CN114586485A

CN114586485A - Mechanical seedling separating device

Info

Publication number: CN114586485A
Application number: CN202210439422.3A
Authority: CN
Inventors: 寇建辉
Original assignee: Anhui Zhihua Organic Product Certification Co ltd
Current assignee: Anhui Zhihua Organic Product Certification Co ltd
Priority date: 2022-04-25
Filing date: 2022-04-25
Publication date: 2022-06-07

Abstract

The utility model discloses a mechanical seedling separating device, and belongs to the technical field of plant seedling separation. The stem leaves of the plant are inserted into the interval of the assembly frame, the stem leaves of the plant penetrate into the inner cavity of the inner inserting barrel, the tip ends of the stem leaves are positioned in the inner cavity of the assembly barrel, workers manually pull the tip ends of the stem leaves outwards to form the outer end of the cavity, the uppermost ends of the whole stem leaves of the plant are fixed, the rootstocks of the plant are wrapped by the inner end face of the assembly frame, the workers manually peel off a plurality of groups of rootstocks with stem leaves, insert a plurality of groups of rootstocks into the interval of the single transmission mechanism, drive the two groups of transmission shafts to rotate oppositely through the external motor, pull the stem whiskers of the rootstocks through the rotation of the arrangement wheel ring, pull the stem whiskers to enable the roots of the plant to slide into the inner cavity of the through hole through the inner cavity of the transmission mechanism, the separated single group of plant penetrates through the inner cavity of the series barrel and then enters the inner cavity of the block through the series cavity, and finally passes through the built-in cavity discharge device, obtaining the separated plants.

Description

Mechanical seedling separating device

Technical Field

The utility model relates to the technical field of plant seedling division, in particular to a mechanical seedling division device.

Background

And the seedlings are separated, so that the seedlings can be prevented from being squeezed, the nutrition and illumination areas of the seedlings are enlarged, and the seedlings are promoted to grow fast. However, the seedling division inevitably causes root breaking in different degrees, so that the function of the root system is reduced, and the normal growth of the seedling is inhibited. To ensure that the seedlings recover the root absorption function as much as possible and grow healthily, it is necessary to know what matters are in the seedling separating process.

The patent number CN201520785977.9 discloses an agricultural machine seedling separating device, which comprises at least one seedling separating device, wherein the seedling separating device comprises two seedling separating plates, a certain angle is formed between the two seedling separating plates and the two seedling separating plates are intersected in front of the seedling separating device, the intersection line of the two seedling separating plates is arc-shaped, and the two seedling separating plates are respectively connected with agricultural machines; further, the seedling separating plate is connected with a wheel of the agricultural machine through a connecting plate, and the connecting plate extends to the rear part of the wheel along the side surface of the wheel; further, the agricultural mechanical seedling separating device is symmetrical along the center line; furthermore, the arc shape is similar to the maximum shape of the agricultural machine at the installation position of the seedling separating device.

Patent No. CN201921396283.0 discloses an agricultural mechanical seedling separating device, comprising; the water tank is arranged on the shell; the supporting piece is arranged in the water tank, a water washing tank is arranged on the supporting piece, a water inlet hole is formed in the upper end of the supporting piece, and an overflowing hole communicated with the water tank is formed in the bottom surface of the water washing tank; the spiral rib is connected to the inner wall of the rinsing bath, the water inlet hole is positioned above the spiral rib, and a plurality of installation parts for placing seedlings are arranged at intervals along the length direction of the spiral rib; the water outlet pipe is connected to the lower end of the shell and communicated with the water tank; in some embodiments of the present invention, the water inlet pipe is connected to the housing, and the water inlet pipe is communicated with the water inlet hole through a branch pipe.

The patent No. CN201520785977.9 is an agricultural machinery seedling separating device, which solves the problem that the plant protection machinery is easy to damage crops when fertilizing and spraying; the agricultural mechanical seedling separating device disclosed in patent No. CN201921396283.0 solves the problem that the survival rate of seedlings is reduced because roots and stems of the seedlings are often damaged in the vibration process; but the root hair and the rhizome of plants with different stem and leaf lengths cannot be treated.

Disclosure of Invention

Technical problem to be solved

The utility model aims to provide a mechanical seedling separating device which can be used for treating root hairs and rhizomes of plants with different stem lengths and leaves so as to solve the problems in the background technology.

