A tent pole assembly
By using the intermittent contraction and threaded connection of the positioning block, limit block and other combined structures in the tent pole assembly, the problems of inconvenient positioning and finger pinching of existing tent poles are solved, achieving stability and ease of operation.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUANGZHOU LANGRUN TENT CO LTD
- Filing Date
- 2025-06-12
- Publication Date
- 2026-06-12
AI Technical Summary
The existing tent poles require pressing a pin to position them, which is inconvenient and can easily cause fingers to be pinched.
It adopts a combination structure of positioning block, limit block, fixing plate, positioning ring, connecting plate, linkage rod and threaded ring. The stable movement of the positioning block is achieved through intermittent contraction and threaded connection, avoiding direct pressing of the pin.
The positioning process has been simplified, avoiding the risk of fingers being pinched, while also improving the stability of the tent.
Smart Images

Figure CN224351713U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of tent accessories, and in particular to a tent pole assembly. Background Technology
[0002] The tent poles are the core skeletal structure supporting the tent. They are typically composed of multiple detachable or foldable poles used to fix the tent's shape, enhance stability, and resist external forces such as wind and rain. Their design directly affects the ease of setting up the tent, its wind resistance, and its overall strength.
[0003] In existing technology, the structure of a foldable tent frame typically includes four poles and a top support pole. Side support poles are positioned between adjacent poles, and each pole has a sliding seat. The top and side support poles are hinged to the sliding seats, which slide along the poles, allowing the tent to be unfolded and folded. The sliding seat is commonly positioned using a pin, where a pin is inserted inside the pole and passes through a positioning hole in the sliding seat from the inside out. Each time the sliding seat is positioned, the pin must be pressed down until it passes through the outer sleeve of the sliding seat, which requires significant force and is inconvenient to operate. Furthermore, pressing the pin requires considerable force, and carelessness can easily result in fingers being pinched. Utility Model Content
[0004] In view of this, the present invention provides a tent pole frame assembly, the main technical problem to be solved is that: each time positioning, the pin must be pressed down until the sliding seat cover can pass through, which is inconvenient to operate due to the large force; when pressing the pin, due to the large force, it is easy to accidentally pinch the fingers.
[0005] To achieve the above objectives, the present invention adopts the following technical solution: a tent pole assembly, including a sleeve pole, a telescopic rod is provided inside the sleeve pole, the outer wall of the telescopic rod is provided with positioning grooves, and there are multiple positioning grooves. The outer wall of the sleeve pole is provided with telescopic grooves, and there are multiple telescopic grooves. Positioning blocks are provided inside the multiple telescopic grooves. Linkage grooves are provided inside the positioning blocks. Limiting blocks are fixedly connected to the upper and lower surfaces of the positioning blocks. Fixing plates are provided on the outer wall of the sleeve pole, and there are multiple fixing plates. Limiting grooves are provided inside the fixing plates. Limiting blocks are located inside the limiting grooves. A positioning ring is sleeved on the outer wall of the sleeve pole. A connecting plate is fixedly connected to the bottom of the positioning ring, and there are multiple connecting plates. Two connecting plates in the same group are connected by a linkage rod, which passes through the linkage groove. A threaded ring is threadedly connected to the outer wall of the sleeve pole, and the threaded ring is located at the upper end of the positioning ring.
[0006] By adopting the above technical solution, the situation of fingers being pinched and injured when pressing the pin due to excessive force can be avoided.
[0007] As a further description of the above technical solution:
[0008] The inner wall of the sleeve rod is provided with a moving groove, and there are multiple moving grooves. The bottom of the outer wall of the telescopic rod is fixedly connected with a moving block, and there are multiple moving blocks. The multiple moving blocks are respectively located inside the multiple moving grooves.
[0009] By adopting the above technical solution, the extension and retraction process of the telescopic rod can be limited, ensuring that the positioning block is always located on the moving path of multiple positioning slots.
