CN114568246B

CN114568246B - Storage facilities is transplanted to sapling for forestry engineering

Info

Publication number: CN114568246B
Application number: CN202210225729.3A
Authority: CN
Inventors: 李宏君; 石惠; 董文慧
Original assignee: Chenzhou Jinghan Landscape Greening Engineering Co ltd
Current assignee: Chenzhou Jinghan Landscape Greening Engineering Co ltd
Priority date: 2022-03-07
Filing date: 2022-03-07
Publication date: 2023-12-19
Anticipated expiration: 2042-03-07
Also published as: CN114568246A

Abstract

The invention relates to the technical field of forestry planting and discloses a seedling transplanting storage device for forestry engineering, which comprises a collecting box and a digging gripper on the collecting box, wherein a rotating wheel is rotationally connected to the collecting box, a synchronous belt is sleeved on the outer surface of the rotating wheel, a connecting rod is installed on the synchronous belt, a round sleeve is installed on the connecting rod, a collecting barrel for storing seedlings is rotationally connected to the round sleeve, a telescopic rod is connected to the collecting box, a connecting plate is installed on the telescopic rod, the connecting plate is connected to the collecting box in a sliding mode, and a spray head is installed on the connecting plate. According to the invention, the spray head is used for spraying liquid onto the sapling, so that a certain amount of moisture is kept on the sapling, then the spray head is pushed to swing up and down through the supporting plate, and the spray head can spray liquid up and down, so that all parts on the sapling are sprayed with the liquid, and the phenomenon that the sapling is water-deficient due to long-time transportation is avoided.

Description

Storage facilities is transplanted to sapling for forestry engineering

Technical Field

The invention relates to the technical field of forestry planting, in particular to a seedling transplanting storage device for forestry engineering.

Background

With the rapid development of social economy, the seedlings cultivated by sowing or nutrition propagation methods have large seedling density, each seedling occupies small nutrition space, and the seedlings must be transplanted for cultivation. According to the requirements of landscaping on seedlings with various specifications and the cultivation mode, the seedlings can be transplanted once or multiple times. Transplanting can enlarge the nutrition space for the growth of the nursery stock, such as illumination space, ventilation space and branch growth space, and space for the growth of the root system, absorption of moisture and nutrition, pruning the root system during transplanting, and also can stimulate the growth of the root system of the nursery stock and increase the survival rate of greening.

However, the existing sapling transplanting storage equipment for forestry engineering is characterized in that when the sapling is stored, the sapling is transported for a long time, so that the phenomenon of water shortage is caused, leaves curl, soil at the root of the sapling is dry, the leaves are easy to fall off, the root hair at the root of the sapling is easy to break, the sapling is likely to appear survival difficulty after being transplanted to a destination, the sapling transplanting storage equipment for forestry engineering is still affected by external force when being transported, and the sapling is fragile due to the fact that the sapling is prone to being blown by external force.

In view of the above, the present invention provides a seedling transplanting storage device for forestry engineering, so as to solve the above technical problems in the prior art.

Disclosure of Invention

The invention provides a seedling transplanting storage device for forestry engineering, which has the beneficial effect of convenient storage, and solves the problems that the existing seedling transplanting storage device for forestry engineering can cause water shortage phenomenon after long-time transportation of the existing seedling during the storage of the seedling, curled leaves, dry soil at the root of the seedling, easy falling of the leaves, easy breakage of root hairs of the root of the seedling, survival difficulty of the seedling after transplanting to a destination, influence of external force on the seedling during transportation, and blowing of the seedling due to the fact that the seedling is fragile.

The invention provides the following technical scheme: the seedling transplanting storage device for forestry engineering comprises a collecting box and a digging grab on the collecting box, wherein a rotating wheel is rotationally connected to the collecting box, a synchronous belt is sleeved on the outer surface of the rotating wheel, a connecting rod is mounted on the synchronous belt, a round sleeve is mounted on the connecting rod, and a collecting barrel for storing seedlings is rotationally connected to the round sleeve;

the collecting box is connected with a telescopic rod, a connecting plate is arranged on the telescopic rod, the connecting plate is connected to the collecting box in a sliding mode, a spray head is arranged on the connecting plate, a supporting plate is further arranged on the spray head and used for abutting against the concave-convex block, and the spray head is used for spraying sapling.

