Strawberry vine pulling and binding device
By designing a passion fruit vine traction and binding device with limiting, quick-connect, and positioning mechanisms, the problem of time-consuming and labor-intensive traditional binding methods has been solved. This enables quick replacement of binding ropes and improves equipment stability, thereby increasing binding efficiency and stability.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HAINAN XINYUAN TONGDA AGRICULTURE CO LTD
- Filing Date
- 2025-05-14
- Publication Date
- 2026-06-23
AI Technical Summary
Traditional methods of tying passion fruit vines are time-consuming and laborious, and the tying ropes cannot be changed quickly, resulting in low tying efficiency and difficulty in adapting to the tying needs of different growth stages.
A passion fruit vine tying and binding device was designed, comprising a limiting mechanism, a quick-connect mechanism, and a positioning mechanism. The limiting rod and the slider work together to achieve a stable installation of the rope sleeve; the quick-connect mechanism allows for quick replacement of the binding rope; and the positioning mechanism ensures precise alignment between the insertion rod and the fixing sleeve, improving the stability and convenience of the device.
It improves the efficiency and quality of binding operations, ensures appropriate tension of the binding rope, simplifies the binding process, and enhances the stability and service life of the binding device.
Smart Images

Figure CN224386310U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of orchard management technology, and more specifically, it relates to a passion fruit vine traction and binding device. Background Technology
[0002] In orchard management, especially in passion fruit cultivation, the vines need to be guided and tied to maintain their normal growth direction and prevent them from spreading and becoming disorderly. Traditional tying methods usually rely on manually fixing the vines to the tying ropes. This method is both time-consuming and inconvenient, especially during the season when the vines are growing vigorously and frequent tying operations are required. Since most of the existing tying devices use fixed tying ropes, they cannot be quickly replaced according to actual needs. This not only increases the workload but also affects the tying efficiency and may even cause equipment damage during the tying process.
[0003] Furthermore, as passion fruit vines at different growth stages have different binding requirements, existing binding devices often struggle to quickly replace and secure different types and lengths of binding ropes, causing operational inconvenience. In particular, when the vines need to adjust or replace the binding ropes according to their growth, traditional binding devices often require cumbersome disassembly or manual operation, resulting in low rope replacement efficiency and wasting a lot of manpower and time. Utility Model Content
[0004] (a) Technical problems to be solved
[0005] In view of the problems existing in the prior art, this utility model provides a passion fruit vine traction and binding device to solve the technical problems mentioned in the background art.
[0006] (II) Technical Solution
[0007] To achieve the above objectives, this utility model provides the following technical solution: a passion fruit vine traction and binding device, comprising a handle, wherein a limiting mechanism is provided on the handle, the limiting mechanism comprising a base plate, an insert rod, a rope loop, a binding rope, a buckle plate, a sliding groove, a slider, a limiting rod, and a pressure spring, the base plate being fixed to the top of the handle, the insert rod being fixed to the base plate, the rope loop being sleeved on the outside of the insert rod, the binding rope being wound around the outer wall of the rope loop, the buckle plate being inserted into the outer wall of the insert rod, the sliding groove being provided on the outside of the base plate and the buckle plate, the slider sliding within multiple sets of sliding grooves, the limiting rod being connected to multiple sets of sliders, and multiple sets of pressure springs being provided and installed on multiple sets of sliders. On the top surface of the slider, a quick-connect mechanism is provided at the top of the insertion rod. The quick-connect mechanism includes a fixed sleeve, a snap-fit piece, a slot, a quick-release sleeve, a compression spring, a stop block, a rotating sleeve, and a locking block. The fixed sleeve is located at the top of the insertion rod. Multiple snap-fit pieces are arranged on the inner wall of the fixed sleeve. Multiple slots are arranged on the outer wall of the insertion rod. The quick-release sleeve slides inside the insertion rod. The two ends of the compression spring are connected to the insertion sleeve and the quick-release sleeve, respectively. Multiple abutment blocks are installed on the outer wall of the quick-release sleeve and are slidably connected to the insertion rod. The rotating sleeve is rotatably installed on the outer wall of the fixed sleeve. Multiple locking blocks are arranged on the inner wall of the rotating sleeve and are all slidably connected to the fixed sleeve.
