CN210519433U - Green Chinese onion conveying mechanism and transplanter - Google Patents

Abstract

The utility model relates to a green Chinese onion conveying mechanism and a transplanter, wherein the conveying mechanism comprises a front fixed plate; the rear fixing plate is arranged opposite to the front fixing plate; the first contra-conveying group is provided with a first contra-conveying surface and a first vertical conveying surface, and the first contra-conveying surface and the first vertical conveying surface are both provided with a first distance piece for clamping and conveying the root of the green Chinese onion; the first contra-directional conveying group is provided with a first contra-directional conveying surface and a first vertical conveying surface, and the first contra-directional conveying surface and the first vertical conveying surface are correspondingly provided with first distance pieces used for synchronously matching the first distance pieces to clamp and convey the stems of the green Chinese onions; the transmission devices are in transmission connection with the first contra-directional conveying group and the second contra-directional conveying group; and the output end of the driving device is in transmission connection with the transmission device. A transplanter comprises the conveying mechanism. The utility model discloses conveying efficiency is high, and the transmission is stable, and the spring onions seedling of transplanting can the distance be planted.

Description

Green Chinese onion conveying mechanism and transplanter

Technical Field

The utility model relates to a planting equipment technical field especially relates to a green Chinese onion conveying mechanism and transplanter.

Background

Scallion transplanter is a kind of equipment that is used for carrying out the high-efficient planting with the scallion through mechanized equipment, and the conveying mechanism of current scallion transplanter mainly adopts the conveyer belt to carry, and document CN201910149256.1 discloses a novel scallion transplanter like, includes: the spring onion seedling rack is fixedly arranged on the rack and used for placing spring onion seedlings; the first vertical seedling conveying device is arranged on the rack and is a conveying belt with a plurality of strip-shaped bulges on the surface; the second seedling conveying device is a conveying belt with a plurality of strip-shaped bulges on the surface, and comprises a second vertical seedling conveying device and a second horizontal seedling conveying device, the second vertical seedling conveying device is arranged on the rack and corresponds to the first vertical seedling conveying device, the second horizontal seedling conveying device is arranged on the to-be-loaded onion seedling rack, and the second horizontal seedling conveying device is used for conveying the onion seedlings on the to-be-loaded onion seedling rack to a position between the first vertical seedling conveying device and the second vertical seedling conveying device; and the clamping device is arranged on the rack and is used for planting the onion seedlings clamped by the first vertical seedling conveying device and the second vertical seedling conveying device into the soil. Which conveys the green Chinese onions downwards through the mutual matching of a first vertical seedling conveying device and a second vertical seedling conveying device, under ideal conditions, the green Chinese onions fall into the clamping device through the lower end of the first seedling conveying device or the second vertical seedling conveying device, however, considering the difference between the stem and the root of the green Chinese onion seedling, the green Chinese onion seedling is easily affected by the strip-shaped protrusion on the conveyer belt with the strip-shaped protrusion and is moved by the conveyer belt towards the conveying moving direction, this will cause the situation that the planting of the green Chinese onions is uneven or missing in the planting process when the green Chinese onions are conveyed to the upper side of the clamping device, the main reason is that the green Chinese onions are not effectively restricted when being conveyed to the seedling tray by the conveying mechanism, so that, the conditions of seed missing or single species frequently occur due to the fact that the planting is carried out at a fixed distance, so that a stable and efficient green Chinese onion conveying mechanism and a transplanting machine are needed.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve above-mentioned technical problem and provide a subtend transport shallot, the high shallot conveying mechanism of conveying efficiency, provide a transplanter that the transplanting degree of accuracy is high simultaneously to solve above-mentioned at least one technical problem.

In order to achieve the above object, the present invention provides a conveying mechanism for green Chinese onions, which comprises:

a front fixing plate;

the rear fixing plate is arranged opposite to the front fixing plate;

the upper side of the first contra-directional conveying group is provided with a first contra-directional conveying surface, a first vertical conveying surface is arranged in the first contra-directional conveying group, the upper end of the vertical conveying surface is connected with the middle part of the contra-directional conveying surface, and the first contra-directional conveying surface and the first vertical conveying surface are both provided with a first distance piece for clamping and conveying the root of the green Chinese onion;

the first contra-directional conveying group and the second contra-directional conveying group are arranged between the front fixing plate and the rear fixing plate in parallel, a second contra-directional conveying surface is arranged on the upper side of the second contra-directional conveying group, a second vertical conveying surface is arranged in the second contra-directional conveying group, the upper end of the second vertical conveying surface is connected with the middle part of the contra-directional conveying surface, and second distance pieces used for synchronously matching with the first distance pieces to clamp and convey the stem parts of the green Chinese onions are correspondingly arranged on the first contra-directional conveying surface and the second vertical conveying surface;

the transmission device is arranged between the front fixing plate and the rear fixing plate and is in transmission connection with the first opposite conveying group and the second opposite conveying group;

the driving device is arranged on one side, far away from the front fixing plate, of the rear fixing plate, and the output end of the driving device is in transmission connection with the transmission device.

