Cable installation and storage device

By designing an adjustable hanging rack and storage structure, the problem of inconvenient cable installation on the electric lifting table is solved, enabling convenient cable management and height adjustment, reducing packaging costs, and ensuring neat cable arrangement.

CN224429858UActive Publication Date: 2026-06-30SHENZHEN YUEYAN INTELLIGENT TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENZHEN YUEYAN INTELLIGENT TECH CO LTD
Filing Date
2025-06-27
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Existing cable management devices are inconvenient to install on electric lifting tables, as their height is not adjustable and they lack an effective fixing structure, making cable management difficult and inconvenient to use.

Method used

An installation and storage device including a bracket is designed. By combining the bracket and storage components, and using adjustable connectors and bolts, the device enables convenient installation and height adjustment of cables. The cable management process is optimized through the foldable storage component structure.

Benefits of technology

It enables convenient installation and organization of cables, improves ease of use, reduces packaging and logistics costs, ensures neat cable arrangement, and avoids cable tangling.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224429858U_ABST
    Figure CN224429858U_ABST
Patent Text Reader

Abstract

This utility model provides a cable installation and storage device, including a bracket and a storage component. Two brackets are arranged horizontally, each including a fixing component and a connecting component; a fixing plate is provided on the top of the fixing component; the connecting component is rotatable about the horizontal direction and is vertically adjustable to the fixing component; the storage component is used to store electrical equipment, and its two horizontal ends are respectively connected to the two connecting components; the storage component is U-shaped and includes a positioning plate, a support plate, and a folding plate connected sequentially along the longitudinal direction. The folding plate and the support plate are foldable, and the folding plate and the connecting components are detachably connected. Through the rotation and vertical adjustment of the connecting components, the storage component can rotate and move up and down. When organizing cables, the connecting components and the storage component move to a lower position, and the rotation of the storage component tilts the support plate, allowing the top opening of the storage component and the folding plate to better face the user, facilitating the user to open the folding plate to install and organize the internal cables or electrical equipment.
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Description

Technical Field

[0001] This utility model relates to the field of cable installation, and in particular to a cable installation and storage device. Background Technology

[0002] Given the current demand for health and wellness, electric height-adjustable desks are widely used in both home and office settings. This has led to increasingly stringent requirements for the neatness of cables, including optical and electrical wires, making cable management a crucial user need in the height-adjustable desk industry. Currently available cable management boxes are inconvenient to use once installed, sometimes requiring disassembly and reassembly for cable organization. Furthermore, the height of these boxes from the desktop is not adjustable, further complicating their use. The lack of cable management clips also allows for greater freedom in cable routing, which can result in a messy appearance when there are many cables. Utility Model Content

[0003] This utility model provides a cable installation and storage device that facilitates cable installation and organization.

[0004] This utility model provides a cable installation and storage device for storing cables, including a bracket and storage components;

[0005] The hanging brackets are two arranged horizontally, each hanging bracket including a fixing member and a connecting member. The top of the fixing member is provided with a fixing plate, which is used to install to the bottom surface of the table. The connecting member is rotatably arranged about the horizontal direction and is vertically adjustable to the fixing member. At least one of the connecting members is provided with a cable hole for installing cables.

[0006] The storage component is used to store electrical equipment, and its two horizontal ends are respectively connected to a docking component; the storage component is U-shaped in general, and includes a positioning plate, a support plate and a folding plate connected in sequence along the longitudinal direction. The positioning plate and the folding plate are both located above the support plate. The positioning plate and the support plate are both installed on the docking component. The folding plate and the support plate can be folded and connected, and the folding plate and the docking component can be detachably connected.

[0007] A limiting strip extends upward from the side of the support plate adjacent to the folding plate, and the limiting strip is foldably connected to the folding plate.

[0008] The positioning plate and the support plate are foldable and connected. When the storage component is separated from the docking component, the positioning plate flips towards the folding plate and folds with the support plate. The limiting strip is spaced apart from the positioning plate. The folding plate can flip towards the positioning plate and onto the positioning plate.

