A three-dimensional greening device for a vine plant

The adjustable climbing pole assembly and movable sleeve structure solve the problem of fixing the shape and structure of the climbing frame, realizing the diversification and stability of climbing plant climbing frames, and improving the flexibility of use and ease of installation.

CN224330041UActive Publication Date: 2026-06-09CHONGQING YUNTONG LANDSCAPE DECORATION DESIGN CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
CHONGQING YUNTONG LANDSCAPE DECORATION DESIGN CO LTD
Filing Date
2025-07-21
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Existing climbing frames have a fixed shape and structure that is difficult to adjust, making them inflexible in use and difficult to remodel when reused, which affects the growth environment of climbing plants.

Method used

The device employs an adjustable climbing pole assembly and a movable sleeve structure. The climbing pole assembly is connected by spring clips. Combined with the adjustable column height and the position of the movable sleeve, it can achieve multi-angle and height adjustments. With the help of anti-slip parts and anti-rotation bolts for limiting, the stability and flexibility of the device are ensured.

Benefits of technology

It achieves diverse shapes and structures for climbing trellises, enhancing the flexibility and stability of use, adapting to different environmental needs, and simplifying the installation and disassembly process.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model belongs to the field of climbing trellises and discloses a three-dimensional greening device for climbing plants, including a column with a connector fixed at the top and a connecting hole at the bottom; a movable sleeve that is fitted onto the column and has multiple branches installed around its circumference, and an anti-slip component on the movable sleeve; a connecting sleeve that is slidably installed on the branches, with connecting parts at both the upper and lower ends; and a climbing pole assembly with spring buckles at both ends. The climbing pole assembly is connected to the connecting parts by the spring buckles, and the climbing pole assembly can be connected to the connecting sleeve as a whole. The angle between the climbing pole assembly and the connecting sleeve can be adjusted by rotation, and the position of the connecting sleeve relative to the branches can also be adjusted by sliding. Multiple climbing pole assemblies can be connected by spring buckles, meaning that the angle of the climbing pole assembly between the upper and lower connecting sleeves can be controlled by rotating the climbing pole assembly and controlling the position of the connecting sleeve relative to the branches to create various shapes and structures, providing greater adjustability.
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Description

Technical Field

[0001] This utility model belongs to the field of climbing trellis technology, specifically relating to a three-dimensional greening device for climbing plants. Background Technology

[0002] Because climbing plants can grow upwards and their leaves can fully unfold, avoiding mutual shading, they can obtain better light conditions and more effectively utilize light for photosynthesis, thus accelerating plant growth and development. Therefore, climbing plants are usually planted with climbing trellises.

[0003] Existing climbing frames typically have a relatively fixed shape, with poles and other components fixed together by welding or other methods to form a frame for climbing plants. While this can serve as a support, it is difficult to disassemble and reassemble, and the shape and structure are hard to adjust when reused, resulting in poor adjustability and making it unsuitable for practical use. Utility Model Content

[0004] The present invention aims to provide a three-dimensional greening device for climbing plants to solve the problem mentioned above of the poor adjustability of the shape and structure of existing climbing frames.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a vertical greening device for climbing plants, comprising...

[0006] The column has a connector fixed at the top and a connection hole at the bottom, with the connector threaded to fit the connection hole.

[0007] The movable sleeve is mounted on the column. Multiple branches are installed at intervals around the circumference of the movable sleeve, and anti-slip parts are provided on the movable sleeve.

[0008] The connecting sleeve is slidably installed on the branch, and both the upper and lower ends of the connecting sleeve are provided with connecting parts;

[0009] The climbing pole assembly has spring buckles at both ends, which can be connected to the connecting part.

[0010] The principle and effects of this technical solution:

[0011] 1. The climbing pole assembly is connected to the connecting part by spring buckles, so that the climbing pole assembly and the connecting sleeve can be connected as a whole. The angle between the climbing pole assembly and the connecting sleeve can be adjusted by rotating the connection point of the spring buckle. At the same time, the position of the connecting sleeve relative to the branch can also be adjusted by sliding. In this way, multiple climbing pole assemblies can be connected by spring buckles. That is, the angle of the climbing pole assembly between the upper and lower connecting sleeves can be controlled synchronously by rotating the climbing pole assembly and controlling the position of the connecting sleeve relative to the branch, so as to create a variety of shapes and structures for plants to climb, with greater adjustability.

[0012] 2. The connection head and connection hole allow multiple columns to be stacked for use, thus the overall height of the device can be adjusted according to the actual use, making it more flexible to use. In addition, the anti-slip component can control the position of the movable sleeve relative to the column to stabilize the movable sleeve.

[0013] The present invention is further configured to include a ground cone, the top of which is fixed with a connector.