[0010] As a further description of the above technical solution:
[0011] One end of the positioning block is located inside the positioning groove, and the end of the positioning block inside the positioning groove is triangular. The cross-section of the limiting block and the limiting groove is T-shaped. Multiple fixing plates are grouped in pairs, and the fixing plates in the same group are distributed at the upper and lower ends of the telescopic groove. Multiple connecting plates are grouped in pairs, and the positioning block is located in the middle of the two connecting plates in the same group.
[0012] By adopting the above technical solution, the extension and retraction path of the positioning block can be limited, thus maintaining the stability of the positioning block during extension and retraction.
[0013] As a further description of the above technical solution:
[0014] The inner wall of the positioning ring is fixedly connected to a slider, and there are multiple sliders. The outer wall of the sleeve is provided with a groove, and there are multiple grooves. The multiple sliders are respectively located inside the multiple grooves.
[0015] By adopting the above technical solution, the threaded contact between the inner wall of the positioning ring and the outer wall of the sleeve is avoided, while ensuring the stability of the positioning ring during movement.
[0016] As a further description of the above technical solution:
[0017] The outer wall of the threaded ring is provided with protrusions, and there are multiple protrusions.
[0018] By adopting the above technical solution, it is convenient to rotate the threaded ring through the protrusion.
[0019] As a further description of the above technical solution:
[0020] A baffle is fixedly connected to the outer wall of the sleeve rod. The baffle is located at the top of the sleeve rod, and the threaded ring and positioning ring are located between the baffle and the upper plurality of fixed plates.
[0021] By adopting the above technical solution, it is possible to prevent the threaded ring from falling off the top of the sleeve during the upward movement process.
[0022] As a further description of the above technical solution:
[0023] The bottom of the sleeve rod is provided with an installation groove, and an installation block is threadedly connected to the inside of the installation groove. A base is fixedly connected to the bottom of the installation block, and multiple anchors are provided at the bottom of the base.
[0024] By adopting the above technical solution, when fixing the telescopic poles, the anchor points can be inserted into the ground to keep the poles and telescopic poles vertical, thereby improving the stability of the tent.
[0025] As a further description of the above technical solution:
[0026] The top of the telescopic rod has a threaded hole, and multiple positioning grooves are evenly distributed.
[0027] By adopting the above technical solution, it is possible to connect with the corresponding threaded rod installed on the top of the tent.
[0028] By employing the above technical solution, the tent pole assembly of this utility model has at least the following beneficial effects:
[0029] 1. Compared with existing technologies, this tent pole assembly, by setting a positioning block, a limiting block, a fixing plate, a positioning ring, a connecting plate, a connecting rod, and a threaded ring, initially retracts the telescopic pole inside the sleeve pole, and the triangular end of the positioning block is located in the uppermost positioning groove. Under the limiting action of multiple fixing plates, when the telescopic pole is pulled upward, the positioning block first moves outward a small distance. At the same time, because the connecting rod is located at the lowest point of the linkage groove inside the positioning block, and under the limiting action of the limiting blocks set on the upper and lower surfaces of the positioning block and the limiting groove in the fixing plate, The connecting plate and positioning ring are moved up a short distance. During the upward pulling of the telescopic rod, the positioning block moves along the direction of the positioning groove, exhibiting intermittent contraction. After the telescopic rod is pulled out to the specified length, the threaded ring is rotated, causing the threaded ring to move down along the upper end of the outer wall of the sleeve rod. Finally, the bottom of the threaded ring is pressed tightly together with the top of the positioning ring. Using the same principle, the positioning block cannot enter the interior of the corresponding positioning groove, and thus cannot extend or retract. This keeps the height of the telescopic rod constant, making operation simple and avoiding finger injuries caused by excessive force when pressing the pin.
