Adjustable 3D plant recognition shelf

CN224457525UActive Publication Date: 2026-07-03SOUTH CHINA UNIV OF TECH

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SOUTH CHINA UNIV OF TECH
Filing Date
2025-06-20
Publication Date
2026-07-03

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  • Figure CN224457525U_ABST
    Figure CN224457525U_ABST
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Abstract

This utility model belongs to the field of planting rack technology, and in particular to an adjustable three-dimensional plant recognition rack, including a base plate, and further including: square columns; a bottom planting tray, which is fixed to the top surface of the base plate; a middle display component, which includes a first square tube, a grid-shaped frame, a mounting plate, and a transparent planting box; and a top display component, which includes a second square tube fixed to the square column, a top planting tray fixed to the second square tube, and a climbing net fixed to the second square tube and located directly above the top planting tray. In this utility model, the multi-layer structure combined with the planting tray, transparent planting box, and climbing net can display various types of plants such as low-growing plants, medium-sized plants, and climbing plants, and is suitable for campus science popularization, plant teaching, and other scenarios, and is suitable for students of different grades. The height of the middle and top components can be flexibly adjusted, and the middle display component can be rotated, making it convenient for learners to observe plants from different directions.
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Description

Technical Field

[0001] This utility model belongs to the field of planting rack technology, specifically relating to an adjustable three-dimensional plant recognition rack. Background Technology

[0002] The 3D plant recognition shelf is an educational tool that combines three-dimensional structural design with interactive functions. It aims to help learners fully understand plant characteristics through multi-level display and immersive experience.

[0003] Vertical plant recognition shelves typically employ a multi-layered frame structure, achieving layered display of different plants through efficient use of vertical space.

[0004] For example, in the prior art, Chinese utility model patent with authorization announcement number CN220607958U discloses "an interactive experience-type plant science popularization display rack", which includes a base, a connecting plate rotatably connected to the top of the base, a groove opened inside the base, a motor fixed in the groove, the output end of the motor passing through the base and fixed to the bottom end of the connecting plate, a mounting column fixed to the top of the connecting plate, a top plate fixed to the top of the mounting column, and multiple first fixing columns fixed to the top of the connecting plate.

[0005] While existing plant science display racks, including those mentioned above, can meet general usage needs, their structures are relatively simple and they are not easy to adjust to different display requirements. They are also difficult to display different plants and have certain limitations in use. In particular, the three-dimensional plant recognition racks used on campuses have limited functionality and are difficult to meet the needs of different learners.

[0006] To address the aforementioned problems, this utility model proposes an adjustable three-dimensional plant recognition frame. Utility Model Content

[0007] To address the aforementioned problems in the existing technology, this utility model provides an adjustable three-dimensional plant recognition frame, which is convenient to use, easy to adjust, and has a wide range of applications.

[0008] To achieve the above objectives, this utility model provides the following technical solution: an adjustable three-dimensional plant recognition frame, including a base plate, and further comprising:

[0009] A square column is fixed to the top surface of the base plate, and multiple positioning grooves are provided on the square column at equal intervals along its length.

[0010] A bottom planting tray, which is fixed to the top surface of the base plate;

[0011] The middle layer display component includes a first square tube fixed to the square column, a grid-shaped frame fixed to the first square tube, a mounting plate rotatably connected to the grid-shaped frame, and a transparent planting box fixed to the bottom of the mounting plate. Ventilation holes are provided on the mounting plate.

[0012] The top-level display component includes a second square tube fixed to the square column, a top-level planting tray fixed to the second square tube, and a climbing net fixed to the second square tube and located directly above the top-level planting tray.

[0013] As a preferred embodiment of this utility model, the square columns are arranged diagonally in four sections.

[0014] As a preferred embodiment of this utility model, the middle layer display component further includes:

[0015] A threaded post, which is fixed to the top surface of the mounting plate and penetrates the grid-shaped frame;

[0016] Locking nuts are distributed both above and below the grid-shaped frame, and are installed on the threaded post by means of threaded engagement.

[0017] As a preferred embodiment of this utility model, the middle layer display component further includes:

[0018] A cross-shaped partition is fixed inside the transparent planting box to divide the internal space of the transparent planting box into four independent planting compartments.

