CN115349396A

CN115349396A - Lateral bending prevention supporting device for saplings for landscaping

Info

Publication number: CN115349396A
Application number: CN202210867900.0A
Authority: CN
Inventors: 白文娟
Original assignee: Individual
Current assignee: Guangzhou Hualin Landscape Engineering Co ltd
Priority date: 2022-07-22
Filing date: 2022-07-22
Publication date: 2022-11-18
Anticipated expiration: 2042-07-22
Also published as: CN115349396B

Abstract

The invention belongs to the technical field of landscaping, and particularly relates to a sapling side-bending-prevention supporting device for landscaping, which comprises a sapling supporting device, wherein the sapling supporting device comprises a guide component, an extension component, a power component, a clutch component, a control component, a clamping component and a synchronous clamping component, the extension component is arranged on the lower side of the guide component, the power component is arranged at the top end of the extension component, the clutch component is arranged on the outer side of one end of the extension component, the control component is arranged on one end of the clutch component, the clamping component is arranged on the lower side of one end of the clutch component, the synchronous clamping component is further arranged on the inner side of the extension component, and through the arranged sapling supporting device, sapling can be prevented from bending in the growth process and can extend along with the growth of sapling, so that manual subsequent operation is avoided, and labor is saved.

Description

Lateral bending prevention supporting device for saplings for landscaping

Technical Field

The invention belongs to the technical field of landscaping, and particularly relates to a sapling side-bending-prevention supporting device for landscaping.

Background

When the sapling is planted, for a part of plants needing to grow vertically, the sapling is bent due to various reasons in the growing process, and the traditional mode generally supports the sapling through a rod, but the traditional rod cannot be changed along with the growth of the sapling.

Disclosure of Invention

To solve the problems set forth in the background art described above. The invention provides a sapling side-bending-prevention supporting device for landscaping, which has the characteristics that the sapling is prevented from bending in the growth process and can be elongated along with the growth of the sapling, so that the manual subsequent operation is avoided.

In order to achieve the purpose, the invention provides the following technical scheme: a sapling side-bending-prevention supporting device for landscaping comprises a sapling supporting device, wherein the sapling supporting device comprises a guide assembly, an extension assembly, a power assembly, a clutch assembly, a control assembly, a clamping assembly and a synchronous clamping assembly;

the downside of guide subassembly is provided with extend the subassembly, the top of extension subassembly is provided with the power component, install in the one end outside of extension subassembly the clutch subassembly, install the one end of clutch subassembly the control assembly, install the one end downside of clutch subassembly the block subassembly, the inboard of extension subassembly is still installed synchronous centre gripping subassembly.

Preferably, the guiding assembly comprises a guiding frame, a manual bolt, a spine portion, a first annular magnet and a limiting support, the manual bolt is in threaded connection with the inner side of the guiding frame, the spine portion is fixedly connected with one end of the manual bolt, the first annular magnet is fixedly connected with the bottom end of the guiding frame, and the limiting support is fixedly connected with the outer side of the bottom end of the first annular magnet.

Preferably, the extension assembly comprises a fixed outer shell, a first compression spring, an outer movable shell, an inner movable shell and a reinforcing connecting plate, wherein the first compression spring is fixedly connected to the inner side of the bottom end of the fixed outer shell, the outer movable shell is fixedly connected to the outer side of the top end of the first compression spring, the outer movable shell is slidably connected to the inner side of one end of the fixed outer shell, the inner movable shell is fixedly connected to the inner side of the bottom end of the outer movable shell, and the reinforcing connecting plate is fixedly connected between the inner movable shell and the outer movable shell.

Preferably, the power assembly comprises an annular shell, a limiting ring, a second annular magnet, a second compression spring, a guide pipe and a lengthened pull rope, the annular shell is fixed on the outer sides of the top ends of the outer movable shell and the inner movable shell, the limiting ring is fixedly connected to the inner side of the bottom end of the annular shell, the second annular magnet capable of sliding on the inner side of the annular shell is connected to the outer side of the top end of the limiting ring in a contact manner, the second compression spring is fixedly connected between the outer side of the bottom end of the second annular magnet and the inner side of the bottom end of the annular shell, the guide pipe is fixedly communicated with the bottom end of the annular shell, the outer end face of one end of the guide pipe is fixedly connected to the inner side of one end of the outer movable shell, the lengthened pull rope is sleeved on the inner side of the guide pipe, and the top end of the lengthened pull rope is fixedly connected to the outer side of the bottom end of the second annular magnet.