[0008] The present invention is further configured such that the outer wall of the fixed sleeve is provided with a positioning mechanism, the positioning mechanism including a limiting block, a limiting groove, a limiting sleeve and a push spring, the limiting block is provided with multiple sets that slide on the outer wall of the rotating sleeve, the limiting groove is provided with multiple sets that are distributed on the outer wall of the fixed sleeve, the limiting sleeve slides on the outer wall of the fixed sleeve, and the two ends of the push spring are respectively connected to the limiting sleeve and the fixed sleeve.
[0009] This invention is further configured such that each end of the limiting rod is provided with a movable rod, and each of the multiple sets of sliders is provided with an insertion hole, into which the multiple sets of movable rods are respectively inserted. The design of the movable rod and sliders enables the limiting rod to remain stable during sliding, preventing positioning errors caused by operation or load changes, ensuring the accuracy of the binding operation, avoiding slack or excessive tightness of the binding rope, and improving binding efficiency and stability.
[0010] The present invention is further configured such that the outer wall of the insertion rod is provided with a hexagonal block, and the buckle plate is provided with a hexagonal hole, the hexagonal block being inserted into the hexagonal hole. The cooperation between the hexagonal block and the hexagonal hole allows the buckle plate to be securely connected to the insertion rod, ensuring that the buckle plate does not loosen or shift during the binding process, increasing the robustness and stability of the equipment, simplifying the operation steps, and improving the convenience of installation and disassembly.
[0011] The present invention is further configured such that a positioning groove is provided at the top end of the insertion rod, and a positioning block is provided on the inner top surface of the fixing sleeve. The cooperation of the positioning groove and the positioning block ensures that the insertion rod and the fixing sleeve can be precisely aligned, avoiding deviations or instability during installation, enhancing the stability and accuracy of the equipment, ensuring the correct fixing of the binding rope, and avoiding binding failure due to misalignment.
[0012] The present invention is further configured such that the fixing sleeve is provided with relief grooves, and multiple sets of relief grooves are provided and connected to each other. The design of the relief grooves allows the fixing sleeve to provide greater adjustment space during installation, ensuring that each component can be installed freely and maintain smooth sliding, thereby improving the adaptability and ease of installation of the equipment and avoiding problems such as jamming or improper installation.
[0013] The present invention is further configured such that a compression spring is provided on the inner top surface of the fixing sleeve, and multiple sets of compression springs are provided and abut against the top end of the insertion rod. The compression spring provides sufficient elastic force, enabling the fixing sleeve to apply pressure to the top end of the insertion rod, ensuring a tight connection between the components, preventing loosening, enhancing the stability of the fixing sleeve, and improving the service life of the device.
[0014] This invention is further configured such that each of the multiple sets of limiting blocks is connected to a return spring at its top, and the bottom of each of the multiple sets of return springs is fixedly connected to the outer wall of the rotating sleeve. The design of the return spring ensures that the limiting blocks can return to their original positions after being subjected to pressure, avoiding displacement or damage caused by prolonged use, enhancing the stability of the rotating sleeve, and improving the reliability and durability of the device.
[0015] (III) Beneficial Effects
[0016] Compared with the prior art, this utility model provides a passion fruit vine training and binding device, which has the following beneficial effects:
[0017] 1. The limiting mechanism securely installs the rope loop through the cooperation of the base plate and the insertion rod, preventing the rope loop from moving or loosening during the binding process. The design of the limiting rod and the slider can effectively limit the binding rope, preventing the binding rope from becoming too loose and ensuring that the vines always maintain appropriate tension when binding, thereby effectively improving the efficiency and quality of the binding operation.
[0018] 2. The quick-release mechanism, through the cooperation of the snap-fit piece and the snap-fit slot, allows the rope loop to be quickly fixed on the insertion rod, avoiding the complicated disassembly and assembly process in traditional binding devices. The design of the compression spring and quick-release sleeve allows users to quickly replace the binding rope when needed. By rotating the sleeve, the snap-fit block and the abutment block are separated, and the limit on the quick-release sleeve is released, so that the binding rope can be quickly replaced, greatly improving the convenience and flexibility of operation.
