A cable guide device with flexible adjustment
The rotary sliding design using self-locking bolts and angle discs solves the problem of fixing the angle of the cable guide device, enabling flexible adjustment and quick locking, thus improving construction efficiency and safety.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SECOND ENG CO OF LAOLING LAING LAING (SHANDONG) CONSTR GRP CO LTD
- Filing Date
- 2025-06-23
- Publication Date
- 2026-06-23
Smart Images

Figure CN224401045U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of cabling technology, and in particular to a cable guiding device with flexible adjustment. Background Technology
[0002] In the cabling process during building construction, to ensure the standardization and safety of cable laying, professional guiding devices are needed to accurately guide and reliably lock the cables. These devices allow the cables to fit closely to the pre-set path and key locations of the building, effectively preventing cables from becoming loose, misaligned, or interfering with the building structure, thus ensuring cabling quality and overall construction efficiency. However, in building cabling projects, existing cable guiding devices are often fixed with bolts, and their guiding angle is locked after installation. With the angle limited, the guiding device cannot meet the adjustment needs during construction when faced with design changes or changes in site conditions. If the cable route needs to be adjusted, the guiding device located at key nodes often cannot respond flexibly and can only be solved by disassembling and reassembling, which increases costs and extends the construction period. Summary of the Invention
[0003] This utility model relates to a cable guiding device with flexible adjustment. The device's angle can be adjusted by rotating the angle plate, guide hook, and movable hook during installation using a self-locking bolt. This allows the guiding device's direction to be adapted to actual on-site requirements. When the angle plate, along with the guide hook and movable hook, rotates to adjust the angle, the self-locking bolt and self-locking slider work together to lock the angle when the rotation stops. This allows the guiding device to be adjusted 360 degrees while quickly locking the adjusted angle, facilitating stable cable guidance.
[0004] In a first aspect, this utility model provides a cable guiding device with flexible adjustment, specifically comprising: a fixed base, wherein fixed screw holes are provided at both ends of the front side of the fixed base; a locking base is fixedly installed at the center of the front side of the fixed base; a guide groove is provided inside the locking base; a self-locking bolt is rotatably installed at the rear end of the guide groove, and the front end of the self-locking bolt protrudes from the locking base; a self-locking slider is slidably installed inside the guide groove; an angle plate is fixedly installed at the front end of the self-locking bolt; a guide hook is fixedly installed on the front side of the angle plate; an arc-shaped groove is provided inside the guide hook, and a movable hook is slidably installed inside the arc-shaped groove; a limit block is fixedly installed at the outer end of the movable hook; and a latching post is fixedly installed on the outer circumference of the limit block.
[0005] Furthermore, the inner end of the movable hook is embedded with one end of a restoring spring; the other end of the restoring spring is embedded inside the guide hook.
[0006] Furthermore, the guide groove has a ten-sided groove structure; the self-locking slider has a ten-sided prism structure.
[0007] Furthermore, the self-locking slider is connected to the self-locking bolt via threads; the angle plate has a disc-shaped structure; the guide hook has a J-shaped structure; and the movable hook has an arc-shaped structure.
[0008] Furthermore, when the movable hook is not retracted into the arc-shaped groove of the guide hook, the movable hook, the guide hook, and the limiting block will form a U-shaped structure.
[0009] Furthermore, when the self-locking bolt rotates with the self-locking slider, the self-locking bolt converts the rotational force into a sliding force and provides it to the self-locking slider.
[0010] Furthermore, the self-locking slider will slide along the guide groove after being indirectly provided by the self-locking bolt.
[0011] This utility model provides a cable guiding device with flexible adjustment, which has the following beneficial effects:
[0012] 1. In the wiring operations of building construction, this guiding device can achieve multi-angle rotation adjustment by rotating the self-locking bolt, which can be linked with components such as the angle plate, guide hook and movable hook. This design allows the device to flexibly adapt to the actual needs of the site and accurately adjust the cable routing.
[0013] 2. When the angle plate drives the guide hook and the movable hook to rotate to the target angle, the self-locking bolt and the self-locking slider work together to quickly lock the current angle, ensuring that the device can achieve stepless adjustment and stable locking within a 360-degree range, thereby providing reliable guiding support for the cable and meeting the guiding needs of different cable routes;
[0014] 3. The movable hook slides into the arc-shaped groove of the guide hook to form an openable guide U-shaped part. During operation, the U-shaped part can be quickly opened by simply sliding the movable hook, making it easy for the cable to be inserted. After the cable is inserted, the direction and force of the cable push are insufficient to make the movable hook move along the arc-shaped groove. Therefore, it can simplify the cable installation process and effectively prevent the cable from slipping, taking into account both the convenience of operation and the stability of the limit. Attached Figure Description
[0015] To more clearly illustrate the technical solutions of the embodiments of this utility model, the accompanying drawings of the embodiments will be briefly described below.
