CN117751733A

CN117751733A - Chinese yam planter

Info

Publication number: CN117751733A
Application number: CN202410195771.4A
Authority: CN
Inventors: 白孟鑫; 吴放; 赵荣兵; 杨洁; 周晓超; 张稚钰; 李林峰; 王士苗; 王金艳; 张学敏; 赵凌霄; 王绍敏
Original assignee: Jiaozuo City Academy Of Agricultural And Forestry Sciences; Inner Mongolia University of Technology
Current assignee: Jiaozuo City Academy Of Agricultural And Forestry Sciences; Inner Mongolia University of Technology
Priority date: 2024-02-22
Filing date: 2024-02-22
Publication date: 2024-03-26
Anticipated expiration: 2044-02-22
Also published as: CN117751733B

Abstract

The invention discloses a Chinese yam planter, which comprises a traction vehicle body, a ditching mechanism and a color stripe cloth laying mechanism, wherein the ditching mechanism is arranged on the traction vehicle body; the color stripe cloth laying mechanism comprises a laying roller which is rotationally arranged, the laying roller is used for laying color stripe cloth, the feeding port comprises a first feeding port for feeding straws and a second feeding port for feeding yam seedlings, the earthing mechanism comprises a first earthing mechanism for earthing the straws and a second earthing mechanism for earthing the yam seedlings, the first earthing mechanism is correspondingly arranged on two sides of the first feeding port, the second earthing mechanism is correspondingly arranged on two sides of the second feeding port, an earthing driving assembly is arranged between the first earthing mechanism and the second earthing mechanism on each side, and a second transmission assembly is further arranged between the earthing driving assembly and the laying roller, so that the earthing mechanism can be driven to carry out earthing while the laying roller rotates; in combination, the Chinese yam planter disclosed by the invention can assist in planting Chinese yams by a color bar method, so that the labor is reduced, and the efficiency is improved.

Description

Chinese yam planter

Technical Field

the invention belongs to the technical field of agricultural machinery, and particularly relates to a Chinese yam planter.

Background

The common propagation method of the Chinese yam is to propagate by adopting tubers, the tubers are provided with a small bud, the parts are called seedlings, the seedlings are selected for planting, or the tubers are broken into 10 cm-long sections, the positions of wounds at the two ends are smeared with plant ash, and then the dried and ventilated positions are used for airing and accelerating germination, and then the Chinese yam can be planted. When planting, the Chinese yam stem is planted in the soil, and when harvesting, the soil is excavated first and then the Chinese yam is taken out, and as the Chinese yam is mature and long in length, the Chinese yam is very troublesome to harvest and is broken slightly carelessly.

In order to solve the problem that the Chinese yam is inconvenient to harvest when being ripe, farmers adopt a color stripe cloth planting method when planting the Chinese yam, the color stripe cloth planting method is to spread color stripe cloth in a dug ditch, then corn straw is covered on the color stripe cloth and soil is covered, then farmyard manure is applied, the Chinese yam is transversely put on the soil, and finally soil layers are covered. The Chinese yam planted in the mode can be dug out only by pulling up two ends of the color stripe cloth and then growing on the color stripe cloth when harvesting; some devices capable of replacing manual lines to lay color strips are also presented.

However, the special planting method of the Chinese yam needs to be covered with soil twice, namely, after the straws are paved and the Chinese yam seedlings are placed, the soil needs to be covered with the soil twice, and the existing equipment cannot be matched with the process to cover the soil twice, so that a new Chinese yam planter needs to be developed.

Disclosure of Invention

The invention aims to provide a Chinese yam planter, and provides a Chinese yam planter capable of realizing a color stripe cloth planting method by earthing in a divided manner.

the technical scheme adopted by the invention is that the Chinese yam planter comprises: the traction vehicle body, the rear side of traction vehicle body is provided with and loads the sweep, loads the sweep both sides and still is provided with the bar mounting panel, is provided with ditching mechanism between two bar mounting panels, and ditching mechanism passes through drive assembly drive, still includes:

The color stripe cloth paving mechanism is arranged at the rear side of the ditching mechanism and comprises a paving roller which is rotatably arranged between two strip-shaped mounting plates, wherein the paving roller is used for paving color stripe cloth, a first transmission assembly is further arranged between the paving roller and the ditching driving assembly, and the paving roller can be driven to rotate through the first transmission assembly;

the throwing port is arranged on the loading truck plate and comprises a first throwing port for throwing straws and a second throwing port for throwing yam seedlings, and the first throwing port and the second throwing port are sequentially arranged at the rear side of the color stripe cloth paving mechanism;

