A soil and water conservation plant fixing device

By improving the soil and water conservation plant planting device, and utilizing the adjustable angle and height support structure and limiting mechanism, the problem of inconvenient plant planting on sloping terrain has been solved, achieving convenient fixing and efficient construction.

CN224460737UActive Publication Date: 2026-07-07YELLOW RIVER WATER CONSERVANCY COMMISSION SOIL & WATER CONSERVATION SUPERVISION BUREAU OF SHANXI-SHAANXI-MONGOLIA BORDER AREA

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
YELLOW RIVER WATER CONSERVANCY COMMISSION SOIL & WATER CONSERVATION SUPERVISION BUREAU OF SHANXI-SHAANXI-MONGOLIA BORDER AREA
Filing Date
2025-08-14
Publication Date
2026-07-07

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Abstract

This utility model discloses a convenient and secure planting device for soil and water conservation plants, including a base. Two bases are provided, and support blocks are fixedly connected to both sides of the top of each base. The bases are firmly anchored to the ground using ground nails, providing a solid support foundation for the entire device. The fixing blocks in this device can be adjusted in three-dimensional space for precise alignment with the plants. A winding wheel in the winding box automatically winds up and down the planting strap via a torsion spring. The sliding connection between the T-shaped slider and the T-shaped groove makes the installation and removal of the planting strap more convenient. Operators can fix the plants simply by sliding them without the need for complex tools, greatly improving construction efficiency. This structural design balances the flexibility and stability of the device, making it widely applicable to various soil and water conservation scenarios. This device has the advantages of easy plant fixing and ease of use.
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Description

Technical Field

[0001] This utility model relates to the field of plant planting technology, specifically a convenient and secure soil and water conservation plant planting device. Background Technology

[0002] Soil and water conservation refers to the prevention and control measures taken against soil erosion caused by natural factors and human activities. Since the 1980s, a new stage of comprehensive soil and water conservation has been entered, with small watersheds as the unit. Each small watershed is both an independent natural water catchment unit and an economic unit for developing agricultural, forestry, and animal husbandry production. They are distributed in the upper reaches of major rivers. A small watershed is a soil erosion unit. The occurrence and development of soil erosion occur within the small watershed and have certain regularities. Planting, or transplanting, refers to transplanting the cultivated seedlings into the production field. The plants will grow from planting to harvest. Planting provides more space for plant growth and is conducive to better photosynthesis.

[0003] The utility model patent with publication number CN216752910U discloses a soil and water conservation plant planting device, which solves the problem that existing soil and water conservation plant planting devices cannot adjust the angle and will inevitably affect the planting work when used on sloping terrain, which is not conducive to the growth of plants. The device adopts fixed support legs, vertical rods, support structures, outer cylinders, inner rods, limiting blocks, limiting springs and fixing rods, and can adjust the tilt angle of the vertical rods according to the actual situation to cope with the planting of plants.

[0004] In practical use, the aforementioned patent uses a clamping mechanism to clamp and position the plant. The clamping mechanism consists of a passive ring, an active ring, a bolt, and a telescopic spring. The passive ring and the active ring are connected to each other by bolts, and the bolts are fitted with telescopic springs. Through the coordinated use of the telescopic springs, passive rings, active rings, and bolts, the plant can be clamped elastically without affecting its growth.

[0005] However, the above-mentioned solution has revealed significant drawbacks in practical applications: during the installation of the clamping mechanism, the bolt mounting holes of the active and passive rings must be precisely aligned, requiring tools to install multiple bolts one by one. This process not only consumes a large amount of manpower and time, reducing construction efficiency, but also, due to the large number and small size of the bolts, they are prone to being lost, adversely affecting the convenience and reliability of on-site operations. Therefore, there is an urgent need for an improved planting device that can simplify the plant fixing operation and improve installation efficiency to meet the actual needs of efficient planting in soil and water conservation projects. Utility Model Content

[0006] To address the problems mentioned in the background art, the purpose of this utility model is to provide a convenient and easy-to-fix planting device for soil and water conservation plants, which has the advantages of easy plant fixing and ease of use.