[0014] The principle and effect of this technical solution: The setting of the ground cone makes it easier to install the column in the ground.

[0015] The present invention is further configured as follows: the movable sleeve includes a rotating ring and a connecting ring that are movably fitted onto the column. The upper and lower ends of the connecting ring abut against the rotating ring. The outer walls of the two rotating rings are jointly fixed with multiple spaced connecting plates. The outer diameter of the rotating ring is larger than the outer diameter of the connecting ring. The ends of the branches are fixed to the connecting plates, and the multiple branches correspond one-to-one with the multiple connecting plates. Anti-slip components are installed on the connecting rings.

[0016] The principle and effect of this technical solution: By setting two rotating rings and one connecting ring, the rotating rings can rotate relative to the connecting ring. The two rotating rings are connected by a connecting plate, so that the rotating ring located below the connecting ring will not fall off. Thus, the branches installed on the connecting plate and the rotating ring as a whole can rotate relative to the connecting ring, thereby enabling quick changes in position by rotation. Furthermore, the anti-slip component installed on the connecting ring does not hinder the rotation of the rotating ring.

[0017] The present invention is further configured such that: the anti-slip component includes an anti-slip bolt, the anti-slip bolt is threaded into the connecting ring, and the end of the anti-slip bolt can extend to the inner side of the connecting ring, and the projection of the head of the anti-slip bolt on the horizontal plane is located between the outer diameter of the rotating ring and the outer diameter of the connecting ring.

[0018] The principle and effect of this technical solution: By rotating the anti-slip bolt, the distance between the end of the anti-slip bolt and the outer wall of the column can be controlled. The friction force between the anti-slip bolt and the outer wall can limit the position of the anti-slip bolt, thereby limiting the position of the entire movable sleeve.

[0019] The present invention is further configured such that: an anti-slip groove is provided on the outer wall of the column, an anti-slip pad is fixed in the anti-slip groove, the end of the anti-slip bolt can extend into the anti-slip groove, and the anti-slip bolt abuts against the anti-slip pad.

[0020] The principle and effect of this technical solution: By setting anti-slip grooves and anti-slip pads, the anti-slip bolts and anti-slip pads can have stronger friction (greater coefficient of friction) after they come into contact, thus enabling the movable sleeve to be installed more stably on the column.

[0021] The present invention is further configured such that: the connecting part includes a base plate, a side plate and a connecting rod, the base plate is rotatably mounted on the connecting sleeve, two side plates are fixed on the side of the base plate away from the connecting sleeve, and connecting rods are fixed inside the side plates.

[0022] The principle and effect of this technical solution: By rotating the base plate, the position of the side plate and connecting rod as a whole can be rotated relative to the connecting sleeve, and the angle installation of the climbing rod assembly corresponding to the spring buckle that engages with the connecting rod and side plate is also more flexible, making the structure of this greening device more versatile.

[0023] The present invention is further configured such that: the climbing pole assembly includes a sleeve pole and an extension pole, the extension pole is movably installed inside the sleeve pole, and a spring buckle is rotatably installed at the end of the extension pole.

[0024] The principle and effect of this technical solution: By setting up the sleeve and extension rod, the overall length of the climbing pole assembly can be adjusted according to the usage situation, making it more adaptable.

[0025] The present invention is further configured such that: the top surface of the connecting plate is higher than the top surface of the rotating ring located above it, and an anti-rotation bolt is threaded into the outer wall of the connecting plate, the end of the anti-rotation bolt can extend into the anti-slip groove and abut against the anti-slip pad.

[0026] The principle and effect of this technical solution: By setting the anti-rotation bolt, the position of the rotating ring can be limited by the anti-rotation bolt abutting against the outer wall of the column, so that external wind and other factors are not easy to drive the rotating ring to rotate, thereby ensuring the positional stability of the climbing pole assembly. In addition, the anti-rotation bolt can also be inserted into the anti-slip groove and abut against the anti-slip pad, thereby achieving the best anti-rotation and vertical sliding limit effect. Attached Figure Description

[0027] Figure 1 This is the front view of the present invention;

[0028] Figure 2 for Figure 1 Enlarged view of point A in the image;

[0029] Figure 3 for Figure 1 Enlarged view of the active area;

[0030] Figure 4 for Figure 3 Top view of the structure;

[0031] Figure 5 for Figure 4 Enlarged view of the central pillar;

[0032] Figure 6 for Figure 1 Enlarged view of the central pillar;

[0033] Figure 7 for Figure 1 Enlarged view of the climbing pole assembly;

[0034] Figure 8 for Figure 7 Side view sectional structural diagram. Detailed Implementation

[0035] The present invention will now be described in further detail with reference to the accompanying drawings and embodiments:

[0036] The reference numerals in the accompanying drawings include:

[0037] 110. Column; 111. Connector; 112. Connecting hole; 113. Anti-slip groove; 114. Anti-slip pad; 120. Ground cone;

[0038] 210. Branches and trunks;

[0039] 310. Connecting sleeve; 320. Base plate; 330. Side plate; 340. Connecting rod;

[0040] 410. Rotating ring; 420. Connecting ring; 430. Connecting plate; 440. Anti-slip bolt; 450. Anti-rotation bolt;

[0041] 510. Sleeve rod; 520. Extension rod; 530. Spring buckle.