[0019] 3. The positioning mechanism accurately positions the fixing sleeve and the insertion rod during insertion through the precise cooperation of the positioning block and the positioning groove, ensuring the stability of the equipment. During use, the positioning block can automatically return to its original position through the design of the push spring and the return spring, preventing operational errors caused by positional deviation. This design ensures the quick assembly and disassembly of the binding device, while ensuring that all components maintain the correct position during the binding process, thus improving the stability and service life of the equipment. Attached Figure Description
[0020] Figure 1 This is a schematic diagram of the overall structure of a passion fruit vine traction and binding device according to the present invention;
[0021] Figure 2 This is a schematic diagram of the disassembled structure of the limiting mechanism in this utility model;
[0022] Figure 3 This is a cross-sectional view of the quick-connect mechanism in this utility model;
[0023] Figure 4 This is a cross-sectional view of the rotating sleeve in this utility model;
[0024] Figure 5 This is a cross-sectional view of the limiting mechanism in this utility model.
[0025] In the diagram: 1. Handle; 2. Base plate; 3. Insert rod; 4. Rope loop; 5. Binding rope; 6. Buckle plate; 7. Slide groove; 8. Slider; 9. Limiting rod; 10. Compression spring; 11. Snap-fit piece; 12. Snap groove; 13. Quick-release sleeve; 14. Compression spring; 15. Abutment block; 16. Rotating sleeve; 17. Snap block; 18. Limiting block; 19. Limiting groove; 20. Limiting sleeve; 21. Push spring; 22. Movable rod; 23. Insertion hole; 24. Hexagonal block; 25. Hexagonal hole; 26. Positioning groove; 27. Positioning block; 28. Clearance groove; 29. Compression spring; 30. Return spring; 40. Fixing sleeve. Detailed Implementation
[0026] It should be noted that, unless otherwise specified, the embodiments and features described in this application can be combined with each other. The present invention will now be described in detail with reference to the accompanying drawings and embodiments.
[0027] It should be noted that, unless otherwise specified, all technical and scientific terms used in this application have the same meaning as commonly understood by one of ordinary skill in the art to which this application pertains.
[0028] In this utility model, unless otherwise stated, the orientations used, such as "up" and "down", usually refer to the direction shown in the accompanying drawings, or to the vertical, perpendicular, or gravitational direction; similarly, for ease of understanding and description, "left" and "right" usually refer to the left and right shown in the accompanying drawings; "inner" and "outer" refer to the inner and outer contours of each component itself, but the above directional terms are not used to limit this utility model.
[0029] Please see Figures 1-5 A passion fruit vine tying and binding device includes a handle 1 with a limiting mechanism. The limiting mechanism includes a base plate 2, an insert rod 3, a rope loop 4, a binding rope 5, a buckle plate 6, a groove 7, a slider 8, a limiting rod 9, and a pressure spring 10. The base plate 2 is fixed to the top of the handle 1, the insert rod 3 is fixed to the base plate 2, the rope loop 4 is sleeved on the outside of the insert rod 3, the binding rope 5 is wrapped around the outer wall of the rope loop 4, the buckle plate 6 is inserted into the outer wall of the insert rod 3, the groove 7 is located on the outside of the base plate 2 and the buckle plate 6, the slider 8 slides within multiple sets of grooves 7, the limiting rod 9 is connected to multiple sets of sliders 8, and multiple sets of pressure springs 10 are installed on the top surface of the multiple sets of sliders 8. A quick-connect mechanism is provided at the top of the insert rod 3. The connecting mechanism includes a fixed sleeve 40, a snap-fit piece 11, a slot 12, a quick-release sleeve 13, a compression spring 14, an abutment block 15, a rotating sleeve 16, and a locking block 17. The fixed sleeve 40 is located at the top of the insertion rod. Multiple sets of snap-fit pieces 11 are distributed on the inner wall of the fixed sleeve 40. Multiple sets of slots 12 are distributed on the outer wall of the insertion rod 3. The quick-release sleeve 13 slides inside the insertion rod 3. The two ends of the compression spring 14 are connected to the insertion sleeve and the quick-release sleeve 13, respectively. Multiple sets of abutment blocks 15 are installed on the outer wall of the quick-release sleeve 13 and are slidably connected to the insertion rod 3. The rotating sleeve 16 is rotatably installed on the outer wall of the fixed sleeve 40. Multiple sets of locking blocks 17 are distributed on the inner wall of the rotating sleeve 16 and are all slidably connected to the fixed sleeve 40.