[0016] The accompanying drawings described below are only related to some embodiments of the present invention and are not intended to limit the scope of the present invention.
[0017] In the attached diagram:
[0018] Figure 1A schematic diagram of the overall structure of this utility model is shown;
[0019] Figure 2 This diagram shows the overall disassembled structure of the present invention.
[0020] Figure 3 A schematic diagram of the guide hook half-section structure of this utility model is shown;
[0021] Figure 4 This diagram shows the structure of the self-locking slider in the unmoved state of this utility model;
[0022] Figure 5 A schematic diagram of the self-locking slider movement state structure of this utility model is shown;
[0023] List of reference numerals
[0024] 1. Fixed base; 2. Fixed screw hole; 3. Locking base; 4. Guide groove; 5. Self-locking bolt; 6. Self-locking slider; 7. Angle plate; 8. Guide hook; 9. Movable hook; 10. Limit block; 11. Actuating column; 12. Returning spring. Detailed Implementation
[0025] To make the objectives, technical solutions, and advantages of the embodiments of this utility model clearer, the technical solutions of the embodiments of this utility model will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some, not all, of the embodiments of this utility model. Based on the described embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this utility model.
[0026] Please refer to Figures 1 to 5 Example 1:
[0027] This utility model proposes a cable guiding device with flexible adjustment, including: a fixed base 1, with fixed screw holes 2 at both ends of the front side of the fixed base 1; a locking base 3 fixedly installed at the center of the front side of the fixed base 1; a guide groove 4 is provided inside the locking base 3; a self-locking bolt 5 is rotatably installed at the rear end of the guide groove 4, and the front end of the self-locking bolt 5 protrudes from the locking base 3; a self-locking slider 6 is slidably installed inside the guide groove 4; an angle plate 7 is fixedly installed at the front end of the self-locking bolt 5; a guide hook 8 is fixedly installed on the front side of the angle plate 7; an arc-shaped groove is provided inside the guide hook 8, and a movable hook 9 is slidably installed inside the arc-shaped groove; a limit block 10 is fixedly installed at the outer end of the movable hook 9; a latching post 11 is fixedly installed on the outer circumference of the limit block 10. The angle of the angle plate 7, guide hook 8 and movable hook 9 can be rotated and adjusted by rotating the self-locking bolt 5, so that the direction of this guiding device can be adjusted according to the actual use requirements on site.
[0028] In Example 2, based on Example 1, one end of the restoring spring 12 is embedded in the inner end of the movable hook 9; the other end of the restoring spring 12 is embedded in the guide hook 8; the guide groove 4 has a ten-sided groove structure; the self-locking slider 6 has a ten-sided prism structure; the self-locking slider 6 is also connected to the self-locking bolt 5 by threads; the angle disc 7 has a disc-shaped structure; the guide hook 8 has a J-shaped structure; the movable hook 9 has an arc-shaped structure. When the angle disc 7 rotates with the guide hook 8 and the movable hook 9 to adjust the angle, the self-locking bolt 5 and the self-locking slider 6 will cooperate to lock the angle when the angle disc 7 stops rotating, thus enabling the guide device to adjust the angle to 360 degrees. While adjusting the angle by 10 degrees, the adjusted angle can be quickly locked, facilitating stable guidance of the cable. The fixing base 1 is fixed in a suitable position on the building by the bolt and the fixing screw hole 2. When installing the cable, the latching column 11 can be pried open, so that the movable hook 9 moves inward along the arc groove of the guide hook 8 and retracts into the arc groove, opening the U-shaped part composed of the movable hook 9 and the guide hook 8, making it easy to put the cable into the U-shaped part. Then, the pressure on the movable hook 9 is released, so that it returns to the locked state of the U-shaped part under the action of the return spring 12, thereby using the U-shaped part to guide the cable.
[0029] In Example 3, based on Example 2, when the movable hook 9 is not retracted into the arc-shaped groove of the guide hook 8, the movable hook 9, the guide hook 8, and the limiting block 10 form a U-shaped structure. When the self-locking bolt 5 rotates with the self-locking slider 6, the self-locking bolt 5 converts the rotational force into a sliding force and provides it to the self-locking slider 6. After receiving the sliding force indirectly provided by the self-locking bolt 5, the self-locking slider 6 slides along the guide groove 4. By limiting the movable hook 9 to slide within the arc-shaped groove of the guide hook 8, the movable hook 9 can quickly open the guide U-shaped part through the slider to facilitate cable passage. Moreover, after the cable is inside the guide U-shaped part, the pushing force of the cable... The direction and pushing force are insufficient to make the movable hook 9 slide along the arc groove. Therefore, it is not only convenient for the cable to be installed in the guide device, but also has a stable limiting effect on the cable. By manually rotating the angle plate 7, it rotates the self-locking bolt 5, the guide hook 8 and the movable hook 9. The angle of the U-shaped part composed of the guide hook 8 and the movable hook 9 is adjusted by the rotation. At the same time as the self-locking bolt 5 rotates, the self-locking bolt 5 will also convert the rotational force into the moving force and provide it to the self-locking slider 6, so that it moves along the guide groove 4. With this cooperation, after the U-shaped part is rotated to the appropriate position, the rotation can be stopped to automatically lock the angle of the U-shaped part.
