the same as the planting distance, thereby realizing accurate and efficient sowing; the blocking plate and the feed opening can alternately pass through the bottom of the first circulation pipe, so that seed sowing can be stopped after one group of seeds are discharged, required plant spacing can be reserved among different groups of seeds, and the sowing effect is improved; when needs are parked temporarily, can start the second and rotate the motor for the baffle is to the blanking pipe shutoff, avoids this moment just in time the feed opening to be in the condition that first circulation pipe bottom, seed flowed out.

The technical scheme adopted by the invention for solving the technical problems is as follows: a method for improving the efficiency of corn planting, comprising the steps of:

s1, irrigating the farmland before sowing, and after the irrigation is finished, renovating the farmland by using a rotary cultivator when the farmland soil is in a soft state; the farmland is refitted to make the farmland soft and not easy to be adhered or block a discharge hole of the corn planter, thereby improving the planting efficiency;

s2, after finishing the farmland in S1, putting the corns into a corn seeder for seeding;

the corn seeder adopted in the method comprises a conveying mechanism, a stirring mechanism, a box body, a blanking control mechanism, a closing mechanism, a discharging mechanism, a moving mechanism and a driving mechanism; the stirring mechanism is mounted on the top layer in the conveying mechanism and is rotationally connected with the driving mechanism, and the stirring mechanism is used for accelerating the circulation speed; the box body is arranged on the side wall of the bottom of the conveying mechanism; the blanking control mechanism is arranged in the box body and used for controlling the blanking process; the bottom of the blanking control mechanism is provided with the closing mechanism, and the closing mechanism is used for closing the blanking channel; the bottom of the blanking control mechanism is communicated with a plurality of discharging mechanisms which are used for discharging a plurality of corns at the same time; the discharging mechanism is connected with the moving mechanism in a sliding mode, and the moving mechanism is used for adjusting the distance between the discharging mechanisms.

Specifically, conveying mechanism includes bin, first-class siphunculus, unloading pipe and second circulation pipe, the bin is cuboid cavity structure, the bottom of bin is for leaking hopper-shaped, the bottom intercommunication of bin has the unloading pipe, the unloading pipe is the square tube form, the bin with the junction of unloading pipe is equipped with first-class siphunculus, first-class siphunculus is the pipe form, the bottom intercommunication of unloading pipe has at least two the second circulation pipe.

Specifically, rabbling mechanism includes first stirring wheel, first belt, second stirring wheel, second belt and third stirring wheel, first stirring wheel passes through first belt drive is connected the second stirring wheel, first stirring wheel passes through the second belt drive is connected the third stirring wheel, first stirring wheel the second stirring wheel and the third stirring wheel be equilateral triangle form distribute in the inside of bin, the second stirring wheel the third stirring wheel is arranged in the inside top layer of bin, first stirring wheel is located the top of first circulation pipe, the lateral wall of first stirring wheel is equipped with the rotary column, the outer wall winding of rotary column has first belt the second belt.

Specifically, the driving mechanism comprises a driving wheel, a first driving wheel, a third belt and a second driving wheel, the second driving wheel is welded at the end part of the rotary column, the second driving wheel is rotatably connected with the first driving wheel through the third belt, and the second driving wheel is arranged at the center of the side wall of the driving wheel; the box body is arranged on the side wall of the blanking pipe, and a rectangular through hole structure is formed in the joint of the box body and the blanking pipe.

Specifically, the blanking control mechanism comprises a first rotating motor, a first driving gear, a blocking gear and a transmission column, wherein the blocking gear is arranged in the first flow pipe in parallel, penetrates through the through hole structure of the blanking pipe, the transmission column is rotatably connected to the center of the surface of the blocking gear, the transmission column is vertically and fixedly connected with the inner wall of the box body, the blocking gear is meshed with the first driving gear, and the first driving gear is rotatably connected with the first rotating motor; the surface of the blocking gear is provided with a semicircular feed opening, and the area inside the blocking gear except the feed opening is a semicircular blocking plate.

Specifically, the closing mechanism includes that the second rotates motor, second drive gear, pinion rack, spacing pipe and baffle, spacing pipe is located the bottom of shutoff gear, the inside of spacing pipe runs through there is the rectangle the baffle, the area of baffle is greater than the export area of unloading pipe, the tip of baffle is equipped with the second rotates the motor, the second rotates the motor and rotates the connection second drive gear, second drive gear's top meshing is connected the pinion rack, the pinion rack with the perpendicular fixed connection of inner wall of box body.

