CN114287267A

CN114287267A - Landscape plant transplants and uses auxiliary structure

Info

Publication number: CN114287267A
Application number: CN202111605614.9A
Authority: CN
Inventors: 徐�明; 郑君彪; 王威
Original assignee: Xiangting Ecology Technology Co ltd
Current assignee: Xiangting Ecology Technology Co ltd
Priority date: 2021-12-25
Filing date: 2021-12-25
Publication date: 2022-04-08
Anticipated expiration: 2041-12-25
Also published as: CN114287267B

Abstract

The application relates to an auxiliary structure for garden plant transplantation, which relates to the technical field of plant transplantation and comprises a supporting mechanism and a drip irrigation mechanism; the supporting mechanism comprises a bottom support device and a plurality of groups of side support devices, the bottom support device comprises a bearing strip, and a plurality of settling tanks for placing plants are arranged on the bearing strip at intervals; the side supporting devices are arranged on the bearing strip at intervals; the drip irrigation mechanism comprises a mounting device and a drip irrigation device, and the mounting device is arranged on the carrying strip; the dropper device comprises an arc-shaped plate, a nutrition tank and a liquid guide pipe, wherein the arc-shaped plate is arranged at one end of the mounting device, the nutrition tank is arranged on the arc-shaped plate, the liquid guide pipe is arranged on the nutrition tank, and one end, far away from the nutrition tank, of the liquid guide pipe penetrates through the arc-shaped plate so as to drip-irrigate the plants with nutrient solution; the liquid guide pipe is provided with a closure piece for controlling the circulation of nutrient solution. The present application has the effect of contributing to the vigorous growth of plants after transplantation.

Description

Landscape plant transplants and uses auxiliary structure

Technical Field

The application relates to a plant transplants technical field, especially relates to a landscape plant transplants and uses auxiliary structure.

Background

In the free growth process of garden plants, the problems of small nutrition obtaining amount of single seedlings, low survival rate of the seedlings and poor growth performance often exist due to the fact that the number of the seedlings in unit land is large and the density is large. In order to ensure the healthy growth of each garden plant, gardeners can selectively transplant garden plants so as to ensure the healthy growth of each garden plant.

In the transplantation of landscape plants, gardeners mostly excavate around the periphery of the plants first, so that the roots of the plants are separated from the native soil along with the plant bodies. Next, most of the branches on the plant body were cut off, leaving only the top few branches. In the process that the plant root hair is separated from the original soil, some soil is reserved on the plant root hair part, the rooting powder solution is poured on the soil of the plant root hair part, and the brassin solution and the thiophanate methyl solution are properly added to promote the plant to take root and rejuvenate. And finally, wrapping the soil positioned at the root and beard part of the plant by using a polyethylene plastic film to finish the transplantation of the garden plant.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: in the process of transplanting landscape plants, most of the nutrient solution for assisting the growth and the rejuvenation of plants is irrigated once, and the interval time of transplanting and replanting the plants is longer, so that the nutrient solution irrigated once is difficult to fully supply the nutrients required by the plants, and the plants are not favorable for the vigorous growth after replanting the plants.

Disclosure of Invention

In order to improve the problem that the plant after transplanting is liable to grow badly, this application provides an auxiliary structure for landscape plant transplantation.

The application provides a pair of garden plant transplants and uses auxiliary structure adopts following technical scheme:

an auxiliary structure for transplanting landscape plants comprises a supporting mechanism and a drip irrigation mechanism; the supporting mechanism comprises a bottom support device and a plurality of groups of side support devices, the bottom support device comprises a bearing strip, and a plurality of settling tanks for placing plants are arranged on the bearing strip at intervals; the side supporting devices are arranged on the bearing strip at intervals and correspond to the settling tanks one by one so as to be used for supporting plants; the drip irrigation mechanism comprises a mounting device and a drip irrigation device, and the mounting device is arranged on the carrying strip; the dropper device comprises an arc-shaped plate, a nutrition tank and a liquid guide pipe, wherein the arc-shaped plate is arranged at one end of the mounting device, the nutrition tank is arranged on the arc-shaped plate, the liquid guide pipe is arranged on the nutrition tank, and one end, far away from the nutrition tank, of the liquid guide pipe penetrates through the arc-shaped plate so as to drip-irrigate the plants with nutrient solution; the liquid guide pipe is provided with a closure piece for controlling the circulation of nutrient solution.