As an alternative scheme of the sapling transplanting storage device for forestry engineering, the invention comprises the following steps: the rotary sleeve is further rotationally connected with a turnover plate, the rotary sleeve is further provided with a first elastic sheet, the first elastic sheet is connected with the turnover plate, the connecting plate is further provided with an extension plate, and the turnover plate is used for extruding the extension plate to slide.

As an alternative scheme of the sapling transplanting storage device for forestry engineering, the invention comprises the following steps: still install the gear on the collecting vessel, the first rack is still installed to the inner wall of collecting box, the gear is used for meshing with first rack, still install the second shell fragment on the shower nozzle, the second shell fragment is connected with the connecting plate.

As an alternative scheme of the sapling transplanting storage device for forestry engineering, the invention comprises the following steps: the inside of collecting vessel still installs the regulating box, sliding connection has a rubber sheet on the regulating box, a rubber sheet is used for the centre gripping sapling.

As an alternative scheme of the sapling transplanting storage device for forestry engineering, the invention comprises the following steps: still rotate on the regulating box and be connected with the square cover, sliding connection has the post of pushing away on the square cover, it installs the second rubber slab to push away on the post, the second rubber slab is used for contradicting on the sapling.

As an alternative scheme of the sapling transplanting storage device for forestry engineering, the invention comprises the following steps: the inside of collecting vessel still installs the division board, be provided with the gas storage chamber between division board and the collecting vessel, the inside sliding connection in gas storage chamber has the piston board, install the trachea on the division board, the trachea is linked together with the inside of regulating box, the piston board is used for extrudeing the inside of air to the regulating box.

As an alternative scheme of the sapling transplanting storage device for forestry engineering, the invention comprises the following steps: the piston plate is also provided with a push rod, and the piston plate is also provided with a first spring which is connected with the push rod.

As an alternative scheme of the sapling transplanting storage device for forestry engineering, the invention comprises the following steps: the inside of regulating box still sliding connection has the push pedal, install the square strip in the push pedal, the square strip is connected with first rubber slab, still install the second rack on the square strip, still rotate on the regulating box and be connected with the gear shaft, the gear shaft is connected with the square sleeve, the second rack is used for driving rotatablely.

As an alternative scheme of the sapling transplanting storage device for forestry engineering, the invention comprises the following steps: the inside of square cover still installs the third spring, the third spring is connected with pushing away the post, the second spring is still installed to the inside of regulating box, the second spring is connected with the push pedal.

The invention also provides a storage method of the sapling transplanting storage device for forestry engineering,

s1, digging and picking up saplings by digging and grabbing, then digging and grabbing to place the saplings in the collecting barrels, and driving the rotating wheel to rotate by rotating the synchronous belt, wherein the rotating wheel drives the next collecting barrel to rotate to the digging and grabbing position;

s2, spraying liquid on the saplings in the collecting barrel through the spray head, and wetting the saplings by using the liquid, so that the phenomenon of water shortage of the saplings during long-term transportation is reduced;

s3, clamping the sapling by using a first rubber plate in the collecting barrel, so that the shaking of the sapling can be reduced by the first rubber plate when the sapling is subjected to external force;

s4, the square sleeve and the second rubber plate are rotationally connected to the regulating box, and when the sapling swings left and right, the square sleeve drives the second rubber plate to abut against the sapling, so that the sapling is limited to swing, and the sapling is convenient to store.

The invention has the following beneficial effects:

1. this storage facilities is transplanted to sapling for forestry engineering drives the hold-in range through the swiveling wheel and rotates, the hold-in range drives the collecting vessel rotation on connecting rod and the connecting rod, make the collecting vessel that is equipped with the sapling rotatory to connecting plate department, and the hold-in range is rotatory to digging the department of grabbing with empty collecting vessel, be convenient for follow-up digging grab and put into the sapling and store, utilize the shower nozzle to spray liquid to the sapling afterwards, let the sapling keep certain moisture on one's body, promote the shower nozzle through the backup pad and swing from top to bottom afterwards, and then let the shower nozzle can spray liquid from top to bottom, thereby let all positions on the sapling body all drench liquid, with this avoid the sapling to transport for a long time can lead to appearing the phenomenon of lack of water.

2. This storage facilities is transplanted with sapling to forestry engineering promotes through the upset board and stretches out board and slide to telescopic link department for stretch out the board and drive the connecting plate and slide, and then let the shower nozzle on the connecting plate follow the sapling in the collecting vat all the time, let the shower nozzle can spray the sapling for a long time.