The earthing mechanism comprises a first earthing mechanism for earthing the straws and a second earthing mechanism for earthing the heads of the Chinese yam, wherein the first earthing mechanism is correspondingly arranged on two sides of the first feeding port, the second earthing mechanism is correspondingly arranged on two sides of the second feeding port, an earthing driving assembly is arranged between the first earthing mechanism and the second earthing mechanism on each side, and a second transmission assembly is further arranged between the earthing driving assembly and the laying roller, so that the laying roller can drive the earthing mechanism to carry out earthing while rotating.

The earthing drive assembly comprises an earthing transmission gear arranged between the first earthing mechanism and the second earthing mechanism, a first supporting shaft used for supporting the earthing transmission gear to rotate is arranged at the bottom of the loading vehicle plate, the second transmission assembly is arranged between the first supporting shaft and the laying roller, the earthing transmission gear is a bevel gear, second bevel gears meshed with the two sides of the earthing transmission gear are respectively arranged at the two sides of the earthing transmission gear, a second supporting shaft used for supporting the second bevel gears to rotate is arranged at the bottom of the loading vehicle plate, a crank rocker mechanism is arranged at one end, far away from the second bevel gear, of the second supporting shaft, and the two crank rocker mechanisms are respectively connected with the first earthing mechanism and the second earthing mechanism and can respectively drive the first earthing mechanism and the second earthing mechanism to reciprocate along the length direction perpendicular to the traction vehicle body through the crank rocker mechanism, so that earthing is achieved.

the second transmission assembly comprises a third spur gear arranged on the laying roller, a fourth spur gear meshed with the third spur gear is further arranged between the first soil covering mechanism and the third spur gear, the fourth spur gear rotates through a third supporting shaft arranged at the bottom of the loading truck plate, a first belt wheel is arranged on the third supporting shaft, a second belt wheel is arranged on the first supporting shaft, and a transmission belt is arranged between the first belt wheel and the second belt wheel.

The crank rocker mechanism comprises a rotating disc arranged at the end part of the second supporting shaft, a rocker is arranged on the end face of the rotating disc, the crank rocker mechanism further comprises a cross slide block arranged at the bottom of the loading vehicle plate, the cross slide block is perpendicular to the second supporting shaft, a transverse groove is formed in the cross slide block, the other end of the rocker is in sliding connection with the transverse groove, and therefore the cross slide block can be driven to reciprocate along the length direction perpendicular to the traction vehicle body when the rotating disc rotates.

The first earthing mechanism and the second earthing mechanism are respectively connected with each cross slide block through two backfill slide blocks, backfill slide blocks are arranged at the bottoms of the loading vehicle plates, first supporting blocks are arranged at the tops of the backfill slide blocks on the first earthing mechanism, second supporting blocks are arranged at the tops of the backfill slide blocks on the second earthing mechanism, the two backfill slide blocks are respectively connected with the first supporting blocks and the second supporting blocks in a sliding mode, and the height of the second supporting blocks is larger than that of the first supporting blocks.

The loading truck board is also provided with a yam head placing mechanism and a fertilizer sowing mechanism respectively, the loading truck board is also provided with a fertilizer seed opening, the fertilizer seed opening is arranged at the rear side of the throwing opening, and the yam head placing mechanism and the fertilizer sowing mechanism are respectively arranged at two sides of the fertilizer seed opening.

The ditching mechanism rotates the rear side that sets up at the traction vehicle body through swing subassembly, can adjust ditching degree of depth of ditching mechanism through swing subassembly, and swing subassembly is including setting up the pivot in loading sweep bottom, and the pivot sets up along the direction of perpendicular to traction vehicle body, and the pivot is through setting up the first motor drive on traction vehicle body, and the both ends of pivot are provided with the swing arm respectively, and the bar mounting panel sets up on the swing arm.

the ditching mechanism is including rotating the ditching pivot that sets up between two bar mounting panels, and the ditching pivot is led to the second motor drive that sets up on the bar mounting panel, still is provided with the ditching roller in the ditching pivot, and first drive assembly sets up between ditching pivot and laying roller.

the first transmission assembly comprises a first straight gear arranged at the end part of the ditching rotating shaft, and the laying roller is provided with a second straight gear meshed with the first straight gear.