The utility model has the advantages that: compared with the prior art, the onion conveying mechanism adopts a mode of opposite conveying, so that the conveying efficiency of the onions can be effectively improved; the first distance piece and the second distance piece are arranged, so that the distance for conveying the filled seedlings can be effectively kept; the lower extreme of first counterpoint transport group is less than the lower extreme of second counterpoint transport group, and the stem portion of welsh onion leaves with the root earlier like this in the welsh onion transportation process, and in this section of time that the root continues to carry downwards, its stem portion can be fixed downward continuation motion by seedling tray or clamping device centre gripping in this section of time, and what like this can avoid the welsh onion not fix a distance, miss kind or multiple problem.

On the basis of the technical scheme, the utility model discloses can also do following improvement.

Further, the first contra-directional conveying group comprises a root conveying belt A and a root conveying belt B, the root conveying belt A and the root conveying belt B are respectively arranged on two sides of the first vertical conveying surface, the root conveying belt A and the root conveying belt B are mutually abutted on the first vertical conveying surface, the root conveying belt A and the root conveying belt B are in transmission connection with the transmission device, and the root conveying belt A and the root conveying belt B synchronously and reversely move;

the second is to carrying group including stem conveyer belt A and stem conveyer belt B to, stem conveyer belt A with stem conveyer belt B locates respectively the both sides of the vertical transport face of second, just stem conveyer belt A with stem conveyer belt B is in the vertical transport face of second supports each other and leans on together, stem conveyer belt A and stem conveyer belt B all with the transmission is connected, stem conveyer belt A with the synchronous forward movement of root conveyer belt A, stem conveyer belt B with the synchronous forward movement of root conveyer belt B.

The beneficial effect of adopting the further scheme is that: the conveying efficiency can be promoted to subtend and synchronous transport shallot, and the conveyer belt of first vertical conveying face or the vertical conveying face both sides of second supports and leans on, can carry on spacingly to the both ends of shallot when vertical conveying face is carried, keeps the stability of carrying.

Further, transmission includes first drive roll and second drive roll, first drive roll with second drive roll parallel arrangement, first drive roll all with root conveyer belt A with stem conveyer belt A transmission is connected, the second drive roll all with root conveyer belt A with stem conveyer belt B transmission is connected, first drive roll with on the one end of second drive roll all with the drive arrangement transmission is connected, just first drive roll with the synchronous antiport of second drive roll.

The beneficial effect of adopting the further scheme is that: first drive roll and the synchronous antiport of second drive roll can effectual drive root conveyer belt A and stem conveyer belt B opposite direction movement and synchronous motion, like this, can effectually keep the stability of the welsh onion in the opposite direction transportation process, avoid the opposite direction to remove in-process production error, cause the damage to the welsh onion.

Further, a first driven roller and a second driven roller are respectively arranged in the horizontal direction in which the first driving roller and the second driving roller are far away from each other, the first driven rollers are in transmission connection with the stem conveying belt A and the root conveying belt A, and the second driven rollers are in transmission connection with the stem conveying belt B and the root conveying belt B;

the vertical below of first drive roll and second drive roll all is equipped with first spacing round and the spacing round of second along the axis, two first spacing round respectively with root conveyer belt A with root conveyer belt B transmission is connected, two the spacing round of second respectively with stem conveyer belt A with stem conveyer belt B transmission is connected, one side of first spacing round with the lateral wall of after-fixing board rotates to be connected, one side of the spacing round of second with the lateral wall of before-fixing board rotates to be connected.

The beneficial effect of adopting the further scheme is that: the upside that the driven voller can make the conveyer belt keeps the level, is convenient for put into the shallot and carries on the conveyer belt, and spacing round can further keep vertical to making vertical transport face, reduces the conveyer belt and causes the damage to the shallot because of vibrations or removal.