[0030] 2. Compared with the prior art, this tent pole assembly, by setting up mounting blocks, bases, anchors, and threaded holes, installs anchors and threaded holes at the bottom of the pole. When fixing the pole, the anchors can be inserted into the ground to keep the pole and telescopic pole vertical, thereby improving the stability of the tent. The telescopic groove at the top of the pole can be connected to the corresponding threaded pole set at the top of the tent. Attached Figure Description
[0031] Figure 1 This is a first-view overall structural diagram of a tent pole assembly proposed in this utility model;
[0032] Figure 2 This utility model proposes a tent pole assembly. Figure 1 Enlarged schematic diagram of section B in the diagram;
[0033] Figure 3 This is a schematic diagram of the outer wall structure of the sleeve pole of a tent pole frame assembly proposed in this utility model;
[0034] Figure 4 This is a schematic diagram of the telescopic pole structure of a tent pole frame assembly proposed in this utility model;
[0035] Figure 5 This is a schematic diagram showing the positions of the threaded ring and positioning ring of a tent pole assembly proposed in this utility model;
[0036] Figure 6 This is a schematic diagram of the positioning ring, connecting plate, and linkage rod of a tent pole frame assembly proposed in this utility model;
[0037] Figure 7 This is a schematic diagram of the positioning block structure of a tent pole assembly proposed in this utility model;
[0038] Figure 8 This is a schematic diagram of the base structure of a tent pole frame assembly proposed in this utility model;
[0039] Figure 9 This is a schematic diagram of the internal structure of a tent pole assembly proposed in this utility model;
[0040] Figure 10 This utility model proposes a tent pole assembly. Figure 8 Enlarged schematic diagram of structure A in the middle.
[0041] Legend:
[0042] 1. Sleeve rod; 2. Telescopic rod; 3. Positioning groove; 4. Telescopic groove; 5. Positioning block; 6. Linkage groove; 7. Limiting block; 8. Fixing plate; 9. Limiting groove; 10. Positioning ring; 11. Connecting plate; 12. Linkage rod; 13. Threaded ring; 14. Slider; 15. Slide groove; 16. Moving groove; 17. Moving block; 18. Protrusion; 19. Baffle; 20. Mounting groove; 21. Mounting block; 22. Base; 23. Anchor nail; 24. Threaded hole. Detailed Implementation
[0043] Reference Figure 1-10This utility model provides a tent pole frame assembly: including a sleeve pole 1, a telescopic pole 2 inside the sleeve pole 1, multiple positioning grooves 3 on the outer wall of the telescopic pole 2, multiple telescopic grooves 4 on the outer wall of the sleeve pole 1, positioning blocks 5 inside each of the multiple telescopic grooves 4, linkage grooves 6 inside each positioning block 5, limit blocks 7 fixedly connected to the upper and lower surfaces of the positioning blocks 5, multiple fixing plates 8 on the outer wall of the sleeve pole 1, limit grooves 9 inside each fixing plate 8, and limit blocks 7 located inside the limit grooves 9, positioning rings 10 fitted on the outer wall of the sleeve pole 1, connecting plates 11 fixedly connected to the bottom of the positioning rings 10, multiple connecting plates 11, two connecting plates 11 in the same group connected by a linkage rod 12 passing through the linkage grooves 6, and a threaded ring 13 threadedly connected to the outer wall of the sleeve pole 1, the threaded ring 13 located at the upper end of the positioning ring 10. In the initial state, the telescopic pole 2 is retracted inside the sleeve pole 1, and... Furthermore, the triangular end of the positioning block 5 is located in the uppermost positioning groove 3. Under the limiting action of multiple fixing plates 8, when the telescopic rod 2 is pulled upward, the positioning block 5 first moves outward a short distance. At the same time, because the connecting rod 12 is located at the lowest point of the linkage groove 6 inside the positioning block 5, and under the limiting action of the limiting blocks 7 set above and below the positioning block 5 and the limiting grooves 9 in the fixing plates 8, the connecting plate 11 and the positioning ring 10 move upward a short distance. During the process of pulling the telescopic rod 2 upward, the positioning block 5 moves along the direction of the positioning groove 3, exhibiting intermittent contraction. After the telescopic rod 2 is pulled out to the specified length, the threaded ring 13 is rotated, causing the threaded ring 13 to move downward along the upper end of the outer wall of the sleeve rod 1. The bottom of the threaded ring 13 is pressed tightly together with the top of the positioning ring 10. In the same way, the positioning block 5 cannot enter the interior of the corresponding positioning groove 3 and cannot perform the telescopic process. Thus, the height of the telescopic rod 2 is kept constant, the operation is simple, and the situation of fingers being pinched due to excessive force when pressing the pin is avoided.