[0019] As a preferred embodiment of this utility model, the top-level display component further includes:

[0020] A hook, which is fixed to the outer wall of the second square tube;

[0021] Elastic rope, the elastic rope being fixed to the end face of the climbing net;

[0022] A hanging ring is fixed to the end of the elastic rope and hung on the hook.

[0023] As a preferred embodiment of this utility model, it further includes:

[0024] The No. 1 manual bolt is installed on the No. 1 square tube by means of threaded engagement, and the end of the No. 1 manual bolt is embedded in the positioning groove.

[0025] As a preferred embodiment of this utility model, it further includes:

[0026] The No. 2 manual bolt is installed on the No. 2 square tube by means of threaded engagement, and the end of the No. 2 manual bolt is embedded in the positioning groove.

[0027] As a preferred technical solution of this utility model, the outer wall of the square column is attached to the inner wall of the first square tube and the second square tube.

[0028] Compared with the prior art, the beneficial effects of this utility model are:

[0029] In this utility model, the multi-layer structure combines a planting tray, a transparent planting box, and a climbing net to display various types of plants, such as low-growing plants, medium-sized plants, and climbing plants. It is suitable for scenarios such as campus science popularization and plant teaching, and is suitable for students of different grades. The height of the middle and top layer components can be flexibly adjusted, and the middle layer display component can be rotated, making it convenient for learners to observe plants from different directions.

[0030] Other additional advantages and beneficial effects of this invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of this invention. Attached Figure Description

[0031] The accompanying drawings are provided to further illustrate the present invention and form part of the specification. They are used together with the embodiments of the present invention to explain the present invention, but do not constitute a limitation thereof. In the drawings:

[0032] Figure 1 This is a schematic diagram of the structure of this utility model;

[0033] Figure 2 This is an isometric structural diagram of the middle layer display component in this utility model;

[0034] Figure 3 This is an isometric structural diagram of the transparent planting box in this utility model;

[0035] Figure 4 This is an isometric structural diagram of the top-level display component in this utility model;

[0036] Figure 5 This utility model Figure 1 A magnified structural diagram at point A in the diagram.

[0037] In the diagram: 1. Base plate; 2. Square column; 21. Positioning groove; 3. Bottom planting tray; 4. Middle display component; 41. Square tube No. 1; 42. Grid frame; 43. Mounting plate; 431. Ventilation hole; 44. Transparent planting box; 441. Cross partition; 442. Planting grid; 45. Threaded column; 46. Locking nut; 5. Top display component; 51. Square tube No. 2; 52. Top planting tray; 53. Climbing net; 54. Hook; 55. Elastic rope; 56. Hanging ring; 6. Manual bolt No. 1; 7. Manual bolt No. 2. Detailed Implementation

[0038] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0039] Please see Figures 1-5 The present invention provides the following technical solution: an adjustable three-dimensional plant recognition frame, including a base plate 1, and further including: a square column 2, a bottom planting tray 3, a middle display component 4 and a top display component 5.

[0040] Furthermore, by Figure 1 , Figure 2 and Figure 4 As shown, in this embodiment, the square column 2 is fixed to the top surface of the base plate 1, and multiple positioning slots 21 evenly distributed along its length are provided on the square column 2. The bottom planting tray 3 is fixed to the top surface of the base plate 1. The middle display assembly 4 includes a first square tube 41 fixed to the square column 2, a grid-shaped frame 42 fixed to the first square tube 41, a mounting plate 43 rotatably connected to the grid-shaped frame 42, and a transparent planting box 44 fixed to the bottom surface of the mounting plate 43. Ventilation holes 431 are provided on the mounting plate 43. The top display assembly... Component 5 includes a second square tube 51 fixed to the square column 2, a top planting tray 52 fixed to the second square tube 51, and a climbing net 53 fixed to the second square tube 51 and located directly above the top planting tray 52. ​​With the above scheme, when in use, the bottom planting tray 3 is fixed to the top surface of the base plate 1 and can be directly used to plant plants that have low requirements for growth space or are suitable for ground growth, providing them with a stable planting foundation. Plant introduction labels are affixed to the side of the bottom planting tray 3 to help students understand the growth habits of the corresponding plants.