Furthermore, the driving device is a driving motor, driven gears are arranged at one ends of the first driving roller and the second driving roller and are meshed with each other, and the output end of the motor is in transmission connection with one of the driven gears.

The beneficial effect of adopting the further scheme is that: the driven gears are meshed with each other, so that the driving roller can synchronously rotate, and the green Chinese onions can be stably conveyed.

Furthermore, a driving gear is arranged on the side wall of one side, away from the front fixing plate, of the rear fixing plate, the driving gear is rotatably arranged on the side wall of the rear fixing plate, the driving gear is in meshing transmission connection with one of the driven gears, and the output end of the driving motor is in transmission connection with the driving gear.

The beneficial effect of adopting the further scheme is that: through the transmission of the driving gear, the interference of the vibration to the mutual reverse motion of the driving roller in the operation process of the driving motor can be effectively reduced.

Furthermore, the cross sections of the first distance piece and the second distance piece are in a shape similar to a Chinese character 'ji', and the first distance piece and the second distance piece are both integrally formed by flexible plastics.

The beneficial effect of adopting the further scheme is that: the flexible distance piece can play a good protection role in the green Chinese onions.

Furthermore, a seedling pressing convex part and a seedling pressing side plate are arranged on the first distance piece and the second distance piece, the seedling pressing side plate is arranged on one side of the seedling pressing convex part, and a placing concave part is arranged between the seedling pressing side plate and the seedling pressing convex part.

The beneficial effect of adopting the further scheme is that: the seedling pressing side plate can play a good protection role on the green Chinese onions, prevents that the gaps generated by the distance members and the distance members on the transmission belt at certain time from damaging the transported green Chinese onions, can effectively prevent multiple or seed leakage, solves the problem of second refusing non-uniformity, and is uniform in seedling distance.

Further, the seedling pressing convex part on one side of the first vertical conveying surface and the second vertical conveying surface is opposite to the placing concave part on the other side, and the top end of the seedling pressing convex part on one side of the first vertical conveying surface and the second vertical conveying surface is in pressure joint with the opening of the placing concave part on the other side.

The beneficial effect of adopting the further scheme is that: the top end of the seedling pressing convex part is pressed at the opening of the concave part, so that seedlings can be pressed on the green Chinese onions, and the green Chinese onions are protected.

In order to better realize the aim, the utility model also provides a transplanter, which is characterized by comprising the green Chinese onion conveying mechanism.

The utility model has the advantages that: the utility model discloses a transplanter, the transport efficiency of green Chinese onion is high, carries stably, and is little to the green Chinese onion damage, has reduced the problem that the hourglass of green Chinese onion transplanting in-process was planted or was planted more, can realize the distance of green Chinese onion and transplant.

Drawings

FIG. 1 is a schematic structural view of the green Chinese onion conveying mechanism of the present invention;

FIG. 2 is a left side view of the structure of the green Chinese onion conveying mechanism of the present invention;

FIG. 3 is a rear view of the structure of the green Chinese onion conveying mechanism of the present invention;

FIG. 4 is an enlarged view of a portion A of FIG. 1 according to the present invention;

fig. 5 is a schematic structural view of the transplanter of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. the device comprises a rear fixing plate, 2, a first contra-directional conveying group, 2-1, root conveying belts A, 2-2, root conveying belts B, 3, a second contra-directional conveying group, 3-1 stem conveying belts A, 3-2 stem conveying belts B, 4, a first driving roller, 5, driven rollers, 6, a second limiting wheel, 7, a first limiting wheel, 8, a front fixing plate, 9, a driving motor, 10, a driving gear, 11, a first distance piece, 12, a driven gear, 13, a second driving roller, 14, a second distance piece, 15, seedling pressing convex parts, 16, seedling pressing side plates, 17, a placing concave part, 18, a conveying mechanism, 19, a rack, 20, a seedling tray, 21 and a second driven roller.

Detailed Description

The principles and features of the present invention are described below in conjunction with the following drawings, the examples given are only intended to illustrate the present invention and are not intended to limit the scope of the present invention.