[0007] To achieve the above objectives, this utility model provides the following technical solution: a convenient and secure soil and water conservation plant planting device, comprising a base, wherein there are two bases, and support blocks are fixedly connected to both sides of the top of each base. A hinge block is hinged inside each support block, and a support rod is fixedly connected to the top of each hinge block. A sliding sleeve is slidably connected to the surface of the support rod, and a crossbar is fixedly connected between the two sliding sleeves. A movable column is slidably connected to the surface of the crossbar. A groove is provided on the front of the movable column, and a movable block is slidably connected inside the groove. A fixing block is fixedly connected to the front of the block, and a winding box is fixedly connected to the right side of the fixing block. A winding wheel is rotatably connected inside the winding box. Torsion springs are fixedly connected to the top and bottom of the inner wall of the winding box. The other end of the torsion spring is fixedly connected to the winding wheel. A plant-fixing tape is wound around the surface of the winding wheel. The end of the plant-fixing tape away from the winding wheel extends to the outside of the winding box and is fixedly connected to a T-shaped slider. A T-shaped groove is provided on the left side of the top of the fixing block. The T-shaped slider is slidably connected to the T-shaped groove. Ground nails are fixedly connected to the front and rear sides of the bottom of the base.

[0008] In a preferred embodiment of this invention, the top of the fixing block is provided with a sliding groove, and a limiting block is slidably connected inside the sliding groove. The limiting block is in contact with the top of the T-shaped slider. A positioning block is fixedly connected to the top of the fixing block. A compression spring is fixedly connected to the left side of the positioning block. The other end of the compression spring is fixedly connected to the limiting block. A lever is fixedly connected to the top of the limiting block.

[0009] As a preferred embodiment of this invention, the surface of the support block is provided with a locking bolt, which is threadedly connected to the hinge block.

[0010] In a preferred embodiment of this invention, the sliding sleeve is internally threaded with a first threaded rod, and the support rod has a slot on its front side. The number of slots is several, and the slots are evenly distributed on the front side of the support rod. The first threaded rod is inserted into the slot, and a first rotating handle is fixedly connected to the front side of the first threaded rod.

[0011] In a preferred embodiment of this invention, the movable column is internally threaded with a second threaded rod, the bottom of which is in close contact with the top of the crossbar. The movable column is internally threaded with a third threaded rod, the bottom of which is in close contact with the top of the movable block. The tops of the second and third threaded rods are respectively fixedly connected to a second handle and a third handle.

[0012] As a preferred embodiment of this invention, both sides of the bottom of the fixing block are fixedly connected with strap loops.

[0013] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0014] 1. This utility model uses a base that is firmly anchored to the ground with ground nails, providing a solid support foundation for the entire device. The hinged connection between the support block and the hinge block allows the support rod to be flexibly adjusted in angle to adapt to different terrains and planting needs. The sliding design of the sliding sleeve on the support rod, together with the crossbar, connects the sliding sleeves on the left and right sides into a whole, forming a horizontally adjustable support structure. The sliding of the movable column on the crossbar and the sliding of the movable block in the groove allow the fixing block to be adjusted in three-dimensional space, thereby accurately aligning with the plant. The winding wheel in the winding box realizes the automatic winding and unwinding of the fixing tape through a torsion spring, and the sliding connection between the T-shaped slider and the T-shaped groove makes the installation and removal of the fixing tape more convenient. The operator does not need to use complicated tools; simply sliding is enough to fix the plant, greatly improving construction efficiency. This structural design takes into account the flexibility and stability of the device, and can be widely applied to various soil and water conservation scenarios, effectively improving the convenience and reliability of plant planting. This device has the advantages of easy plant fixing and ease of use.

[0015] 2. This utility model utilizes a sliding groove, a limiting block, a positioning block, and a compression spring on the top of the fixing block to form a reliable limiting mechanism. When the T-shaped slider slides into the T-shaped groove, the limiting block moves to the left under the elastic force of the compression spring. The bottom of the limiting block fits tightly against the top of the T-shaped slider, thus limiting the T-shaped slider and preventing it from moving upwards, thus preventing it from accidentally slipping out during use and ensuring that the fixing strap can stably fix the plant. The lever allows the operator to easily move the limiting block to release the T-shaped slider, facilitating adjustment or disassembly of the fixing strap. This limiting mechanism design not only improves the stability of the device, avoiding the problem of plant tilting or falling over due to loose fixing straps, but also makes the operation simpler and faster, eliminating the need for time-consuming precise alignment and tedious fixing operations, greatly reducing manual labor intensity and improving work efficiency. Furthermore, this limiting mechanism has a simple structure and high reliability, maintaining stable performance over long-term use, providing a continuous and reliable guarantee for plant planting. Attached Figure Description