Technical scheme

The utility model provides a machinery divides seedling device, includes supporting mechanism and divides seedling mechanism, supporting mechanism's side end face is installed and is divided seedling mechanism, includes that branch seedling mechanism includes installation mechanism, alternates equipment and processing mechanism, installation mechanism's lower extreme face inner chamber alternates and sets up and alternates equipment, processing mechanism is installed to the lower terminal surface that alternates equipment, installation mechanism alternates in supporting mechanism's edge with alternating equipment.

Preferably, installation mechanism includes an installation section of thick bamboo, equipment dish, an equipment section of thick bamboo and offers the chamber, the lower terminal surface of an installation section of thick bamboo is through an equipment dish and an equipment section of thick bamboo swing joint, the outer terminal surface annular array of an equipment section of thick bamboo has been seted up and has been seted up the chamber, the tip department of stem leaf is in the inner chamber of an equipment section of thick bamboo, the staff is manual with the tip department of stem leaf outwards pull out the outer end of seting up the chamber, the top of the whole stem leaf of plant is fixed, make the rhizome of plant wrap up through the interior terminal surface of equipment frame, under the plant is in the vertical state in the device, can pour into clear water to the inner chamber of seting up the chamber, the clear water uses the stem leaf to flow downwards to rhizome and root hair department as the route, can erode the remaining soil outside rhizome and root hair, make the staff can carry out the branch seedling processing to the plant more conveniently.

Preferably, the penetrating device comprises a penetrating barrel, an inner inserting barrel and a connecting column, the inner inserting barrel penetrates through the inner cavity of the penetrating barrel, and the connecting column is arranged at one end of the penetrating barrel in an annular array on the outer ring.

Preferably, the processing mechanism comprises separating blocks, a connecting belt, a series-connected cylinder and a mounting ring block, the separating blocks are movably connected through the connecting belt, and the inner ends of the separating blocks are movably connected with the mounting ring block through the series-connected cylinder.

Preferably, the mounting ring block comprises an assembly frame, a through hole and a transmission mechanism, the through hole is formed in the side end face of the assembly frame, the transmission mechanism is mounted in the inner cavity of the assembly frame, the assembly frame is a C-shaped component made of metal materials, the whole device is inserted into soil through a drill rod, seedlings to be processed are inserted into the lower end face of the processing mechanism, stems and leaves of plants are inserted into the interval of the assembly frame, and the stems and leaves of the plants penetrate into the inner cavity of the inner inserting barrel.

Preferably, the transmission mechanism comprises a transmission shaft and an arrangement wheel ring, and the arrangement wheel ring is arranged on the outer ring of the transmission shaft in an annular array.

Preferably, the arrangement wheel ring is a component made of synthetic rubber, two groups of arrangement wheel rings of the transmission shaft are spaced, the spacing of the arrangement wheel rings is 1cm, a worker manually peels off a plurality of groups of rhizomes with stems and leaves, the rhizomes of the plurality of groups are inserted into the spacing position of the single transmission mechanism, the two groups of transmission shafts are driven to rotate oppositely through the external motor, and the roots of plants are pulled by the rotating arrangement wheel ring to pull the stem whiskers of the rhizomes.

Preferably, the separating block comprises a block body, a built-in cavity and a series cavity, the built-in cavity is arranged in the inner cavity of the block body, the series cavity is formed in the side end face of the block body, the upper end face of the block body is movably connected with the linking column, the inner cavity of the through hole is formed by the inner cavity of the transmission mechanism in a sliding mode, the separated single-group plants penetrate through the inner cavity of the series cylinder and then enter the inner cavity of the block body through the series cavity, and finally the separated plants are obtained through the built-in cavity discharging device.

Preferably, the penetrating cylinder is inserted into the inner cavity of the assembling cylinder, and the outer end wall of the penetrating cylinder is attached to the inner cavity wall of the assembling cylinder.