[0042] Example:

[0043] As attached Figure 1-8 As shown, this utility model discloses a three-dimensional greening device for climbing plants, including a column 110, a movable sleeve, a connecting sleeve 310, a climbing pole assembly, and a ground cone 120. The top of the column 110 is fixed with a connector 111, and the bottom of the column 110 has a connecting hole 112. The connector 111 is threadedly fitted into the connecting hole 112. Two anti-slip grooves 113 are symmetrically formed on the outer wall of the column 110, and anti-slip pads 114 are fixed in each of the two anti-slip grooves 113. During use, the number of columns 110 can be controlled according to the actual required height. The upper and lower columns 110 are connected through the cooperation of the connector 111 and the connecting hole 112. The top of the ground cone 120 is fixed with a connector 111. The lowest column 110 can be connected to the connector 111 of the ground cone 120 through the connecting hole 112 at its bottom. The ground cone 120 is designed to provide a stable effect by being inserted into the bottom surface of the column 110 above it.

[0044] The movable sleeve includes a rotating ring 410 and a connecting ring 420 that are movably fitted onto the column 110. The upper and lower ends of the connecting ring 420 abut against the rotating ring 410 respectively. The outer walls of the two rotating rings 410 are jointly fixed with a plurality of spaced connecting plates 430 (in this scheme, six spaced connecting plates 430 are used as an example, but it is not limited to six, and can also be eight, four, etc.). The outer diameter of the rotating ring 410 is larger than the outer diameter of the connecting ring 420. A branch 210 is fixed on the side of the connecting plate 430 away from the rotating ring 410, and the number of branches 210 corresponds to the number of connecting plates 430.

[0045] The anti-slip component includes an anti-slip bolt 440, which is threaded into the connecting ring 420. The end of the anti-slip bolt 440 extends into the inner side of the connecting ring 420 and into the anti-slip groove 113, abutting against the anti-slip pad 114. The projection of the head of the anti-slip bolt 440 onto the horizontal plane lies between the outer diameter of the rotating ring 410 and the outer diameter of the connecting ring 420.

[0046] Among them, the branch 210 is a square rod or other rod with a non-circular cross-section. A connecting sleeve 310 is movably fitted on the branch 210. Both the upper and lower ends of the connecting sleeve 310 are provided with connecting parts. The connecting parts include a base plate 320, a side plate 330 and a connecting rod 340. The base plate 320 is rotatably installed on the connecting sleeve 310. Two side plates 330 are fixed on the side of the base plate 320 away from the connecting sleeve 310, and the connecting rod 340 is fixed inside the two side plates 330.

[0047] The climbing pole assembly has spring buckles 530 at both ends. The climbing pole assembly includes a sleeve rod 510 and an extension rod 520. The extension rod 520 is movably installed inside the sleeve rod 510, and the end of the extension rod 520 is rotatably installed with a spring buckle 530. The spring buckle 530 can be engaged with each other or with the connecting rod 340. The outer walls of both the sleeve rod 510 and the extension rod 520 are frosted to allow the climbing plants to grip better.

[0048] In a movable sleeve, the top surface of the connecting plate 440 is higher than the top surface of the rotating ring 410 located above it. An anti-rotation bolt 450 is threaded into the outer wall of the connecting plate 430. The end of the anti-rotation bolt 450 can extend into the anti-slip groove 113 and abut against the anti-slip pad 114. When used indoors, due to lower wind speeds and fewer external environmental influences, the anti-rotation bolt 450 may not extend into the anti-slip groove 113, thus allowing for more flexible and varied positioning of the support rod 210.