[0030] The outer wall of the fixed sleeve 40 is provided with a positioning mechanism, which includes a limiting block 18, a limiting groove 19, a limiting sleeve 20 and a push spring 21. The limiting block 18 is provided with multiple sets that slide on the outer wall of the rotating sleeve 16, the limiting groove 19 is provided with multiple sets that are distributed on the outer wall of the fixed sleeve 40, the limiting sleeve 20 slides on the outer wall of the fixed sleeve 40, and the two ends of the push spring 21 are respectively connected to the limiting sleeve 20 and the fixed sleeve 40.
[0031] Both ends of the limiting rod 9 are equipped with movable rods 22, and multiple sets of sliders 8 are provided with insertion holes 23, in which the movable rods 22 are respectively inserted. The cooperation between the movable rods 22 and the sliders 8 allows the limiting rod 9 to slide stably within the sliders 8, while ensuring the limiting effect of the binding rope, preventing positional deviation or loosening during operation, and ensuring the stability and accuracy of the binding process.
[0032] The outer wall of the insertion rod 3 is provided with a hexagonal block 24, and the buckle plate 6 is provided with a hexagonal hole 25. The hexagonal block 24 is inserted into the hexagonal hole 25. The matching design of the hexagonal block 24 and the hexagonal hole 25 provides a firm connection, which enables the buckle plate 6 to be stably connected to the insertion rod 3, avoiding loosening or instability caused by an insecure connection during the binding process, and improving the stability and ease of operation of the device.
[0033] The top of the insertion rod 3 is provided with a positioning groove 26, and the inner top surface of the fixing sleeve 40 is provided with a positioning block 27. The cooperation between the positioning groove 26 and the positioning block 27 ensures the precise docking between the insertion rod 3 and the fixing sleeve 40, avoids deviations during the installation process, ensures the stability of the device, and makes the fixing of the binding rope more secure, thereby improving the accuracy and reliability of the equipment.
[0034] The fixed sleeve 40 is provided with relief grooves 28, and multiple sets of relief grooves 28 are provided and connected to each other. The design of the relief grooves 28 provides sufficient space, allowing the fixed sleeve 40 to be flexibly adjusted during installation, ensuring smooth installation of each component, and reducing the installation difficulty caused by component friction or jamming, thereby improving the adaptability and flexibility of the equipment.
[0035] A compression spring 29 is provided on the inner top surface of the fixing sleeve 40. Multiple compression springs 29 are provided and abut against the top end of the insertion rod 3. The compression spring 29 ensures that the fixing sleeve 40 can maintain a tight connection with the insertion rod 3 through elastic action, avoiding loosening or displacement, enhancing the stability of the fixing sleeve, ensuring that the device can maintain good performance during long-term use, and improving the durability of the device.
[0036] Each of the multiple sets of limiting blocks 18 has a return spring 30 connected to its top, and the bottom of each set of return springs 30 is fixedly connected to the outer wall of the rotating sleeve 16. The function of the return spring 30 is to automatically return to its original position when the limiting block 18 is subjected to external force, preventing the position of the limiting block 18 from shifting or becoming unstable, ensuring that the rotating sleeve 16 can run smoothly during operation, and improving the reliability and long-term stability of the device.