The preferable support device for preventing the sapling from side bending for landscaping comprises a clutch housing, a connecting support, an upper clamping block, a lower clamping block, a first sliding limiting strip, a third compression spring, a second sliding limiting strip and a fourth compression spring, wherein the outer side of one end of the clutch housing is fixedly connected to the outer side of one end of the fixed housing through the connecting support, the upper clamping block is slidably connected to the upper side of the inner space of the clutch housing, the lower clamping block is slidably connected to the lower side of the inner space of the clutch housing, the upper clamping block and the lower clamping block can clamp the lengthened pull rope, the first sliding limiting strip is fixedly connected to the outer side of the right end of the lower clamping block, the first sliding limiting strip is slidably connected to the inner side of the right end of the clutch housing, the third compression spring is fixedly connected between the outer side of the bottom end of the lower clamping block and the inner side of the bottom end of the clutch housing, the second sliding limiting strip is fixedly connected to the outer side of the rear end of the upper clamping block, and the second sliding limiting strip is movably connected to the top of the second sliding limiting strip.

Preferably, the control assembly comprises a first rack, a transmission gear, a driven gear, a one-way bearing and a transmission rod, the first rack is fixedly connected to the outer side of one end of the outer movable shell, the transmission gear is rotatably connected to the inner side of the fixed shell, one end of the transmission gear is meshed with the first rack, the other end of the transmission gear is meshed with the driven gear, the one-way bearing is fixedly connected to the inner side of one end of the driven gear, the transmission rod is fixedly connected to the inner side of one end of the one-way bearing, and the transmission rod is rotatably connected to the outer side of the rear end of the clutch shell.

Preferably, the control assembly further comprises a rotating member, rotating scrapers, a flexible outer covering layer, non-newtonian fluid and an inner arc block, the central position of the inner side of one end of the rotating member is fixedly connected to the outer side of the rear end of the transmission rod, the outer end face of one end of the rotating member is fixedly connected with the plurality of rotating scrapers, the outer side of the right end of the second sliding limiting strip extending out of the clutch housing portion is fixedly connected with the flexible outer covering layer, the other sides of the flexible outer covering layer are fixedly connected to the inner arc block, the inner arc block is fixedly connected to the outer side of the right end of the second sliding limiting strip, and the non-newtonian fluid is filled in a closed space between the flexible outer covering layer and the inner side of the inner arc block.

The clamping assembly comprises a short pull rope, a sliding limiting block, a clamping shell, an arc-shaped steering block, a first extension spring and a single-inclined-surface clamping strip, the top end of the short pull rope is fixedly connected to the outer side of the bottom end of the lower clamping block, the sliding limiting block is fixedly connected to the outer side of the bottom end of the short pull rope, the clamping shell is slidably connected to the outer side of one end of the sliding limiting block, the clamping shell is fixedly connected to the inner side of one end of the fixed shell, the arc-shaped steering block is fixedly connected to the upper side of the left end of the clamping shell, the arc-shaped portion of the arc-shaped steering block is slidably connected to the outer side of one end of the short pull rope, the first extension spring is fixedly connected between the inner side of the right end of the clamping shell and the outer side of the right end of the sliding limiting block, the single-inclined-surface clamping strip is fixedly connected to the outer side of the right end of the sliding limiting block, the inclined-surface portion of the single-inclined-surface clamping strip is clamped to the inner side of one end of the outer movable shell, and a plurality of continuous clamping grooves are formed in the outer side of one end of the outer movable shell.

Preferably, the synchronous clamping assembly comprises a sliding support, a second rack, a reinforcing sealing plate, a second extension spring and an arc-shaped clamping plate, the sliding support is slidably connected to the inner side of one end of the inner movable shell, one end of the sliding support is fixedly connected with the second rack, one end of the sliding support is fixedly connected with the reinforcing sealing plate, the second extension spring is fixedly connected between the reinforcing sealing plate and the inner movable shell, and the other end of the sliding support is fixedly connected with the arc-shaped clamping plate.

Preferably, the synchronous clamping assembly further comprises a thickened gear, a large gear ring, a rotating wheel support and a rotating wheel, the thickened gear is rotatably connected to the inner side of one end of the inner movable shell, one end of the rotating wheel is meshed with one end of the second rack, the bottom end of the thickened gear is meshed with the large gear ring, the outer end face of one end of the large gear ring is rotatably connected with the rotating wheel, one end of the rotating wheel is rotatably connected with the rotating wheel support, and one end of the rotating wheel support is fixedly connected to the inner side of one end of the outer movable shell.