By adopting the technical scheme, the bearing strip bears the root system part of the plant with soil through the settling tank so as to bear and gather the root system part of the plant, thereby reducing the phenomena that the root system part of the plant scatters and causes nutrient loss; the side support device is arranged at the top of the bearing strip to form a trunk of the plant, so that the position stability of the plant on the bearing strip is guaranteed; the drip irrigation device is arranged on the bearing strip through the mounting device, so that the nutrition pot with the liquid guide pipe is quickly mounted above the root system part of the plant; nutrient solution in the nutrient tank flows to the root system part of the plant through the liquid guide pipe so as to supply nutrients to the plant and ensure the sound growth of the plant; the closure member is used for controlling the circulation of nutrient solution on the catheter, reduces the nutrient solution and continues to discharge outward through the catheter, and then causes the extravagant condition.

Preferably, the side bracing device comprises a support frame and a telescopic assembly, wherein the telescopic assembly comprises a directional rod, a sliding column and a locking bolt; the orientation rod is arranged on the bearing strip, one end of the sliding column is provided with a guide groove, and the sliding column is sleeved on the orientation rod through the guide groove; the locking bolt is in threaded fit with the sliding column, and a plurality of clamping grooves for screwing the locking bolt in threads are formed in the orientation rod at intervals along the extension direction; the support frame is arranged at one end, far away from the orientation rod, of the sliding column and used for supporting plants.

By adopting the technical scheme, the support frame is arranged on the bearing strip through the telescopic assembly, so that the main trunk of the plant is supported, and the position stability of the plant on the bearing strip is ensured; the sliding column slides relative to the directional rod to adjust the distance between the supporting frame and the bearing strip, so that the supporting frame can support plants with different heights conveniently; the locking bolt is used for being fixed in the orientation pole with the post that slides fast on, is convenient for the gardener to control the post that slides and slide on the orientation pole simultaneously.

Preferably, the side supporting device further comprises an adjusting assembly, and the adjusting assembly comprises a connecting bolt, a connecting nut and two side connecting plates; the two side joint plates are oppositely arranged on the support frame, the connecting bolt penetrates through the sliding column and the two side joint plates, and the connecting nut is in threaded fit with the connecting bolt.

By adopting the technical scheme, the side connection plates are abutted against two opposite sides of the sliding column, and the support frame is abutted against one end of the sliding column, which is far away from the directional rod, so that the support frame is quickly positioned on the sliding column; connecting bolt wears to locate slip post and two side joint boards simultaneously, makes the support frame be located the slip post to can make the support frame relative slip post rotate, connecting nut screws up at connecting bolt upper thread, makes the support frame after the rotation be fixed in on the slip post, ensured the support stability of support frame to the plant.

Preferably, the side wall of the support frame, which is far away from the sliding column, is provided with an abutting part, and the abutting part comprises an abutting arc plate and a plurality of elastic pieces; all the elastic parts are arranged on the support frame, and the butt arc plates are arranged on the side walls, far away from the support frame, of the elastic parts so as to be used for butt plant.

Through adopting above-mentioned technical scheme, the trunk butt of plant behind the butt arc board, the elastic component atress and compression deformation, simultaneously, the elastic component of compression can provide an elastic force to the butt plate to the reaction has ensured the support stability of butt plate to the plant.

Preferably, the abutting portion further comprises an abutting piece, and the abutting piece is arranged on the side wall of the abutting arc plate, which is far away from the elastic piece.

Through adopting above-mentioned technical scheme, the laminating piece is with the soft and great characteristic butt of coefficient of static friction of self between butt arc board and plant, has reduced the relative butt arc board of plant and has appeared the phenomenon that the pine shakes, moves partially on the one hand, and on the other hand has ensured the position stability of plant in butt arc board department.

Preferably, the mounting device comprises a connecting plate and a guide cylinder, the connecting plate is arranged on the receiving strip, and the guide cylinder is arranged at one end of the connecting plate, which is far away from the receiving strip; the output end of the guide cylinder is connected with the arc-shaped plate.

By adopting the technical scheme, the connecting plate is used for positioning the guide cylinder above the bearing strip, and after the guide cylinder extends out of the output end, the arc-shaped plate extends out of the upper part of the root system part of the plant, so that nutrient solution in the nutrient tank can irrigate the root system part of the plant through the liquid guide pipe; when the guide cylinder is in a standby state, gardeners can place plants in the settling tank conveniently for positioning.