[0037] In this embodiment, when the rope loop 4 needs to be installed, the rope loop 4 is fitted onto the outside of the insertion rod 3. Then, the buckle plate 6 is inserted into the hexagonal block 24 through the hexagonal hole 25 to limit one end of the rope loop 4. At the same time, the movable rods 22 at both ends of the limiting rod 9 are inserted into the insertion holes 23 respectively. Then, the fixing sleeve 40 is inserted into the insertion rod 3. The positioning block 27 is positioned and inserted into the positioning groove 26. Multiple sets of snap-fit pieces 11 are engaged in the slot 12, and multiple sets of compression springs are applied by the top of the insertion rod 3. 29 is squeezed, and the insertion rod 3 is pushed by multiple sets of compression springs 29 to make the snap-fit piece 11 abut against the snap-fit groove 12, so that the bottom of the fixing sleeve 40 presses and fixes the buckle plate 6. Multiple sets of snap-fit blocks 17 abut against the abutting block 15, so that the quick-release sleeve 13 squeezes the compression spring 14 and limits the quick-release sleeve 13. When it is necessary to tie the vines, the vines are wrapped and tied by the tying rope 5. The tying rope 5 is limited by the limiting rod 9 to prevent the tying rope 5 from being too loose.
[0038] More specifically, when the rope loop 4 needs to be replaced, the push limit sleeve 20 is pushed to compress the push spring 21, releasing the contact with the multiple sets of limit blocks 18. The multiple sets of reset springs 30 pull the limit blocks 18 to disengage them from the limit groove 19, releasing the limit on the rotating sleeve 16. The rotating sleeve 16 is rotated to disengage the multiple sets of locking blocks 17 from the abutment block 15, releasing the limit on the quick-release sleeve 13. The compression spring 14 is used to reset and push the quick-insertion sleeve so that its top end abuts against the multiple sets of locking pieces 11 and disengages it from the locking groove 12, releasing the locking of the insertion rod 3. The multiple sets of compression springs 29 are used to reset and push the fixing sleeve 40 to disengage from the insertion rod 3. Then the buckle plate 6 and the hexagonal block 24 are separated, so that the rope loop 4 can be disassembled and replaced.
[0039] In summary, during the use or operation of the overall equipment: when the rope loop 4 needs to be installed, the rope loop 4 is fitted onto the outside of the insertion rod 3. Then, the buckle plate 6 is inserted into the hexagonal block 24 through the hexagonal hole 25 to limit one end of the rope loop 4. At the same time, the movable rods 22 at both ends of the limiting rod 9 are inserted into the insertion holes 23 respectively. Then, the fixing sleeve 40 is inserted into the insertion rod 3. The positioning block 27 is inserted into the positioning groove 26 for positioning. Multiple sets of snap-fit pieces 11 are engaged in the slot 12 and the top of the insertion rod 3 is used to engage multiple... The compression springs 29 compress the stick, and the insertion rod 3 is pushed by the compression springs 29 to make the snap-fit piece 11 abut against the snap-fit groove 12, so that the bottom of the fixing sleeve 40 presses against the buckle plate 6. The quick-release sleeve 13 compresses the compression spring 14 and limits the quick-release sleeve 13. When it is necessary to tie the vines, the vines are wrapped and tied by the tying rope 5. The tying rope 5 is limited by the limiting rod 9 to prevent the tying rope 5 from becoming too loose.
[0040] When the rope loop 4 needs to be replaced, push the limiting sleeve 20 to compress the push spring 21, releasing the contact with the multiple sets of limiting blocks 18. The multiple sets of reset springs 30 pull the limiting blocks 18 to disengage them from the limiting grooves 19, releasing the limitation on the rotating sleeve 16. Rotate the rotating sleeve 16 to disengage the multiple sets of locking blocks 17 from the abutment blocks 15, releasing the limitation on the quick-release sleeve 13. The compression spring 14 resets and pushes the quick-insertion sleeve so that its top end abuts against the multiple sets of locking pieces 11 and disengages it from the locking grooves 12, releasing the locking of the insertion rod 3. The multiple sets of compression springs 29 reset and push the fixing sleeve 40 to disengage from the insertion rod 3. Then, separate the buckle plate 6 from the hexagonal block 24, so that the rope loop 4 can be disassembled and replaced.