Compared with the prior art, the invention has the beneficial effects that: through the sapling strutting arrangement who sets up, can make the sapling prevent to take place the bending at the in-process that grows to can follow the growth of sapling and extend together, thereby avoid artifical subsequent operation, it is more laborsaving.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a cross-sectional view of the overall construction of the present invention;

FIG. 3 is a sectional view showing the overall construction of the guide assembly according to the present invention;

FIG. 4 is a sectional view showing a coupling structure of a power module according to the present invention;

FIG. 5 is a schematic view of the internal structure of the annular housing of the present invention;

FIG. 6 is a schematic view of a coupling structure of the clutch assembly of the present invention;

FIG. 7 is an enlarged view of the structure of FIG. 6 at A in the present invention;

FIG. 8 is a schematic view of the internal structure of the clutch housing of the present invention;

FIG. 9 is a schematic view showing a connection structure of the rotating scrapers of the present invention;

FIG. 10 is a schematic view of the overall structure of the engaging member of the present invention;

FIG. 11 is a top view of the overall structure of the synchronizing clamp assembly according to the present invention;

FIG. 12 is a plan view showing a mounting structure of a second tension spring according to the present invention;

FIG. 13 is an enlarged view of the structure of FIG. 12 at B in the present invention;

in the figure:

1. a seedling support device;

2. a guide assembly; 21. a guide frame; 22. a manual bolt; 23. a spike portion; 24. a first ring magnet; 25. a limiting bracket;

3. an elongate member; 31. fixing the outer shell; 32. a first compression spring; 33. an outer movable housing; 34. an inner movable housing; 35. reinforcing the connecting plate;

4. a power assembly; 41. an annular housing; 42. a limiting ring; 43. a second annular magnet; 44. a second compression spring; 45. a guide tube; 46. lengthening a pull rope;

5. a clutch assembly; 51. a clutch housing; 511. connecting a bracket; 52. an upper clamping block; 53. a lower clamping block; 54. a first sliding limiting bar; 55. a third compression spring; 56. a second sliding limiting strip; 57. a fourth compression spring;

6. a control component; 61. a first rack; 62. a transmission gear; 63. a driven gear; 64. a one-way bearing; 65. a transmission rod; 66. a rotating member; 67. rotating the scraper; 68. a flexible outer wrap; 69. a non-Newtonian fluid; 691. an inner arc-shaped block;

7. clamping the assembly; 71. a short pull rope; 72. a sliding limiting block; 73. clamping the shell; 74. an arc-shaped steering block; 75. a first extension spring; 76. a single inclined plane clamping strip;

8. a synchronous clamping assembly; 81. a sliding bracket; 811. a second rack; 82. reinforcing a sealing plate; 83. a second extension spring; 84. an arc-shaped clamping plate; 85. thickening the gear; 86. a large gear ring; 87. a rotating wheel bracket; 88. and rotating the wheel.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1-13:

a sapling side-bending-prevention supporting device for landscaping comprises a sapling supporting device 1, wherein the sapling supporting device 1 comprises a guide component 2, an extension component 3, a power component 4, a clutch component 5, a control component 6, a clamping component 7 and a synchronous clamping component 8;

the downside of guide subassembly 2 is provided with extension subassembly 3, and the top of extension subassembly 3 is provided with power component 4, and extension subassembly 3's one end outside is installed clutch module 5, and control assembly 6 is installed to clutch module 5's one end, and block subassembly 7 is installed to clutch module 5's one end downside, and synchronous centre gripping subassembly 8 is still installed to extension subassembly 3's inboard.

Further, the method comprises the following steps of;

in an alternative embodiment, the guiding assembly 2 comprises a guiding frame 21, a manual bolt 22, a spine portion 23, a first annular magnet 24 and a limiting bracket 25, the manual bolt 22 is screwed on the inner side of the guiding frame 21, the spine portion 23 is fixedly connected to one end of the manual bolt 22, the first annular magnet 24 is fixedly connected to the bottom end of the guiding frame 21, and the limiting bracket 25 is fixedly connected to the outer side of the bottom end of the first annular magnet 24.

In an alternative embodiment, the extension assembly 3 comprises a fixed outer shell 31, a first compression spring 32, an outer movable shell 33, an inner movable shell 34 and a reinforcing connecting plate 35, the first compression spring 32 is fixedly connected to the inner side of the bottom end of the fixed outer shell 31, the outer movable shell 33 is fixedly connected to the outer side of the top end of the first compression spring 32, the outer movable shell 33 is slidably connected to the inner side of one end of the fixed outer shell 31, the inner movable shell 34 is fixedly connected to the inner side of the bottom end of the outer movable shell 33, and the reinforcing connecting plate 35 is fixedly connected between the inner movable shell 34 and the outer movable shell 33.

In an alternative embodiment, the power assembly 4 includes an annular outer shell 41, a limiting ring 42, a second annular magnet 43, a second compression spring 44, a guide pipe 45 and an extension cord 46, the annular outer shell 41 is fixed on the top outer sides of the outer movable shell 33 and the inner movable shell 34, the limiting ring 42 is fixedly connected on the bottom inner side of the annular outer shell 41, the second annular magnet 43 capable of sliding on the inner side of the annular outer shell 41 is connected on the top outer side of the limiting ring 42 in a contact manner, the second compression spring 44 is fixedly connected between the bottom outer side of the second annular magnet 43 and the bottom inner side of the annular outer shell 41, the guide pipe 45 is fixedly communicated with the bottom end of the annular outer shell 41, the outer end face of one end of the guide pipe 45 is fixedly connected on the inner side of one end of the outer movable shell 33, the extension cord 46 is sleeved on the inner side of the guide pipe 45, and the top end of the extension cord 46 is fixedly connected on the bottom outer side of the second annular magnet 43.