[0044] The inner wall of the sleeve rod 1 is provided with a moving groove 16, and there are multiple moving grooves 16. The bottom of the outer wall of the telescopic rod 2 is fixedly connected with a moving block 17, and there are multiple moving blocks 17. The multiple moving blocks 17 are located inside the multiple moving grooves 16 respectively, which can limit the extension and retraction process of the telescopic rod 2 and ensure that the positioning block 5 is always located on the moving path of the multiple positioning grooves 3.
[0045] One end of the positioning block 5 is located inside the positioning groove 3. The end of the positioning block 5 inside the positioning groove 3 is triangular. The cross-section of the limiting block 7 and the limiting groove 9 is T-shaped. Multiple fixing plates 8 are grouped in pairs. The fixing plates 8 in the same group are distributed at the upper and lower ends of the telescopic groove 4. Multiple connecting plates 11 are grouped in pairs. The positioning block 5 is located in the middle of the two connecting plates 11 in the same group.
[0046] The inner wall of the positioning ring 10 is fixedly connected with a slider 14, and there are multiple sliders 14. The outer wall of the sleeve rod 1 is provided with a groove 15, and there are multiple grooves 15. Multiple sliders 14 are located inside multiple grooves 15 respectively. The outer wall of the threaded ring 13 is provided with a protrusion 18, and there are multiple protrusions 18, to avoid the threaded contact between the inner wall of the positioning ring 10 and the outer wall of the sleeve rod 1, and at the same time to ensure the stability of the positioning ring 10 when it moves.
[0047] A baffle 19 is fixedly connected to the outer wall of the sleeve rod 1 to prevent the threaded ring 13 from falling off the top of the sleeve rod 1 during the upward movement. The baffle 19 is located at the top of the sleeve rod 1, and the threaded ring 13 and the positioning ring 10 are located between the baffle 19 and the upper multiple fixing plates 8.
[0048] The bottom of the telescopic pole 1 has an installation groove 20, and the installation groove 20 is threadedly connected to an installation block 21. The bottom of the installation block 21 is fixedly connected to a base 22, and the bottom of the base 22 is provided with anchors 23. There are multiple anchors 23. The top of the telescopic pole 2 has a threaded hole 24, and multiple positioning grooves 3 are evenly distributed. The anchors 23 and threaded holes 24 are installed at the bottom of the telescopic pole 1. When fixing the telescopic pole 1, the anchors 23 can be inserted into the ground to keep the telescopic pole 1 and the telescopic pole 2 vertical, thereby improving the stability of the tent. The threaded hole 24 at the top of the telescopic pole 1 can be connected to the corresponding threaded pole at the top of the tent.
[0049] Working principle: Anchor pins 23 and threaded holes 24 are installed at the bottom of the telescopic pole 1. When using the telescopic pole 1, the anchor pins 23 can be inserted into the ground to maintain the verticality of the telescopic pole 1 and the telescopic pole 2, improving the stability of the tent. The threaded hole 24 at the top of the telescopic pole 1 can connect with the corresponding threaded rod installed at the top of the tent. Initially, the telescopic pole 2 is retracted inside the telescopic pole 1, and the triangular end of the positioning block 5 is located in the uppermost positioning groove 3. Under the limiting action of multiple fixing plates 8, when the telescopic pole 2 is pulled upwards, the positioning block 5 first moves outwards a small distance. Simultaneously, because the connecting rod 12 is located at the lowest point of the linkage groove 6 inside the positioning block 5, and on the positioning block 5... Under the limiting action of the limiting block 7 and the limiting groove 9 in the fixing plate 8, the connecting plate 11 and the positioning ring 10 move up a small distance. During the upward pulling of the telescopic rod 2, the positioning block 5 moves along the direction of the positioning groove 3, exhibiting intermittent contraction. After the telescopic rod 2 is pulled out to the specified length, the threaded ring 13 is rotated, causing the threaded ring 13 to move down along the upper end of the outer wall of the sleeve rod 1. The bottom of the threaded ring 13 is pressed tightly against the top of the positioning ring 10. For the same reason, the positioning block 5 cannot enter the interior of the corresponding positioning groove 3 and cannot perform the telescopic process. This keeps the height of the telescopic rod 2 constant, making the operation simple and avoiding the situation where fingers are pinched due to excessive force when pressing the pin.