Preferably, the supporting mechanism comprises an insertion drill rod, a first assembling plate, a supporting vertical plate, assembling pieces, a mounting plate, a second assembling plate and a penetrating cavity, the upper end face of the insertion drill rod is mounted on the lower end face of the first assembling plate, the second assembling plate is sleeved on the outer ring of the insertion drill rod in a sliding mode, the first assembling plate transversely penetrates through the side end face of the supporting vertical plate, the lower end of the supporting vertical plate is movably connected with the mounting plate through the assembling pieces, the second assembling plate transversely penetrates through the side end face of the mounting plate, the penetrating cavity is formed in the edges of the first assembling plate and the second assembling plate, the assembling pieces can be inserted into the inner cavities of the supporting vertical plate and the mounting plate, the distance between the supporting vertical plate, the assembling pieces and the mounting plate is adjusted, the inserting depth of inserting equipment into the assembling barrel is adjusted, and the device can adapt to the lengths of stems and leaves of various plants, the plants with different stem leaf lengths can be vertically placed, and the seedling separation treatment is convenient.

Advantageous effects

Compared with the prior art, the utility model has the advantages that:

1. insert the integrated device in order to insert the drilling rod in soil, the branch seedling that makes to handle alternates in the lower terminal surface of processing agency, the interval department that makes the stem leaf of plant insert the equipment frame, the inner chamber of inserting the section of thick bamboo is penetrated to the stem leaf department that makes the plant, the tip department of stem leaf is in the inner chamber of an equipment section of thick bamboo, the staff is manual with the tip department of stem leaf outwards pull out the outer end of seting up the chamber, the top of the whole stem leaf of plant is fixed, the rhizome that makes the plant wraps up through the interior terminal surface of equipment frame.

2. The staff manually peels off a plurality of groups of rhizomes with stems and leaves, the rhizomes of the groups are inserted into the interval of a single transmission mechanism, two sets of transmission shafts are driven to rotate oppositely through an external motor, the rootlets of the rhizomes are pulled through the rotation of a row wheel ring, the roots of plants are pulled through the rootlets, the roots of the plants slide into the inner cavity of the through hole through the inner cavity of the transmission mechanism, the separated single-group plants penetrate through the inner cavity of the series connection barrel and then enter the inner cavity of the block body through the series connection cavity, and finally, the separated plants are obtained through the built-in cavity discharge device.

3. The equipment piece can insert the inner chamber that supports riser and mounting panel, supports the distance between riser, equipment piece and the mounting panel through the adjustment to adjust the interval of second equipment board and first equipment board, make the degree of depth that alternates in equipment inserts the equipment section of thick bamboo adjust, thereby make the stem leaf length that the device can adapt to multiple plant, the plant homoenergetic that makes various different stem leaf lengths places perpendicularly, makes things convenient for the processing of branch seedling.

4. Under the vertical state that the plant is in the device, can pour into clear water to the inner chamber of seting up the chamber, the clear water uses the stem leaf to flow downwards to rhizome and root hair department as the route, can wash away the residual soil outside rhizome and root hair, makes the staff can divide the seedling to the plant more conveniently and quickly.

Drawings

FIG. 1 is a schematic view of the overall structure of a mechanical seedling separating device according to the present invention;

FIG. 2 is a schematic view of a supporting mechanism of a mechanical seedling separating device according to the present invention;

FIG. 3 is a schematic view of a mechanical seedling separating device mounting mechanism according to the present invention;

FIG. 4 is a schematic view of a penetrating cylinder structure of a mechanical seedling separating device according to the present invention;

FIG. 5 is a schematic structural view of a machining mechanism of a mechanical seedling separating device according to the present invention;

FIG. 6 is a schematic structural view of a mounting ring block of a mechanical seedling separating device according to the present invention;

FIG. 7 is a schematic structural view of a transmission mechanism of a mechanical seedling separating device according to the present invention;

FIG. 8 is a schematic view of a separation block structure of a mechanical seedling separation device according to the present invention.

The reference numbers in the figures illustrate: 1. a support mechanism; 11. inserting a drill rod; 12. a first assembly plate; 13. a support vertical plate; 14. assembling the sheets; 15. mounting a plate; 16. a second assembly plate; 17. a through cavity; 2. a seedling separating mechanism; 21. an installation mechanism; 211. mounting the cylinder; 212. assembling a disc; 213. an assembly cartridge; 214. opening a cavity; 22. inserting equipment; 221. a through barrel; 222. an inner inserting barrel; 223. connecting the column; 23. a processing mechanism; 231. separating the blocks; 2311. a block body; 2312. a cavity is arranged inside; 2313. a series cavity; 232. a splicing tape; 233. a tandem drum; 234. installing a ring block; 2341. an assembly frame; 2342. a through hole; 2343. a transmission mechanism; 23431. a drive shaft; 23432. and arranging the wheel rings.