Examples

As shown in fig. 1-4, the utility model discloses a green Chinese onion conveying mechanism, include: a front fixing plate 8; the rear fixing plate 1 is arranged opposite to the front fixing plate 8; the device comprises a first contra-directional conveying group 2, wherein a first contra-directional conveying surface is arranged on the upper side of the first contra-directional conveying group 2, a first vertical conveying surface is arranged in the first contra-directional conveying group 2, the upper end of the vertical conveying surface is connected with the middle part of the contra-directional conveying surface, and first distance pieces 11 used for clamping and conveying the roots of the green Chinese onions are arranged on the first contra-directional conveying surface and the first vertical conveying surface; the first contra-directional conveying group 2 and the second contra-directional conveying group 3 are arranged between the front fixing plate 8 and the rear fixing plate 1 in parallel, a second contra-directional conveying surface is arranged on the upper side of the second contra-directional conveying group 3, a second vertical conveying surface is arranged in the second contra-directional conveying group 3, the upper end of the second vertical conveying surface is connected with the middle part of the contra-directional conveying surface, second distance pieces 14 used for synchronously matching with the first distance pieces 11 to clamp and convey the stems of the green Chinese onions are correspondingly arranged on the first contra-directional conveying surface and the second vertical conveying surface, and the lower end of the first vertical conveying surface is lower than the lower end of the second vertical conveying surface; the transmission device is arranged between the front fixing plate 8 and the rear fixing plate 1 and is in transmission connection with the first opposite conveying group 2 and the second opposite conveying group 3; and the driving device is arranged on one side of the rear fixing plate 1, which is far away from the front fixing plate 8, and the output end of the driving device is in transmission connection with the transmission device.

The first contra-conveying group 2 comprises a root conveying belt A2-1 and a root conveying belt B2-2, the root conveying belt A2-1 and the root conveying belt B2-2 are respectively arranged on two sides of a first vertical conveying surface, the root conveying belt A2-1 and the root conveying belt B2-2 are mutually abutted on the first vertical conveying surface, the root conveying belt A2-1 and the root conveying belt B2-2 are in transmission connection with a transmission device, and the root conveying belt A2-1 and the root conveying belt B2-2 synchronously move in the opposite direction.

The second opposite conveying group 3 comprises a stem conveying belt A3-1 and a stem conveying belt B3-2, the stem conveying belt A3-1 and the stem conveying belt B3-2 are respectively arranged on two sides of a second vertical conveying surface, the stem conveying belt A3-1 and the stem conveying belt B3-2 are abutted against each other on the second vertical conveying surface, the stem conveying belt A3-1 and the stem conveying belt B3-2 are both in transmission connection with a transmission device, the stem conveying belt A3-1 and the root conveying belt A2-1 synchronously move in the forward direction, and the stem conveying belt B3-2 and the root conveying belt B2-2 synchronously move in the forward direction.

The transmission device comprises a first driving roller 4 and a second driving roller 13, the first driving roller 4 and the second driving roller 13 are arranged in parallel, the first driving roller 4 is in transmission connection with a root conveying belt A2-1 and a stem conveying belt A3-1, the second driving roller 13 is in transmission connection with a root conveying belt B2-2 and a stem conveying belt B3-2, one ends of the first driving roller 4 and the second driving roller 13 are in transmission connection with a driving device, and the first driving roller 4 and the second driving roller 13 synchronously rotate in the opposite direction.

The horizontal direction that first drive roller 4 and second drive roller 13 kept away from each other is equipped with first driven voller 5 and second driven voller 21 respectively, and first driven voller 5 all is connected with stem conveyer belt A3-1 and root conveyer belt A2-1 transmission, and second driven voller 21 all is connected with stem conveyer belt B3-2 and root conveyer belt B2-2 transmission.

A first limiting wheel 7 and a second limiting wheel 6 are arranged vertically below the first driving roller 4 and the second driving roller 13 along the axis, the two first limiting wheels 7 are in transmission connection with a root conveying belt A2-1 and a root conveying belt B2-2 respectively, the two second limiting wheels 6 are in transmission connection with a stem conveying belt A3-1 and a stem conveying belt B3-2 respectively, one side of each first limiting wheel 7 is in rotational connection with the side wall of the rear fixing plate 1, and one side of each second limiting wheel 6 is in rotational connection with the side wall of the front fixing plate 8; stabilizing rollers are arranged between the first driving roller 4 and the first driven roller 5 and between the second driving roller 13 and the second driven roller 21, and two ends of each stabilizing roller are respectively in rotating connection with the front fixing plate 8 and the rear fixing plate 1.

The driving device is a driving motor 9, one end of each of the first driving roller 4 and the second driving roller 13 is provided with a driven gear 12, the two driven gears 12 are meshed with each other, and the output end of the driving motor 9 is in transmission connection with one of the driven gears 12.