In an alternative embodiment, the clutch assembly 5 includes a clutch housing 51, a connecting bracket 511, an upper clamping block 52, a lower clamping block 53, a first sliding limiting strip 54, a third compression spring 55, a second sliding limiting strip 56 and a fourth compression spring 57, an outer side of one end of the clutch housing 51 is fixedly connected to an outer side of one end of the stationary housing 31 through the connecting bracket 511, the upper clamping block 52 is slidably connected to an upper side of an inner space of the clutch housing 51, the lower clamping block 53 is slidably connected to a lower side of the inner space of the clutch housing 51, the upper clamping block 52 and the lower clamping block 53 can clamp the extension cord 46, a first sliding limiting strip 54 is fixedly connected to an outer side of a right end of the lower clamping block 53, the first sliding limiting strip 54 is slidably connected to an inner side of a right end of the clutch housing 51, the third compression spring 55 is fixedly connected between an outer side of a bottom end of the lower clamping block 53 and an inner side of the bottom end of the clutch housing 51, a second sliding limiting strip 56 is fixedly connected to an outer side of a rear end of the upper clamping block 52, a second sliding limiting strip 56 is slidably connected to an inner side of a rear end of the clutch housing 51, and a top of the second sliding limiting strip 57 is fixedly connected to a top of the movable sliding limiting strip 57 for sliding limiting spring to a top of the sliding limiting space of the stationary space of the second sliding limiting housing 51.

In an alternative embodiment, the control assembly 6 includes a first rack 61, a transmission gear 62, a driven gear 63, a one-way bearing 64 and a transmission rod 65, the first rack 61 is fixedly connected to the outer side of one end of the outer movable housing 33, the transmission gear 62 is rotatably connected to the inner side of the fixed outer housing 31, one end of the transmission gear 62 is engaged with the first rack 61, the other end of the transmission gear 62 is engaged with the driven gear 63, the one-way bearing 64 is fixedly connected to the inner side of one end of the driven gear 63, the transmission rod 65 is fixedly connected to the inner side of one end of the one-way bearing 64, and the transmission rod 65 is rotatably connected to the outer side of the rear end of the clutch housing 51.

In an optional embodiment, the control assembly 6 further includes a rotating member 66, a rotating scraper 67, a flexible outer covering 68, a non-newtonian fluid 69 and an inner arc block 691, the central position of the inner side of one end of the rotating member 66 is fixedly connected to the outer side of the rear end of the transmission rod 65, the outer end face of one end of the rotating member 66 is fixedly connected with a plurality of rotating scrapers 67, the outer side of the right end of the portion, extending out of the clutch housing 51, of the second sliding limiting bar 56 is fixedly connected with the flexible outer covering 68, the rest edges of the flexible outer covering 68 are fixedly connected to the inner arc block 691, the inner arc block 691 is fixedly connected to the outer side of the right end of the second sliding limiting bar 56, and the non-newtonian fluid 69 is filled in a closed space between the flexible outer covering 68 and the inner side of the inner arc block 691.

In an alternative embodiment, the engaging assembly 7 includes a short pulling rope 71, a sliding limiting block 72, an engaging housing 73, an arc-shaped turning block 74, a first extension spring 75 and a single-inclined-surface engaging strip 76, a top end of the short pulling rope 71 is fixedly connected to an outer side of a bottom end of the lower clamping block 53, a sliding limiting block 72 is fixedly connected to an outer side of a bottom end of the short pulling rope 71, an outer side of one end of the sliding limiting block 72 is slidably connected to the engaging housing 73, the engaging housing 73 is fixedly connected to an inner side of one end of the fixed housing 31, an upper side of a left end of the engaging housing 73 is fixedly connected to the arc-shaped turning block 74, an arc-shaped portion of the arc-shaped turning block 74 is slidably connected to an outer side of one end of the short pulling rope 71, the first extension spring 75 is fixedly connected between an inner side of a right end of the engaging housing 73 and an outer side of a right end of the sliding limiting block 72, a single-inclined-surface engaging strip 76 is fixedly connected to an outer side of one end of the outer movable housing 33, and a plurality of continuous engaging grooves are formed in an outer side of one end of the outer movable housing 33.

In an alternative embodiment, the synchronous clamping assembly 8 includes a sliding bracket 81, a second rack 811, a reinforcing seal plate 82, a second extension spring 83 and an arc-shaped clamping plate 84, the sliding bracket 81 is slidably connected to the inner side of one end of the inner movable housing 34, the second rack 811 is fixedly connected to one end of the sliding bracket 81, the reinforcing seal plate 82 is fixedly connected to one end of the sliding bracket 81, the second extension spring 83 is fixedly connected between the reinforcing seal plate 82 and the inner movable housing 34, and the arc-shaped clamping plate 84 is fixedly connected to the other end of the sliding bracket 81.