Detailed Description

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1-8, the present invention provides a technical solution:

the utility model provides a machinery divides seedling device, includes supporting mechanism 1 and divides seedling mechanism 2, and branch seedling mechanism 2 is installed to supporting mechanism 1's side end face, includes that branch seedling mechanism 2 includes installation mechanism 21, alternates equipment 22 and processing agency 23, and the lower terminal surface inner chamber of installation mechanism 21 alternates and sets up and alternate equipment 22, and processing agency 23 is installed to the lower terminal surface that alternates equipment 22, and installation mechanism 21 alternates in supporting mechanism 1's edge with alternating equipment 22.

Example 1

The mounting mechanism 21 comprises a mounting cylinder 211, a mounting disc 212, an assembling cylinder 213 and an opening cavity 214, the lower end face of the mounting cylinder 211 is movably connected with the assembling cylinder 213 through the mounting disc 212, the outer end face of the assembling cylinder 213 is provided with the opening cavity 214 in an annular array, the inserting device 22 comprises a penetrating cylinder 221, an inner inserting cylinder 222 and a connecting column 223, the inner inserting cylinder 222 is inserted into the inner cavity of the penetrating cylinder 221, the connecting column 223 is arranged in an annular array on the outer ring of one end of the penetrating cylinder 221, the processing mechanism 23 comprises a separating block 231, a connecting belt 232, a serial cylinder 233 and a mounting ring block 234, the separating block 231 is movably connected through the connecting belt 232, the inner end of the separating block 231 is movably connected with the mounting ring block 234 through the serial cylinder 233, the tip of the stem leaf is located in the inner cavity of the assembling cylinder 213, a worker manually pulls the tip of the stem leaf outwards out of the opening cavity 214, the uppermost end of the whole stem leaf of the plant is fixed, the rhizome of the plant is wrapped through the inner end face of the assembling frame 2341, when the plant is in the vertical state in the device, clear water can be poured into the inner cavity provided with the cavity 214, the clear water flows downwards to the rhizome and the root hair by taking the stem leaves as a path, and the residual soil outside the rhizome and the root hair can be washed, so that the worker can divide the seedling of the plant more conveniently.

Example 2

The mounting ring block 234 comprises an assembly frame 2341, a through hole 2342 and a transmission mechanism 2343, the through hole 2342 is formed in the side end face of the assembly frame 2341, the transmission mechanism 2343 is installed in the inner cavity of the assembly frame 2341, the assembly frame 2341 is a component made of a C-shaped metal material, the whole device is inserted into soil through a drill rod 11, seedlings to be processed are inserted into the lower end face of the processing mechanism 23, stem leaves of plants are inserted into the interval of the assembly frame 2341, the stem leaves of the plants penetrate into the inner cavity of the inner inserting barrel 222, the transmission mechanism 2343 comprises transmission shafts 23431 and arrangement wheel rings 23432, the arrangement wheel rings 23432 are arranged in an outer ring annular array of the transmission shafts 23431, the arrangement wheel rings 23432 are components made of a synthetic rubber material, an interval exists between the arrangement wheel rings 23432 of the two groups of transmission shafts 23431, the interval of the arrangement wheel rings 23432 is 1cm, a plurality of groups of stems and leaves with roots are manually peeled off by workers, and the groups of roots are inserted into the interval of the single transmission mechanism 2343, the two sets of transmission shafts 23431 are driven by an external motor to rotate oppositely, and the stem whiskers of the rootstock are pulled by the rotation of the arrangement wheel ring 23432, and the stem whiskers are pulled to enable the root of the plant to be rooted.

Example 3

The separating block 231 comprises a block body 2311, a built-in cavity 2312 and a series cavity 2313, the built-in cavity 2312 is arranged in an inner cavity of the block body 2311, the series cavity 2313 is formed in the side end face of the block body 2311, the upper end face of the block body 2311 is movably connected with the linking column 223, the inner cavity of the transmission mechanism 2343 slides into an inner cavity of the through hole 2342, separated single-group plants penetrate through the inner cavity of the series barrel 233 and then enter the inner cavity of the block body 2311 through the series cavity 2313, finally the separated plants are discharged from the device through the built-in cavity 2312, the penetrating barrel 221 penetrates through the inner cavity of the assembling barrel 213, and the outer end wall of the penetrating barrel 221 is attached to the inner cavity wall of the assembling barrel 213.