[0049] In use, the number of posts 110 and movable sleeves can be controlled according to usage. Climbing pole components are installed on the lowest connecting rod 340, with the other end of the climbing pole component placed on the ground for plants to climb. Only one climbing pole component can be connected between two adjacent branches 210. In this case, the two spring clips 530 of the climbing pole component are connected to the connecting parts of the upper and lower connecting sleeves 310 respectively. Alternatively, two climbing pole components can be set, with the adjacent ends of the two climbing pole components engaging with each other through spring clips 530, and the opposite ends connected to the connecting parts of the connecting sleeves 310 through spring clips 530. The two climbing pole components can also be arranged in a V-shape (the spring clips 530 can wrap around the connecting rod). The connection between the spring clips 530 and the spring clips 530 can also be arranged in a straight line. At the same time, by rotating the base plate 320, the connecting rod 340 and the side plate 330 can be rotated relative to the connecting sleeve 310, so that the two corresponding branches 210 are staggered on the horizontal plane. At this time, the climbing pole assembly connecting the two corresponding climbing pole assemblies is arranged at an angle (it can be one climbing pole assembly or multiple climbing pole assemblies). Meanwhile, the position of the extension rod 520 relative to the sleeve rod 510 and the position of the connecting sleeve 310 relative to the branch 210 can control the shape of the climbing pole assembly. Thus, the device can be constructed in various shapes and is flexible and convenient to use.

[0050] Furthermore, when installing and removing the anti-slip bolt 440, the connecting plate 430 can be moved aside by rotating the rotating ring 410, that is, the anti-slip bolt 440 can be installed in the gap between the connecting plate 430 and the connecting plate 430.

[0051] The parts of the device not covered herein are the same as or can be implemented using existing technologies.

[0052] Among them, insert and sliding insert are mating bodies with holes, the cross section of the shaft or rod matches the hole, and the shaft or rod can slide relative to the hole. Threaded insert is a hole with threads, the shaft or rod is threaded, and the shaft or rod is connected to the mating body by screwing. Detachable installation can be by bolt thread connection or bolt and nut connection, etc., depending on what can be actually achieved.

[0053] The above descriptions are merely embodiments of this utility model. Commonly known technical solutions or characteristics are not described in detail here. It should be noted that those skilled in the art can make various modifications and improvements without departing from the technical solution of this utility model. These modifications and improvements should also be considered within the scope of protection of this utility model, and will not affect the effectiveness of the implementation of this utility model or the practicality of the patent. The scope of protection claimed in this application should be determined by the content of its claims, and the specific embodiments described in the specification can be used to interpret the content of the claims.

Claims

1. A vertical greening device for climbing plants, characterized in that: include The column has a connector fixed at the top and a connection hole at the bottom, with the connector threadedly adapted to the connection hole. The movable sleeve is attached to the column, and multiple branches are installed at circumferential intervals on the movable sleeve. Anti-slip components are provided on the movable sleeve. A connecting sleeve is slidably installed on the branch, and both the upper and lower ends of the connecting sleeve are provided with connecting parts; The climbing pole assembly has spring buckles at both ends, which can be connected to the connecting part.

2. The vertical greening device for climbing plants as described in claim 1, characterized in that: It also includes a ground cone, the top of which is fixed with the connector.

3. The vertical greening device for climbing plants as described in claim 1, characterized in that: The movable sleeve includes a rotating ring and a connecting ring that are movably fitted onto the column. The upper and lower ends of the connecting ring abut against the rotating ring. Multiple spaced connecting plates are fixed together on the outer walls of the two rotating rings. The outer diameter of the rotating ring is larger than the outer diameter of the connecting ring. The ends of the branches are fixed to the connecting plates, and multiple branches correspond one-to-one with multiple connecting plates. The anti-slip component is installed on the connecting ring.

4. The vertical greening device for climbing plants as described in claim 3, characterized in that: The anti-slip component includes an anti-slip bolt, which is threaded into the connecting ring, and the end of the anti-slip bolt can extend to the inner side of the connecting ring. The projection of the head of the anti-slip bolt on the horizontal plane is located between the outer diameter of the rotating ring and the outer diameter of the connecting ring.

5. The vertical greening device for climbing plants as described in claim 4, characterized in that: The outer wall of the column is provided with an anti-slip groove, and an anti-slip pad is fixed in the anti-slip groove. The end of the anti-slip bolt can extend into the anti-slip groove, and the anti-slip bolt abuts against the anti-slip pad.

6. The vertical greening device for climbing plants as described in claim 1, characterized in that: The connecting part includes a base plate, side plates and connecting rods. The base plate is rotatably mounted on the connecting sleeve. Two side plates are fixed on the side of the base plate away from the connecting sleeve, and the connecting rods are fixed inside the two side plates.

7. The vertical greening device for climbing plants as described in claim 1, characterized in that: The climbing pole assembly includes a sleeve pole and an extension pole. The extension pole is movably installed inside the sleeve pole, and the end of the extension pole is rotatably fitted with the spring buckle.

8. The vertical greening device for climbing plants as described in claim 5, characterized in that: The top surface of the connecting plate is higher than the top surface of the rotating ring located above it. An anti-rotation bolt is threaded into the outer wall of the connecting plate. The end of the anti-rotation bolt can extend into the anti-slip groove and abut against the anti-slip pad.