The beneficial effects of the invention are as follows:

According to the yam planter disclosed by the application, the ditching driving assembly drives the ditching mechanism to work when acting, and meanwhile, the paving roller starts to rotate under the action of the first transmission assembly, so that color stripe cloth wound on the paving roller is paved in an opened ditch along with ditching, a worker standing on a loading truck plate can put straws into the opened ditch through the throwing port while paving the color stripe cloth, meanwhile, under the action of the second transmission assembly, the soil covering driving assembly also starts to work along with the continuous rotation of the paving roller, soil can be covered on the straws through the first soil covering mechanism, the worker can immediately put a yam seedling head on a covered soil layer through the throwing port, and finally, along with the continuous advancing of a traction truck body, the second soil covering mechanism covers the residual soil on the placed yam seedling head; in conclusion, the Chinese yam planter can assist a worker to complete the process of planting Chinese yams by the color bar method, so that labor is reduced, and meanwhile, the efficiency is improved.

Drawings

FIG. 1 is a schematic diagram of a yam planter in accordance with the present invention;

FIG. 2 is a schematic view of an upper soil covering mechanism of a yam planter in accordance with the present invention;

FIG. 3 is a schematic view of a crank and rocker mechanism on a yam planter in accordance with the present invention;

fig. 4 is a top view of a loading truck plate on a yam planter in accordance with the present invention.

In the drawings, a traction vehicle body, 2, a loading vehicle plate, 3, a rotating shaft, 4, a swing arm, 5, a laying roller, 6, a strip-shaped mounting plate, 7, a ditching rotating shaft, 8, a ditching roller, 9, a throwing port, 10, an earth covering transmission gear, 11, a first support shaft, 12, a second bevel gear, 13, a second support shaft, 14, a third straight gear, 15, a fourth straight gear, 16, a third support shaft, 17, a first belt wheel, 18, a second belt wheel, 19, a driving belt, 20, a rotating disc, 21, a rocker, 22, a cross slide, 23, a transverse groove, 24, a backfilling slide, 25, a backfilling slide, 26, a second support block, 27, a fertilizer seed opening and 28.

Detailed Description

The invention will be described in detail below with reference to the drawings and the detailed description. The following examples are only for more clearly illustrating the technical solution of the present invention and are not to be construed as limiting the protection solution of the present invention.

Example 1

The invention discloses a Chinese yam planter, which is shown in figures 1-4 and comprises a traction vehicle body 1, a ditching mechanism, a color stripe cloth laying mechanism, a throwing port and a soil covering mechanism; wherein the rear side of the towing vehicle body 1 is provided with a loading vehicle plate 2; the ditching mechanism comprises two strip-shaped mounting plates 6 symmetrically arranged on two sides of the loading truck plate 2, the ditching mechanism is arranged between the two strip-shaped mounting plates 6, and the ditching assembly is driven by the ditching driving assembly; the color stripe cloth paving mechanism is arranged at the rear side of the ditching mechanism and comprises a paving roller 5 rotatably arranged between two strip-shaped mounting plates 6, the paving roller 5 is used for paving color stripe cloth, a first transmission assembly is further arranged between the paving roller 5 and the ditching driving assembly, and the paving roller 5 can be driven to rotate through the first transmission assembly; the throwing port 9 is arranged on the loading truck plate 2, the throwing port 9 comprises a first throwing port for throwing straws and a second throwing port for throwing yam seedlings, and the first throwing port and the second throwing port are sequentially arranged at the rear side of the color stripe cloth paving mechanism; the earthing mechanism is including being used for the first earthing mechanism of earthing on the straw and being used for the first earthing mechanism of earthing of chinese yam seedling, first earthing mechanism corresponds the both sides that set up at first access, and second earthing mechanism corresponds the both sides that set up at the second access, is provided with earthing drive assembly between the first earthing mechanism of every side and the second earthing mechanism, earthing drive assembly with still be provided with second drive assembly between the laying roller 5, consequently laying roller 5 can drive earthing mechanism and carry out earthing when pivoted.

