Line integration device for internet equipment
By designing a line integration device for internet devices, and employing a fixing plate and internal fixing mechanism, the problems of tangled lines and chaotic management are solved, achieving stable line positioning and convenient operation, and improving service life and safety.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HEILONGJIANG BINGQIAN COMMUNICATIONS CO LTD
- Filing Date
- 2025-05-12
- Publication Date
- 2026-06-02
AI Technical Summary
Existing wiring methods are inconvenient and inefficient, unable to flexibly adapt to the fixing needs of different diameters and types of wiring, resulting in tangled wiring, chaotic management, increased maintenance costs, and safety hazards.
Design a line integration device for Internet devices, which adopts a fixing plate, fixing parts and internal fixing mechanism, and achieves stable positioning and flexible fixing of the line through threaded connection and elastic structure, adapting to lines of different diameters and types.
It enables orderly management of the lines, extends their service life, reduces maintenance costs and safety hazards, and enhances ease of operation.
Smart Images

Figure CN224319015U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of Internet equipment technology, and in particular to a line integration device for Internet equipment. Background Technology
[0002] The connection and layout of numerous cables is a common and complex issue in the operation of internet devices. With the rapid development of internet technology, various internet devices are widely used in various fields, leading to a continuous increase in the number and types of cables connected to these devices, including power cords, network cables, and data cables. If these cables are placed haphazardly, they can easily become tangled and knotted, affecting their lifespan. Furthermore, this leads to chaotic cable management, making it difficult to quickly and accurately identify and operate related cables during equipment maintenance and troubleshooting, significantly increasing maintenance and time costs. At the same time, disorganized cables can also pose safety hazards; for example, tangled cables may cause localized overheating, increasing the risk of fire.
[0003] Existing line organization methods are often inconvenient and inefficient, unable to flexibly adapt to the fixed needs of lines of different diameters and types, and difficult to achieve the simultaneous and orderly integration of multiple lines.
[0004] Therefore, we propose a line integration device for Internet devices. Utility Model Content
[0005] The main objective of this invention is to provide a cable management device for internet devices. This device aims to prevent cable tangling and knotting caused by haphazard placement, which can shorten cable lifespan. It also addresses issues such as chaotic cable management leading to difficulties in quickly and accurately identifying and operating cables during equipment maintenance and troubleshooting, thus increasing maintenance and time costs. Furthermore, it eliminates safety hazards caused by disorganized cables, such as localized overheating leading to fires. Simultaneously, it solves the problems of existing cable management methods being inconvenient and inefficient, unable to flexibly adapt to the fixed requirements of cables of different diameters and types, and difficult to simultaneously and orderly integrate multiple cables. This improves cable lifespan, reduces maintenance and time costs, eliminates safety hazards, and enables convenient and efficient management of internet device cables, effectively solving the problems in the background technology.
[0006] To achieve the above objectives, the technical solution adopted by this utility model is as follows:
[0007] A line integration device for internet devices includes a fixing plate. Multiple fixing members are arranged at equal intervals on both sides of the top edge of the fixing plate. Each fixing member consists of two opposing first fixing cylinders and a second fixing cylinder, with the second fixing cylinder located directly below the first fixing cylinder. Side plates are integrally formed on the left and right sides of both the first and second fixing cylinders. Internal fixing mechanisms are provided inside both the first and second fixing cylinders, and external fixing mechanisms are provided inside the side plates.
[0008] A fixing post is fixedly connected between the first fixing cylinder and the fixing plate, and the fixing post has an internal thread. The first fixing cylinder has an insertion hole inside. The external fixing mechanism includes a rod that can be inserted into the insertion hole. The lower outer part of the rod has an external thread, which is threaded to the internal thread. Two limiting rings are provided on the middle outer part of the rod. The rod passes through the second fixing cylinder, and the second fixing cylinder is located between the two limiting rings. The upper outer part of the rod has anti-slip texture.
[0009] By adopting the above technical solution, the lines of the Internet device can be placed inside the first fixed cylinder and the second fixed cylinder, and the lines are fixed by the internal fixing mechanism. The function of the internal fixing mechanism is to clamp or constrain the lines to prevent them from shaking or shifting inside the cylinder, thereby achieving the initial positioning and stabilization of the lines.