Specifically, arrange material mechanism and locate conveying mechanism's bottom, it includes hose, discharging pipe and slider to arrange material mechanism, the one end of hose with the connection can be dismantled to the bottom of second circulation pipe, the other end of hose with the discharging pipe intercommunication, the lateral wall of discharging pipe is equipped with the slider.

Specifically, moving mechanism includes branch and guide rail, the guide rail with sliding connection between the slider, the slider passes through screw fixed connection the guide rail, the guide rail passes through branch fixed connection the bin.

The invention has the beneficial effects that:

(1) according to the method for improving the corn sowing efficiency, the corn sowing machine adopted in the method is provided with the three stirring wheels distributed in an equilateral triangle in the storage box, and when the driving wheels rotate, the three stirring wheels synchronously rotate, so that the corns on the top layer and the bottom layer of the storage box are stirred, the corn circulation speed is greatly improved, and the corns are prevented from being blocked in the storage box.

(2) According to the method for improving the corn sowing efficiency, the corn sowing machine adopted in the method adopts a plurality of discharging pipes, and the distance between the discharging pipes can be adjusted to be the same as the required planting distance, so that a plurality of seeds are discharged at a time, and the distance between the seeds is the same as the planting distance, so that accurate and efficient sowing is realized; the blocking plate and the feed opening can alternately pass through the bottom of the first circulation pipe, so that the seed sowing can be stopped after one group of seeds are discharged, the required planting distance can be reserved among different groups of seeds, and the sowing effect is improved.

(3) According to the method for improving the corn sowing efficiency, the corn sowing machine adopted in the method can start the second rotating motor when temporary stop is needed, so that the baffle plate can block the blanking pipe, and the situation that the blanking port is just positioned at the bottom of the first circulation pipe and seeds flow out at the moment is avoided.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic structural view of a corn planter used in the method;

FIG. 2 is a schematic view of a connection structure of the stirring mechanism and the driving mechanism shown in FIG. 1;

FIG. 3 is a schematic structural diagram of the blanking control mechanism shown in FIG. 1;

FIG. 4 is a schematic structural view of the closure mechanism shown in FIG. 1;

fig. 5 is a schematic structural view of the occlusion tooth shown in fig. 3.

In the figure: 1. a conveying mechanism 11, a storage box 12, a first through pipe 13, a blanking pipe 14, a second through pipe,

2. the stirring device comprises a stirring mechanism, 21, a first stirring wheel, 211, a rotating column, 22, a first belt, 23, a second stirring wheel, 24, a second belt, 25, a third stirring wheel, 3, a box body, 4, a blanking control mechanism, 41, a first rotating motor, 42, a first driving gear, 43, a blocking gear, 431, a blocking plate, 432, a blanking opening, 44, a transmission column, 5, a closing mechanism, 51, a second rotating motor, 52, a second driving gear, 53, a toothed plate, 54, a limiting pipe, 55, a baffle plate, 6, a discharging mechanism, 61, a hose, 62, a discharging pipe, 63, a sliding block, 7, a moving mechanism, 71, a support rod, 72, a guide rail, 8, a driving mechanism, 81, a driving wheel, 82, a first driving wheel, 83, a third belt, 84 and a second driving wheel.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 5, the method for improving the seeding efficiency of corn of the present invention comprises the following steps:

s1, irrigating the farmland before sowing, and after the irrigation is finished, renovating the farmland by using a rotary cultivator when the farmland soil is in a soft state;

the corn seeder adopted in the method comprises a conveying mechanism 1, a stirring mechanism 2, a box body 3, a blanking control mechanism 4, a closing mechanism 5, a discharging mechanism 6, a moving mechanism 7 and a driving mechanism 8; the stirring mechanism 2 is installed on the top layer in the conveying mechanism 1, the stirring mechanism 2 is rotatably connected with the driving mechanism 8, and the stirring mechanism 2 is used for accelerating the circulation speed; the box body 3 is arranged on the side wall of the bottom of the conveying mechanism 1; the blanking control mechanism 4 is arranged in the box body 3, and the blanking control mechanism 4 is used for controlling the blanking process; the bottom of the blanking control mechanism 4 is provided with the closing mechanism 5, and the closing mechanism 5 is used for closing a blanking channel; the bottom of the blanking control mechanism 4 is communicated with a plurality of discharging mechanisms 6, and the discharging mechanisms 6 are used for discharging a plurality of corns at the same time; the discharging mechanism 6 is connected with the moving mechanism 7 in a sliding mode, and the moving mechanism 7 is used for adjusting the distance between the discharging mechanisms 6.