Preferably, the mounting device further comprises a displacement assembly, wherein the displacement assembly comprises a sliding block, a horizontal plate and a plug connector; the sliding block is arranged at one end of the connecting plate facing the bearing strip, and a preset channel for the sliding block to abut and slide is arranged on the bearing strip; the horizontal plate is arranged on the connecting plate, and the plug connector is used for positioning the horizontal plate on the bearing strip.

By adopting the technical scheme, the connecting plate drives the guide cylinder to rapidly displace to any settling tank through the sliding of the sliding block in the preset channel; the horizontal plate increases the contact area of the connecting plate and the bearing strip, and improves the position stability of the connecting plate on the bearing strip; the plug connector is used for fixing a position the horizontal plate on accepting the strip fast, has ensured drip irrigation the installation stability and the application stability of device on accepting the strip.

Preferably, the plug connector comprises a plug rod and a lifting ring, the plug rod is inserted into the horizontal plate, and a plurality of positioning grooves for the plug rod to be plugged are arranged on the bearing strip at intervals; the lifting ring is arranged at one end of the plug rod in the height direction.

By adopting the technical scheme, the plug-in rod can be quickly plugged into the inner cavity of the positioning wiper, so that the horizontal plate is positioned on the bearing strip; the lifting ring is convenient for gardeners to lift so that the inserting rod can be quickly separated from the horizontal plate for application.

Preferably, a fixing assembly is arranged between the guide cylinder and the arc-shaped plate, and the fixing assembly comprises a clamping arc plate, a directional screw rod and a fixing nut; the joint arc plate sets up in the one end of direction cylinder's output towards the arc, be provided with the adaptation groove that supplies the joint arc plate to go into on the arc, directional lead screw sets up in the lateral wall in adaptation groove, the joint arc plate is worn to locate by directional lead screw, fixation nut screw-thread fit is on directional lead screw.

Through adopting above-mentioned technical scheme, the joint arc has increased the area of contact of direction cylinder's output and arc, and the position of joint arc on the arc has been injectd to the adaptation groove, and after the joint arc was worn to locate by directional lead screw, fixation nut screwed up at directional lead screw thread for the arc is fixed in on the output of direction cylinder fast.

In summary, the present application has the following beneficial technical effects:

1. the receiving strip receives the root system part of the plant with soil through the settling tank so as to receive and gather the root system part of the plant and reduce the phenomena that the root system part of the plant scatters and causes nutrient loss; the side support device is arranged at the top of the bearing strip to form a trunk of the plant, so that the position stability of the plant on the bearing strip is guaranteed; the drip irrigation device is arranged on the bearing strip through the mounting device, so that the nutrition pot with the liquid guide pipe is quickly mounted above the root system part of the plant; nutrient solution in the nutrient tank flows to the root system part of the plant through the liquid guide pipe so as to supply nutrients to the plant and ensure the sound growth of the plant;

2. the connecting plate slides in the preset channel through the sliding block, so that the connecting plate drives the guide cylinder to quickly displace to any settling tank; the horizontal plate increases the contact area of the connecting plate and the bearing strip, and improves the position stability of the connecting plate on the bearing strip; the plug connector is used for fixing a position the horizontal plate on accepting the strip fast, has ensured drip irrigation the installation stability and the application stability of device on accepting the strip.

Drawings

FIG. 1 is a schematic structural diagram of an auxiliary structure for transplanting landscape plants in an embodiment of the present application;

FIG. 2 is a schematic view of the positional relationship of the drip irrigation mechanism and the support mechanism in an embodiment of the present application;

FIG. 3 is an exploded view of the connection of the support frame and the telescoping assembly in an embodiment of the present application;

FIG. 4 is a schematic vertical sectional view of the positional relationship between the sliding column and the orientation bar in the embodiment of the present application;

FIG. 5 is a schematic view showing the connection relationship of the connection plate, the arc plate and the guide cylinder in the embodiment of the present application;

fig. 6 is an enlarged schematic view of a portion a in fig. 5.