In an alternative embodiment, the synchronous clamping assembly 8 further includes a thickened gear 85, a large gear ring 86, a rotating wheel support 87 and a rotating wheel 88, the thickened gear 85 is rotatably connected to the inner side of one end of the inner movable shell 34, one end of the rotating wheel 88 is meshed with one end of the second rack 811, the bottom end of the thickened gear 85 is meshed with the large gear ring 86, the outer end face of one end of the large gear ring 86 is rotatably connected with the rotating wheel 88, one end of the rotating wheel 88 is rotatably connected with the rotating wheel support 87, and one end of the rotating wheel support 87 is fixedly connected to the inner side of one end of the outer movable shell 33.

In this embodiment: when a seedling is required to be supported by the seedling supporting device 1, the seedling supporting device 1 is sleeved on the outer side of the seedling, specifically, the inner movable shell 34 in the seedling supporting device 1 is sleeved on the outer side of the seedling, after the seedling is planted on the ground, the seedling supporting device 1 is sleeved downwards from the top end of the seedling, so that the seedling passes through the bottom end of the fixed shell 31 and then passes through the first compression spring 32, then passes through the bottom end of the outer movable shell 33 and enters the inner side of the inner movable shell 34, after the sleeving is completed, the seedling supporting device 1 needs to be stably fixed on the ground, then the guiding component 2 is sleeved on the outer side of the seedling, the same method is adopted so that the seedling passes through the first annular magnet 24 and then passes through the guiding frame 21, so that the guiding frame 21 is sleeved on the outer side of the seedling, when the first installation is carried out, the limiting support 25 in the guiding component 2 is required to be contacted with the top end of the annular shell 41, by rotating the manual bolt 22, the manual bolt 22 is rotated to drive the spine part 23 to move and insert into the inner side of the sapling without penetrating deeply, only the guide frame 21 needs to be fixed on the outer side of the sapling, the sapling can be prevented from bending to a certain extent by the arranged synchronous clamping component 8, and the sapling can grow vertically and well, the specific principle is as follows, the reinforcing sealing plate 82 can be driven by the arranged second stretching spring 83 to move towards the inner movable shell 34, the reinforcing sealing plate 82 can drive the sliding bracket 81 to move together, the sliding bracket 81 can drive the arc-shaped clamping plate 84 to move together to clamp the sapling, because the second rack 811 can be driven to move together when the sliding bracket 81 moves, the second rack 811 can drive the thickening gear 85 to rotate, the thickening gear 85 can drive the large gear ring 86 to rotate, the rotation of the large gear ring 86 can drive other thickened gears 85 to synchronously rotate, so that the plurality of arc-shaped clamping plates 84 can synchronously move, when the sapling vertically grows, the plurality of arc-shaped clamping plates 84 clamp the sapling near the axis of the inner movable shell 34, when the sapling grows to be inclined, the sapling can push one arc-shaped clamping plate 84 to move, when one arc-shaped clamping plate 84 is pushed to move, according to the principle, through the synchronous transmission of the large gear ring 86, the arc-shaped clamping plate 84 actually needs to overcome the elasticity of all the second stretching springs 83 to enable one arc-shaped clamping plate 84 to move, so that the counter-acting force of the arc-shaped clamping plate 84 on the sapling is also large, the sapling can slowly grow towards the axis of the inner movable shell 34 in the growing process, and not only can the sapling push one arc-shaped clamping plate 84 to move, the other arc-shaped clamping plates 84 are not contacted with the sapling, so that the sapling can grow to the correct position without being limited by the other arc-shaped clamping plates 84, the sapling can grow to be high in the growth process, the sapling can drive the guide assembly 2 to move upwards after growing to be high, when the guide assembly 2 moves upwards, the inner movable shell 34 is also required to drive the synchronous clamping assembly 8 to move upwards together, the sapling can be continuously clamped after growing to prevent the sapling from skewing, when the sapling drives the guide assembly 2 to move upwards and separate from the power assembly 4, the power assembly 4 and the clutch assembly 5 are not enabled to work after the guide assembly 2 is separated from the power assembly 4, but after the guide assembly 2 is separated from the power assembly 4 by a certain distance, the thrust of the first annular magnet 24 on the second annular magnet 43 is not enough to enable the second annular magnet 43 to overcome the thrust of the second compression spring 44, the second compression spring 44 will push the second ring magnet 43 to move upward, the upward movement of the second ring magnet 43 will drive the extension pulling rope 46 to move together, because the upper clamping block 52 and the lower clamping block 53 will clamp one end of the extension pulling rope 46 together, the extension pulling rope 46 will drive the upper clamping block 52 and the lower clamping block 53 to move together, during the movement of the upper clamping block 52 and the lower clamping block 53 together, the upper clamping block 52 will drive the second sliding limiting bar 56 to move upward against the elastic force of the fourth compression spring 57, and the lower clamping block 53 will drive the first sliding limiting bar 54 to move together, the upward movement range of the lower clamping block 53 can be limited by the first sliding limiting bar 54, the movement range is enough to separate the single inclined plane clamping bar 76 from the outer movable shell 33, when the lower clamping block 53 moves upward, the third compression spring 55 will continue to push the lower clamping block 53 to move upward, therefore, the lower clamping block 53 still has clamping force on the lengthened pull rope 46 in the upward moving process, so that the lengthened pull rope 46 is still clamped by the upper clamping block 52 and the lower clamping block 53, and relative movement cannot occur, when the lower clamping block 53 moves upward, the lower clamping block 53 drives the short pull rope 