[0010] The first fixed cylinder is fixedly connected to the fixed plate via a fixed post. The second fixed cylinder is connected to the first fixed cylinder via an external fixing mechanism. The insert rod in the external fixing mechanism has an external thread and can be inserted into the internal thread inside the fixed post to achieve a threaded connection between the insert rod and the first fixed cylinder. The insert rod passes through the second fixed cylinder, and the second fixed cylinder is restricted to the insert rod by two limiting rings. By rotating the insert rod, the second fixed cylinder is moved closer to or away from the first fixed cylinder through the threaded connection, thereby achieving the opening and closing and fixing of the first and second fixed cylinders to clamp or loosen the internal wiring.
[0011] The anti-slip texture on the upper outer side of the plug bar makes it easier for operators to rotate the plug bar by hand, increasing the friction during operation and making the rotation of the plug bar more effortless and convenient, thereby facilitating the installation, adjustment or disassembly of the line;
[0012] The entire line integration device can be fixed in a suitable position by the fixing plate. Multiple equally spaced fixing parts can integrate and fix multiple lines at the same time, realizing the orderly management of Internet device lines.
[0013] Furthermore, the internal fixing mechanism includes an inner cylinder, a threaded rod is threadedly connected to the outer side of the inner cylinder, a knob is fixedly connected to the outer side of the threaded rod, a slide rod is fixedly connected to the inner side of the inner cylinder, a movable cylinder is sleeved on the inner side of the slide rod, a limit plate is fixedly connected to the inner side of the movable cylinder, and a limit rod is fixedly connected to the side of the inner cylinder.
[0014] By adopting the above technical solution, the internal fixing mechanism is mainly used to fix the wires placed in the first fixing cylinder and the second fixing cylinder. The internal cylinder is the core part of this fixing mechanism. It is connected to the threaded rod through the outer thread. The knob is fixed on the outside of the threaded rod. This is a part for manual operation. The slide bar on the inner side of the internal cylinder provides guidance and support for the movable cylinder. The movable cylinder can slide axially along the slide bar.
[0015] The limiting plate is fixed inside the movable cylinder. Its function is to directly contact the line after the line is placed, and play a role in initially fixing or positioning the line. The limiting rod on the side of the inner cylinder is used to limit the range of movement of the movable cylinder and other components, ensuring that the movement of the entire internal fixing mechanism is within the designed range, and avoiding excessive movement of components that could lead to mechanism failure.
[0016] When it is necessary to fix the cable, place the cable inside the limiting plate. Then, manually rotate the knob. The knob drives the threaded rod to rotate. Since the threaded rod is threadedly connected to the inner cylinder, it will move along the axial direction of the inner cylinder during rotation. The axial movement of the threaded rod will push the movable cylinder along the slide bar towards the center of the inner cylinder. Because the limiting plate inside the movable cylinder is fixed, as the movable cylinder moves, the limiting plate will gradually approach the cable, eventually clamping the cable between the inner walls of the limiting plate, thus fixing the cable. The limiting rod plays a role in preventing the movable cylinder from moving excessively or deviating from the correct direction of movement, ensuring that the movable cylinder can accurately fix the cable.
[0017] Furthermore, the limiting plate is located on the inner side of the first fixed cylinder and the second fixed cylinder, the inner cylinder is movably connected inside the first fixed cylinder and the second fixed cylinder, and a spring is fixedly connected between the movable cylinder and the inner cylinder, the spring being sleeved on the outside of the slide rod.
[0018] By adopting the above technical solution, the limiting plate is located on the inner side of the first fixed cylinder and the second fixed cylinder, which indicates that its position in the overall structure of the device is relatively inward, and it is used to restrict or guide the external circuit.
[0019] The inner cylinder is movably connected inside the first fixed cylinder and the second fixed cylinder. This movable connection allows the inner cylinder to move flexibly inside the fixed cylinder, providing a basis for subsequent fixing actions.
[0020] A spring is fixedly connected between the movable cylinder and the inner cylinder, and the spring is sleeved on the outside of the slide rod. The spring plays an elastic support role here, and in the initial state, it will keep the movable cylinder in a relatively stable position.
