CN115956463A

CN115956463A - Tangerine seedling planting auxiliary device

Info

Publication number: CN115956463A
Application number: CN202310095189.6A
Authority: CN
Inventors: 蒋青青; 龙紫妍; 尹晖
Original assignee: Dongkou County Haotianju Industry Development Co ltd
Current assignee: Dongkou County Haotianju Industry Development Co ltd
Priority date: 2023-02-10
Filing date: 2023-02-10
Publication date: 2023-04-14

Abstract

The invention discloses an orange seedling planting auxiliary device, which relates to the technical field of seedling planting, and comprises a seedling bed and is characterized in that: the cultivation bracket is arranged on the seedling bed; a plurality of seedling pots which are uniformly distributed on the cultivation bracket; the seedling cultivation bed is characterized by further comprising an adjusting mechanism, the adjusting mechanism is in transmission connection with the cultivation bracket, the adjusting mechanism is used for driving the cultivation bracket to adjust so as to drive the plurality of seedling cultivation basins to synchronously adjust the distance, the cultivation bracket is arranged on the seedling cultivation bed to install the seedling cultivation basins, the adjusting mechanism achieves synchronous adjustment of the distance of the seedling cultivation basins, namely mutual support is achieved through mutual fit distribution of seedling plant canopies during seedling cultivation, the seedling plants are prevented from inclining and toppling, meanwhile, synchronous adjustment of the distance of the seedling cultivation basins can be achieved through the adjusting mechanism, the seedling cultivation basins are separated from one another, and irrigation spraying or observation of each seedling plant is facilitated.

Description

Tangerine seedling planting auxiliary device

Technical Field

The invention relates to the technical field of seedling planting, in particular to an auxiliary device for orange seedling planting.

Background

Oranges are fruits of perennial rutaceae plants, china is also one of the main origins of orange trees, and orange trees are perennial plants, so that orange seedlings are cultivated firstly, and the orange seedlings are planted in a way that orange seeds are cultivated in seedling pots to germinate and grow into seedlings, and then the seedlings are transplanted.

If the authorization notice number is CN112136548B, the authorization notice date is 2022.06.17, the name is 'a correction positioning device for citrus seedling planting', the specific structure of the correction positioning device comprises a bearing assembly, a central base station is arranged at the bottom of an inner cavity of a planting box, and a culture medium is arranged at the top of the central base station; the correction soil binding assembly comprises a hollow bracket arranged around the top of the planting box, a wire winding structure is arranged in the inner cavity of the hollow bracket, and a traction wire is wound on the wire winding structure; restraint the pole subassembly, it locates on the oranges and tangerines seedling of treating the correction to restraint the pole subassembly.

When orange kind seedling planting cultivates, because the seedling plant is comparatively delicate, appear easily that the crooked problem of pole footpath length is partially inclined, thereby influence the seedling cultivation effect, the measure of taking generally divide into two kinds at present, one kind carries out the auxiliary stay growth to the plant through the installation planting frame, like application (a correction positioner who is used for oranges and tangerines seedling planting) the same, with ensure that the growth of plant pole footpath is crooked, but this kind of method need carry out the one-to-one support to every plant, and according to the high real-time adjustment of plant, work load is big, and is inefficient, another kind of mode is direct with a plurality of seedling plant equipartitions, support through the mutual laminating of canopy of a plurality of seedlings, in order to avoid the plant pole footpath to grow crooked.

But a plurality of seedling plants laminate each other and distribute, though realize fine supporting each other, nevertheless can cause because the canopy of laminating each other can shelter from when fertilizeing and spraying irrigation, the homogeneity is sprayed in the influence to and be not convenient for observe the growth state of every plant, simultaneously along with the plant growth canopy increase, also need adjust the interval operation between each seedling inconvenient.

Disclosure of Invention

The invention aims to provide an orange seedling planting auxiliary device to overcome the defects in the prior art.

In order to achieve the above purpose, the invention provides the following technical scheme: the utility model provides an orange seedling planting auxiliary device, includes the bed of growing seedlings, still includes: the cultivation bracket is arranged on the seedling bed; a plurality of seedling pots which are uniformly distributed on the cultivation bracket; still include adjustment mechanism, adjustment mechanism with cultivate the bracket transmission and be connected, adjustment mechanism is used for the drive to cultivate the bracket and adjusts and carry out interval adjustment in order to drive a plurality of nursery pots in step.