[0016] Figure 1 This is a schematic diagram of the structure of this utility model;

[0017] Figure 2 This is a schematic diagram of the left side of the movable column structure of this utility model;

[0018] Figure 3This is a front sectional view of the winding box structure of this utility model;

[0019] Figure 4 This utility model Figure 1 Enlarged schematic diagram of the structure at point A in the middle;

[0020] Figure 5 This utility model Figure 2 Enlarged schematic diagram of the structure at point B.

[0021] In the diagram: 1. Base; 2. Support block; 3. Hinge block; 4. Support rod; 5. Sliding sleeve; 6. Crossbar; 7. Movable column; 8. Movable block; 9. Fixed block; 10. Winding box; 11. Winding wheel; 12. Torsion spring; 13. Plant guide belt; 14. T-shaped slider; 15. Limiting block; 16. Positioning block; 17. Compression spring; 18. First threaded rod; 19. Second threaded rod; 20. Third threaded rod; 21. Locking bolt; 22. Ground nail; 23. Tie loop. Detailed Implementation

[0022] 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.

[0023] like Figures 1 to 5As shown, a convenient device for fixing soil and water conservation plants includes a base 1, two bases 1 arranged symmetrically. Support blocks 2 are fixedly connected to both sides of the top of each base 1. Hinge blocks 3 are hinged inside each support block 2. A support rod 4 is fixedly connected to the top of each hinge block 3. Sliding sleeves 5 are slidably connected to the surface of the support rod 4, and a crossbar 6 is fixedly connected between the two sliding sleeves 5. A movable column 7 is slidably connected to the surface of the crossbar 6. A groove is provided on the front of the movable column 7, and a movable block 8 is slidably connected inside the groove. A fixing block 9 is fixedly connected to the front of the movable block 8. A winding box 10 is fixedly connected to the right side of the fixing block 9. A winding wheel 11 is rotatably connected inside the winding box 10. Torsion springs 12 are fixedly connected to the top and bottom of the inner wall of the winding box 10. The other end is fixedly connected to the take-up reel 11. The surface of the take-up reel 11 is wound with a plant-fixing belt 13. The end of the plant-fixing belt 13 away from the take-up reel 11 extends to the outside of the take-up box 10 and is fixedly connected to a T-shaped slider 14. A T-shaped groove is provided on the left side of the top of the fixing block 9. The T-shaped slider 14 is slidably connected to the T-shaped groove. Ground nails 22 are fixedly connected to the front and rear sides of the bottom of the base 1. The sliding sleeve 5 slides up and down on the surface of the support rod 4. The movable column 7 slides left and right on the surface of the crossbar 6. The movable block 8 slides back and forth in the groove. When installing the T-shaped slider 14, the operator slides the T-shaped slider 14 into the T-shaped groove from top to bottom. The surfaces of the torsion spring 12, the compression spring 17 and the locking bolt 21 are all provided with an anti-rust coating. An arc groove is provided on the front of the fixing block 9, and a rubber pad is fixedly connected inside the arc groove.

[0024] refer to Figure 5 The top of the fixed block 9 is provided with a sliding groove, and the inside of the sliding groove is slidably connected to a limiting block 15. The limiting block 15 is in contact with the top of the T-shaped slider 14. The top of the fixed block 9 is fixedly connected to a positioning block 16. The left side of the positioning block 16 is fixedly connected to a compression spring 17. The other end of the compression spring 17 is fixedly connected to the limiting block 15. The top of the limiting block 15 is fixedly connected to a lever.