[0021] When the wire is placed in the device and needs to be secured, the aforementioned rotating knob drives the threaded rod, causing the movable cylinder to move towards the center of the inner cylinder. At this time, the spring is compressed, storing elastic potential energy. The spring's elasticity provides a counterforce. When it is necessary to loosen the wire or adjust its position, the knob is released. Under the action of the spring's elastic potential energy, the movable cylinder moves along the sliding rod away from the center of the inner cylinder, returning to its initial position or a relatively relaxed state. This facilitates the removal or readjustment of the wire. This spring design makes the operation of the entire internal fixing mechanism more flexible and adaptable to wires of different thicknesses. For example, for thinner wires, the movable cylinder can rebound appropriately under the action of the spring to avoid over-clamping; for thicker wires, the spring can be further compressed to ensure the wire is securely fixed.
[0022] Furthermore, the limiting rod is inserted inside the first fixed cylinder and the second fixed cylinder, the inner side of the sliding rod is inserted into the inside of the movable cylinder, and the limiting plate is an arc-shaped rubber plate.
[0023] By adopting the above technical solution, the limiting rod is inserted inside the first fixed cylinder and the second fixed cylinder. Its main function is to limit the range of movement of the inner cylinder within the first fixed cylinder and the second fixed cylinder. When the rotating knob drives the threaded rod to move the inner cylinder, the limiting rod will interact with specific structures inside the first fixed cylinder and the second fixed cylinder, such as the slot, to prevent the inner cylinder from moving excessively or deviating from the predetermined movement trajectory, thus ensuring the stability and reliability of the internal fixing mechanism and enabling the entire line fixing operation to be carried out within a controllable range.
[0024] The inner side of the slide rod is inserted into the inside of the movable cylinder. This insertion method provides a guide structure for the movable cylinder. When the screw rod is pushed to move the movable cylinder inside the inner cylinder by rotating the knob, the slide rod can ensure that the movable cylinder moves in a straight line, avoiding the movable cylinder from deviating or shaking during the movement. This ensures that the movable cylinder can accurately push the limit plate towards the line and achieve effective fixation of the line.
[0025] The limiting plate is an arc-shaped rubber plate. The arc design allows it to better fit the outer surface of the circuit, increasing the contact area with the circuit, thereby providing a more uniform pressure distribution and improving the fixing effect. The rubber material has a certain degree of elasticity. When the limiting plate contacts the circuit and applies pressure, the elasticity of the rubber allows it to better adapt to circuits of different shapes and thicknesses. At the same time, it will not damage the circuit when clamping it. When the movable cylinder pushes the limiting plate closer to the circuit, the arc-shaped rubber plate will tightly wrap around the circuit, using friction and elastic deformation to fix the circuit and prevent the circuit from loosening or shifting in the first and second fixing cylinders.
[0026] Furthermore, each end of the fixing plate is provided with two fixing seats, and the two fixing seats are arranged opposite to each other.
[0027] By adopting the above technical solution, the fixing plate is a basic component of the entire line integration device, used to support and fix other components such as the first fixing cylinder, the second fixing cylinder, etc. The fixing seats at both ends are opposite to each other, providing positioning points for the installation of the device.
[0028] Compared with the prior art, the present invention has the following beneficial effects:
[0029] (1) This utility model provides a line integration device for Internet devices. Through a unique fastener design, the lines of Internet devices can be placed inside the first and second fixed cylinders. The internal fixing mechanism can accurately clamp or constrain the lines to prevent them from shaking or shifting inside the cylinders, thus achieving initial positioning and stabilization of the lines. Multiple equally spaced fasteners can integrate and fix multiple lines simultaneously. In conjunction with the external fixing mechanism, operators can easily open and close the first and second fixed cylinders by rotating the anti-slip grooved plug rod to clamp or loosen the internal lines. This greatly improves the convenience of line installation, adjustment, or disassembly operations, realizes orderly management of Internet device lines, and effectively solves the problem of messy and tangled lines.
[0030] (2) The present invention relates to a line integration device for Internet devices. The limiting plate in the internal fixing mechanism is designed with an arc-shaped rubber plate. The arc shape can better fit the outer surface of the line, increase the contact area, achieve uniform pressure distribution, and improve the fixing effect. The rubber material is elastic and can adapt to lines of different shapes and thicknesses. It will not damage the line when clamping the line. When the line thickness is different, the spring connecting the movable cylinder and the inner cylinder will play a role. For thinner lines, the spring will cause the movable cylinder to rebound appropriately to avoid over-clamping. For thicker lines, the spring can be further compressed to ensure a firm fixation. This design allows the device to flexibly adapt to various lines, while protecting the line from damage, extending the service life of the line, and reducing maintenance costs and equipment failure risks caused by line damage. Attached Figure Description
[0031] Figure 1 This is a schematic diagram of the structure of a line integration device for Internet equipment according to this utility model.