[0041] Of all the solutions mentioned above, those involving the connection between two components can be selected according to the actual situation, such as welding, bolt and nut connection, bolt or screw connection, or other known connection methods, which will not be elaborated here. For all the fixed connections mentioned above, welding is preferred. Although embodiments of this utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and variations can be made to these embodiments without departing from the principles and spirit of this utility model. The scope of this utility model is defined by the appended claims and their equivalents.
Claims
1. A guava vine pulling and binding device comprising a handle (1), characterized in that: The handle (1) is provided with a limiting mechanism, which includes a base plate (2), a plug rod (3), a rope loop (4), a binding rope (5), a buckle plate (6), a slide groove (7), a slider (8), a limiting rod (9), and a pressure spring (10). The base plate (2) is fixed to the top of the handle (1), the plug rod (3) is fixed to the base plate (2), the rope loop (4) is sleeved on the outside of the plug rod (3), the binding rope (5) is wrapped around the outer wall of the rope loop (4), and the buckle plate (6) is inserted into the outside of the plug rod (3). The wall, the sliding groove (7) is set on the outside of the base plate (2) and the buckle plate (6), the slider (8) slides in the multiple sets of sliding grooves (7), the limiting rod (9) is connected to the multiple sets of sliders (8), the pressure spring (10) is set in multiple sets and installed on the top surface of the multiple sets of sliders (8), the top of the insertion rod (3) is provided with a quick-connect mechanism, the quick-connect mechanism includes a fixed sleeve (40), a snap-fit piece (11), a slot (12), a quick-release sleeve (13), a compression spring (14), an abutment block (15), and a rotating sleeve (16). 16) and the locking block (17), the fixing sleeve (40) is set at the top of the insertion rod (3), the locking piece (11) is provided in multiple sets distributed on the inner wall of the fixing sleeve, the locking groove (12) is provided in multiple sets distributed on the outer wall of the insertion rod (3), the quick release sleeve (13) slides in the insertion rod (3), the compression spring (14) is connected to the insertion sleeve and the quick release sleeve (13) at both ends respectively, the abutment block (15) is provided in multiple sets installed on the outer wall of the quick release sleeve (13) and slidably connected to the insertion rod (3), the rotating sleeve (16) is rotated and installed. On the outer wall of the fixed sleeve, there are multiple sets of locking blocks (17) distributed on the inner wall of the rotating sleeve (16) and all of them are slidably connected to the fixed sleeve. The top of the insertion rod (3) is provided with a positioning groove (26). The top surface of the fixed sleeve is provided with a positioning block (27). The fixed sleeve is provided with a clearance groove (28). There are multiple sets of clearance grooves (28) and they are connected to multiple sets respectively. The top surface of the fixed sleeve is provided with a compression spring (29). There are multiple sets of compression springs (29) and they abut against the top of the insertion rod (3).
2. A guava vine pulling binder according to claim 1, characterized in that: The outer wall of the fixed sleeve is provided with a positioning mechanism, which includes a limiting block (18), a limiting groove (19), a limiting sleeve (20), and a push spring (21). The limiting block (18) is provided with multiple sets that slide on the outer wall of the rotating sleeve (16), the limiting groove (19) is provided with multiple sets that are distributed on the outer wall of the fixed sleeve, the limiting sleeve (20) slides on the outer wall of the fixed sleeve, and the two ends of the push spring (21) are respectively connected to the limiting sleeve (20) and the fixed sleeve.
3. A passion fruit vine pulling binder according to claim 2, characterised in that: Both ends of the limiting rod (9) are provided with movable rods (22), and each of the multiple sets of sliders (8) is provided with a socket (23), and the multiple sets of movable rods (22) are respectively inserted into the socket (23).
4. A passionfruit vine tie-in device according to claim 3, characterised in that: The outer wall of the insert rod (3) is provided with a hexagonal block (24), and the buckle plate (6) is provided with a hexagonal hole (25), and the hexagonal block (24) is inserted into the hexagonal hole (25).
5. A guava vine pulling binder according to claim 4, characterized by a plurality of sets of Each of the limiting blocks (18) is connected to a reset spring (30) at its top end, and the bottom ends of the multiple sets of reset springs (30) are fixedly connected to the outer wall of the rotating sleeve (16).