A driving gear 10 is arranged on the side wall of one side, far away from the front fixing plate 8, of the rear fixing plate 1, the driving gear 10 is rotatably arranged on the side wall of the rear fixing plate, the driving gear 10 is in meshed transmission connection with one driven gear 12, and the output end of the driving motor 9 is in transmission connection with the driving gear 10.

The cross sections of the first distance piece 11 and the second distance piece 14 are both in a shape like a Chinese character 'ji', and the first distance piece 11 and the second distance piece 14 are both integrally formed by flexible plastics.

All be equipped with on first distance piece 11 and the second distance piece 14 and press seedling convex part 15 and press seedling curb plate 16, press seedling curb plate 16 to locate and press one side of seedling convex part 15, press seedling curb plate 16 and press to be equipped with between the seedling convex part 15 and place concave part 17, press seedling curb plate 16 can prevent that the shallot from preventing the shallot removal in the vertical downward transportation process again through the level, and the effectual seedling distance of preventing is inhomogeneous, multiple or the condition of leaking kind takes place.

The seedling pressing convex parts 15 on one side of the first vertical conveying surface and one side of the second vertical conveying surface are arranged opposite to the concave parts 17 on the other side, the top ends of the seedling pressing convex parts 15 on one side of the first vertical conveying surface and one side of the second vertical conveying surface are pressed at the opening of the concave parts 17 on the other side, the seedling pressing convex parts 15 on the two sides of the first vertical conveying surface and the second vertical conveying surface are preferably abutted and meshed with the placing grooves 17, the stability of the green Chinese onions can be kept, and meanwhile, the green Chinese onions can be conveyed at fixed intervals.

As shown in fig. 5, the utility model provides a transplanter still, including foretell conveying mechanism 18, still include frame 19 and seedling tray 20, the rear side of frame 19 is located to seedling tray 20, be used for transplanting the shallot along sharp interval, conveying mechanism 18 sets up in the oblique side of going up of seedling tray, the stem of shallot separates at the lower extreme and the second distance piece of the vertical transport face of second, and because the lower extreme of first vertical transport face is less than the lower extreme of the vertical transport face of second, the root of shallot continues the downward removal of first vertical transport face again, the shallot stem contacts with seedling tray this moment, catch by seedling tray and break away from first vertical transport face along with the root downstream of shallot until the root of shallot, the shallot plants into the ground through its root of seedling tray, accomplish and plant.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (10)

1. A green Chinese onion conveying mechanism is characterized by comprising:

a front fixing plate (8);

the rear fixing plate (1) is arranged opposite to the front fixing plate (8);

the device comprises a first opposite conveying group (2), wherein a first opposite conveying surface is arranged on the upper side of the first opposite conveying group (2), a first vertical conveying surface is arranged in the first opposite conveying group (2), the upper end of the vertical conveying surface is connected with the middle part of the opposite conveying surface, and a first distance piece (11) used for clamping and conveying the root of the green Chinese onion is arranged on each of the first opposite conveying surface and the first vertical conveying surface;

the first contra-directional conveying group (2) and the second contra-directional conveying group (3) are arranged between the front fixing plate (8) and the rear fixing plate (1) in parallel, a second contra-directional conveying surface is arranged on the upper side of the second contra-directional conveying group (3), a second vertical conveying surface is arranged in the second contra-directional conveying group (3), the upper end of the second vertical conveying surface is connected with the middle part of the contra-directional conveying surface, second distance pieces (14) used for synchronously matching with the first distance pieces (11) to clamp and convey the stems of the green Chinese onions are correspondingly arranged on the first contra-directional conveying surface and the second vertical conveying surface, and the lower end of the first vertical conveying surface is lower than the lower end of the second vertical conveying surface;

the transmission device is arranged between the front fixing plate (8) and the rear fixing plate (1) and is in transmission connection with the first contra-conveying group (2) and the second contra-conveying group (3);

the driving device is arranged on one side, away from the front fixing plate (8), of the rear fixing plate (1), and the output end of the driving device is in transmission connection with the transmission device.