[0009] The positioning plate, the support plate, and the folding plate are all made of rigid materials, and the positioning plate and the support plate, as well as the support plate and the folding plate, are connected by soft materials.

[0010] The soft material encapsulates the positioning plate, the support plate, and the folding plate.

[0011] The folding plate and the docking part are connected by a magnetic structure, Velcro, or buckle.

[0012] The docking component includes a threading plate, a positioning connecting plate, a supporting connecting plate, and a folding connecting plate. The threading hole is located on the threading plate. The positioning connecting plate, the supporting connecting plate, and the folding connecting plate are all connected to the side of the threading plate facing the other docking component. The positioning connecting plate is parallel to and connected to the positioning plate, the supporting connecting plate is parallel to and connected to the supporting plate, and the folding plate is parallel to and connected to the folding connecting plate via a magnetic attraction structure. The positioning connecting plate, the supporting connecting plate, and the folding connecting plate are all located inside the U-shaped structure of the storage component.

[0013] The fastener is provided with an adjustment hole arranged vertically, and the wall of the adjustment hole is provided with multiple limiting grooves, which are arranged vertically; the docking part is provided with a screw hole.

[0014] The bracket also includes an adjusting bolt, which passes through the adjusting hole and is threaded into the threaded hole. When the adjusting bolt is in the limiting groove, tightening the adjusting bolt locks the fixing member and the docking member together. When the adjusting bolt is loosened, the adjusting bolt can move along the adjusting hole to drive the docking member and the storage member to rise and fall, and the docking member can rotate relative to the fixing member with the adjusting bolt as the pivot.

[0015] The fixing member and the docking member are connected by an adjustment mechanism, which includes a rotating rod and a sliding rod. The rotating rod and the sliding rod are hinged by a rotating shaft and are X-shaped, with the axis of the rotating shaft being transverse. The two ends of the rotating rod are rotatably connected to the fixing member and the docking member, respectively, and the rotation axis of both is transverse. The two ends of the sliding rod are slidably connected to the fixing member and the docking member along the longitudinal direction.

[0016] The bottom end of the sliding rod is closer to the folding plate than the bottom end of the rotating rod;

[0017] The rotating shaft is positioned closer to the bottom end of the rotating rod than the top end of the rotating rod, and the rotating shaft is positioned closer to the top end of the sliding rod than the bottom end of the sliding rod; when the docking member moves upward to the highest position, the support plate is in a horizontal state; when the docking member moves downward to the lowest position, the support plate is tilted towards the folding plate.

[0018] The cable installation and storage device provided by this utility model allows the storage component to rotate and move up and down through the rotation and vertical adjustment of the connecting parts. When organizing cables, the connecting parts and the storage component move to a lower position, and the rotation of the storage component tilts the support plate so that the top opening and the folding plate of the storage component can face the user better, making it easier for the user to open the folding plate to install and organize the internal cables. The foldable structure of the storage component allows it to be folded to reduce packaging and logistics costs. Attached Figure Description

[0019] Figure 1 A schematic diagram of the structure of the cable installation and storage device provided in the first embodiment of this utility model;

[0020] Figure 2 yes Figure 1 A side view of the cable installation and storage device.

[0021] Figure 3 yes Figure 1 A schematic diagram of the cable installation and storage device after the storage component has been rotated;

[0022] Figure 4 yes Figure 1 A cross-sectional view of a cable storage component used in a cable installation and storage device.

[0023] Figure 5 yes Figure 4 A cross-sectional view of the storage unit in its folded state;

[0024] Figure 6 yes Figure 1 A schematic diagram of the connector used in the cable installation and storage device.

[0025] Figure 7 This is a schematic diagram of the structure of the cable installation and storage device provided in the second embodiment of this utility model;

[0026] Figure 8 yes Figure 7 A schematic diagram of the cable installation and storage device in the cable management state. Detailed Implementation

[0027] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those skilled in the art without creative effort are within the protection scope of the present utility model.

[0028] In the diagram, units with similar structures are represented by the same labels.