As a further description of the above technical solution: the cultivation bracket comprises a cross bracket fixed in an overlapping mode, the cross bracket is fixed on the seedling bed, first adjusting brackets are symmetrically arranged on the two transverse sides of the cross bracket in a sliding mode, and second adjusting brackets are symmetrically arranged on the two longitudinal sides of the cross bracket in a sliding mode.

As a further description of the above technical solution: the middle section position department symmetry of second regulation bracket is rotated and is connected with the regulation connecting rod, the other end of regulation connecting rod with first regulation bracket rotates and is connected.

As a further description of the above technical solution: the adjusting mechanism is arranged between the two second adjusting brackets and is used for driving the two second adjusting brackets to move oppositely or reversely.

As a further description of the above technical solution: the seedling raising pot is clamped at the position of each cross node of the cultivation bracket.

As a further description of the above technical solution: the cross bracket, the first adjusting bracket and the second adjusting bracket are provided with bar-shaped notches, two groups of positioning rods are vertically fixed at the bottom of the seedling raising pot, and the two groups of positioning rods are inserted into the bar-shaped notches of the cross nodes of the cultivating bracket.

As a further description of the above technical solution: the seedling bed is of a rectangular frame structure, the inner side of the seedling bed is fixed with a slide rail, and the two ends of the first adjusting bracket and the second adjusting bracket are slidably embedded on the slide rail.

As a further description of the above technical solution: the seedling raising pot comprises a pot body, wherein a flange is formed on the inner side of the pot body, and a pot removing support plate is arranged on the flange.

As a further description of the above technical solution: the inboard of the basin body is located take off basin support plate bottom and be provided with and take off a basin subassembly, take off the basin subassembly with take off basin support plate transmission is connected and takes off the basin transplantation with the drive to the seedling that the basin support plate was planted in the basin body.

As a further description of the above technical solution: the inboard of the basin body is located it is provided with a plurality of vibration parts of taking off the basin to take off basin support plate bottom week side to rotate, and is a plurality of take off basin vibration part and take off basin subassembly transmission to be connected, work as take off the basin subassembly drive and take off the basin support plate and take off the basin to the seedling trunk of planting in the basin body when transplanting, take off a plurality of vibration parts of taking off the basin of basin subassembly synchronous drive and vibrate basin side wall in order to assist and take off the basin.

In the above technical solution, the present invention provides an auxiliary device for orange seedling planting, which comprises the following components

Has the advantages that:

this tangerine seedling planting auxiliary device is installed each nursery pot through set up the cultivation bracket on the bed of growing seedlings, when cultivating tangerine seedling, cooperation adjustment mechanism realizes carrying out the synchronization regulation to the interval of each nursery pot, realize promptly that the distribution of laminating each other through seedling plant canopy when seedling is cultivated supports each other, prevent that the seedling plant from appearing crooked and toppling over, can realize carrying out the synchronization regulation to the interval of each nursery pot through adjustment mechanism simultaneously, make each nursery pot alternate segregation, so that the plant interval in each nursery pot is separately, be convenient for irrigate and spray or observe every seedling plant, simultaneously along with the seedling plant growth changes, can realize carrying out the adaptation regulation in step to the interval of each nursery pot through adjustment mechanism equally, make and cultivating more convenient and fast to tangerine seedling planting, and the labor intensity is reduced, and the work efficiency is improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to the drawings.

Fig. 1 is a schematic view of an overall structure of an auxiliary device for planting citrus seedlings according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of a cultivation tray according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a nursery pot provided in an embodiment of the present invention;

FIG. 4 is a schematic view showing a back side structure of the cultivation bracket according to the embodiment of the present invention;

FIG. 5 is a schematic structural diagram of an adjusting screw according to an embodiment of the present invention;

FIG. 6 is a schematic view of an installation structure of a tray-releasing carrier plate according to an embodiment of the present invention;

FIG. 7 is a schematic structural diagram of a debarking assembly according to an embodiment of the present invention;

FIG. 8 is a schematic top view of a disk seat according to an embodiment of the present invention;

FIG. 9 is a schematic view of an installation structure of a root binding assembly provided by an embodiment of the present invention;

FIG. 10 is a schematic structural diagram of a root binding assembly according to an embodiment of the present invention;

fig. 11 is a schematic structural diagram of an adjusting sleeve according to an embodiment of the present invention.