Description of reference numerals:

1. a support mechanism; 2. a bottom bracing device; 21. carrying out strip bearing; 211. a settling tank; 212. presetting a channel; 213. positioning a groove; 3. a side bracing device; 31. a telescoping assembly; 311. an orientation bar; 3111. a clamping groove; 32. a sliding post; 321. a guide groove; 33. locking the bolt; 34. a support frame; 341. an abutting portion; 3411. abutting against the arc plate; 3412. an elastic member; 3413. fitting parts; 35. an adjustment assembly; 351. a connecting bolt; 352. a connecting nut; 353. a side joint plate; 4. a drip irrigation mechanism; 5. a mounting device; 51. a connecting plate; 52. a displacement assembly; 521. a sliding block; 522. a horizontal plate; 523. a plug-in unit; 5231. a plug rod; 5232. lifting the ring; 53. a guide cylinder; 54. a drip irrigation device; 541. an arc-shaped plate; 5411. an adaptation groove; 542. a nutrition tank; 543. a catheter; 6. a fixing assembly; 61. clamping the arc plate; 62. a directional screw rod; 63. fixing a nut; 7. a closure member; 71. a closure screw rod; 72. a support rod.

Detailed Description

The embodiment of the application discloses landscape plant transplants and uses auxiliary structure.

The present application is described in further detail below with reference to figures 1-6.

Referring to fig. 1, the auxiliary structure includes a support mechanism 1 and a drip irrigation mechanism 4. The support mechanism 1 is used for loading the transplanted plants and positioning the plants. The drip irrigation mechanism 4 is installed on the supporting mechanism 1, and nutrition supplement is carried out on the transplanted plant by drip irrigation of nutrient solution on the root system part of the plant, so that the transplanted plant can absorb enough nutrients, and the plant can grow vigorously.

Referring to fig. 1 and 2, the support mechanism 1 includes a shoe device 2, and the shoe device 2 includes a receiving strip 21. A plurality of settling tanks 211 are arranged on the top wall of the holding strip 21 at intervals, in this embodiment, the number of the settling tanks 211 may be three, and the three settling tanks 211 are equidistantly distributed along the extending direction of the holding strip 21. The transplanted plant can prop the root system part with soil into the settling tank 211, so that the plant can be quickly positioned on the bearing strip 21.

Referring to fig. 1 and 2, the supporting mechanism 1 further includes a plurality of sets of side-supporting devices 3, in this embodiment, the number of the side-supporting devices 3 may be three, the three sets of side-supporting devices 3 are all disposed on the receiving strip 21, and one set of side-supporting device 3 corresponds to one settling tank 211. Each set of side bracing means 3 comprises a set of telescopic assemblies 31.

Referring to fig. 3 and 4, the telescopic assembly 31 includes a directional bar 311, a sliding post 32, and a locking bolt 33, the directional bar 311 is welded to the top wall of the receiving bar 21 in the vertical direction, and the directional bar 311 is located at one side of the settling tank 211. The outer diameter of the sliding column 32 is larger than the outer diameter of the orientation rod 311, one end of the sliding column 32 in the height direction is provided with a guide groove 321, the guide groove 321 is arranged along the extending direction of the sliding column 32, and the length of the guide groove 321 is smaller than that of the sliding column 32. The inner diameter of the guide groove 321 is matched with the outer diameter of the orientation rod 311, and the sliding column 32 is sleeved on the orientation rod 311 through the guide groove 321.

Referring to fig. 4, the locking bolts 33 are screwed on the sliding columns 32, and in this embodiment, the number of the locking bolts 33 on one sliding column 32 may be two, and the two locking bolts 33 are respectively located at two ends of the sliding column 32 in the radial direction. The interval is provided with multiunit joint groove 3111 on the outer fringe wall of orientation lever 311, and joint groove 3111 is the thread groove, and all joint grooves 3111 are along the extending direction equidistance distribution of orientation lever 311. After the sliding column 32 slides on the orientation rod 311 and stays at any position, the locking bolt 33 can be screwed into any set of the latch grooves 3111, so that the sliding column 32 is positioned on the orientation rod 311.

Referring to fig. 3, each set of side-supporting devices 3 further includes a supporting frame 34 and an adjusting assembly 35, in this embodiment, the supporting frame 34 is a plate body with a U-shaped vertical cross section. An abutting portion 341 is provided in a side wall of the support frame 34, the abutting portion 341 includes an abutting arc plate 3411 and a plurality of elastic members 3412, and the elastic members 3412 are compression springs made of steel. All the elastic members 3412 are welded in the side wall of the supporting frame 34, and the abutting arc plates 3411 are welded at the end of all the elastic members 3412 away from the supporting frame 34. Abutting portion 341 further includes an abutting member 3413, where abutting member 3413 is a rubber pad with flexible texture and a large static friction coefficient, and abutting member 3413 is adhesively fixed to a sidewall of abutting arc 3411 away from elastic member 3412.