[0025] As a technical optimization of this utility model, a reliable limiting mechanism is formed by the sliding groove, limiting block 15, positioning block 16, and compression spring 17 set on the top of the fixing block 9. When the T-shaped slider 14 slides into the T-shaped sliding groove, the limiting block 15 moves to the left under the elastic force of the compression spring 17. The bottom of the limiting block 15 fits tightly with the top of the T-shaped slider 14, thereby limiting the T-shaped slider 14, preventing it from moving upward and accidentally sliding out during use, and ensuring that the fixing strap 13 can stably fix the plant. The lever allows the operator to easily move the limiting block 15 to release the limiting of the T-shaped slider 14, facilitating the adjustment or disassembly of the fixing strap 13. This limiting mechanism design not only improves the stability of the device and avoids the problem of plant tilting or falling over due to loose fixing strap 13, but also makes the operation process simpler and faster, eliminating the need to spend a lot of time on precise alignment and tedious fixing operations, greatly reducing manual labor intensity and improving work efficiency. Meanwhile, the limiting mechanism has a simple structure and high reliability, and can maintain stable performance during long-term use, providing a continuous and reliable guarantee for the planting of plants.

[0026] refer to Figure 1 The surface of the support block 2 is provided with locking bolts 21, which are threadedly connected to the hinge block 3.

[0027] As a technical optimization of this utility model, a reliably lockable angle adjustment mechanism is formed by connecting the locking bolt 21 on the surface of the support block 2 to the hinge block 3 via a threaded connection. By loosening the locking bolt 21, the support rod 4 can rotate freely around the hinge block 3, thereby adjusting to a suitable angle to meet the planting needs of plants in complex terrains such as slopes and hills. After adjusting to the appropriate angle, tightening the locking bolt 21 fixes the support rod 4 at that angle, ensuring the stability of the entire support structure. This design solves the problem of traditional planting devices being difficult to adjust the angle in complex terrains, allowing plants to maintain upright growth under various terrain conditions, which is beneficial to the development of the plant's root system and the absorption of water and nutrients, thus improving the survival rate and growth quality of the plants. At the same time, the convenience of angle adjustment and the reliability of locking allow the operator to quickly adjust the device according to the actual terrain, greatly improving construction efficiency, reducing the construction difficulty caused by terrain limitations, and broadening the applicability of the device.

[0028] refer to Figure 4 The sliding sleeve 5 has a first threaded rod 18 connected to its internal thread. The support rod 4 has a slot on its front side. The number of slots is several and they are evenly distributed on the front side of the support rod 4. The first threaded rod 18 is inserted into the slot. The front side of the first threaded rod 18 is fixedly connected to a first rotating handle.

[0029] As a technical optimization of this utility model, a height adjustment mechanism for the sliding sleeve 5 is formed by the first threaded rod 18 inside the sliding sleeve 5 engaging with multiple slots on the front of the support rod 4. By rotating the first handle, the first threaded rod 18 can rotate inside the sliding sleeve 5 and insert into slots at different positions, thereby achieving height adjustment of the sliding sleeve 5 on the support rod 4. This design allows the crossbar 6 to be adjusted up and down according to the height of the plant, ensuring that the fixing block 9 and the plant fixing strap 13 are at appropriate heights to accommodate the planting needs of plants of different heights. The evenly distributed slots provide multiple height adjustment options for the sliding sleeve 5, allowing the operator to choose flexibly according to the actual situation without additional tools or complex adjustment steps, greatly improving the versatility and adaptability of the device. At the same time, this height adjustment mechanism is compact in structure and easy to operate, enabling quick and accurate height adjustment, ensuring that the plant receives proper support and fixation during planting, avoiding problems such as insecure fixation or plant damage due to unsuitable height, and laying a good foundation for the healthy growth of the plant.

[0030] refer to Figure 2 The movable column 7 is internally threaded with a second threaded rod 19, the bottom of which is in close contact with the top of the crossbar 6. The movable column 7 is internally threaded with a third threaded rod 20, the bottom of which is in close contact with the top of the movable block 8. The tops of the second threaded rod 19 and the third threaded rod 20 are respectively fixedly connected with a second rotating handle and a third rotating handle.

[0031] As a technical optimization of this utility model, the second threaded rod 19 and the third threaded rod 20 inside the movable column 7 are used to lock the lateral position of the movable column 7 on the crossbar 6 and the longitudinal position of the movable block 8 in the groove, respectively. By rotating the second and third handles, the second threaded rod 19 and the third threaded rod 20 move downwards. When the bottom of the second threaded rod 19 is in close contact with the top of the crossbar 6, the movable column 7 cannot slide left or right on the crossbar 6. Similarly, when the bottom of the third threaded rod 20 is in close contact with the top of the movable block 8, the movable block 8 cannot slide back and forth in the groove.

[0032] refer to Figure 2 Both sides of the bottom of the fixing block 9 are fixedly connected with strap loops 23.