Description of the reference numerals:

1. a seedling raising bed; 11. a slide rail; 2. cultivating a bracket; 21. a cross bracket; 22. a second adjustment bracket; 23. a first adjustment bracket; 24. a strip-shaped notch; 3. seedling raising pots; 31. a pot body; 310. a strip-shaped limiting groove; 311. a flange; 312. an adjustment projection; 313. a vertical slot; 32. positioning a rod; 33. a basin removing support plate; 34. a basin removing component; 341. a disc seat; 342. a convex tooth; 343. an arc-shaped adjusting notch; 344. a support bar; 345. a slide base; 346. a bracket; 347. a connecting shaft; 348. a drive motor; 35. a vibration member for removing the basin; 351. a rotating shaft; 352. an eccentric wheel; 353. a gear; 4. an adjustment mechanism; 41. connecting lugs; 42. adjusting the screw rod; 421. a first threaded section; 422. a second threaded section; 43. a bi-directional motor; 44. an adjusting connecting rod; 5. a root binding assembly; 51. an adjusting sleeve; 511. a helical groove; 512. an arc-shaped convex part; 52. adjusting the opening; 521. an L-shaped root binding frame; 522. an adjusting frame.

Detailed Description

In order to make the technical solutions of the present invention better understood, those skilled in the art will now describe the present invention in further detail with reference to the accompanying drawings.

Referring to fig. 1 to 11, an embodiment of the present invention provides a technical solution: the utility model provides an orange seedling planting auxiliary device, is including educating seedling bed 1, educates seedling bed 1 and be square frame structure, still includes: a cultivation bracket 2, wherein the cultivation bracket 2 is arranged on the seedling bed 1; the cultivation bracket 2 comprises a cross bracket 21 which is fixed in an overlapping mode, the cross bracket 21 is formed by two cross frames which are fixed in an up-and-down overlapping mode in a cross mode, the cross bracket 21 is fixed at the center position of the inner side of the seedling bed 1, first adjusting brackets 23 are symmetrically arranged on the two transverse sides of the cross bracket 21 in a sliding mode, second adjusting brackets 22 are symmetrically arranged on the two longitudinal sides of the cross bracket 21 in a sliding mode, namely the cross bracket 21, the two first adjusting brackets 23 and the two second adjusting brackets 22 are vertically arranged on the seedling bed 1 in a crossed mode, a plurality of seedling pots 3 are arranged on the cultivation bracket 2 in an evenly distributed mode; the seedling raising pots 3 are used for planting and cultivating seedlings for citrus seeds, 9 seedling raising pots 3 are arranged, wherein the 9 seedling raising pots 3 are arranged at the positions of all cross nodes on the cultivation bracket 2 consisting of the cross bracket 21, the two first adjusting brackets 23 and the two second adjusting brackets 22; still include adjustment mechanism 4, adjustment mechanism 4 is connected with cultivation bracket 2 transmission, adjustment mechanism 4 is used for the drive to cultivate bracket 2 and adjusts and carry out interval adjustment in step with a plurality of basins of growing seedlings 3, adjustment mechanism 4 is connected with cultivation bracket 2 transmission, it is used for driving two first regulation brackets 23 and two second regulation brackets 22 and moves in step in opposite directions or direction, so that cultivate bracket 2 by cross bracket 21 and two first regulation brackets 23 and two second regulation brackets 22 and constitute and carry out synchronous adjustment to the interval between each cross node position, finally realize carrying out synchronous adjustment along with cultivating bracket 2 to the basin 3 of growing seedlings of installing each cross node position on cultivating bracket 2, in order to realize carrying out synchronous adjustment to the interval of each basin of growing seedlings 3.