[0029] The first embodiment of this utility model provides a cable installation and storage device, including a bracket 2 and a storage component 1. Two brackets 2 are arranged along the horizontal direction X. The two ends of the storage component 1 along the horizontal direction X are respectively connected to the two brackets 2. The storage component 1 can store electrical equipment such as power strips, routers, modems, and power adapters. The two brackets 2 can suspend the storage component 1 on the bottom of the tabletop of a height-adjustable table. Various cables, such as fiber optic cables, electrical wires, and cables, can be installed and positioned using the brackets 2 to ensure neat arrangement of various cables, facilitating installation and organization. It can be understood that the horizontal direction X and the vertical direction Y in this utility model refer to two mutually perpendicular directions on the horizontal plane; the vertical direction Z is the height direction, perpendicular to the horizontal plane.

[0030] The bracket 2 includes a fixing member 21 and a connecting member 22. A fixing plate 219 is provided on the top of the fixing member 21, which is used to install onto the bottom surface of the tabletop, facilitating the assembly and connection between the fixing member 21 and the tabletop. The connecting member 22 is connected to the fixing member 21 and is used to connect with the storage member 1. At least one connecting member 22 is provided with a cable threading hole 220 for installing cables, which facilitates the installation of positioning cables. In this embodiment, both connecting members 22 are provided with cable threading holes 220.

[0031] The storage unit 1 is used to store electrical equipment such as power strips, routers, modems, and power adapters. Its two horizontal X-shaped ends are connected to two docking parts 22 respectively, and the storage unit 1 is U-shaped in general. After the storage unit 1 is installed on the docking part 22, it can move together with the docking part 22 to ensure that the cables on the docking part 22 and the electrical equipment move synchronously.

[0032] The docking member 22 is rotatably mounted about the horizontal direction X and is adjustablely connected to the fixing member 21 along the vertical direction Z. When the docking member 22 rotates about the horizontal direction X, it can drive the storage member 1 to rotate together, so that the top opening of the storage member 1 is biased towards the user, making it convenient for the user to organize electrical equipment and cables such as power strips inside the storage member 1.

[0033] The connecting piece 22 is adjustable along the vertical Z-axis to the fixing piece 21, allowing adjustment of the height of the connecting piece 22 and the storage piece 1. When it is necessary to organize the cables inside the storage piece 1, the height of the storage piece 1 can be lowered, increasing the distance between the storage piece 1 and the tabletop, thus facilitating the user's cable organization. After adjustment, the height of the storage piece 1 can be raised using the connecting piece 22, reducing the distance between the storage piece 1 and the tabletop, thereby avoiding interference with the user's legs during normal use.

[0034] like Figure 1 , Figure 2 As shown, the storage component 1 is U-shaped and includes a positioning plate 11, a support plate 12, and a folding plate 13 connected sequentially along the longitudinal direction Y. The positioning plate 11 and the folding plate 13 are both located above the support plate 12. The positioning plate 11 and the support plate 12 are both installed on the docking component 22. The folding plate 13 and the support plate 12 can be folded and connected, and the folding plate 13 and the docking component 22 can be detachably connected.

[0035] The positioning plate 11, the support plate 12, and the folding plate 13 can be enclosed to form a storage space, in which electrical equipment such as power strips can be placed and supported by the support plate 12.

[0036] Both the positioning plate 11 and the support plate 12 are installed on the docking member 22, thereby realizing the assembly connection between the storage member 1 and the docking member 22. The folding plate 13 and the support plate 12 are foldably connected, and the folding plate 13 and the docking member 22 are detachably connected. The folding plate 13 can be folded outward to open the longitudinal Y side of the storage member 1.

[0037] like Figure 3 As shown, by flipping the folding plate 13 outwards, the longitudinal Y side of the storage component 1 can be opened, so that the top and longitudinal Y side of the storage component 1 are both open, which facilitates plugging in the socket and organizing the cables inside the storage component 1.