Referring to fig. 3, the supporting frame 34 is mounted on one end of the sliding column 32 far away from the directional rod 311 through an adjusting assembly 35, and the adjusting assembly 35 includes a connecting bolt 351, a connecting nut 352 and two side connection plates 353. The two side connection plates 353 are relatively welded to the side wall of the support frame 34 facing the sliding column 32, and after the two side connection plates 353 are abutted to the two ends in the radial direction of the sliding column 32, the support frame 34 is abutted to one end of the sliding column 32 far away from the orientation rod 311. The connecting bolt 351 is simultaneously inserted through the two side connection plates 353 and the sliding column 32, so that the side connection plates 353 are positioned on the sliding column 32 and can rotate along the periphery of the connecting bolt 351 to adjust the position of the support frame 34 relative to the sliding column 32. The gardener screws the coupling nut 352 onto the coupling bolt 351 to fix the side connection plate 353 to the sliding post 32, thereby fixing the support bracket 34 to the sliding post 32. At this time, the supporting frame 34 receives the trunk of the plant by abutting against the arc plate 3411, so that the plant is stably positioned on the receiving strip 21.

Referring to fig. 1 and 5, the drip irrigation mechanism 4 includes a mounting device 5, the mounting device 5 includes a connecting plate 51 and a displacement assembly 52, the connecting plate 51 is slidably disposed on the receiving strip 21 through the displacement assembly 52, and the connecting plate 51 is located on a side of the settling tank 211 away from the sliding column 32. The displacement assembly 52 includes a sliding block 521, and the sliding block 521 is integrally formed on a side wall of the connecting plate 51 facing the receiving strip 21.

Referring to fig. 5, the receiving bar 21 is provided with a preset channel 212, the preset channel 212 is disposed along the extending direction of the receiving bar 21, and the inner width of the preset channel 212 is matched with the outer width of the sliding block 521. The connecting plate 51 is abutted into the inner cavity of the predetermined channel 212 through the sliding block 521 to be positioned on the receiving strip 21, and when the sliding block 521 slides along the inner cavity of the predetermined channel 212, the connecting plate 51 can be rapidly displaced to different positions of the receiving strip 21.

Referring to fig. 5, the displacement assembly 52 further includes two horizontal plates 522 and an inserting member 523, in this embodiment, the number of the horizontal plates 522 may be two, two horizontal plates 522 are welded to two opposite sides of the connecting plate 51 along the horizontal direction, and the bottom wall of the horizontal plate 522 abuts against the top wall of the sliding block 521. When the sliding block 521 abuts against the inner cavity of the predetermined channel 212, the bottom wall of the horizontal plate 522 abuts against the top wall of the receiving strip 21.

Referring to fig. 5, the plug member 523 includes a plug rod 5231 and a lifting ring 5232, the plug rod 5231 is inserted in the horizontal plane, the lifting ring 5232 is integrally formed at one end of the plug rod 5231 away from the receiving strip 21, and a gardener can pull the lifting ring 5232 with his fingers to make the plug rod 5231 quickly separate from the horizontal plate 522.

Referring to fig. 5, the receiving strip 21 is provided with a plurality of positioning grooves 213, the positioning grooves 213 are distributed at intervals along the extending direction of the receiving strip 21, and the positioning grooves 213 are located at the settling tank 211. When the horizontal plate 522 is displaced to the settling tank 211, the plug rod 5231 can be plugged into the positioning groove 213, and the pulling ring 5232 abuts against the sidewall of the horizontal plate 522 away from the receiving bar 21 to define the position of the horizontal plate 522 on the receiving bar 21.

Referring to fig. 5, the mounting device 5 further includes a guide cylinder 53, the guide cylinder 53 is welded to an end of the connecting plate 51 away from the receiving bar 21 in an inclined manner, and an output end of the guide cylinder 53 is disposed toward the settling tank 211.