The embodiment of the invention provides an auxiliary device for planting citrus seedlings, wherein each seedling-raising pot 3 is installed by arranging a cultivation bracket 2 on a seedling-raising bed 1, when citrus seedlings are planted and cultivated, the synchronous regulation of the distance between the seedling-raising pots 3 is realized by matching with a regulating mechanism 4, namely mutual support is realized through mutual adhesion distribution of seedling plant canopies during seedling cultivation, the seedling plants are prevented from inclining and toppling, meanwhile, the synchronous regulation of the distance between the seedling-raising pots 3 can be realized through the regulating mechanism 4, the seedling-raising pots 3 are separated from each other, so that the plants in the seedling-raising pots 3 are separated at intervals, irrigation and spraying or observation of each seedling plant is facilitated, and meanwhile, along with the growth change of the seedling plants, the synchronous adaptive regulation of the distance between the seedling-raising pots 3 can also be realized through the regulating mechanism 4, so that the seedling planting of citrus seedlings is more convenient and rapid, the labor intensity is reduced, and the working efficiency is improved.

In another embodiment of the present invention, the adjusting link 44 is symmetrically and rotatably connected to the middle position of the second adjusting bracket 22, the other end of the adjusting link 44 is rotatably connected to the first adjusting bracket 23, the adjusting mechanism 4 is disposed between the two second adjusting brackets 22, and the adjusting mechanism 4 is used for driving the two second adjusting brackets 22 to move in opposite directions. The adjusting mechanism 4 comprises two connecting lugs 41 and an adjusting screw rod 42, the two connecting lugs 41 are fixed at the bottoms of the two second adjusting brackets 22, the adjusting screw rod 42 is spirally penetrated through the two connecting lugs 41, the adjusting screw rod 42 is provided with a first thread section 421 and a second thread section 422, the spiral directions of the two threads are opposite, the thread pitches of the two thread sections are equal, the first thread section 421 is spirally penetrated through one connecting lug 41, the second thread section 422 is spirally penetrated through the other connecting lug 41, a two-way motor 43 is fixed on the seedling bed 1, and the two-way motor 43 is in transmission connection with the adjusting screw rod 42;

when the adjustment mechanism is used for synchronously and suitably adjusting the distance between the seedling pots 3, the two-way motor 43 is used for driving the adjusting screw rod 42 to rotate, at the moment, the first thread section 421 and the second thread section 422 on the adjusting screw rod 42 are respectively matched with the two connecting lugs 41 to drive the two second adjusting brackets 22 to move in the opposite direction, and simultaneously, the two second adjusting brackets 22 synchronously drive the two first adjusting brackets 23 to move in the opposite direction synchronously through the adjusting connecting rod 44 which is rotatably connected with the two second adjusting brackets 22, so that the two groups of first adjusting brackets 23 and second adjusting brackets 22 which are mutually perpendicularly and crossly distributed are synchronously driven to synchronously move in the opposite direction through a single section, the distance between the seedling pots 3 which are arranged at the positions of the cross nodes on the cultivating bracket 2 is synchronously adjusted, namely, the distance between the seedling pots 3 is synchronously adjusted through a single drive, the structure is simple, the operation is convenient, the use stability is improved, and the fault probability is reduced.

In another embodiment of the present invention, the seedling-raising pot 3 is clamped at each cross node of the cultivation bracket 2, the cross bracket 21, the first adjusting bracket 23 and the second adjusting bracket 22 are provided with strip-shaped notches 24, two sets of positioning rods 32 are vertically fixed at the bottom of the seedling-raising pot 3, and the two sets of positioning rods 32 are inserted into the strip-shaped notches 24 of each cross node of the cultivation bracket 2. Each group of positioning rods 32 comprises two positioning rods 32, and the two groups of positioning rods 32 comprise four positioning rods 32 which are arranged in a rectangular array, wherein the seedling raising pots 3 are clamped at the positions of the cross nodes of the cultivation bracket 2 through the two groups of positioning rods 32, and the two groups of positioning rods 32 are inserted into the bar-shaped notches 24 on the two sides of the first adjusting bracket 23 and the second adjusting bracket 22 which are arranged in a vertical cross mode.

In another embodiment of the present invention, the seedling bed 1 is a square frame structure, the inner sides of the seedling bed 1 are fixed with the slide rails 11, and both ends of the first adjusting bracket 23 and the second adjusting bracket 22 are slidably embedded on the slide rails 11. Through set up slide rail 11 at seedling bed 1 frame inboard and make first regulation bracket 23 and second regulation bracket 22 end slip inlay establish in slide rail 11, realize carrying out the sliding support to first regulation bracket 23 and second regulation bracket 22, improve the stability when adjusting cultivation bracket 2.