3. This storage facilities is transplanted to sapling for forestry engineering, it is rotatory through first rack drive gear, and the gear drives the collecting vessel and rotates, and the collecting vessel drives the sapling and rotate to increase the sapling and sprayed the area by the shower nozzle, with this further realization lets all positions on the sapling on one's body all drench liquid, with this avoids the sapling to transport for a long time can lead to appearing the phenomenon of lack of water.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is a cross-sectional view of the collection box of the present invention.

Fig. 3 is a schematic view of the structure of the collecting vessel and the collecting tank of the present invention.

Fig. 4 is a schematic structural view of the collecting barrel of the present invention.

Fig. 5 is a schematic diagram of the structure of fig. 4 at a.

Fig. 6 is a schematic diagram of the structure of fig. 5B according to the present invention.

In the figure: 1. a collection box; 2. digging and grabbing; 3. a rotating wheel; 4. a synchronous belt; 5. a connecting rod; 6. a round sleeve; 7. a collecting barrel; 8. a spray head; 9. a telescopic rod; 10. a connecting plate; 11. a support plate; 12. concave convex blocks; 13. a gear; 14. a first rack; 15. a turnover plate; 16. a first elastic sheet; 17. a protruding plate; 18. a second spring plate; 19. a piston plate; 20. a partition plate; 21. a gas storage chamber; 22. a push rod; 23. a first spring; 24. an air pipe; 25. a push plate; 26. square bars; 27. a first rubber plate; 28. a second spring; 29. a second rack; 30. a gear shaft; 31. a square sleeve; 32. pushing a column; 33. a third spring; 34. a second rubber plate; 35. and an adjusting box.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

Referring to fig. 1-2, a storage device for transplanting saplings for forestry engineering is disclosed, wherein the storage device for transplanting saplings for forestry engineering comprises a collecting box 1 and a digging grip 2 on the collecting box 1, a rotating wheel 3 is rotatably connected to the collecting box 1, a synchronous belt 4 is sleeved on the outer surface of the rotating wheel 3, a connecting rod 5 is mounted on the synchronous belt 4, a round sleeve 6 is mounted on the connecting rod 5, and a collecting barrel 7 for storing saplings is rotatably connected to the round sleeve 6;

the collecting box 1 is connected with a telescopic rod 9, a connecting plate 10 is arranged on the telescopic rod 9, the connecting plate 10 is connected to the collecting box 1 in a sliding mode, a spray head 8 is arranged on the connecting plate 10, a supporting plate 11 is further arranged on the spray head 8, the supporting plate 11 is used for abutting on the concave-convex block 12, and the spray head 8 is used for spraying sapling.

Because current storage equipment is transplanted to sapling for forestry engineering when the storage equipment is storing the sapling, its sapling can lead to appearing the lack of water phenomenon through long-time transportation, the leaf curls, sapling root earth is dry, and then the leaf drops very easily, and the root must fracture very easily of sapling root, result in the sapling can appear surviving the difficult phenomenon after transplanting the destination, current storage equipment is transplanted to sapling for forestry engineering still can receive external force influence sapling when the transportation, because sapling itself is comparatively fragile, and then result in external force to blow broken sapling, in a total word, this equipment is in order to solve above-mentioned problem and install shower nozzle 8 that can spray water on collecting box 1, spray water to the sapling through shower nozzle 8, let the sapling keep certain moisture.

Water spraying and moisturizing: according to the method, as shown in fig. 1, the sapling is grabbed by the grabbing 2 and placed in the collecting barrel 7, then the rotating wheel 3 drives the synchronous belt 4 to rotate, the synchronous belt 4 drives the connecting rod 5 and the collecting barrel 7 on the connecting rod 5 to rotate, the collecting barrel 7 filled with the sapling rotates to the connecting plate 10, the synchronous belt 4 rotates the empty collecting barrel 7 to the grabbing 2, the sapling is conveniently placed in the subsequent grabbing 2 for storage, then the spray head 8 is utilized to spray liquid onto the sapling, a certain amount of moisture is kept on the sapling, then the spray head 8 is pushed to swing up and down through the supporting plate 11, and then the spray head 8 can spray liquid up and down, so that all parts on the sapling are sprayed with liquid, and the phenomenon that the sapling is water shortage is caused by long-time transportation is avoided.