[0032] Figure 2 This is a split view of the fixing component of a line integration device for Internet equipment according to this utility model.
[0033] Figure 3 This is a schematic diagram of the first fixed cylinder structure of a line integration device for Internet equipment according to this utility model.
[0034] Figure 4 This is a schematic diagram of the internal fixing mechanism of a line integration device for Internet equipment according to this utility model.
[0035] In the diagram: 1. First fixed cylinder; 2. Second fixed cylinder; 3. Side plate; 4. Internal fixing mechanism; 5. External fixing mechanism; 6. Insertion hole; 7. Insertion rod; 8. External thread; 9. Fixed column; 10. Limiting ring; 11. Anti-slip texture; 12. Inner cylinder; 13. Threaded rod; 14. Knob; 15. Slide rod; 16. Movable cylinder; 17. Limiting plate; 18. Limiting rod; 19. Spring; 20. Fixed plate; 21. Fixed base. Detailed Implementation
[0036] To make the technical means, creative features, objectives and effects of this utility model easier to understand, the present utility model will be further described below in conjunction with specific embodiments.
[0037] To prevent tangled and knotted cables from shortening their lifespan, and to avoid chaotic cable management that hinders quick and accurate identification and troubleshooting during equipment maintenance, thus increasing maintenance and time costs, this solution aims to eliminate safety hazards such as localized overheating and fires caused by disorganized cables. It also addresses the shortcomings of existing cable management methods, such as inconvenience, inflexibility in adapting to different diameters and types of cables, and difficulty in simultaneously and systematically integrating multiple cables. Ultimately, this solution aims to improve cable lifespan, reduce maintenance and time costs, eliminate safety hazards, and achieve convenient and efficient management of internet device cables. Figure 1 , Figure 2 , Figure 3 , Figure 4 As shown, a line integration device for Internet devices includes a fixing plate 20. Multiple fixing members are arranged at equal intervals on both sides of the top edge of the fixing plate 20. Each fixing member is composed of two opposing first fixing cylinders 1 and second fixing cylinders 2, with the second fixing cylinder 2 located directly below the first fixing cylinder 1. Side plates 3 are integrally formed on the left and right sides of both the first fixing cylinder 1 and the second fixing cylinder 2. An internal fixing mechanism 4 is provided inside both the first fixing cylinder 1 and the second fixing cylinder 2, and an external fixing mechanism 5 is provided inside the side plates 3.
[0038] A fixing post 9 is fixedly connected between the first fixing cylinder 1 and the fixing plate 20, and the fixing post 9 has an internal thread. The first fixing cylinder 1 has an insertion hole 6 inside. The external fixing mechanism 5 includes a rod 7 that can be inserted into the insertion hole 6. The lower outer part of the rod 7 has an external thread 8, which is threaded to the internal thread. The middle outer part of the rod 7 has two limiting rings 10. The rod 7 passes through the second fixing cylinder 2, and the second fixing cylinder 2 is located between the two limiting rings 10. The upper outer part of the rod 7 has anti-slip texture 11.
[0039] When in use, the Internet device’s cable can be placed inside the first fixed cylinder 1 and the second fixed cylinder 2, and the cable is fixed by the internal fixing mechanism 4. The function of the internal fixing mechanism 4 is to clamp or constrain the cable to prevent it from shaking or shifting inside the cylinder, thereby achieving initial positioning and stabilization of the cable.
[0040] The first fixed cylinder 1 is fixedly connected to the fixed plate 20 via the fixed post 9. The second fixed cylinder 2 is connected to the first fixed cylinder 1 via an external fixing mechanism 5. The insert rod 7 in the external fixing mechanism 5 has an external thread 8, which can be inserted into the internal thread inside the fixed post 9 to achieve a threaded connection between the insert rod 7 and the first fixed cylinder 1. The insert rod 7 passes through the second fixed cylinder 2, and the second fixed cylinder 2 is restricted to the insert rod 7 by two limiting rings 10. By rotating the insert rod 7, the second fixed cylinder 2 is moved closer to or away from the first fixed cylinder 1 by means of threaded connection, thereby realizing the opening and closing and fixing between the first fixed cylinder 1 and the second fixed cylinder 2 to clamp or loosen the internal wiring.