[0033] As a technical optimization of this utility model, the binding loops 23 on both sides of the bottom of the fixing block 9 provide an additional fixing method for the device. In practical applications, in addition to fixing the plant with the fixing strap 13, the binding straps can be passed through the binding loops 23 for further binding and fixing of the plant. This dual fixing method can greatly enhance the stability of the plant, especially in harsh environments such as strong winds and loose soil, effectively preventing the plant from falling over or tilting, and improving the survival rate of the plant. The binding loops 23 are simple and practical to set up. The operator can choose whether to use the binding straps according to actual needs, increasing the flexibility and adaptability of the device. At the same time, the position of the binding loops 23 is reasonably designed and will not affect the normal use of the fixing strap 13. The two work together to provide a more reliable fixing guarantee for the plant, which is suitable for various complex soil and water conservation conditions, ensuring that the plant can grow stably after planting and play a good role in soil and water conservation.

[0034] The working principle and usage process of this utility model are as follows: When using the soil and water conservation plant planting device of this utility model, firstly, place the two bases 1 at the selected planting location. The ground nails 22 at the bottom of the base 1 should be inserted vertically into the ground. By pressing down or tapping with a tool, the ground nails 22 should be fully embedded in the soil to ensure that the base 1 is stable and does not wobble. After the base 1 is fixed, adjust the angle of the support rod 4 according to the terrain slope or the required tilt angle of the plant. Specifically, loosen the locking bolts 21 on the surface of the support block 2. At this time, the support rod 4 can rotate freely around the hinge block 3. After adjusting the support rod 4 to an angle that adapts to the ground or the growth direction of the plant, tighten the locking bolts 21 again to fix the support rod 4 at that angle, providing a stable support foundation for the entire device.

[0035] Next, adjust the height of the sliding sleeve 5. The sliding sleeve 5 is fitted onto the surface of the support rod 4. By rotating the first handle inside the sliding sleeve 5, the first threaded rod 18 is rotated, causing the first threaded rod 18 to disengage from its current slot. At this point, the sliding sleeve 5 can slide up and down along the support rod 4. After adjusting the sliding sleeve 5 to the appropriate position according to the height of the plant, rotate the first handle again to insert the first threaded rod 18 into the slot of the corresponding height, thus locking the height of the sliding sleeve 5. The left and right sliding sleeves 5 are connected as one unit by the crossbar 6. Therefore, when adjusting the height of one sliding sleeve 5, the other sliding sleeve 5 will move synchronously. So, when adjusting, adjust both sides simultaneously to ensure that the crossbar 6 always remains horizontal.

[0036] After adjusting the height, the positions of the movable column 7 and the movable block 8 need to be adjusted. The movable column 7 is fitted onto the surface of the crossbar 6. By rotating the second handle inside the movable column 7, the second threaded rod 19 is rotated, causing the bottom of the second threaded rod 19 to disengage from the top of the crossbar 6. At this time, the movable column 7 can slide left and right along the crossbar 6. According to the plant's lateral position requirements, after moving the movable column 7 to a suitable position, the second handle is rotated again, causing the bottom of the second threaded rod 19 to be in close contact with the top of the crossbar 6, locking the lateral position of the movable column 7. The movable block 8 is located in the groove on the front of the movable column 7. By rotating the third handle inside the movable column 7, the third threaded rod 20 is rotated, causing the bottom of the third threaded rod 20 to disengage from the top of the movable block 8. At this time, the movable block 8 can slide back and forth in the groove. According to the plant's longitudinal position requirements, after moving the movable block 8 to a suitable position, the third handle is rotated again, causing the bottom of the third threaded rod 20 to be in close contact with the top of the movable block 8, locking the longitudinal position of the movable block 8. Through the above operations, the fixing block 9 can be precisely aligned with the part of the plant to be fixed in three-dimensional space.