Example 4

The supporting mechanism 1 comprises an inserted drill rod 11, a first assembling plate 12, a supporting vertical plate 13, an assembling sheet 14, a mounting plate 15, a second assembling plate 16 and a through cavity 17, the upper end face of the inserted drill rod 11 is mounted on the lower end face of the first assembling plate 12, the outer ring of the inserted drill rod 11 is sleeved with the second assembling plate 16 in a sliding mode, the first assembling plate 12 transversely penetrates through the side end face of the supporting vertical plate 13, the lower end of the supporting vertical plate 13 is movably connected with the mounting plate 15 through the assembling sheet 14, the second assembling plate 16 transversely penetrates through the side end face of the mounting plate 15, the through cavity 17 is formed in the edges of the first assembling plate 12 and the second assembling plate 16, the assembling sheet 14 can be inserted into the inner cavities of the supporting vertical plate 13 and the mounting plate 15, the distance between the supporting vertical plate 13 and the assembling sheet 14 and the mounting plate 15 is adjusted, so that the interval between the second assembling plate 16 and the first assembling plate 12 is adjusted, and the depth of the inserting device 22 into the assembling cylinder 213 is adjusted, thereby make the stem leaf length that the device can adapt to multiple plant, make the plant homoenergetic of various different stem leaf lengths place perpendicularly, the processing of convenient branch seedling.

In summary, the following steps: a mechanical seedling separating device comprises a supporting mechanism 1 and a seedling separating mechanism 2, the seedling separating mechanism 2 is installed on the side end face of the supporting mechanism 1 and comprises a mounting mechanism 21, a penetrating device 22 and a processing mechanism 23, the penetrating device 22 is arranged in the lower end face inner cavity of the mounting mechanism 21 in a penetrating mode, the processing mechanism 23 is installed on the lower end face of the penetrating device 22, the mounting mechanism 21 and the penetrating device 22 are arranged on the edge of the supporting mechanism 1 in a penetrating mode, the whole device is inserted into soil by inserting a drill rod 11, seedlings to be processed are arranged on the lower end face of the processing mechanism 23 in a penetrating mode, stem leaves of plants are inserted into intervals of an assembling frame 2341, the stem leaves of the plants penetrate into an inner cavity of an inner inserting barrel 222, the tip ends of the stem leaves are located in an inner cavity of an assembling barrel 213, workers manually pull the tip ends of the stem leaves outwards to form outer ends with cavities 214, and fix the uppermost ends of the whole stem leaves of the plants, the rootstocks of plants are wrapped by the inner end face of an assembly frame 2341, a worker manually peels off a plurality of groups of rootstocks with stems and leaves, the plurality of groups of rootstocks are inserted into the interval of a single transmission mechanism 2343, two groups of transmission shafts 23431 are driven to rotate oppositely by an external motor, the stems of the rootstocks are pulled by the rotation of an arrangement wheel ring 23432, the roots of the plants are pulled by the stems, the stems slide into the inner cavity of a through hole 2342 through the inner cavity of the transmission mechanism 2343, the separated single-group plants penetrate and are inserted into the inner cavity of a series cylinder 233 and then enter the inner cavity of a block 2311 through a series cavity 2313, finally, the separated plants are discharged from a device through a built-in cavity 2312, the assembly pieces 14 can be inserted into the inner cavities of a support vertical plate 13 and a mounting plate 15, the distance between the assembly pieces 14 and the mounting plate 15 is adjusted, so that the interval between a second assembly plate 16 and a first assembly plate 12 is adjusted, make the degree of depth that interlude equipment 22 inserted in an equipment section of thick bamboo 213 adjust to make the stem leaf length that the device can adapt to multiple plant, make the plant homoenergetic of various different stem leaf lengths place perpendicularly, make things convenient for the processing of dividing the seedling, under the plant is in the vertical state in the device, can pour the clear water into to the inner chamber of seting up chamber 214, the clear water uses the stem leaf to flow downwards to rhizome and root hair department as the route, can wash out the residual soil outside rhizome and root hair, make the staff can divide the seedling to the plant more conveniently and handle.