Specifically, as shown in fig. 1, the conveying mechanism 1 includes a storage box 11, a first flow pipe 12, a blanking pipe 13 and a second flow pipe 14, the storage box 11 is of a cuboid cavity structure, the bottom of the storage box 11 is funnel-shaped, the bottom end of the storage box 11 is communicated with the blanking pipe 13, the blanking pipe 13 is of a square pipe shape, the first flow pipe 12 is arranged at the joint of the storage box 11 and the blanking pipe 13, the first flow pipe 12 is of a round pipe shape, and the bottom end of the blanking pipe 13 is communicated with at least two second flow pipes 14; in order to achieve circulation of the seeds.

Specifically, as shown in fig. 1, the stirring mechanism 2 includes a first stirring wheel 21, a first belt 22, a second stirring wheel 23, a second belt 24 and a third stirring wheel 25, the first stirring wheel 21 is in transmission connection with the second stirring wheel 23 through the first belt 22, the first stirring wheel 21 is in transmission connection with the third stirring wheel 25 through the second belt 24, the first stirring wheel 21, the second stirring wheel 23 and the third stirring wheel 25 are distributed in the storage box 11 in an equilateral triangle shape, the second stirring wheel 23 and the third stirring wheel 25 are arranged at the top layer inside the storage box 11, the first stirring wheel 21 is positioned at the top of the first flow pipe 12, the side wall of the first stirring wheel 21 is provided with a rotating column 211, the first belt 22 and the second belt 24 are wound on the outer wall of the rotary column 211; in order to improve the stirring effect, the blanking speed is improved.

Specifically, as shown in fig. 2, the driving mechanism 8 includes a driving wheel 81, a first driving wheel 82, a third belt 83 and a second driving wheel 84, the second driving wheel 84 is welded at an end of the rotary column 211, the second driving wheel is rotatably connected to the first driving wheel through the third belt, and the second driving wheel is disposed at a center of a side wall of the driving wheel; the box body 3 is arranged on the side wall of the blanking pipe 13, and a rectangular through hole structure is formed at the joint of the box body 3 and the blanking pipe 13; in order to enable the wheels to carry the stirring device.

Specifically, as shown in fig. 3 and 5, the blanking control mechanism 4 includes a first rotating motor 41, a first driving gear 42, a blocking gear 43 and a transmission column 44, the blocking gear 43 is disposed inside the first flow pipe 12 in parallel, the blocking gear 43 penetrates through the through hole structure of the blanking pipe 13, the transmission column 44 is rotatably connected to the center of the surface of the blocking gear 43, the transmission column 44 is vertically and fixedly connected to the inner wall of the box body 3, the blocking gear 43 is engaged with the first driving gear 42, and the first driving gear 42 is rotatably connected to the first rotating motor 41; a semicircular blanking opening 432 is formed in the surface of the blocking gear 43, and the area inside the blocking gear 43 except for the blanking opening 432 is a semicircular blocking plate 431; in order to control the blanking process, plant spacing is reserved.

Specifically, as shown in fig. 4, the closing mechanism 5 includes a second rotating motor 51, a second driving gear 52, a toothed plate 53, a limiting pipe 54 and a baffle plate 55, the limiting pipe 54 is disposed at the bottom of the blocking gear 43, the rectangular baffle plate 55 penetrates through the limiting pipe 54, the area of the baffle plate 55 is larger than the area of the outlet of the blanking pipe 13, the second rotating motor 51 is disposed at the end of the baffle plate 55, the second rotating motor 51 is rotatably connected to the second driving gear 52, the top end of the second driving gear 52 is engaged with the toothed plate 53, and the toothed plate 53 is vertically and fixedly connected to the inner wall of the box body 3; in order to block when temporarily parking.

Specifically, as shown in fig. 1, the discharge mechanism 6 is disposed at the bottom of the conveying mechanism 1, the discharge mechanism 6 includes a hose 61, a discharge pipe 62 and a slider 63, one end of the hose 61 is detachably connected to the bottom end of the second flow pipe 14, the other end of the hose 61 is communicated with the discharge pipe 62, and the slider 63 is disposed on the side wall of the discharge pipe 62; to achieve simultaneous discharge of seeds from multiple regions.