Further, the ditching mechanism rotates the rear side that sets up at the traction vehicle body 1 through swing subassembly, can adjust the ditching degree of depth of ditching mechanism through swing subassembly, and swing subassembly is including setting up the pivot 3 in loading sweep 2 bottom, and pivot 3 sets up along the direction of perpendicular to traction vehicle body 1, and pivot 3 is through setting up the first motor drive on traction vehicle body 1, and the both ends of pivot 3 are provided with swing arm 4 respectively, and bar mounting panel 6 sets up on swing arm 4.

the ditching mechanism comprises a ditching rotating shaft 7 which is rotatably arranged between the two strip-shaped mounting plates 6, the ditching rotating shaft 7 is driven by a second motor which is arranged on the strip-shaped mounting plates 6, a ditching roller 8 is further arranged on the ditching rotating shaft 7, and a first transmission assembly is arranged between the ditching rotating shaft 7 and the paving roller 5. The first transmission assembly comprises a first straight gear arranged at the end part of the ditching rotary shaft 7, and the laying roller 5 is provided with a second straight gear meshed with the first straight gear.

When the second motor starts to act, the ditching rotating shaft 7 drives the ditching roller 5 to start ditching, meanwhile, the laying roller 5 starts to rotate under the action of the second spur gear meshed with the first spur gear, so that color strips wound on the laying roller 5 are laid in the ditches along with ditching, after color strip cloth is laid, workers standing on the loading truck plate 2 can put straws into the ditches through the first input port, meanwhile, under the action of the second transmission assembly, the earthing driving assembly is driven to start working along with the continuous rotation of the laying roller 5, at the moment, the straws can be earthing through the first earthing mechanism, the workers can immediately put yam seedlings through the second input port to the covered soil layer, and finally, along with the continuous advancing of the traction truck body, the second earthing mechanism covers the remained soil on the placed yam seedlings; in conclusion, the Chinese yam planter can assist a worker to complete the process of planting Chinese yams by the color bar method, so that labor is reduced, and meanwhile, the efficiency is improved.

Example 2

Further, on the basis of embodiment 1, as shown in fig. 1 and 2, the soil covering driving assembly includes a soil covering transmission gear 10 disposed between a first soil covering mechanism and a second soil covering mechanism, a first supporting shaft 11 for supporting the rotation of the soil covering transmission gear 10 is disposed at the bottom of the loading truck plate 2, the second transmission assembly is disposed between the first supporting shaft 11 and the laying roller 5, the soil covering transmission gear 10 is a bevel gear, second bevel gears 12 meshed with the two sides of the soil covering transmission gear 10 are respectively disposed at the two sides of the soil covering transmission gear 10, a second supporting shaft 13 for supporting the rotation of the second bevel gears 12 is disposed at the bottom of the loading truck plate 2, a crank and rocker mechanism is disposed at one end of the second supporting shaft 13 away from the second bevel gears 12, and both crank and rocker mechanisms are respectively connected with the first soil covering mechanism and the second soil covering mechanism, and can respectively drive the first soil covering mechanism and the second soil covering mechanism to reciprocate along the length direction perpendicular to the traction truck body 1 through the crank and rocker mechanism, thereby the soil covering effect is achieved.

The second transmission assembly comprises a third spur gear 14 arranged on the laying roller 5, a fourth spur gear 15 meshed with the third spur gear 14 is further arranged between the first soil covering mechanism and the third spur gear, the fourth spur gear 15 rotates through a third supporting shaft 16 arranged at the bottom of the loading truck plate 2, a first belt wheel 17 is arranged on the third supporting shaft 16, a second belt wheel 18 is arranged on the first supporting shaft 11, and a transmission belt 19 is arranged between the first belt wheel 17 and the second belt wheel 18. Therefore, when the laying roller 5 rotates, the third spur gear 14, the fourth spur gear 15, the third supporting shaft 16, the first belt pulley 17, the driving belt 19 and the second belt pulley 18 are driven to rotate in sequence, then the first supporting shaft 11 and the earthing transmission gear 10 start to rotate, the earthing transmission gear 10 drives the two second bevel gears 12 and the second supporting shafts 13 meshed with the earthing transmission gear 10 to rotate, and finally the crank-rocker mechanism arranged at the end part of the second supporting shaft 13 starts to act.

the crank rocker mechanism comprises a rotating disc 20 arranged at the end part of the second supporting shaft 13, a rocker 21 is arranged on the end surface of the rotating disc 20, the crank rocker mechanism further comprises a cross slide block 22 arranged at the bottom of the loading plate 2, the cross slide block 22 is perpendicular to the second supporting shaft 13, a transverse groove 23 is formed in the cross slide block 22, the other end of the rocker 21 is in sliding connection with the transverse groove 23, therefore, when the rotating disc 20 rotates, the cross slide block 22 can be driven to reciprocate along the length direction perpendicular to the traction vehicle body 1, then when the second supporting shaft 13 rotates, the rotating disc 20 is driven to act, when the rotating disc 20 rotates, the rocker 21 on the rotating disc is driven to act, and one end of the rocker 21 can automatically slide in the transverse groove 23 of the cross slide block 22, so that the cross slide block 22 is driven to reciprocate along the length direction perpendicular to the traction vehicle body 1.