The foregoing shows and describes the general principles, essential features, and advantages of the utility model. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a machinery divides seedling device, includes supporting mechanism (1) and divides seedling mechanism (2), branch seedling mechanism (2), its characterized in that are installed to the side end face of supporting mechanism (1): including dividing seedling mechanism (2) including installation mechanism (21), interlude equipment (22) and processing mechanism (23), the lower terminal surface inner chamber of installation mechanism (21) alternates and sets up and alternate equipment (22), processing mechanism (23) are installed to the lower terminal surface that alternates equipment (22), installation mechanism (21) alternates in the edge of supporting mechanism (1) with interlude equipment (22).

2. The mechanical seedling separating device of claim 1, wherein: the mounting mechanism (21) comprises a mounting cylinder (211), an assembling disc (212), an assembling cylinder (213) and an opening cavity (214), the lower end face of the mounting cylinder (211) is movably connected with the assembling cylinder (213) through the assembling disc (212), and the opening cavity (214) is formed in an annular array on the outer end face of the assembling cylinder (213).

3. The mechanical seedling separating device of claim 1, wherein: the penetrating device (22) comprises a penetrating cylinder (221), an inner inserting cylinder (222) and connecting columns (223), the inner inserting cylinder (222) penetrates through an inner cavity of the penetrating cylinder (221), and the connecting columns (223) are arranged on an outer ring of one end of the penetrating cylinder (221) in an annular array.

4. The mechanical seedling separating device of claim 1, wherein: the processing mechanism (23) comprises separating blocks (231), a connecting belt (232), a series-connection barrel (233) and a mounting ring block (234), the separating blocks (231) are movably connected through the connecting belt (232), and the inner ends of the separating blocks (231) are movably connected with the mounting ring block (234) through the series-connection barrel (233).

5. The mechanical seedling separating device of claim 4, wherein: installation ring piece (234) are including equipment frame (2341), through-hole (2342) and drive mechanism (2343), through-hole (2342) have been seted up to the side end face of equipment frame (2341), drive mechanism (2343) are installed to the inner chamber of equipment frame (2341), equipment frame (2341) is the component that the metal material of C shape was made.

6. The mechanical seedling separating device of claim 5, wherein: the transmission mechanism (2343) comprises a transmission shaft (23431) and an arrangement wheel ring (23432), and the arrangement wheel ring (23432) is arranged on the outer ring of the transmission shaft (23431) in an annular array.

7. The mechanical seedling separating device of claim 6, wherein: the arrangement wheel rings (23432) are made of synthetic rubber, the arrangement wheel rings (23432) of the two groups of transmission shafts (23431) are spaced, and the spacing of the arrangement wheel rings (23432) is 1 cm.

8. The mechanical seedling separating device of claim 4, wherein: the separating block (231) comprises a block body (2311), a built-in cavity (2312) and a series cavity (2313), the built-in cavity (2312) is arranged in an inner cavity of the block body (2311), the series cavity (2313) is formed in the side end face of the block body (2311), and the upper end face of the block body (2311) is movably connected with the connecting column (223).

9. A mechanical seedling separation device according to claim 3, characterized in that: the penetrating cylinder (221) is inserted into the inner cavity of the assembling cylinder (213), and the outer end wall of the penetrating cylinder (221) is attached to the inner cavity wall of the assembling cylinder (213).

10. The mechanical seedling separating device of claim 1, wherein: supporting mechanism (1) including inserting drilling rod (11), first equipment board (12), support riser (13), equipment piece (14), mounting panel (15), second equipment board (16) and running through chamber (17), the up end that inserts drilling rod (11) is installed in the lower terminal surface of first equipment board (12), the outer lane slip that inserts drilling rod (11) has cup jointed second equipment board (16), first equipment board (12) transversely runs through the side end face that supports riser (13), the lower extreme that supports riser (13) is through equipment piece (14) and mounting panel (15) swing joint, the second equipment board (16) transversely runs through the side end face of mounting panel (15), the edge of first equipment board (12) and second equipment board (16) has been seted up and has been run through chamber (17).