71 to move upward, the short pull rope 71 moves upward to drive the sliding limiting block 72 to move to overcome the elastic force of the first extension spring 75, the sliding limiting block 72 drives the single-slope clamping strip 76 to move away from the outer movable shell 33 when moving, so that the outer movable shell 33 can move upward, the outer movable shell 33 can move upward by the elastic force of the first compression spring 32, although the power assembly 4 can be driven to move upward when the outer movable shell 33 drives the power assembly 4 to move upward, the outer movable shell 33 can be driven by the lengthened pull rope 46 and the upper clamping block 52 when driving the power assembly 4 to move upward And the lower clamp block 53, but the extension cord 46 is elastic, the force of the first compression spring 32 pushing the outer movable housing 33 to move upward is enough to make the extension cord 46 elastically elongate, and the force of the second compression spring 44 driving the second ring magnet 43 to move upward to drive the extension cord 46 to move upward is not enough to make the extension cord 46 elongate, the extension cord 46 elongate by enough to start the control assembly 6, when the outer movable housing 33 moves upward, the outer movable housing 33 drives the first rack 61 to move, the first rack 61 moves to drive the transmission gear 62 to rotate counterclockwise, the transmission gear 62 rotates to drive the driven gear 63 to rotate clockwise, the driven gear 63 rotates to drive the one-way bearing 64 to rotate, in this direction, the driven gear 63 can drive the one-way bearing 64 to rotate, when the driven gear 63 rotates in the opposite direction, i.e. counterclockwise, the driven gear 63 only drives the one-way bearing 64 to idle, when the driven gear 63 drives the one-way bearing 64 to drive the transmission rod 65 to rotate, the transmission rod 65 rotates together with the rotating outer cladding 66, when the driven gear 63 rotates in the opposite direction, the outer cladding 66 rotates, the outer cladding 69 drives the rotating, the rotating flexible cladding 69 to rotate, when the flexible fluid 69 rotates to make the flexible scraper 67 contact with the newtonian fluid, the flexible scraper 69 to rotate, the non-newtonian fluid under the condition that the flexible scraper 69, the flexible scraper 69 rotates, the newtonian fluid, the flexible scraper 67 would cause the flexible scraper 69 to rotate, the newtonian scraper 69, the non-newtonian fluid, the flexible scraper 69 to rotate, the flexible scraper 67 would cause the flexible scraper 69 to rotate, the non-newtonian fluid, the flexible scraper 67 would cause the flexible scraper 69 to rotate, the non-newtonian fluid to rotate, the flexible scraper 69 to rotate, the flexible scraper 67 would cause the flexible scraper 69 to rotate, the non-newtonian fluid to rotate, the inner arc block 691 drives the second sliding limiting bar 56 to move upwards against the elastic force of the fourth compression spring 57, so that the second sliding limiting bar 56 moves upwards to move the upper clamping block 52 upwards, at the same time, the upper clamping block 52 moves upwards by an amount sufficient for the upper clamping block 53 to move upwards to the maximum stroke, the upper clamping block 52 still moves upwards without clamping the extension cord 46, so that the extension cord 46 can move opposite to the clutch assembly 5 without being clamped, it should be noted that when the outer movable housing 33 moves upwards, the outer movable housing 33 drives the inner movable housing 34 to move upwards together, the upward movement is strong enough for the arc-shaped clamping plate 84 and the sapling to slide relative to each other, when the outer movable housing 33 moves upwards to drive the annular housing 41 to contact the limiting bracket 25 again, at the moment, the distance of the first annular magnet 24 from the power assembly 4 is enough for the first annular magnet 24 to push the second annular magnet 43 to move downwards against the elastic force of the second compression spring 44, in order to ensure the stability of the device, when the weight of the extension cord 46 is fixed, the weight of the extension cord 46 can move downwards when the extension cord and the weight of the extension cord 46 is in a small straight movement, the straight movement of the extension cord 46, when the extension cord 46, the extension cord is in a state, the straight movement of the extension cord, the first annular magnet 46, the extension cord can not clamp the extension cord 46, when the extension cord 46, the extension cord can move downwards, the extension cord 46, the extension cord can not clamp the weight of the extension cord 46, the extension cord can move downwards, the extension cord can not clamp the extension cord 46, when the extension cord 46, the extension cord can move downwards and the weight of the extension cord can not clamp the extension cord 46, the weight of the extension cord can move downwards, the outer movable shell 33 does not drive the first rack 61 to move upwards any more, so that the transmission gear 62 does not rotate, according to the above principle, the rotating scraper 67 does not rotate, if the rotating scraper 67 at this time does not contact the flexible outer cladding 68 optimally, if the rotating scraper 67 at this time happens to contact the flexible outer cladding 68, the problem that the next time cannot work occurs is avoided, when the rotating scraper 67 stays in contact with the flexible outer cladding 68, the non-newton fluid 69 is not subjected to a rapid force, the non-newton fluid 69 becomes fluid after a short time, and is influenced by the elastic force of the fourth compression spring 57, the fourth compression spring 57 drives the second sliding limiting bar 56 to drive the inner arc-shaped block 691 to move downwards slowly, and the second sliding limiting bar 56 can drive the upper clamping block 52 to move downwards to move together with the lower clamping block 53 to clamp the lengthening pull rope 46 again.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a sapling prevents that lateral bending helps holds up strutting arrangement for afforestation which characterized in that: the device comprises a sapling supporting device (1), wherein the sapling supporting device (1) comprises a guide component (2), an extension component (3), a power component (4), a clutch component (5), a control component (6), a clamping component (7) and a synchronous clamping component (8);