[0041] The anti-slip texture 11 on the upper outer side of the plug rod 7 makes it easier for the operator to rotate the plug rod 7 by hand, increasing the friction during operation and making the rotation of the plug rod 7 more effortless and convenient, thereby facilitating the installation, adjustment or disassembly of the line.
[0042] The entire line integration device can be fixed in a suitable position by the fixing plate 20. Multiple equally spaced fixing parts can integrate and fix multiple lines at the same time, realizing the orderly management of Internet device lines.
[0043] For example, such as Figure 2 , Figure 3 , Figure 4 As shown, the present invention also includes an internal fixing mechanism 4 comprising an internal cylinder 12, a threaded rod 13 threadedly connected to the outer side of the internal cylinder 12, a knob 14 fixedly connected to the outer side of the threaded rod 13, a sliding rod 15 fixedly connected to the inner side of the internal cylinder 12, a movable cylinder 16 sleeved on the inner side of the sliding rod 15, a limiting plate 17 fixedly connected to the inner side of the movable cylinder 16, and a limiting rod 18 fixedly connected to the side of the internal cylinder 12.
[0044] In use, the internal fixing mechanism 4 is mainly used to fix the wires placed in the first fixing cylinder 1 and the second fixing cylinder 2. The internal cylinder 12 is the core part of this fixing mechanism. It is connected to the threaded rod 13 through the outer thread. The knob 14 is fixed on the outside of the threaded rod 13. This is a part for manual operation. The slide rod 15 on the inner side of the internal cylinder 12 provides guidance and support for the movable cylinder 16. The movable cylinder 16 can slide axially along the slide rod 15.
[0045] The limiting plate 17 is fixed inside the movable cylinder 16. Its function is to directly contact the line after the line is placed, and play a role in initially fixing or positioning the line. The limiting rod 18 on the side of the inner cylinder 12 is used to limit the range of motion of the movable cylinder 16 and other components, ensuring that the movement of the entire internal fixing mechanism 4 is within the designed range, and avoiding excessive movement of components that could lead to mechanism failure.
[0046] When it is necessary to fix the wire, place the wire inside the limiting plate 17. Then, manually rotate the knob 14. The knob 14 drives the threaded rod 13 to rotate. Since the threaded rod 13 is threadedly connected to the inner cylinder 12, it will move along the axial direction of the inner cylinder 12 during the rotation of the threaded rod 13. The axial movement of the threaded rod 13 will push the movable cylinder 16 to move along the slide rod 15 towards the center of the inner cylinder 12. Since the limiting plate 17 inside the movable cylinder 16 is fixed, as the movable cylinder 16 moves, the limiting plate 17 will gradually approach the wire, eventually clamping the wire between the inner walls of the limiting plate 17, thereby fixing the wire. The limiting rod 18 plays a role in preventing the movable cylinder 16 from moving excessively or deviating from the correct direction of movement, ensuring that the movable cylinder 16 can accurately fix the wire.
[0047] For example, such as Figure 3 , Figure 4 As shown, the present invention also includes a limiting plate 17 located on the inner side of the first fixed cylinder 1 and the second fixed cylinder 2, an inner cylinder 12 movably connected inside the first fixed cylinder 1 and the second fixed cylinder 2, and a spring 19 fixedly connected between the movable cylinder 16 and the inner cylinder 12, the spring 19 being sleeved on the outside of the slide rod 15.
[0048] When in use, the limiting plate 17 is located on the inner side of the first fixed cylinder 1 and the second fixed cylinder 2, which indicates that its position in the overall structure of the device is relatively inward, and it is used to restrict or guide the external lines in a certain way.
[0049] The inner cylinder 12 is movably connected inside the first fixed cylinder 1 and the second fixed cylinder 2. This movable connection allows the inner cylinder 12 to move flexibly inside the fixed cylinder, providing a basis for subsequent fixing actions.
[0050] A spring 19 is fixedly connected between the movable cylinder 16 and the inner cylinder 12, and the spring 19 is sleeved on the outside of the slide rod 15. The spring 19 plays the role of elastic support here. In the initial state, it will keep the movable cylinder 16 in a relatively stable position.