In still another embodiment of the present invention, the seedling raising pot 3 includes a pot body 31, a flange 311 is formed on the inner side of the pot body 31, and a pot releasing carrier plate 33 is disposed on the flange 311. When planting and cultivating orange seedlings through the seedling raising pot 3, culture medium and seeds are filled in a cavity above the pot body 31 and positioned above the pot removing carrier plate 33, the inner side of the pot body 31 is positioned at the bottom of the pot removing carrier plate 33 and is provided with a pot removing assembly 34, and the pot removing assembly 34 is in transmission connection with the pot removing carrier plate 33 so as to drive the pot removing carrier plate 33 to carry out pot removing transplanting on the seedlings planted in the pot body 31. It is optional, take off basin subassembly 34 to be electric control telescopic link, the laminating of electric control telescopic link top and the bottom of taking off basin support plate 33, it needs to explain, when orange seedling cultivation accomplishes taking off the basin and transplants, need to separate out the seedling trunk from the basin body 31 together with soil (take off the basin process), generally beat the outer wall of flowerpot main part by the manual bat of culturist when taking off the basin among the prior art, still need constantly rotate flowerpot main part during, beat flowerpot main part's outer wall uniformly, so that seedling trunk soil separates with flowerpot main part, then empty the separation, the operation is comparatively loaded down with trivial details, take off basin subassembly 34 and take off basin support plate 33 transmission and be connected and take off basin support plate 33 with the drive and take off the basin support plate 33 and take off the basin and transplant to the seedling trunk of planting in the basin body 31, take off the basin promptly and take off the basin through taking off basin subassembly 34 drive and take off basin support plate 33 and carry out the basin support plate 33 lifting together with the culture medium is whole, realize taking off the basin and take off the basin and transplant off automatically, do not need the staff to separate one by one, and use more convenient.

In another embodiment of the present invention, a plurality of vibration members 35 for tub removal are rotatably disposed on the inner side of the tub body 31 at the bottom periphery of the tub removal support plate 33, and the plurality of vibration members 35 for tub removal are in transmission connection with the tub removal assembly 34, so that when the tub removal assembly 34 drives the tub removal support plate 33 to perform tub removal and transplantation on the seedlings planted in the tub body 31, the tub removal assembly 34 synchronously drives the plurality of vibration members 35 for tub removal to vibrate the sidewall of the tub body 31 to assist in tub removal. Further, it directly separates the seedling root system and the whole together lifting of culture medium and basin body 31 through taking off basin support plate 33 to carry out the lifting through taking off basin subassembly 34 drive and taking off basin support plate 33, because partial seedling root system can laminate and adsorb on the inner wall of basin body 31, it is easy to cause the damage to the seedling root system directly to carry out the lifting separation, take off basin vibrating part 35 through setting up, make taking off basin subassembly 34 drive and take off basin support plate 33 lifting, when taking off basin support plate 33 with the seedling root system and culture medium whole together lifting and basin body 31 separation and taking off the basin and transplanting, it vibrates to basin body 31 lateral wall to take off basin subassembly 34 synchronous drive a plurality of basin vibrating parts 35 that take off of basin, thereby make the seedling root system of laminating absorption on basin body 31 can carry out the vibration separation with basin body 31, weaken taking off the basin and be the damage that the seedling root system caused, improve the survival rate of transplanting, simultaneously can make soil and basin body 31 separate, prevent soil and basin body 31 consolidation, make taking off basin subassembly 34 drive and take off basin support plate 33 drive and take off the whole lifting and with the seedling root system and cultivate together lifting and more stable when separating basin body 31.