[0037] The fixing strap 13 is then installed and adjusted. A winding wheel 11 is installed inside the winding box 10 on the right side of the fixing block 9. The winding wheel 11 is connected to the inner wall of the winding box 10 via a torsion spring 12, and the fixing strap 13 is wound around the surface of the winding wheel 11. In use, the operator holds the T-shaped slider 14 and pulls the fixing strap 13 out of the winding box 10. A T-shaped groove is provided on the top left side of the fixing block 9. The operator passes the T-shaped slider 14 and the fixing strap 13 around the part of the plant to be fixed. The operator needs to slide the T-shaped slider 14 from top to bottom along the T-shaped groove, and then release the lever. The limiting block 15 in the top sliding groove of the fixing block 9 moves to the left under the elastic force of the compression spring 17. The bottom of the limiting block 15 fits tightly against the top of the T-shaped slider 14, preventing the T-shaped slider 14 from coming off upwards.

[0038] After the anchoring strap 13 is wrapped around the plant, the torsion spring 12 inside the winding box 10 will automatically wind up the anchoring strap 13, ensuring a tight fit between the anchoring strap 13 and the plant. The plant will then be in contact with the rubber pad inside the arc-shaped groove, and the torsion spring 12 will maintain the stability of the anchoring strap 13. To enhance the plant's fixation, a binding strap can be used to pass through the binding strap loops 23 on both sides of the bottom of the fixing block 9 to further bind the plant to the device. One end of the binding strap is wrapped around the plant, and the other end is passed through the binding strap loop 23 and tightened to form a stable binding structure, which is especially suitable for environments with strong winds or loose soil.

[0039] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such process, method, article, or apparatus.

[0040] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A convenient and secure soil and water conservation plant planting device, comprising a base (1), characterized in that: There are two bases (1). Support blocks (2) are fixedly connected to both sides of the top of each base (1). A hinge block (3) is hinged inside the support block (2). A support rod (4) is fixedly connected to the top of the hinge block (3). A sliding sleeve (5) is slidably connected to the surface of the support rod (4). A crossbar (6) is fixedly connected between the two sliding sleeves (5). A movable column (7) is slidably connected to the surface of the crossbar (6). A groove is provided on the front of the movable column (7). A movable block (8) is slidably connected inside the groove. A fixed block (9) is fixedly connected to the front of the movable block (8). A winding mechanism is fixedly connected to the right side of the fixed block (9). The winding box (10) is rotatably connected to a winding wheel (11). The top and bottom of the inner wall of the winding box (10) are fixedly connected to torsion springs (12). The other end of the torsion springs (12) is fixedly connected to the winding wheel (11). The surface of the winding wheel (11) is wound with a plant fixing belt (13). The end of the plant fixing belt (13) away from the winding wheel (11) extends to the outside of the winding box (10) and is fixedly connected to a T-shaped slider (14). A T-shaped groove is provided on the left side of the top of the fixing block (9). The T-shaped slider (14) is slidably connected to the T-shaped groove. Ground nails (22) are fixedly connected to the front and rear sides of the bottom of the base (1).

2. The soil and water conservation plant planting device according to claim 1, characterized in that: The top of the fixed block (9) is provided with a sliding groove, and a limiting block (15) is slidably connected inside the sliding groove. The limiting block (15) is in contact with the top of the T-shaped slider (14). A positioning block (16) is fixedly connected to the top of the fixed block (9). A compression spring (17) is fixedly connected to the left side of the positioning block (16). The other end of the compression spring (17) is fixedly connected to the limiting block (15). A lever is fixedly connected to the top of the limiting block (15).

3. The soil and water conservation plant planting device according to claim 2, characterized in that: The surface of the support block (2) is provided with a locking bolt (21), which is threadedly connected to the hinge block (3).

4. The soil and water conservation plant planting device according to claim 3, characterized in that: The sliding sleeve (5) is internally threaded with a first threaded rod (18). The support rod (4) has a slot on its front side. There are several slots, which are evenly distributed on the front side of the support rod (4). The first threaded rod (18) is inserted into the slot. The front side of the first threaded rod (18) is fixedly connected with a first rotating handle.

5. The soil and water conservation plant planting device according to claim 4, characterized in that: The movable column (7) is internally threaded with a second threaded rod (19), the bottom of which is in close contact with the top of the crossbar (6). The movable column (7) is internally threaded with a third threaded rod (20), the bottom of which is in close contact with the top of the movable block (8). The tops of the second threaded rod (19) and the third threaded rod (20) are respectively fixedly connected with a second rotating handle and a third rotating handle.

6. The soil and water conservation plant planting device according to claim 5, characterized in that: Both sides of the bottom of the fixing block (9) are fixedly connected with strap loops (23).