[0051] When the wire is placed in the device and needs to be fixed, the aforementioned rotating knob 14 drives the threaded rod 13, causing the movable cylinder 16 to move towards the center of the inner cylinder 12. At this time, the spring 19 is compressed, storing elastic potential energy. The elastic action of the spring 19 can provide a reverse force. When it is necessary to loosen the wire or adjust its position, the knob 14 is released. Under the action of the elastic potential energy of the spring 19, the movable cylinder 16 will move along the slide rod 15 away from the center of the inner cylinder 12, returning to the initial position or a relatively relaxed state, thus facilitating the removal or readjustment of the wire. This setting of the spring 19 makes the operation of the entire internal fixing mechanism 4 more flexible and can adapt to wires of different thicknesses. For example, for thinner wires, the movable cylinder 16 can rebound appropriately under the action of the spring 19 to avoid over-clamping; for thicker wires, the spring 19 can be further compressed to ensure that the wire can be firmly fixed.
[0052] For example, such as Figure 3 , Figure 4 As shown, the present invention also includes the limiting rod 18 being inserted inside the first fixed cylinder 1 and the second fixed cylinder 2, the inner side of the sliding rod 15 being inserted into the inside of the movable cylinder 16, and the limiting plate 17 being an arc-shaped rubber plate.
[0053] When in use, the limiting rod 18 is locked inside the first fixed cylinder 1 and the second fixed cylinder 2. Its main function is to limit the range of movement of the inner cylinder 12 within the first fixed cylinder 1 and the second fixed cylinder 2. When the rotating knob 14 drives the threaded rod 13 to move the inner cylinder 12, the limiting rod 18 will interact with specific structures such as slots inside the first fixed cylinder 1 and the second fixed cylinder 2 to prevent the inner cylinder 12 from moving excessively or deviating from the predetermined movement trajectory, thus ensuring the stability and reliability of the internal fixing mechanism 4 and enabling the entire line fixing operation to be carried out within a controllable range.
[0054] The inner side of the slide bar 15 is inserted into the interior of the movable cylinder 16. This insertion method provides a guide structure for the movable cylinder 16. When the screw rod 13 is pushed by rotating the knob 14 to move the movable cylinder 16 in the inner cylinder 12, the slide bar 15 can ensure that the movable cylinder 16 moves in a straight line, avoiding the movable cylinder 16 from deviating or shaking during the movement. This ensures that the movable cylinder 16 can accurately push the limiting plate 17 towards the line, thereby achieving effective fixation of the line.
[0055] The limiting plate 17 is an arc-shaped rubber plate. The arc-shaped design allows it to better fit the outer surface of the circuit, increasing the contact area with the circuit, thereby providing a more uniform pressure distribution and improving the fixing effect. The rubber material has a certain degree of elasticity. When the limiting plate 17 contacts the circuit and applies pressure, the elasticity of the rubber allows it to better adapt to circuits of different shapes and thicknesses. At the same time, it will not damage the circuit when clamping it. When the movable cylinder 16 pushes the limiting plate 17 closer to the circuit, the limiting plate 17 of the arc-shaped rubber plate will tightly wrap around the circuit, using friction and elastic deformation to fix the circuit and prevent the circuit from loosening or shifting in the first fixing cylinder 1 and the second fixing cylinder 2.
[0056] For example, such as Figure 1 As shown, the present invention also includes two fixing seats 21 at both ends of the fixing plate 20, and the fixing seats 21 are arranged opposite to each other.
[0057] In use, the fixing plate 20 is a basic component of the entire line integration device, used to support and fix other components such as the first fixing cylinder 1, the second fixing cylinder 2, etc. The fixing seats 21 set at both ends are opposite each other, providing positioning points for the installation of the device.