Referring to fig. 5, the drip irrigation mechanism 4 further includes a drip irrigation device 54, the drip irrigation device 54 including an arcuate plate 541. A fixing assembly 6 is arranged between the arc-shaped plate 541 and the guide cylinder 53, and the fixing assembly 6 comprises a clamping arc plate 61, a directional screw rod 62 and a fixing nut 63. Clamping arc plate 61 welds the lateral wall towards subsider 211 at the output of direction cylinder 53, is provided with adaptation groove 5411 on the arc 541, and the internal diameter size of adaptation groove 5411 and the periphery size looks adaptation of clamping arc plate 61.

Referring to fig. 5, the orientation screw 62 is welded in the sidewall of the adapting groove 5411, and when the arc plate 541 abuts against the inner cavity of the adapting groove 5411, the orientation screw 62 is inserted into the arc plate 541. The gardener screws the fixing nut 63 on the directional screw rod 62, so that the arc plate 541 is fixed in the adapting groove 5411, and further, the arc plate 541 is fixedly connected with the output end of the guide cylinder 53.

Referring to fig. 5, the drip irrigation device 54 further includes a nutrition tank 542 and a liquid guide tube 543, in this embodiment, the nutrition tank 542 is a tank body with a cavity filled with thiophanate methyl solution, the liquid guide tube 543 is a hard tube, and one end of the liquid guide tube 543 is connected to the nutrition tank 542. Two groove bodies are oppositely arranged on each arc-shaped plate 541, and the nutrition tank 542 is positioned on the arc-shaped plates 541 by abutting against the inner cavities of the groove bodies.

Referring to fig. 5 and 6, one end of the liquid guiding tube 543 away from the nutrition tank 542 is inserted through the arc-shaped plate 541, and the liquid guiding tube 543 is provided with the cut-off piece 7. The shutoff member 7 includes a shutoff screw 71 and two struts 72, and in this embodiment, the number of the struts 72 may be two, and the two struts 72 are welded to one end of the shutoff screw 71 in a length direction in an opposite manner. One end of the intercepting screw rod 71, which is far away from the support rod 72, is connected to the inner cavity of the liquid guide tube 543 in a threaded manner so as to obstruct the nutrient solution and reduce the phenomenon that the nutrient solution flows out from the opening of the liquid guide tube 543.

Referring to fig. 5 and 6, at intervals, the gardener may control the extended output end of the guide cylinder 53 to displace the arc 541 above the root of the plant. Then, the gardener screws the support rod 72 to separate the intercepting screw 71 from the liquid guide tube 543, so that the nutrient solution in the nutrient tank 542 flows out through the liquid guide tube 543 to supplement nutrients to the root system of the plant.

The implementation principle of an auxiliary structure for landscape plant transplantation in the embodiment of the application is as follows: the transplanted plant root and hair part is abutted to the inner cavity of the settling tank 211, the supporting frame 34 faces the plant, and the abutting arc board 3411 with the abutting piece 3413 is abutted to the outer side wall of the trunk of the plant to support the plant, so that the position stability of the plant on the bearing strip 21 is guaranteed.

The connecting plate 51 is pushed to slide along the extending direction of the preset channel 212, and when the connecting plate 51 stays at any settling tank 211, the inserting rod 5231 is inserted into the positioning groove 213, so that the horizontal plate 522 is positioned on the receiving strip 21. The outward extending output end of the guide cylinder 53 is controlled to enable the arc-shaped plate 541 to move to the position above the root system of the plant, the cut-off screw rod 71 is screwed, so that the nutrient solution in the nutrient tank 542 flows to the root system of the plant through the liquid guide tube 543 to nourish the plant, the plant can fully absorb the nutrition, and the healthy growth of the plant is guaranteed.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides a landscape plant transplants and uses auxiliary structure which characterized in that: comprises a supporting mechanism (1) and a drip irrigation mechanism (4); the supporting mechanism (1) comprises a bottom support device (2) and a plurality of groups of side support devices (3), the bottom support device (2) comprises a receiving strip (21), and a plurality of settling tanks (211) for placing plants are arranged on the receiving strip (21) at intervals; the side supporting devices (3) are arranged on the bearing strip (21) at intervals and correspond to the settling tanks (211) one by one for supporting plants; the drip irrigation mechanism (4) comprises a mounting device (5) and a drip irrigation device (54), wherein the mounting device (5) is arranged on the bearing strip (21); the burette device includes arc (541), nutrition jar (542) and catheter (543), arc (541) set up in installation device (5) one end, nutrition jar (542) set up on arc (541), catheter (543) set up on nutrition jar (542), just arc (541) are worn to locate by the one end that nutrition jar (542) were kept away from in catheter (543) to drip irrigation the nutrient solution to the plant.