Example 2

The present embodiment is an improvement made on the basis of embodiment 1, specifically, referring to fig. 1-2, a turnover plate 15 is rotatably connected to the round sleeve 6, a first elastic sheet 16 is further installed on the round sleeve 6, the first elastic sheet 16 is connected to the turnover plate 15, an extension plate 17 is further installed on the connection plate 10, and the turnover plate 15 is used for extruding the extension plate 17 to slide.

Increase the spraying time: according to the illustration in fig. 2, the turnover plate 15 is further rotatably connected to the round sleeve 6, the turnover plate 15 is supported by the first elastic sheet 16, when the synchronous belt 4 drives the turnover plate 15 on the collecting barrel 7 to abut against the extension plate 17, the extension plate 17 is pushed to slide towards the telescopic rod 9 by the turnover plate 15, the extension plate 17 drives the connecting plate 10 to slide, the spray head 8 on the connecting plate 10 always follows the seedlings in the collecting barrel 7, the spray head 8 can spray the seedlings for a long time, the seedlings can absorb a large amount of moisture, and when the connecting plate 10 slides, the connecting plate 10 compresses the telescopic rod 9, when the telescopic rod 9 is compressed to the limit, the turnover plate 15 presses the first elastic sheet 16, the turnover plate 15 rotates, the extension plate 17 is penetrated by the turnover plate 15, then the telescopic rod 9 releases compressed force, the connecting plate 10 is pushed to reset by the telescopic rod 9, and the spray head 8 continuously sprays the seedlings in the next collecting barrel 7.

Automatic swinging: according to fig. 3, when the gear 13 slides to the right, the gear 13 drives the support plate 11 on the spray head 8 to abut against the concave-convex block 12, and the concave-convex block 12 is concave-convex, so that the concave-convex block 12 can push the support plate 11 to swing up and down continuously, thereby realizing that the sapling in embodiment 1 sprays liquid up and down through the spray head 8, and all the parts on the sapling are sprayed with liquid.

Example 3

The embodiment is an improvement made on the basis of embodiment 2, specifically referring to fig. 1-3, a gear 13 is further installed on the collecting barrel 7, a first rack 14 is further installed on the inner wall of the collecting box 1, the gear 13 is used for meshing with the first rack 14, a second elastic piece 18 is further installed on the spray head 8, and the second elastic piece 18 is connected with the connecting plate 10.

Increase the spraying area: according to the figures 2 and 3, the collecting barrel 7 is further provided with the gear 13, when the gear 13 is meshed with the first rack 14, the gear 13 is driven to rotate by the first rack 14, the gear 13 drives the collecting barrel 7 to rotate, and the collecting barrel 7 drives the sapling to rotate, so that the spraying area of the sapling by the spray head 8 is enlarged, all parts on the body of the sapling are further sprayed with liquid, and the phenomenon that the sapling is water-deficient due to long-time transportation is avoided.

Example 4

The embodiment is an improvement made on the basis of embodiment 3, specifically referring to fig. 1-6, an adjusting box 35 is further installed in the collecting barrel 7, a first rubber plate 27 is slidably connected to the adjusting box 35, and the first rubber plate 27 is used for clamping sapling;

the square sleeve 31 is further connected to the second rubber plate 34 in a rotating mode, the pushing column 32 is connected to the square sleeve 31 in a sliding mode, the second rubber plate 34 is installed on the pushing column 32, and the second rubber plate 34 is used for abutting against seedlings.

The clamping is firm: according to the figure 6, through the inside sliding connection at second rubber sheet 34 has first rubber sheet 27, contradict on the sapling through first rubber sheet 27, with this centre gripping fixed sapling, reduce the condition that the sapling moved by external force, further protect the sapling to receive the damage, and because the sapling height is higher, but the position of first rubber sheet 27 centre gripping is fixed relatively for the majority of sapling still can be in the state of swaying, install square cover 31 on adjusting box 35 to this equipment, the inside sliding connection of square cover 31 has pushing post 32, promote second rubber sheet 34 through pushing post 32 and contradict on the sapling, and the position that second rubber sheet 34 contradicts is kept away from first rubber sheet 27, thereby prolong the grip point of first rubber sheet 27, thereby can firm centre gripping sapling through first rubber sheet 27 and second rubber sheet 34, reduce the sapling and harm under the condition of receiving external force.