the downside of guide subassembly (2) is provided with extension subassembly (3), the top of extension subassembly (3) is provided with power component (4), install in the one end outside of extension subassembly (3) clutch module (5), install the one end of clutch module (5) control assembly (6), install the one end downside of clutch module (5) block subassembly (7), install still in the inboard of extension subassembly (3) synchronous centre gripping subassembly (8).

2. The sapling side-bending-prevention supporting device for landscaping as claimed in claim 1, wherein: guide subassembly (2) including guide frame (21), manual bolt (22), spine portion (23), first annular magnet (24) and spacing support (25), the inboard threaded connection of guide frame (21) has manual bolt (22), the one end fixedly connected with of manual bolt (22) spine portion (23), the bottom fixedly connected with of guide frame (21) first annular magnet (24), the bottom outside fixedly connected with of first annular magnet (24) spacing support (25).

3. The sapling side-bending-prevention supporting device for landscaping as claimed in claim 2, wherein: extension subassembly (3) is including fixed shell body (31), first compression spring (32), outer movable housing (33), interior movable housing (34) and reinforcing connecting plate (35), the inboard fixedly connected with in bottom of fixed shell body (31) first compression spring (32), the top outside fixedly connected with of first compression spring (32) outer movable housing (33), outer movable housing (33) sliding connection be in the one end of fixed shell body (31) is inboard, the inboard fixedly connected with in bottom of outer movable housing (33) interior movable housing (34), interior movable housing (34) with fixedly connected with between outer movable housing (33) reinforcing connecting plate (35).

4. The sapling side-bending-prevention supporting device for landscaping as claimed in claim 3, wherein: the power assembly (4) comprises an annular shell (41), a limiting ring (42), a second annular magnet (43), a second compression spring (44), a guide pipe (45) and a lengthened pull rope (46), wherein the annular shell (41) is fixed on the outer movable shell (33) and the top end outer side of the inner movable shell (34), the limiting ring (42) is fixedly connected on the bottom end inner side of the annular shell (41), the second annular magnet (43) capable of sliding on the inner side of the annular shell (41) is in contact connection with the top end outer side of the limiting ring (42), the second compression spring (44) is fixedly connected between the bottom end outer side of the second annular magnet (43) and the bottom end inner side of the annular shell (41), the guide pipe (45) is fixedly communicated with the bottom end of the annular shell (41), one end face of the guide pipe (45) is fixedly connected on the inner side of one end of the outer movable shell (33), the lengthened pull rope (46) is sleeved on the inner side of the guide pipe (45), and the top end of the lengthened pull rope (46) is fixedly connected with the bottom end outer side of the second annular magnet (43).