Example 3

Further, on the basis of embodiment 2, the first earth covering mechanism and the second earth covering mechanism each comprise a backfill slide block 24 arranged at the bottom of the loading truck board 2, the two backfill slide blocks 24 are respectively connected with each cross slide block 22, the bottom of each backfill slide block 24 is further provided with a backfill block 25, the top of each backfill slide block 24 on the first earth covering mechanism is provided with a first support block 28, the top of each backfill slide block 24 on the second earth covering mechanism is provided with a second support block 26, the two backfill slide blocks 24 are respectively in sliding connection with the first support block 28 and the second support block 26, and the height of the second support block 26 is larger than that of the first support block 28; the two backfill sliding blocks 24 are respectively and slidably connected with the first supporting block 28 and the second supporting block 26, and the backfill sliding blocks 24 are fixedly connected with the cross sliding blocks 22, because the backfill sliding blocks 24 and the backfill loquat 25 thereon can be driven to cover soil along with the reciprocating motion of the cross sliding blocks 24, and because the height of the second supporting block 26 is larger than that of the first supporting block 28, the backfill loquat 2 connected with the first supporting block 28 is used for backfilling soil on two sides of a ditch into the ditch after planting of the Chinese yam.

Example 4

Further, on the basis of embodiment 3, the loading board 2 is further provided with a yam head placing mechanism and a fertilizer sowing mechanism, the loading board 2 is further provided with a fertilizer seed opening 27, the fertilizer seed opening is arranged at the rear side of the input opening 9, the yam head placing mechanism and the fertilizer sowing mechanism are respectively arranged at two sides of the fertilizer seed opening 27, the fertilizer seed opening 27 is arranged at the rear side of the first soil covering mechanism, after the soil covering of the first soil covering mechanism is completed, the yam head placing mechanism can be used for performing yam head planting, simultaneously, farmyard manure is sowed through the fertilizer sowing mechanism, the planting and fertilizer sowing processes can be performed manually or automatically, and finally the sowed yam head and farmyard manure enter the ditch through the fertilizer seed opening 27; in combination, the invention can realize the semi-automatic planting process of the colored ribbon yam, thereby improving the planting efficiency of the yam.

The above embodiments are only preferred embodiments of the present invention, the protection scope of the present invention is not limited thereto, and any simple changes or equivalent substitutions of the obtained technical solutions within the technical scope of the present invention disclosed by the present invention will be apparent to those skilled in the art.

Claims

1. A yam planter comprising: traction vehicle body (1), the rear side of traction vehicle body (1) is provided with and loads sweep (2), it still is provided with bar mounting panel (6) to load sweep (2) both sides, two be provided with ditching mechanism between bar mounting panel (6), ditching mechanism passes through drive assembly drive, its characterized in that still includes:

The color stripe cloth paving mechanism is arranged at the rear side of the ditching mechanism and comprises a paving roller (5) which is rotatably arranged between two strip-shaped mounting plates (6), the paving roller (5) is used for paving color stripe cloth, a first transmission assembly is further arranged between the paving roller (5) and the ditching driving assembly, and the paving roller (5) can be driven to rotate through the first transmission assembly;

the throwing port (9) is arranged on the loading truck board (2) and comprises a first throwing port for throwing straws and a second throwing port for throwing yam seedlings, and the first throwing port and the second throwing port are sequentially arranged at the rear side of the color stripe cloth paving mechanism;

The earthing mechanism comprises a first earthing mechanism for earthing the straw and a second earthing mechanism for earthing the seedling head of the Chinese yam, wherein the first earthing mechanism is correspondingly arranged on two sides of the first input port, the second earthing mechanism is correspondingly arranged on two sides of the second input port, earthing driving assemblies are arranged between the first earthing mechanism and the second earthing mechanism on each side, and second transmission assemblies are further arranged between the earthing driving assemblies and the laying rollers (5), so that the laying rollers (5) can drive the earthing mechanisms to carry out earthing while rotating.