Example 5

The present embodiment is an improvement made on the basis of embodiment 4, specifically, referring to fig. 1-6, a partition plate 20 is further installed inside the collecting barrel 7, a gas storage cavity 21 is disposed between the partition plate 20 and the collecting barrel 7, a piston plate 19 is slidably connected inside the gas storage cavity 21, an air pipe 24 is installed on the partition plate 20, the air pipe 24 is communicated with the inside of the adjusting box 35, and the piston plate 19 is used for extruding air into the adjusting box 35;

the piston plate 19 is also provided with a push rod 22, the piston plate 19 is also provided with a first spring 23, the first spring 23 is connected with the push rod 22, the interior of the square sleeve 31 is also provided with a third spring 33, the third spring 33 is connected with the push column 32, the interior of the adjusting box 35 is also provided with a second spring 28, and the second spring 28 is connected with the push plate 25.

Automatic extrusion: according to fig. 5, when the collecting vessel 7 rotates, the piston plate 19 is pushed by the push rod 22 to squeeze the air in the air storage chamber 21, the air can be supplied to the interior of the squeeze air pipe 24 by the piston plate 19, the air is supplied to the interior of the adjusting box 35 by the air pipe 24, the push plate 25 and the first rubber plate 27 are pushed to slide by the air in the adjusting box 35, and the phenomenon that the first rubber plate 27 firmly clamps the sapling in embodiment 4 is realized.

It should be noted that, because the sapling is subject to the condition that the sapling swings left and right when the first rubber plate 27 is fixed, the sapling may be broken by the first rubber plate 27, so that the first rubber plate 27 pushes the push plate 25 to slide when the first rubber plate 27 is subject to the huge extrusion force of the sapling, the first rubber plate 27 pushes the push plate 25 to slide towards the inside of the adjusting box 35, so that the condition that the sapling is broken by the first rubber plate 27 is reduced.

Example 6

The present embodiment is an improvement made on the basis of embodiment 5, specifically, referring to fig. 1-6, the inside of the adjusting box 35 is further slidably connected with a push plate 25, a square bar 26 is installed on the push plate 25, the square bar 26 is connected with a first rubber plate 27, a second rack 29 is further installed on the square bar 26, the adjusting box 35 is further rotatably connected with a gear shaft 30, the gear shaft 30 is connected with a square sleeve 31, and the second rack 29 is used for driving the gear shaft 30 to rotate.

Automatic swinging: when the sapling swings left and right, the first rubber plate 27 is extruded to slide towards the inside of the adjusting box 35, at this time, in order to stabilize the sapling, the gear shaft 30 is driven to rotate through the second rack 29 on the square bar 26, the gear shaft 30 drives the square sleeve 31 and the pushing post 32 to rotate, the second rubber plate 34 on the pushing post 32 is utilized to abut against the sapling, so that the second rubber plate 34 is pushed to abut against the sapling through the pushing post 32 in embodiment 4, the abutting position of the second rubber plate 34 is far away from the first rubber plate 27, the clamping point of the first rubber plate 27 is prolonged, the sapling can be firmly clamped through the first rubber plate 27 and the second rubber plate 34, and damage of the sapling under the condition of external force is reduced.

It should be noted that, when the air presses the push plate 25 and the first rubber plate 27 to slide rightward, the second rack 29 on the square bar 26 does not drive the gear shaft 30 to rotate, but when the seedlings press the first rubber plate 27 to shrink into the push plate 25, the second rack 29 drives the gear shaft 30 to rotate.

Example 7

s1, picking up saplings by digging a grab 2, then placing the saplings in a collecting barrel 7 by digging the grab 2, driving a rotating wheel 3 to rotate by rotating a synchronous belt 4, and driving the next collecting barrel 7 to rotate to the grab 2 by the rotating wheel 3;

s2, spraying liquid on the saplings in the collecting barrel 7 through the spray head 8, and wetting the saplings by using the liquid, so that the phenomenon of water shortage of the saplings during long-term transportation is reduced;

s3, clamping the sapling by using the first rubber plate 27 in the collecting barrel 7, so that the shaking of the sapling can be reduced by the first rubber plate 27 when the sapling is subjected to external force;

s4, the square sleeve 31 and the second rubber plate 34 are rotationally connected to the adjusting box 35, and when the sapling swings left and right, the square sleeve 31 drives the second rubber plate 34 to abut against the sapling, so that the sapling is limited to swing, and the sapling is convenient to store.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The foregoing is merely a preferred embodiment of the present invention, and it should be noted that it will be apparent to those skilled in the art that several modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the scope of the invention.