[0038] When it is necessary to organize cables or electrical equipment, the storage unit 1 and the connecting part 22 can be rotated around the side of the horizontal X facing the folding plate 13, so that the top of the storage unit 1 and its vertical Y side face the user. Flipping the folding part opens the vertical Y side of the storage unit 1, and the user can easily see the status of the cables and electrical equipment in the storage unit 1, which is conducive to organization.

[0039] like Figure 4As shown, a limiting strip 121 extends upward on the side of the support plate 12 adjacent to the folding plate 13, and the limiting strip 121 and the folding plate 13 are foldably connected. When the storage unit 1 is rotated toward the user, the support plate 12 is tilted, and the side adjacent to the folding plate 13 is in a lower position. The limiting strip 121 can prevent electrical equipment such as power strips inside the storage unit 1 from sliding down, so as to avoid falling.

[0040] The positioning plate 11 and the support plate 12 are foldable and connected, so that the positioning plate 11, the support plate 12 and the folding plate 13 can be folded and connected in sequence, thus making the storage component 1 a three-fold structure. When the storage component 1 is separated from the docking component 22, the storage component 1 can be folded into a three-layer structure to reduce the temporary space of the storage component 1, facilitate packaging, and reduce the volume after packaging, which is beneficial for transportation and sales.

[0041] like Figure 4 and Figure 5 As shown, when the storage component 1 is separated from the docking component 22, the positioning plate 11 flips towards the folding plate 13 and folds together with the support plate 12. The limiting strip 121 is spaced apart from the positioning plate 11, and the folding plate 13 can flip towards the positioning plate 11 and onto it. The height of the limiting strip 121 protruding from the support plate 12 allows the positioning plate 11, which is flipped onto the support plate 12, to be stored. The positioning plate 11 is held between the support plate 12 and the folding plate 13, resulting in a three-fold folded state for the storage component 1, which helps to reduce the overall thickness of the folded storage component 1. The side of the support plate 12 adjacent to the positioning plate 11 can be flat to further reduce the thickness of both the positioning plate 11 and the support plate 12 after folding, thus reducing the size after folding. By using the foldable structure of the storage component 1, the packaging can be reduced, lowering packaging and logistics costs.

[0042] The positioning plate 11, support plate 12, and folding plate 13 are all made of rigid materials to improve structural strength. In this embodiment, the positioning plate 11, support plate 12, and folding plate 13 are all made of sheet metal, which provides high structural strength and low cost. As another embodiment, the positioning plate 11, support plate 12, and folding plate 13 can also be made of other rigid materials such as cardboard.

[0043] like Figure 4 and Figure 5 As shown, the positioning plate 11 and the support plate 12, as well as the support plate 12 and the folding plate 13, are connected by a soft material 14. Utilizing the flexibility of the soft material 14, it can be bent, allowing the positioning plate 11 and the support plate 12, and the support plate 12 and the folding plate 13, to rotate relative to each other and fold. Preferably, in this embodiment, the soft material is cloth or leather.

[0044] The soft material 14 wraps the positioning plate 11, the support plate 12 and the folding plate 13, so that the positioning plate 11, the support plate 12 and the folding plate 13 are embedded inside the soft material. The outer structure of the storage component 1 is made of soft material. The overall external structure of the storage component 1 is simple, easy to clean, and facilitates the connection between the positioning plate 11, the support plate 12 and the folding plate 13 and the soft material.

[0045] The soft material can be connected to the positioning plate 11, the support plate 12 and the folding plate 13 by stitching or bonding, so that the four can form an integral structure.

[0046] The folding plate 13 and the docking piece 22 can be connected by a magnetic structure, Velcro, or snap fastener to achieve a detachable connection between them.

[0047] like Figure 6 As shown, the docking component 22 includes a threading plate 224, a positioning connecting plate 221, a supporting connecting plate 222, and a folding connecting plate 223. A threading hole 220 is provided on the threading plate 224. The positioning connecting plate 221, the supporting connecting plate 222, and the folding connecting plate 223 are all connected to the side of the threading plate 224 facing the other docking component 22. The positioning connecting plate 221 is parallel to and connected to the positioning plate 11, the supporting connecting plate 222 is parallel to and connected to the supporting plate 12, and the folding plate 13 is parallel to and connected to the folding connecting plate 223 through a magnetic attraction structure, so as to facilitate the assembly connection between the docking component 22 and the storage component 1 and improve the connection strength.