Specifically, as shown in fig. 1, the moving mechanism 7 includes a support rod 71 and a guide rail 72, the guide rail 72 is slidably connected with the sliding block 63, the sliding block 63 is fixedly connected with the guide rail 72 through a screw, and the guide rail 72 is fixedly connected with the storage box 11 through the support rod; in order to meet the seeding requirements of different planting distances.

(1) Adjusting the positions of the discharging pipes 62 along the guide rail 72 according to the row spacing of the corns to be sown, and when the spacing between the two discharging pipes 62 is the same as the row spacing, screwing down the screws to limit the discharging pipes 62; the rotating speed of the first rotating motor 41 is adjusted to ensure that the time required for the blocking plate 431 to pass through the first circulating pipe 12 is the same as the time required for the sowing equipment to move the distance between the plants, so that the corn seeds with two required plant distances can fall each time, and the distance between the two corn seeds falling for two times is also the same;

(2) when the corn sowing operation is carried out, a user pushes the equipment to advance, the driving wheel 81 rotates to drive the first driving wheel 82 to rotate, the second driving wheel 84 is further driven to rotate through the third belt 83, the second driving wheel 84 drives the rotating column 211 to rotate, then the first belt 22, the second belt 24 and the first stirring wheel 21 are driven to rotate, and the second stirring wheel 23 and the third stirring wheel 25 synchronously rotate under the driving of the belts, so that the corn can stably flow out through the first circulating pipe 12;

(3) the corn flows out through the feed opening 432, enters the two second flow-through pipes 14 through the feed pipe 13, is discharged to the discharge pipe 62 through the hose 61, and finally falls into a groove opened in the equipment; then, the equipment continues to advance, at the moment, the blocking plate 431 rotates to the bottom of the first through pipe 12 to block the corn seeds, after the equipment moves the plant spacing distance, at the moment, the blocking plate 431 is separated from the first through pipe 12 and the feed opening 432 and rotates to the bottom of the first through pipe 12, and then the seeds can be discharged through the feed pipe 13, the second through pipe 14, the hose 61 and the discharge pipe 62 again to realize accurate seeding;

(4) when needs are parked temporarily, can start second rotating electrical machines 51, under the effect of second drive gear 52, pinion rack 53 meshing force, baffle 55 enters into unloading pipe 13 in, carries out the shutoff to the exit of unloading pipe 13, avoids just in time the feed opening 432 to be in the condition that first circulation pipe 12 bottom, seed flow out this moment.

According to the invention, three stirring wheels distributed in an equilateral triangle are arranged in the storage box 11, and when the driving wheel 81 rotates, the three stirring wheels synchronously rotate, so that the corns on the top layer and the bottom layer of the storage box 11 are stirred, the corn circulation speed is greatly improved, and the corns are prevented from being blocked in the storage box 11; a plurality of discharging pipes 62 are adopted, and the distance between the discharging pipes can be adjusted to be the same as the required planting distance, so that a plurality of seeds are discharged at a time, and the distance between the seeds is the same as the planting distance, thereby realizing accurate and efficient sowing; the blocking plate 431 and the feed opening 432 can alternately pass through the bottom of the first through-flow pipe 12, so that seeding can be stopped after one group of seeds are discharged, a required planting distance can be reserved among different groups of seeds, and the seeding effect is improved; when temporary parking is needed, the second rotating motor 51 can be started, so that the baffle 55 blocks the discharging pipe 13, and the situation that the discharging port 432 is positioned at the bottom of the first circulation pipe 12 and seeds flow out at the moment is avoided.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the embodiments and descriptions given above are only illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A method for improving the seeding efficiency of corn is characterized by comprising the following steps:

the corn seeder adopted in the method comprises a conveying mechanism (1), a stirring mechanism (2), a box body (3), a blanking control mechanism (4), a closing mechanism (5), a discharging mechanism (6), a moving mechanism (7) and a driving mechanism (8); the stirring mechanism (2) is mounted on the top layer in the conveying mechanism (1), the stirring mechanism (2) is rotatably connected with the driving mechanism (8), and the stirring mechanism (2) is used for accelerating the circulation speed; the box body (3) is arranged on the side wall of the bottom of the conveying mechanism (1); the blanking control mechanism (4) is arranged in the box body (3), and the blanking control mechanism (4) is used for controlling the blanking process; the closing mechanism (5) is arranged at the bottom of the blanking control mechanism (4), and the closing mechanism (5) is used for closing a blanking channel; the bottom of the blanking control mechanism (4) is communicated with a plurality of discharging mechanisms (6), and the discharging mechanisms (6) are used for discharging a plurality of corns at the same time; the discharging mechanisms (6) are connected with the moving mechanism (7) in a sliding mode, and the moving mechanism (7) is used for adjusting the distance between the discharging mechanisms (6);