2. The onion conveying mechanism as claimed in claim 1, wherein the first counter conveying group (2) comprises a root conveyor a (2-1) and a root conveyor B (2-2), the root conveyor a (2-1) and the root conveyor B (2-2) are respectively disposed at two sides of the first vertical conveying surface, the root conveyor a (2-1) and the root conveyor B (2-2) abut against each other at the first vertical conveying surface, the root conveyor a (2-1) and the root conveyor B (2-2) are in transmission connection with the transmission device, and the root conveyor a (2-1) and the root conveyor B (2-2) synchronously move in opposite directions;

the second opposite conveying group (3) comprises a stem conveyer belt A (3-1) and a stem conveyer belt B (3-2), the stem conveyer belt A (3-1) and the stem conveyer belt B (3-2) are respectively arranged at two sides of the second vertical conveying surface, and the stem conveyer belt A (3-1) and the stem conveyer belt B (3-2) are abutted against each other on the second vertical conveying surface, the stem conveyer belt A (3-1) and the stem conveyer belt B (3-2) are in transmission connection with the transmission device, the stem conveyer belt A (3-1) and the root conveyer belt A (2-1) synchronously move forwards, the stem conveyer belt B (3-2) and the root conveyer belt B (2-2) move synchronously in the positive direction.

3. The onion conveying mechanism according to claim 2, wherein the transmission device comprises a first driving roller (4) and a second driving roller (13), the first driving roller (4) and the second driving roller (13) are arranged in parallel, the first driving roller (4) is in transmission connection with the root conveyer belt A (2-1) and the stem conveyer belt A (3-1), the second driving roller (13) is in transmission connection with the root conveyer belt B (2-2) and the stem conveyer belt B (3-2), one end of the first driving roller (4) and one end of the second driving roller (13) are in transmission connection with the driving device, and the first driving roller (4) and the second driving roller (13) synchronously rotate in opposite directions.

4. The green Chinese onion conveying mechanism according to claim 3, wherein a first driven roller (5) and a second driven roller (21) are respectively arranged in the horizontal direction of the first driving roller (4) and the second driving roller (13) away from each other, the first driven roller (5) is in transmission connection with the stem conveying belt A (3-1) and the root conveying belt A (2-1), and the second driven roller (21) is in transmission connection with the stem conveying belt B (3-2) and the root conveying belt B (2-2);

the vertical below of first drive roll (4) and second drive roll (13) all is equipped with first spacing round (7) and second spacing round (6) along the axis, two first spacing round (7) respectively with root conveyer belt A (2-1) with root conveyer belt B (2-2) transmission is connected, two spacing round (6) of second respectively with stem conveyer belt A (3-1) with stem conveyer belt B (3-2) transmission is connected, one side of first spacing round (7) with the lateral wall of after-fixing plate (1) rotates and is connected, one side of the spacing round of second (6) with the lateral wall of before-fixing plate (8) rotates and is connected.

5. A green Chinese onion conveying mechanism according to claim 3, wherein the driving device is a driving motor (9), one end of each of the first driving roller (4) and the second driving roller (13) is provided with a driven gear (12), the two driven gears (12) are meshed with each other, and an output end of the motor is in transmission connection with one of the driven gears (12).

6. The onion conveying mechanism according to claim 5, wherein a driving gear (10) is arranged on a side wall of the rear fixing plate (1) far away from the front fixing plate (8), the driving gear (10) is rotatably arranged on the side wall of the rear fixing plate, the driving gear (10) is in meshing transmission connection with one driven gear (12), and an output end of the driving motor (9) is in transmission connection with the driving gear (10).

7. A green Chinese onion conveying mechanism according to any one of claims 1 to 6, wherein the first distance member (11) and the second distance member (14) are each in a cross section like a Chinese character 'ji', and the first distance member (11) and the second distance member (14) are each integrally formed of a flexible plastic.

8. The green Chinese onion conveying mechanism according to claim 7, wherein each of the first distance piece (11) and the second distance piece (14) is provided with a seedling pressing convex part (15) and a seedling pressing side plate (16), the seedling pressing side plate (16) is arranged on one side of the seedling pressing convex part (15), and a placing concave part (17) is arranged between the seedling pressing side plate (16) and the seedling pressing convex part (15).

9. The green Chinese onion conveying mechanism according to claim 8, wherein the seedling pressing convex part (15) on one side of the first vertical conveying surface and the second vertical conveying surface is arranged opposite to the placing concave part (17) on the other side, and the top end of the seedling pressing convex part (15) on one side of the first vertical conveying surface and the second vertical conveying surface is pressed and connected with the opening of the placing concave part (17) on the other side.

10. A transplanter comprising a green Chinese onion conveying mechanism according to any one of claims 1 to 9.

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