In still another embodiment of the present invention, preferably, the debarking assembly 34 is rotatably disposed on a tray 341 at the bottom of the tub body 31, the tray 341 is provided with a plurality of arc-shaped adjusting notches 343 extending from the edge to the center, the bottom of the tub body 31 is provided with a plurality of strip-shaped limiting grooves 310 used in cooperation with the arc-shaped adjusting notches 343, a sliding seat 345 is slidably embedded in the strip-shaped limiting grooves 310, the sliding seat 345 passes through the arc-shaped adjusting notches 343 and extends to the top of the tray 341, the top of the sliding seat 345 is rotatably connected with a supporting rod 344, a bracket 346 is rotatably connected between the top of the plurality of supporting rods 344, that is, the top of the plurality of supporting rods 344 is rotatably connected with the bracket 346, when the tray 341 rotates, the tray 341 drives the sliding seat 345 to linearly move in the strip-shaped limiting grooves 310 through the arc-shaped adjusting notches 343 to the center of the tub body 31, so that the bracket 346 is driven by the plurality of sliding seats 345 to lift the bracket 346, and finally the debarking support plate 33 is driven by the bracket 346 to lift the seedling root system and the culture medium together to separate from the tub body 31.

The outside of dish seat 341 is provided with dogtooth 342, it is located the pivot 351 that takes off basin carrier plate 33 bottom week side including rotating the setting in basin body 31 to take off basin vibration piece 35, a plurality of eccentric wheels 352 have been cup jointed on the pivot 351, the fixed cover in bottom of pivot 351 has been connect gear 353, gear 353 meshes with the dogtooth 342 in the dish seat 341 outside mutually, when dish seat 341 rotates promptly, dish seat 341 rotates through the dogtooth 342 synchro-driven gear 353 in its outside, gear 353 drives pivot 351 and rotates, it strikes basin body 31 inner wall in order to drive the vibration of basin body 31 finally to rotate eccentric wheel 352 through pivot 351 and drive it on, make the laminating adsorb the seedling root system on basin body 31 can carry out the vibration separation with basin body 31, the weakening is taking off the basin and is the damage that causes the seedling root system, improve the survival rate of transplanting.

In another embodiment of the present invention, preferably, a connecting shaft 347 is vertically fixed at the bottom of the disk seat 341, the connecting shaft 347 protrudes to the outside of the bottom of the tub 31, a driving motor 348 is fixed at the bottom of the tub 31, the driving motor 348 is in transmission connection with the connecting shaft 347, and the driving motor 348 cooperates with the connecting shaft 347 to drive the disk seat 341 to rotate and adjust.

In another embodiment provided by the present invention, preferably, the tray seat 341 is further provided with a root-tying component 5, and the root-tying component 5 is assembled such that, when the pot-removing component 34 drives the pot-removing carrier plate 33 to perform pot-removing transplantation on the seedling plants planted in the pot body 31, the root-tying component 5 automatically wraps the outside of the soil medium of the root system of the seedling plants, so as to prevent the soil medium of the root system of the seedling plants from scattering and falling off during the pot-removing transplantation, which affects the survival rate of the seedling plant transplantation.

The root-binding assembly 5 comprises a plurality of L-shaped root-binding brackets 521 and an adjusting sleeve 51, a plurality of adjusting openings 52 are formed in the bottom of the disc seat 341, the horizontal sections of the L-shaped root-binding brackets 521 are slidably embedded in the adjusting openings 52, a plurality of vertical grooves 313 are formed in the inner wall of the tub body 31, the vertical sections of the L-shaped root-binding brackets 521 are embedded in the vertical grooves 313, adjusting brackets 522 are vertically fixed at the top ends of the water sections of the L-shaped root-binding brackets 521, the adjusting sleeve 51 is rotatably arranged at the bottom of the tub-removing carrier plate 33, the adjusting sleeve 51 is sleeved on the outer sides of the adjusting brackets 522 at the bottom ends of the L-shaped root-binding brackets 521, an arc-shaped convex part 512 extending towards the circle center is arranged on the inner side of the adjusting sleeve 51, a spiral groove 511 is formed in the outer side of the adjusting sleeve 51, an adjusting convex part 312 is fixed on the flange 311, and the adjusting convex part 312 is embedded in the spiral groove 511;

when the debarking assembly 34 drives the debarking carrier plate 33 to lift, the debarking carrier plate 33 drives the adjusting sleeve 51 to move upwards, the adjusting sleeve 51 is matched with the adjusting convex part 312 for limiting under the action of the outer spiral groove 511 when moving upwards, so that the adjusting sleeve 51 rotates, the adjusting sleeve 51 is matched with the inner arc convex part 512 to abut against the adjusting frame 522 when rotating, the adjusting frame 522 is driven to move towards the position of the circle center of the debarking carrier plate 33, namely the adjusting frame 522 drives the L-shaped root-binding frame 521 to be wrapped outside soil media of the root system of the seedling plant, and therefore the soil media of the root system of the seedling plant are prevented from dispersedly falling to influence the survival rate of the transplantation of the seedling plant when the debarking transplantation is carried out.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims

1. The utility model provides an orange seedling planting auxiliary device, includes seedling bed (1), its characterized in that still includes:

the cultivation bracket (2), the cultivation bracket (2) is arranged on the seedling bed (1);

a plurality of seedling pots (3), wherein the seedling pots (3) are uniformly distributed on the cultivation bracket (2);

still include adjustment mechanism (4), adjustment mechanism (4) with it connects to cultivate bracket (2) transmission, adjustment mechanism (4) are used for the drive to cultivate bracket (2) and adjust and carry out interval control in step with a plurality of nursery basins of drive (3).

2. A citrus seedling planting auxiliary device as claimed in claim 1, characterized in that said cultivating bracket (2) comprises a cross bracket (21) fixed in an overlapping manner, said cross bracket (21) is fixed on the seedling bed (1), a first adjusting bracket (23) is symmetrically arranged on two lateral sides of said cross bracket (21) in a sliding manner, and a second adjusting bracket (22) is symmetrically arranged on two longitudinal sides of said cross bracket (21) in a sliding manner.

3. A citrus seedling planting auxiliary device as claimed in claim 2, characterized in that an adjusting link (44) is symmetrically and rotatably connected to the second adjusting bracket (22) at the middle position, and the other end of the adjusting link (44) is rotatably connected to the first adjusting bracket (23).

4. A citrus seedling planting auxiliary device according to claim 2, characterized in that the adjusting mechanism (4) is arranged between the two second adjusting brackets (22), and the adjusting mechanism (4) is used for driving the two second adjusting brackets (22) to move towards or away from each other.

5. A citrus seedling planting auxiliary device, as claimed in claim 2, characterized in that the seedling pots (3) are clamped at the positions of the crossing nodes of the cultivation bracket (2).

6. A citrus seedling planting auxiliary device according to claim 5, characterized in that the cross bracket (21), the first adjusting bracket (23) and the second adjusting bracket (22) are provided with strip-shaped notches (24), two sets of positioning rods (32) are vertically fixed at the bottom of the seedling raising pot (3), and the two sets of positioning rods (32) are inserted into the strip-shaped notches (24) of the cross nodes of the cultivation bracket (2).

7. An auxiliary device for orange seedling planting according to claim 2, wherein the seedling bed (1) is of a rectangular frame structure, slide rails (11) are fixed on the inner side of the seedling bed (1), and both ends of the first adjusting bracket (23) and the second adjusting bracket (22) are slidably embedded on the slide rails (11).

8. An auxiliary device for planting orange seedlings as claimed in claim 1, wherein the seedling raising pot (3) comprises a pot body (31), a flange (311) is formed on the inner side of the pot body (31), and a pot releasing carrier plate (33) is arranged on the flange (311).

9. An auxiliary device for orange seedling planting as claimed in claim 8, wherein a pot-removing component (34) is disposed at the bottom of the pot-removing carrier plate (33) inside the pot body (31), the pot-removing component (34) is in transmission connection with the pot-removing carrier plate (33) to drive the pot-removing carrier plate (33) to perform pot-removing transplanting on the seedlings planted in the pot body (31).

10. An auxiliary device for citrus seedling planting according to claim 9, characterized in that a plurality of vibration members (35) for peeling off the pots are rotatably disposed on the inner side of the pot body (31) at the bottom peripheral side of the pot peeling carrier plate (33), the vibration members (35) for peeling off the pots are in transmission connection with the pot peeling assembly (34), and when the pot peeling assembly (34) drives the pot peeling carrier plate (33) to perform pot peeling transplantation on the seedlings planted in the pot body (31), the pot peeling assembly (34) synchronously drives the vibration members (35) for peeling off the pots to vibrate the side wall of the pot body (31) for assisting in peeling off the pots.