[0048] The docking part 22 is a sheet metal part. The positioning connecting plate 221, the supporting connecting plate 222 and the folding connecting plate 223 are formed by bending the three edges of the threading plate 224 to facilitate processing and preparation.

[0049] The positioning connecting plate 221, the supporting connecting plate 222, and the folding connecting plate 223 are all located inside the U-shaped structure of the storage component 1, so that the overall shape of the storage device is simple and easy to clean, and the folding plate 13 is located outside the folding connecting plate 223, which makes it easy for the folding plate 13 to flip outward to open the storage component 1.

[0050] In this embodiment, the support connecting plate 222 and the support plate 12 are fixedly connected by screws to make the connection between the two firm and reliable, thereby improving the support capacity of the support plate 12.

[0051] The positioning connecting plate 221 and the positioning plate 11 are connected by a snap-fit ​​structure to facilitate assembly between them. Specifically, as shown in... Figure 6 As shown, a strip-shaped hole 2211 is provided on the positioning connecting plate 221. The strip-shaped hole 2211 is arranged along the horizontal direction X, and its end facing the other wire-passing plate 224 is open. Figure 1 and Figure 4As shown, the positioning plate 11 is provided with a positioning clip 111. The positioning clip 111 is a strip-shaped strip arranged along the horizontal X direction. Its edge away from the positioning plate 11 is bent downward. The positioning clip 111 can be inserted into the strip-shaped hole 2211 from the open end of the strip-shaped hole 2211. The strip-shaped hole 2211 and the positioning clip 111 form a snap-fit ​​structure, which can facilitate the assembly and disassembly between the positioning connecting plate 221 and the positioning plate 11, and the connection is firm and reliable.

[0052] The folding plate 13 and the folding connecting plate 223 are connected by a magnetic structure to facilitate their connection and separation, thereby making it convenient for the user to open and close the storage component 1. In other embodiments, the folding plate 13 and the folding connecting plate 223 can also be detachably connected by Velcro, snaps, or other means.

[0053] like Figure 6 As shown, multiple cable-holding slots 2201 are provided inside the cable threading hole 220. The cable-holding slots 2201 are located on the bottom wall of the cable threading hole 220. The cable-holding slots 2201 can be used to easily position the cable at a fixed position in the cable threading hole 220, so that multiple cables are arranged neatly. Here, as another embodiment, multiple clips can also be provided inside the cable threading hole 220 to position the cable.

[0054] like Figure 2 , Figure 3 As shown, the fixing member 21 is provided with an adjustment hole 211 arranged vertically along the Z direction. Multiple limiting grooves 212 are provided on the wall of the adjustment hole 211, arranged vertically along the Z direction. The connecting member 22 is provided with a screw hole. The bracket 2 also includes an adjustment bolt 23, which passes through the adjustment hole 211 and is threaded into the screw hole. When the adjustment bolt 23 is located in the limiting groove 212, tightening the adjustment bolt 23 locks the fixing member 21 and the connecting member 22 together. When the adjustment bolt 23 is loosened, it can move along the adjustment hole 211 to drive the connecting member 22 and the storage member 1 to rise and fall. The connecting member 22 can rotate relative to the fixing member 21 with the adjustment bolt 23 as its pivot.

[0055] By setting the adjusting bolt 23, the fixing part 21 and the docking part 22 can be locked or unlocked to adjust the height position and tilt angle of the docking part 22 and the storage part 1, making it convenient for users to plug in plugs and organize cables, etc., and making it easy to use.