the conveying mechanism (1) comprises a storage box (11), a first flow pipe (12), a blanking pipe (13) and a second flow pipe (14), the storage box (11) is of a cuboid cavity structure, the bottom of the storage box (11) is funnel-shaped, the blanking pipe (13) is communicated with the bottom end of the storage box (11), the blanking pipe (13) is of a square pipe shape, the first flow pipe (12) is arranged at the joint of the storage box (11) and the blanking pipe (13), the first flow pipe (12) is of a round pipe shape, and the bottom end of the blanking pipe (13) is communicated with at least two second flow pipes (14);

the blanking control mechanism (4) comprises a first rotating motor (41), a first driving gear (42), a blocking gear (43) and a transmission column (44), the blocking gear (43) is arranged inside the first flow pipe (12) in parallel, the blocking gear (43) penetrates through a through hole structure of the blanking pipe (13), the transmission column (44) is rotatably connected to the center of the surface of the blocking gear (43), the transmission column (44) is vertically and fixedly connected with the inner wall of the box body (3), the blocking gear (43) is meshed with the first driving gear (42), and the first driving gear (42) is rotatably connected with the first rotating motor (41); a semicircular feed opening (432) is formed in the surface of the blocking gear (43), and the area, except for the feed opening (432), in the blocking gear (43) is a semicircular blocking plate (431);

the discharge mechanism (6) is arranged at the bottom of the conveying mechanism (1), the discharge mechanism (6) comprises a hose (61), a discharge pipe (62) and a sliding block (63), one end of the hose (61) is detachably connected with the bottom end of the second through pipe (14), the other end of the hose (61) is communicated with the discharge pipe (62), and the sliding block (63) is arranged on the side wall of the discharge pipe (62);

moving mechanism (7) include branch (71) and guide rail (72), guide rail (72) with sliding connection between slider (63), slider (63) are through screw fixed connection guide rail (72), guide rail (72) are through branch fixed connection bin (11).

2. The method for improving the seeding efficiency of corn as claimed in claim 1, wherein: the stirring mechanism (2) comprises a first stirring wheel (21), a first belt (22), a second stirring wheel (23), a second belt (24) and a third stirring wheel (25), the first stirring wheel (21) is connected with the second stirring wheel (23) through the transmission of the first belt (22), the first stirring wheel (21) is connected with the third stirring wheel (25) through the transmission of the second belt (24), the first stirring wheel (21), the second stirring wheel (23) and the third stirring wheel (25) are distributed in the inner part of the storage box (11) in an equilateral triangle shape, the second stirring wheel (23) and the third stirring wheel (25) are arranged in the inner top layer of the storage box (11), the first stirring wheel (21) is arranged at the top of the first circulation pipe (12), the side wall of the first stirring wheel (21) is provided with a rotating column (211), the outer wall of the rotary column (211) is wound with the first belt (22) and the second belt (24).

3. The method for improving the seeding efficiency of corn as claimed in claim 2, wherein: the driving mechanism (8) comprises a driving wheel (81), a first driving wheel (82), a third belt (83) and a second driving wheel (84), the second driving wheel (84) is welded at the end part of the rotating column (211), the second driving wheel is rotatably connected with the first driving wheel through the third belt, and the second driving wheel is arranged at the center of the side wall of the driving wheel; the box body (3) is arranged on the side wall of the discharging pipe (13), and a rectangular through hole structure is formed in the joint of the box body (3) and the discharging pipe (13).

4. The method for improving the seeding efficiency of corn as claimed in claim 1, wherein: the closing mechanism (5) comprises a second rotating motor (51), a second driving gear (52), a toothed plate (53), a limiting pipe (54) and a baffle (55), the limiting pipe (54) is arranged at the bottom of the blocking gear (43), the rectangular baffle (55) penetrates through the limiting pipe (54), the area of the baffle (55) is larger than the area of an outlet of the blanking pipe (13), the second rotating motor (51) is arranged at the end part of the baffle (55), the second rotating motor (51) is rotatably connected with the second driving gear (52), the top end of the second driving gear (52) is meshed with the toothed plate (53), and the toothed plate (53) is vertically and fixedly connected with the inner wall of the box body (3).