5. The sapling side-bending-prevention supporting device for landscaping as claimed in claim 4, wherein: the clutch component (5) comprises a clutch housing (51), a connecting support (511), an upper clamping block (52), a lower clamping block (53), a first sliding limiting strip (54), a third compression spring (55), a second sliding limiting strip (56) and a fourth compression spring (57), wherein one end of the clutch housing (51) is fixedly connected to the outer side of one end of the fixed housing (31) through the connecting support (511), the upper side of the inner space of the clutch housing (51) is slidably connected with the upper clamping block (52), the lower side of the inner space of the clutch housing (51) is slidably connected with the lower clamping block (53), the upper clamping block (52) and the lower clamping block (53) can clamp the lengthened pull rope (46), the outer side of the right end of the lower clamping block (53) is fixedly connected with the first sliding limiting strip (54), the first sliding limiting strip (54) is slidably connected to the inner side of the right end of the clutch housing (51), the outer side of the bottom end of the lower clamping block (53) and the inner side of the clutch housing (51) are fixedly connected with the third sliding limiting strip (56), and the inner side of the second sliding limiting strip (56) is connected with the sliding limiting strip (52), and a fourth compression spring (57) is fixedly connected between the outer side of the top end of the second sliding limiting strip (56) and the top of a movable space at the rear end of the clutch housing (51) for the second sliding limiting strip (56) to slide.

6. The sapling side-bending-prevention supporting device for landscaping as claimed in claim 5, wherein: control assembly (6) is including first rack (61), drive gear (62), driven gear (63), one-way bearing (64) and transfer line (65), first rack (61) fixed connection be in the one end outside of outer movable housing (33), the inboard rotation of fixed shell body (31) is connected with drive gear (62), the one end of drive gear (62) with first rack (61) meshing is connected, the other end meshing of drive gear (62) is connected with driven gear (63), the inboard fixedly connected with of one end of driven gear (63) one-way bearing (64), the inboard fixedly connected with of one end of one-way bearing (64) transfer line (65), transfer line (65) rotate to be connected the rear end outside of separation and reunion shell (51).

7. The sapling side-bending-prevention supporting device for landscaping as claimed in claim 6, wherein: control assembly (6) is still including rotating piece (66), rotation scraper blade (67), flexible outer cladding (68), non-Newtonian fluid (69) and interior arc piece (691), the inboard central point department fixed connection of one end of rotating piece (66) is in the rear end outside of transfer line (65), the outer terminal surface fixedly connected with of one end of rotating piece (66) is a plurality of rotate scraper blade (67), second slip spacing (56) stretches out the right-hand member outside fixedly connected with of separation and reunion shell (51) part flexible outer cladding (68), the remaining limit fixed connection of flexible outer cladding (68) is in on interior arc piece (691), interior arc piece (691) fixed connection is in the right-hand member outside of second slip spacing (56), flexible outer cladding (68) with fill in the airtight space between interior arc piece (691) the inboard non-Newtonian fluid (69).

8. The sapling side-bending-prevention supporting device for landscaping as claimed in claim 7, wherein: the clamping assembly (7) comprises a short stay cord (71), a sliding limiting block (72), a clamping shell (73), an arc-shaped steering block (74), a first stretching spring (75) and a single-inclined-plane clamping strip (76), wherein the top end of the short stay cord (71) is fixedly connected with the outer side of the bottom end of the lower clamping block (53), the sliding limiting block (72) is fixedly connected with the outer side of the bottom end of the short stay cord (71), the clamping shell (73) is fixedly connected with the inner side of one end of the fixed shell body (31), the arc-shaped steering block (74) is fixedly connected with the upper side of the left end of the clamping shell (73), the arc-shaped part of the arc-shaped steering block (74) is slidably connected with the outer side of one end of the short stay cord (71), the inner side of the right end of the clamping shell (73) is fixedly connected with the first stretching spring (75) between the outer side of the right end of the sliding limiting block (72), the outer side of the sliding limiting block (72) is fixedly connected with the single-inclined-plane clamping strip (76), and one end of the outer inclined-plane clamping strip (33) is movably connected with one end of the outer side of the continuous clamping groove (33).

9. The sapling side-bending-prevention supporting device for landscaping as claimed in claim 8, wherein: synchronous centre gripping subassembly (8) including sliding bracket (81), second rack (811), strengthen shrouding (82), second extension spring (83) and arc grip block (84), sliding bracket (81) sliding connection be in the one end of interior movable casing (34) is inboard, the one end fixedly connected with of sliding bracket (81) second rack (811), the one end fixedly connected with of sliding bracket (81) strengthen shrouding (82), strengthen shrouding (82) and fixedly connected with between interior movable casing (34) second extension spring (83), the other end fixedly connected with of sliding bracket (81) arc grip block (84).

10. The sapling side-bending-prevention supporting device for landscaping as claimed in claim 9, wherein: synchronous centre gripping subassembly (8) are still including thickening gear (85), bull gear (86), runner support (87) and rotation wheel (88), thickening gear (85) rotate to be connected the one end of internalization casing (34) is inboard, rotate the one end of taking turns (88) with the one end meshing of second rack (811) is connected, the bottom meshing of thickening gear (85) is connected with bull gear (86), the outer terminal surface in one end of bull gear (86) rotates to be connected with rotate wheel (88), the one end of rotating wheel (88) rotates to be connected with runner support (87), the one end fixed connection of runner support (87) is in the one end of outer activity casing (33) is inboard.