[0030] Working principle: In use, the fixing base 1 is first fixed in a suitable position on the building by using bolts and fixing screw holes 2. When installing cables, the locking post 11 can be pried open, causing it to move the movable hook 9 inward along the arc-shaped groove of the guide hook 8, retracting into the arc-shaped groove. This opens the U-shaped part composed of the movable hook 9 and the guide hook 8, making it easy to insert the cable into the U-shaped part. Then, the pressure on the movable hook 9 is released, allowing it to return to its original position under the action of the return spring 12, restoring the U-shaped part to its locked state. Thus, the U-shaped part is used to achieve the locking of the cable. For cable guidance, when the guide angle needs to be adjusted, the angle disc 7 is rotated manually, causing the self-locking bolt 5, guide hook 8, and movable hook 9 to rotate. The rotation adjusts the angle of the U-shaped part composed of guide hook 8 and movable hook 9. At the same time as the self-locking bolt 5 rotates, it also converts the rotational force into a moving force to provide to the self-locking slider 6, causing it to move along the guide groove 4. With this cooperation, once the U-shaped part has rotated to the appropriate position, the rotation is stopped, and the angle of the U-shaped part is automatically locked, thus completing the adjustment work.
[0031] The following points should be noted in this article:
[0032] 1. The accompanying drawings of this utility model embodiment only involve the structure involved in this utility model embodiment; other structures can refer to general designs.
[0033] 2. Where there is no conflict, the embodiments of this utility model and the features in the embodiments can be combined with each other to obtain new embodiments.
[0034] The above are merely specific embodiments of this utility model, but the protection scope of this utility model is not limited thereto. Any variations or substitutions that can be easily conceived by those skilled in the art within the technical scope disclosed in this utility model should be included within the protection scope of this utility model. Therefore, the protection scope of this utility model should be determined by the scope of the claims.
Claims
1. A cable guiding device with flexible adjustment, comprising: A fixed base (1) is provided with fixed screw holes (2) at both ends of the front side of the fixed base (1); a locking base (3) is fixedly installed at the center of the front side of the fixed base (1); characterized in that a guide groove (4) is provided inside the locking base (3); a self-locking bolt (5) is rotatably installed at the rear end of the guide groove (4), and the front end of the self-locking bolt (5) protrudes from the locking base (3); a self-locking slider (6) is slidably installed inside the guide groove (4); an angle plate (7) is fixedly installed at the front end of the self-locking bolt (5); a guide hook (8) is fixedly installed on the front side of the angle plate (7); an arc groove is provided inside the guide hook (8), and a movable hook (9) is slidably installed inside the arc groove; a limit block (10) is fixedly installed at the outer end of the movable hook (9); a latching post (11) is fixedly installed on the outer circumferential wall of the limit block (10).
2. The cable guiding device with flexible adjustment according to claim 1, characterized in that, The inner end of the movable hook (9) is embedded with one end of a restoring spring (12); the other end of the restoring spring (12) is embedded inside the guide hook (8).
3. The cable guiding device with flexible adjustment according to claim 1, characterized in that, The guide groove (4) has a ten-sided groove structure; the self-locking slider (6) has a ten-sided prism structure.
4. The cable guiding device with flexible adjustment according to claim 1, characterized in that, The self-locking slider (6) is also connected to the self-locking bolt (5) by threads; the angle plate (7) is a disc-shaped structure; the guide hook (8) is a J-shaped structure; and the movable hook (9) is an arc-shaped structure.
5. A cable guiding device with flexible adjustment according to claim 1, characterized in that, When the movable hook (9) is not retracted into the arc-shaped groove of the guide hook (8), the movable hook (9), the guide hook (8) and the limiting block (10) will form a U-shaped structure.
6. A cable guiding device with flexible adjustment according to claim 1, characterized in that, When the self-locking bolt (5) rotates with the self-locking slider (6), the self-locking bolt (5) will convert the rotational force into a sliding force and provide it to the self-locking slider (6).
7. A cable guiding device with flexible adjustment according to claim 1, characterized in that, The self-locking slider (6) will slide along the guide groove (4) after being indirectly provided by the self-locking bolt (5).