[0041] The positioning slot 21 on the square column 2 is the key structure for adjusting the height of the component. The first square tube 41 of the middle layer display component 4 can be fixed by selecting the appropriate positioning slot 21 according to the light and space requirements of plant growth, thereby adjusting the height of the middle layer display component 4 on the square column 2. After the first square tube 41 is fixed, the grid frame 42 provides a support structure for the mounting plate 43. The mounting plate 43 can rotate on the grid frame 42, making it convenient for users to observe the plants in the transparent planting box 44 from different angles. The transparent planting box 44 is used to grow plants that need to be displayed, such as hydroponic herbs and carnivorous plants. The ventilation holes 431 on the mounting plate 43 ensure the air circulation inside the box, providing a good gas environment for plant growth.

[0042] The second square tube 51 of the top display component 5 is also fixed at a suitable height on the square column 2 through the positioning groove 21. The top planting tray 52 can plant plants suitable for growing at higher positions, while the climbing net 53 located directly above it provides a support structure for climbing plants to grow upwards, allowing the plants to climb along the climbing net 53 and form a three-dimensional plant landscape.

[0043] Through the positioning slots 21 on the square column 2, the height of the middle display component 4 and the top display component 5 can be flexibly adjusted according to the growth characteristics and display needs of different plants, so as to make reasonable use of space and facilitate the observation, management and understanding of plants.

[0044] Preferably, by Figure 1 As shown in this embodiment, there are four square columns 2 arranged diagonally. With the above scheme, when in use, the four square columns 2 are arranged diagonally along the base plate 1 to form a symmetrical quadrilateral support system, which greatly enhances the overall structure's anti-tipping ability and load-bearing performance.

[0045] The weight of the bottom planting tray 3, the middle display component 4 and the top display component 5 is evenly distributed to the base plate 1 through four square columns 2, avoiding the risk of tilting caused by unilateral force.

[0046] Optionally, by Figure 1 and Figure 2As shown in this embodiment, the middle display component 4 further includes: a threaded post 45 and a locking nut 46. The threaded post 45 is fixed to the top surface of the mounting plate 43 and passes through the grid frame 42. Locking nuts 46 are distributed above and below the grid frame 42 and are installed on the threaded post 45 by threaded engagement. With the above solution, when it is necessary to observe or display the plants in the transparent planting box 44, the user can first loosen the locking nuts 46 above and below the grid frame 42. At this time, the mounting plate 43 forms a rotating shaft that can rotate freely around the threaded post 45 through the structure of the threaded post 45 passing through the grid frame 42. The mounting plate 43 can rotate around the axis of the threaded post 45, causing the transparent planting box 44 on its bottom surface to rotate synchronously, thereby turning different sides of the plant towards the user.

[0047] After the mounting plate 43 is rotated to the target angle, the user rotates the locking nut 46 to tighten the nuts above and below the grid frame 42 towards the center. Since the threaded post 45 and the locking nut 46 are engaged by threads, the tightening of the nuts will generate a clamping force in the vertical direction on the grid frame 42, which will tightly fix the grid frame 42 to the mounting plate 43. The grid frame 42 is clamped between the upper and lower locking nuts 46, and the rotational freedom of the mounting plate 43 is restricted, thereby maintaining the stability of the current adjusted angle.

[0048] Preferably, by Figures 1-3 As shown in this embodiment, the middle layer display component 4 further includes: a cross partition 441, which is fixed inside the transparent planting box 44 and is used to divide the internal space of the transparent planting box 44 into four independent planting compartments 442. With the above solution, when using the product, the user can plant different varieties, different growth stages or different characteristics of plants in each planting compartment 442 according to the plant recognition needs.

[0049] This zoning design avoids the problems of intertwined plant roots and competition for growth space in traditional single-cell planting. Plants in each 442-cell planting cell can independently obtain soil nutrients and water, making their growth status clearer and more controllable.

[0050] Optionally, by Figure 1 and Figure 4 As shown in this embodiment, the top-level display component 5 further includes: a hook 54, an elastic rope 55, and a hanging ring 56. The hook 54 is fixed to the outer wall of the second square tube 51, the elastic rope 55 is fixed to the end face of the climbing net 53, and the hanging ring 56 is fixed to the end of the elastic rope 55 and hung on the hook 54. With the above solution, when it is necessary to install the climbing net 53, the user can directly hang the hanging ring 56 at the end of the elastic rope 55 on the hook 54 on the outer wall of the second square tube 51.