[0058] It should be noted that this utility model is a line integration device for internet devices. The entire line integration device is fixed in a suitable position by fixing seats 21 arranged opposite to each other at both ends of the fixing plate 20. The internet device's line is placed inside the first fixing cylinder 1 and the second fixing cylinder 2. At this time, the line is located inside the limiting plate 17. Manually rotating the knob 14 causes the threaded rod 13 to rotate. Since the threaded rod 13 is threadedly connected to the inner cylinder 12, the threaded rod 13 will move along the axial direction of the inner cylinder 12, pushing the movable cylinder 16 to move along the sliding rod 15 towards the center of the inner cylinder 12. The limiting plate 17 gradually approaches the line, finally clamping the line between the inner walls of the limiting plate 17, achieving initial fixation of the line. During this process, the limiting rod 18 prevents movement. If the cylinder 16 moves excessively or deviates from the correct direction of movement, the spring 19 will be compressed and store elastic potential energy. Rotating the insert rod 7, the external thread 8 on the outside of the insert rod 7 is threadedly connected to the internal thread inside the fixing post 9, causing the second fixing cylinder 2 to move closer to the first fixing cylinder 1 until the first fixing cylinder 1 and the second fixing cylinder 2 are clamped together, thereby further fixing the internal wiring. The anti-slip texture 11 on the upper outer side of the insert rod 7 facilitates the operator to rotate the insert rod 7. When it is necessary to adjust the position of the wiring or disassemble the wiring, first rotate the insert rod 7 to move the second fixing cylinder 2 away from the first fixing cylinder 1, and then release the knob 14. Under the action of the elastic potential energy of the spring 19, the movable cylinder 16 will move along the slide rod 15 away from the center of the inner cylinder 12. The limiting plate 17 releases the wiring, and the wiring can be adjusted or removed.
[0059] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claims. The scope of protection of this utility model is defined by the appended claims and their equivalents.
Claims
1. A line integration device for an Internet appliance comprising a fixing plate (20), characterized in that, The top end of the fixing plate (20) is provided with a plurality of equidistantly arranged fixing members, which are composed of two oppositely arranged first fixing cylinders (1) and second fixing cylinders (2), and the second fixing cylinders (2) are located directly below the first fixing cylinders (1), the first fixing cylinders (1) and the second fixing cylinders (2) are integrally provided with side plates (3) on the left and right sides, the interiors of the first fixing cylinders (1) and the second fixing cylinders (2) are provided with internal fixing mechanisms (4), and the interiors of the side plates (3) are provided with external fixing mechanisms (5). The first fixing cylinders (1) and the fixing plate (20) are fixedly connected with fixing columns (9), the interiors of the fixing columns (9) are provided with internal threads, the interiors of the first fixing cylinders (1) are provided with insertion holes (6), the external fixing mechanisms (5) include insertion rods (7) which can be inserted into the insertion holes (6), the outer lower parts of the insertion rods (7) are provided with external threads (8), the external threads (8) are in threaded connection with the internal threads, the outer middle parts of the insertion rods (7) are provided with two limiting rings (10), the insertion rods (7) penetrate through the second fixing cylinders (2), and the second fixing cylinders (2) are located between the two limiting rings (10), and the outer upper parts of the insertion rods (7) are provided with anti-skid lines (11).
2. The line integration apparatus for an Internet device according to claim 1, wherein: The internal fixing mechanisms (4) include internal cylinders (12), the outer sides of the internal cylinders (12) are in threaded connection with threaded rods (13), the outer sides of the threaded rods (13) are fixedly connected with knobs (14), the inner sides of the internal cylinders (12) are fixedly connected with sliding rods (15), the inner sides of the sliding rods (15) are sleeved with movable cylinders (16), the inner sides of the movable cylinders (16) are fixedly connected with limiting plates (17), and the side edges of the internal cylinders (12) are fixedly connected with limiting rods (18).
3. The line integration apparatus for an Internet device according to claim 2, wherein: The limiting plates (17) are located on the inner sides of the first fixing cylinders (1) and the second fixing cylinders (2), the internal cylinders (12) are movably connected in the interiors of the first fixing cylinders (1) and the second fixing cylinders (2), springs (19) are fixedly connected between the movable cylinders (16) and the internal cylinders (12), and the springs (19) are sleeved on the outer sides of the sliding rods (15).
4. The line integration apparatus for an Internet device according to claim 2, wherein: The limiting rods (18) are clamped in the interiors of the first fixing cylinders (1) and the second fixing cylinders (2), the inner sides of the sliding rods (15) are inserted into the interiors of the movable cylinders (16), and the limiting plates (17) are circular arc-shaped rubber plates.
5. The line integration apparatus for an Internet device according to claim 1, wherein: Both ends of the fixing plate (20) are provided with two fixing seats (21), and the fixing seats (21) are oppositely arranged.