[0050] Finally, it should be noted that the above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Although the present 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 the present utility model should be included within the protection scope of the present utility model.
Claims
1. A tent pole assembly, comprising a pole sleeve (1), characterized in that: The sleeve rod (1) has a telescopic rod (2) inside. The outer wall of the telescopic rod (2) has a positioning groove (3), and there are multiple positioning grooves (3). The outer wall of the sleeve rod (1) has a telescopic groove (4), and there are multiple telescopic grooves (4). Each telescopic groove (4) has a positioning block (5) inside. The positioning block (5) has a linkage groove (6) inside. Limiting blocks (7) are fixedly connected to the upper and lower surfaces of the positioning block (5). The outer wall of the sleeve rod (1) has a fixing plate (8), and there are multiple fixing plates (8). The fixed plate (8) has a limiting groove (9) inside, the limiting block (7) is located inside the limiting groove (9), the outer wall of the sleeve rod (1) is fitted with a positioning ring (10), the bottom of the positioning ring (10) is fixedly connected to a connecting plate (11), and there are multiple connecting plates (11). Two connecting plates (11) in the same group are connected by a connecting rod (12), the connecting rod (12) passes through the linkage groove (6), and the outer wall of the sleeve rod (1) is threadedly connected to a threaded ring (13), the threaded ring (13) is located at the upper end of the positioning ring (10).
2. The tent pole assembly according to claim 1, characterized in that: The inner wall of the sleeve rod (1) is provided with a moving groove (16), and there are multiple moving grooves (16). The bottom of the outer wall of the telescopic rod (2) is fixedly connected with a moving block (17), and there are multiple moving blocks (17). The multiple moving blocks (17) are respectively located inside the multiple moving grooves (16).
3. A tent pole assembly according to claim 1, characterized in that: One end of the positioning block (5) is located inside the positioning groove (3). The end of the positioning block (5) inside the positioning groove (3) is triangular. The cross-section of the limiting block (7) and the limiting groove (9) is T-shaped. Multiple fixing plates (8) are grouped in pairs. The fixing plates (8) in the same group are distributed at the upper and lower ends of the telescopic groove (4). Multiple connecting plates (11) are grouped in pairs. The positioning block (5) is located in the middle of the two connecting plates (11) in the same group.
4. A tent pole assembly according to claim 1, characterized in that: The inner wall of the positioning ring (10) is fixedly connected with a slider (14), and there are multiple sliders (14). The outer wall of the sleeve rod (1) is provided with a groove (15), and there are multiple grooves (15). The multiple sliders (14) are respectively located inside the multiple grooves (15).
5. A tent pole assembly according to claim 1, characterized in that: The outer wall of the threaded ring (13) is provided with protrusions (18), and there are multiple protrusions (18).
6. A tent pole assembly according to claim 1, characterized in that: A baffle (19) is fixedly connected to the outer wall of the sleeve (1). The baffle (19) is located at the top of the sleeve (1). The threaded ring (13) and the positioning ring (10) are located between the baffle (19) and the upper plurality of fixing plates (8).
7. A tent pole assembly according to claim 1, characterized in that: The bottom of the sleeve rod (1) is provided with an installation groove (20), and the installation groove (20) is internally threaded with an installation block (21). The bottom of the installation block (21) is fixedly connected with a base (22), and the bottom of the base (22) is provided with anchors (23), and there are multiple anchors (23).
8. A tent pole assembly according to claim 1, characterized in that: The top of the telescopic rod (2) is provided with a threaded hole (24), and multiple positioning grooves (3) are evenly distributed.