[0051] Since the hook 54 is a fixed structure (such as welded or bolted to the square tube), the hanging ring 56 is connected to the hook 54 by a "hook" method, which can quickly connect the climbing net 53 to the No. 2 square tube 51 without additional tools; when disassembling, simply remove the hanging ring 56 from the hook 54, which is easy to operate.

[0052] The top planting tray 52 is used to plant the roots of climbing plants (such as seedlings of grapes and clematis), and the plant stems need to grow along the climbing net 53.

[0053] Preferably, by Figure 1 and Figure 5 As shown, this embodiment further includes: a first manual bolt 6, a square column 2 passing through a first square tube 41, the first manual bolt 6 being installed on the first square tube 41 by a threaded engagement, and the end of the first manual bolt 6 being embedded in the positioning groove 21. With the above solution, when it is necessary to adjust the height of the middle layer display component 4, the user first manually loosens the first manual bolt 6 on the first square tube 41. Since the first manual bolt 6 is connected to the first square tube 41 by a threaded engagement, when rotating, the first manual bolt 6 will exit outward along the thread of the first square tube 41, and its end will gradually disengage from the positioning groove 21 of the square column 2 until it is completely out of contact with the inner wall of the positioning groove 21.

[0054] At this time, the No. 1 square tube 41 loses the fitting constraint of the No. 1 manual bolt 6 on the positioning groove 21, and can slide freely along the length direction of the square column 2, driving the grid frame 42, the mounting plate 43 and the transparent planting box 44 to move up and down synchronously, so as to realize the height adjustment of the middle layer display component 4.

[0055] After adjusting to the appropriate height, tighten the first manual bolt 6 in the opposite direction. At this time, the end of the first manual bolt 6 is locked into the corresponding positioning groove 21 to ensure the stability of the middle layer display component 4 after adjustment.

[0056] Preferably, by Figure 1 and Figure 5 As shown, this embodiment further includes: a second manual bolt 7, a square column 2 passing through a second square tube 51, the second manual bolt 7 being installed on the second square tube 51 by means of threaded engagement, and the end of the second manual bolt 7 being embedded in the positioning groove 21. With the above solution, when it is necessary to adjust the height of the top display component 5, the user first manually loosens the second manual bolt 7 on the second square tube 51. Since the second manual bolt 7 is connected to the second square tube 51 by threaded engagement, when rotating, the second manual bolt 7 will exit outward along the thread of the second square tube 51, and its end will gradually detach from the positioning groove 21 of the square column 2 until it is completely out of contact with the inner wall of the positioning groove 21.

[0057] At this time, the No. 2 square tube 51 loses the fitting constraint of the No. 2 manual bolt 7 on the positioning groove 21, and can slide freely along the length direction of the square column 2, driving the top planting tray 52 and the climbing net 53 to move up and down synchronously, realizing the height adjustment of the top display component 5.

[0058] After adjusting to the appropriate height, tighten the second manual bolt 7 in the opposite direction. At this time, the end of the second manual bolt 7 is locked into the corresponding positioning groove 21 to ensure the stability of the top display component 5 after adjustment.

[0059] Preferably, by Figure 1 and Figure 5 As shown in this embodiment, the outer wall of the square column 2 is attached to the inner walls of the first square tube 41 and the second square tube 51. After adopting the above scheme, this attached fit relationship has high stability during use, which restricts the lateral movement freedom of the middle display component 4 and the top display component 5, ensuring that the middle display component 4 and the top display component 5 can only move along the length direction of the square column 2, thereby improving the stability of the middle display component 4 and the top display component 5.

[0060] Components not described in detail in this article are existing technologies.

[0061] The working principle and usage process of this utility model: When using the adjustable three-dimensional plant recognition frame of this utility model, the bottom planting tray 3 is fixed to the top surface of the base plate 1, which can be directly used to plant plants that have low requirements for growth space or are suitable for ground growth, providing them with a stable planting foundation. Plant introduction labels are affixed to the side of the bottom planting tray 3 to facilitate students to understand the growth habits of the corresponding plants.