Claims

1. A storage equipment is transplanted to sapling for forestry engineering, its characterized in that: including collecting box (1) and dig claw (2) on collecting box (1), its characterized in that: the collecting box (1) is rotationally connected with a rotating wheel (3), a synchronous belt (4) is sleeved on the outer surface of the rotating wheel (3), a connecting rod (5) is installed on the synchronous belt (4), a round sleeve (6) is installed on the connecting rod (5), and a collecting barrel (7) for storing sapling is rotationally connected with the round sleeve (6); the collecting box (1) is connected with a telescopic rod (9), a connecting plate (10) is arranged on the telescopic rod (9), the connecting plate (10) is connected to the collecting box (1) in a sliding mode, a spray head (8) is arranged on the connecting plate (10), a supporting plate (11) is further arranged on the spray head (8), the supporting plate (11) is used for abutting against the concave-convex block (12), and the spray head (8) is used for spraying sapling; the round sleeve (6) is further rotationally connected with a turnover plate (15), the round sleeve (6) is further provided with a first elastic sheet (16), the first elastic sheet (16) is connected with the turnover plate (15), the connecting plate (10) is further provided with an extension plate (17), and the turnover plate (15) is used for extruding the extension plate (17) to slide; the novel tree seedling collecting device is characterized in that a gear (13) is further arranged on the collecting barrel (7), a first rack (14) is further arranged on the inner wall of the collecting box (1), the gear (13) is used for being meshed with the first rack (14), a second elastic sheet (18) is further arranged on the spray head (8), the second elastic sheet (18) is connected with the connecting plate (10), an adjusting box (35) is further arranged in the collecting barrel (7), a first rubber plate (27) is slidingly connected onto the adjusting box (35), and the first rubber plate (27) is used for clamping tree seedlings; the adjusting box (35) is further rotationally connected with a square sleeve (31), the square sleeve (31) is connected with a pushing column (32) in a sliding manner, a second rubber plate (34) is mounted on the pushing column (32), and the second rubber plate (34) is used for abutting against seedlings; the inside of the collecting barrel (7) is also provided with a separation plate (20), a gas storage cavity (21) is arranged between the separation plate (20) and the collecting barrel (7), a piston plate (19) is connected in a sliding manner in the gas storage cavity (21), an air pipe (24) is arranged on the separation plate (20), the air pipe (24) is communicated with the inside of the regulating box (35), and the piston plate (19) is used for extruding air into the regulating box (35); a push rod (22) is further mounted on the piston plate (19), a first spring (23) is further mounted on the piston plate (19), and the first spring (23) is connected with the push rod (22); the inside of the adjusting box (35) is also connected with a pushing plate (25) in a sliding manner, the pushing plate (25) is provided with a square bar (26), the square bar (26) is connected with a first rubber plate (27), the square bar (26) is also provided with a second rack (29), the adjusting box (35) is also connected with a gear shaft (30) in a rotating manner, the gear shaft (30) is connected with a square sleeve (31), and the second rack (29) is used for driving the gear shaft (30) to rotate; a third spring (33) is further arranged in the square sleeve (31), the third spring (33) is connected with the pushing column (32), a second spring (28) is further arranged in the adjusting box (35), and the second spring (28) is connected with the pushing plate (25); when the sapling swings left and right, the first rubber plate is extruded to slide towards the inside of the adjusting box, at the moment, in order to stabilize the sapling, the gear shaft is driven to rotate through the second rack on the square bar, the square sleeve is driven to rotate by the gear shaft, the second rubber plate on the pushing column is utilized to abut against the sapling, so that the second rubber plate is pushed to abut against the sapling through the pushing column, the abutting position of the second rubber plate is far away from the first rubber plate, the clamping point of the first rubber plate is prolonged, the sapling can be firmly clamped through the first rubber plate and the second rubber plate, damage to the sapling is reduced under the condition of receiving external force, when the air is extruded to slide rightwards by the pushing plate and the first rubber plate, the gear shaft is not driven to rotate by the second rack on the square bar, but when the sapling is extruded to shrink to the inside of the pushing plate, the gear shaft is driven to rotate by the second rack.