2. The auxiliary structure for landscape plant transplantation according to claim 1, wherein: the side support device (3) comprises a support frame (34) and a telescopic assembly (31), wherein the telescopic assembly (31) comprises a directional rod (311), a sliding column (32) and a locking bolt (33); the orientation rod (311) is arranged on the bearing strip (21), one end of the sliding column (32) is provided with a guide groove (321), and the sliding column (32) is sleeved on the orientation rod (311) through the guide groove (321); the locking bolt (33) is in threaded fit with the sliding column (32), and a plurality of clamping grooves (3111) for the locking bolt (33) to be screwed are formed in the orientation rod (311) at intervals along the extension direction; the support frame (34) is arranged at one end of the sliding column (32) far away from the orientation rod (311) and is used for supporting plants.

3. The auxiliary structure for landscape plant transplantation according to claim 2, wherein: the side supporting device (3) further comprises an adjusting assembly (35), wherein the adjusting assembly (35) comprises a connecting bolt (351), a connecting nut (352) and two side connecting plates (353); the two side connection plates (353) are oppositely arranged on the support frame (34), the connecting bolt (351) penetrates through the sliding column (32) and the two side connection plates (353), and the connecting nut (352) is in threaded fit with the connecting bolt (351).

4. The auxiliary structure for landscape plant transplantation according to claim 2, wherein: an abutting part (341) is arranged on the side wall of the support frame (34) far away from the sliding column (32), and the abutting part (341) comprises an abutting arc plate (3411) and a plurality of elastic pieces (3412); all the elastic parts (3412) are arranged on the support frame (34), and the abutting arc plates (3411) are arranged on the side walls, away from the support frame (34), of the elastic parts (3412) for abutting plants.

5. The auxiliary structure for landscape plant transplantation according to claim 4, wherein: the abutting part (341) further comprises an abutting piece (3413), and the abutting piece (3413) is arranged on the side wall, away from the elastic piece (3412), of the abutting arc plate (3411).

6. The auxiliary structure for landscape plant transplantation according to claim 1, wherein: the mounting device (5) comprises a connecting plate (51) and a guide cylinder (53), the connecting plate (51) is arranged on the bearing strip (21), and the guide cylinder (53) is arranged at one end, far away from the bearing strip (21), of the connecting plate (51); the output end of the guide cylinder (53) is connected with the arc-shaped plate (541).

7. The auxiliary structure for landscape plant transplantation according to claim 6, wherein: the mounting device (5) further comprises a displacement assembly (52), wherein the displacement assembly (52) comprises a sliding block (521), a horizontal plate (522) and a plug connector (523); the sliding block (521) is arranged at one end, facing the bearing strip (21), of the connecting plate (51), and a preset channel (212) for the sliding block (521) to abut into and slide is arranged on the bearing strip (21); the horizontal plate (522) is arranged on the connecting plate (51), and the plug connector (523) is used for positioning the horizontal plate (522) on the bearing strip (21).

8. The auxiliary structure for landscape plant transplantation according to claim 7, wherein: the plug connector (523) comprises a plug rod (5231) and a lifting ring (5232), the plug rod (5231) is inserted into the horizontal plate (522), and a plurality of positioning grooves (213) for the plug rod (5231) to be plugged are arranged on the bearing strip (21) at intervals; the lifting ring (5232) is arranged at one end of the plug rod (5231) in the height direction.

9. The auxiliary structure for landscape plant transplantation according to claim 6, wherein: a fixing assembly (6) is arranged between the guide cylinder (53) and the arc-shaped plate (541), and the fixing assembly (6) comprises a clamping arc plate (61), a directional screw rod (62) and a fixing nut (63); joint arc board (61) set up in the one end of the output of direction cylinder (53) towards arc (541), be provided with on arc (541) and supply adaptation groove (5411) that joint arc board (61) support to go into, directional lead screw (62) set up in the lateral wall of adaptation groove (5411), joint arc board (61) are worn to locate in directional lead screw (62), fixation nut (63) screw-thread fit is on directional lead screw (62).