[0062] The positioning groove 21 on the square column 2 is the key structure for adjusting the height of the component. The first square tube 41 of the middle layer display component 4 can be fixed by selecting the appropriate positioning groove 21 according to the light and space requirements of plant growth, thereby adjusting the height of the middle layer display component 4 on the square column 2. After the first square tube 41 is fixed, the grid frame 42 provides a support structure for the mounting plate 43. The mounting plate 43 can rotate on the grid frame 42, making it convenient for users to observe the plants in the transparent planting box 44 from different angles. The transparent planting box 44 is used to grow plants that need to be displayed, such as hydroponic herbs and carnivorous plants. The ventilation holes 431 on the mounting plate 43 ensure the air circulation inside the box, providing a good gas environment for plant growth.

[0063] The second square tube 51 of the top display component 5 is also fixed at a suitable height on the square column 2 through the positioning groove 21. The top planting tray 52 can plant plants that are suitable for growing at higher positions, while the climbing net 53 located directly above it provides a support structure for climbing plants to grow upwards, allowing the plants to climb along the climbing net 53 and form a three-dimensional plant landscape.

[0064] Through the positioning slots 21 on the square column 2, the height of the middle display component 4 and the top display component 5 can be flexibly adjusted according to the growth characteristics and display needs of different plants, so as to make reasonable use of space and facilitate the observation, management and understanding of plants.

[0065] Finally, it should be noted that the above description is merely a preferred embodiment of this utility model and is not intended to limit the utility model. Although the utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this utility model should be included within the protection scope of this utility model.

Claims

1. An adjustable stereoscopic plant recognition frame comprising a base plate (1), characterized in that, Further includes: A square column (2) is fixed to the top surface of the base plate (1), and multiple positioning grooves (21) are provided on the square column (2) at equal intervals along its length. The bottom planting tray (3) is fixed to the top surface of the bottom plate (1); The middle layer display component (4) includes a first square tube (41) fixed on the square column (2), a grid-shaped frame (42) fixed on the first square tube (41), a mounting plate (43) rotatably connected to the grid-shaped frame (42), and a transparent planting box (44) fixed to the bottom surface of the mounting plate (43). A ventilation hole (431) is provided on the mounting plate (43). The top-level display component (5) includes a second square tube (51) fixed on the square column (2), a top-level planting tray (52) fixed on the second square tube (51), and a climbing net (53) fixed on the second square tube (51) and located directly above the top-level planting tray (52).

2. The adjustable stereoscopic plant cognition frame of claim 1, wherein: The square columns (2) are arranged in a diagonal pattern, with four columns.

3. The adjustable stereoscopic plant cognition frame of claim 1, wherein: The middle-layer display component (4) further includes: Threaded post (45), the threaded post (45) is fixed to the top surface of the mounting plate (43) and passes through the grid frame (42); Locking nuts (46) are distributed above and below the grid frame (42) and are installed on the threaded post (45) by means of thread engagement.

4. The adjustable stereoscopic plant cognition frame of claim 1, wherein: The middle-layer display component (4) further includes: A cross-shaped partition (441) is fixed inside the transparent planting box (44) to divide the internal space of the transparent planting box (44) into four independent planting compartments (442).

5. The adjustable stereoscopic plant cognition frame of claim 1, wherein: The top-level display component (5) further includes: Hook (54), the hook (54) is fixed to the outer wall of the second square tube (51); Elastic rope (55), said elastic rope (55) is fixed to the end face of the climbing net (53); Hanging ring (56), the hanging ring (56) is fixed to the end of the elastic rope (55) and hung on the hook (54).

6. The adjustable stereoscopic plant cognition frame of claim 1, wherein: Further includes: The first manual bolt (6) is installed on the first square tube (41) by means of thread engagement, and the end of the first manual bolt (6) is embedded in the positioning groove (21).

7. The adjustable stereoscopic plant cognition frame of claim 6, wherein: Further includes: The No. 2 manual bolt (7) is installed on the No. 2 square tube (51) by means of thread engagement, and the end of the No. 2 manual bolt (7) is embedded in the positioning groove (21).

8. The adjustable stereoscopic plant cognition frame of claim 7, wherein: The outer wall of the square column (2) is attached to the inner wall of the first square tube (41) and the second square tube (51).