2. The yam planter as claimed in claim 1, wherein the soil covering driving assembly comprises a soil covering transmission gear (10) arranged between the first soil covering mechanism and the second soil covering mechanism, a first supporting shaft (11) for supporting the rotation of the soil covering transmission gear (10) is arranged at the bottom of the loading vehicle plate (2), the second transmission assembly is arranged between the first supporting shaft (11) and the laying roller (5), the soil covering transmission gear (10) is a bevel gear, second bevel gears (12) meshed with the two sides of the soil covering transmission gear (10) are respectively arranged at the bottom of the loading vehicle plate (2), a second supporting shaft (13) for supporting the rotation of the second bevel gears (12) is arranged at one end, far away from the second bevel gears (12), of the second supporting shaft (13), the two crank rocker mechanisms are respectively connected with the first soil covering mechanism and the second soil covering mechanism, and the soil covering mechanism can be driven to reciprocate along the first soil covering mechanism and the second soil covering mechanism (1) through the crank mechanisms respectively.

3. A yam planter as claimed in claim 2, wherein the second transmission assembly comprises a third spur gear (14) arranged on the laying roller (5), a fourth spur gear (15) meshed with the third spur gear (14) is further arranged between the first soil covering mechanism and the third spur gear (14), the fourth spur gear (15) rotates through a third support shaft (16) arranged at the bottom of the loading plate (2), a first belt wheel (17) is arranged on the third support shaft (16), a second belt wheel (18) is arranged on the first support shaft (11), and a transmission belt (19) is arranged between the first belt wheel (17) and the second belt wheel (18).

4. The yam planter as claimed in claim 2, wherein the crank rocker mechanism comprises a rotating disc (20) arranged at the end part of the second supporting shaft (13), a rocker (21) is arranged on the end surface of the rotating disc (20), the yam planter further comprises a cross slide block (22) arranged at the bottom of the loading plate (2), the cross slide block (22) is perpendicular to the second supporting shaft (13), a transverse groove (23) is arranged on the cross slide block (22), and the other end of the rocker (21) is in sliding connection with the transverse groove (23), so that the cross slide block (22) can be driven to reciprocate along the length direction perpendicular to the traction vehicle body (1) when the rotating disc (20) rotates.

5. The yam planter as claimed in claim 4, wherein the first soil covering mechanism and the second soil covering mechanism each comprise a backfill slider (24) arranged at the bottom of the loading truck plate (2), two backfill sliders (24) are respectively connected with each cross slider (22), backfill sliders (24) are further arranged at the bottom of the backfill sliders (24), a first support block (28) is arranged at the top of each backfill slider (24) on the first soil covering mechanism, a second support block (26) is arranged at the top of each backfill slider (24) on the second soil covering mechanism, the two backfill sliders (24) are respectively connected with the first support block (28) and the second support block (26) in a sliding manner, and the height of each second support block (26) is larger than that of each first support block (28).

6. The yam planter as claimed in claim 5, wherein the loading vehicle plate (2) is further provided with a yam head placement mechanism and a fertilizer spreading mechanism, the loading vehicle plate (2) is further provided with a fertilizer seed opening (27), the fertilizer seed opening is arranged at the rear side of the input opening (9), and the yam head placement mechanism and the fertilizer spreading mechanism are respectively arranged at two sides of the fertilizer seed opening (27).

7. The yam planter as claimed in claim 1, wherein the ditching mechanism is rotatably arranged at the rear side of the traction vehicle body (1) through a swinging assembly, the ditching depth of the ditching mechanism can be adjusted through the swinging assembly, the swinging assembly comprises a rotating shaft (3) arranged at the bottom of the loading vehicle plate (2), the rotating shaft (3) is arranged along the direction perpendicular to the traction vehicle body (1), the rotating shaft (3) is driven by a first motor arranged on the traction vehicle body (1), two ends of the rotating shaft (3) are respectively provided with a swinging arm (4), and the strip-shaped mounting plate (6) is arranged on the swinging arms (4).

8. The yam planter as in claim 7, wherein the ditching mechanism comprises a ditching rotating shaft (7) rotatably arranged between the two bar-shaped mounting plates (6), the ditching rotating shaft (7) is driven by a second motor arranged on the bar-shaped mounting plates (6), a ditching roller (8) is further arranged on the ditching rotating shaft (7), and the first transmission assembly is arranged between the ditching rotating shaft (7) and the laying roller (5).

9. A yam planter as in claim 8, wherein the first transmission assembly comprises a first spur gear arranged at the end of the ditching shaft (7), and the laying roller (5) is provided with a second spur gear meshed with the first spur gear.