[0056] like Figure 7 and Figure 8 As shown, the second embodiment of this utility model provides a cable installation and storage device. The main difference between it and the first embodiment is the connection structure between the fixing member 21 and the docking member 22 in the bracket 2. The connection structure will be described in detail below. Other parts of the structure can be the same as the first embodiment, and will not be described again here.

[0057] In this embodiment, as Figure 7 and Figure 8 As shown, the fixing member 21 and the docking member 22 are connected by an adjusting mechanism 25. The adjusting mechanism 25 includes a rotating rod 251 and a sliding rod 252. The rotating rod 251 and the sliding rod 252 are hinged by a rotating shaft 253 and are X-shaped, with the axis of the rotating shaft 253 being transverse (X). The two ends of the rotating rod 251 are rotatably connected to the fixing member 21 and the docking member 22, respectively, and the rotation axis of both is transverse (X). The two ends of the sliding rod 252 are slidably connected to the fixing member 21 and the docking member 22 along the longitudinal (Y) direction, respectively. The X-shaped structure formed by the rotating rod 251 and the sliding rod 252, and the sliding structure at the end of the sliding rod 252, allows the fixing member 21 and the docking member 22 to move closer to or further away from each other, thereby realizing the lifting and lowering movement of the docking member 22.

[0058] The bottom end of the sliding rod 252 is closer to the folding plate 13 than the bottom end of the rotating rod 251, so that the docking part 22 can move toward the folding plate 13 during the descent, thereby bringing the folding plate 13 closer to the user, making it easier for the user to operate the folding plate 13 and manage cables.

[0059] The rotating shaft 253 is positioned closer to the bottom end of the rotating rod 251 relative to its top end, and the rotating shaft 253 is positioned closer to the top end of the sliding rod 252 relative to its bottom end. For example... Figure 7 As shown, when the docking member 22 moves upward to its highest position, the support plate 12 is in a horizontal state. Figure 8 As shown, when the docking member 22 moves downward to its lowest position, the support plate 12 is tilted towards the folding plate 13. Understandably, the aforementioned highest and lowest positions are the two extreme positions of the docking member during vertical movement.

[0060] As the docking component 22 moves downward, the distance between the bottom end of the rotating rod 251 and the top end of the sliding rod 252 gradually becomes smaller than the distance between the top end of the rotating rod 251 and the bottom end of the sliding rod 252. This causes the top of the docking component 22 and the storage component 1 to deflect toward the folding plate 13, thereby making the top opening of the storage component 1 and the folding plate 13 face the user, making it convenient for the user to organize the cables and electrical equipment inside the storage component 1.

[0061] When the docking part 22 moves downward to the lowest position, the bottom end of the sliding rod 252 moves to the middle position of the longitudinal Y of the docking part 22, so that the sliding rod 252 can better suspend the docking part 22 and the storage part 1, ensuring the stability and reliability of the storage part 1 at the lowest position.

[0062] A gas spring (not shown in the figure) is connected between the fixing member 21 and the top end of the sliding rod 252. The gas spring is arranged along the longitudinal direction Y. The gas spring can buffer the longitudinal sliding of the top end of the sliding rod 252, thereby buffering the lifting and lowering movement of the storage member 1, ensuring the stability of the lifting and lowering movement of the storage member 1, and avoiding vibration. The gas spring can be a self-locking gas spring to position the storage member 1 at a certain height.

[0063] In other embodiments, a gas spring may not be provided. A snap-fit ​​structure is provided between the fixing member 21 and the docking member 22. When the docking member 22 rises to the highest position, the fixing member 21 and the docking member 22 are connected and positioned by the snap-fit ​​structure. After the snap-fit ​​structure is unlocked, the docking member 22 and the storage member 1 can move downward under their own gravity. A damping structure can be provided at the hinges at both ends of the rotating rod 251 to limit the lifting speed of the storage member 1 and ensure the stability of movement.

[0064] The cable installation and storage device provided by this utility model allows the storage component 1 to rotate and move up and down through the rotation and vertical Z-adjustment of the connecting member 22. During cable management, the connecting member 22 and the storage component 1 move to a lower position, and the storage component 1 rotates to tilt the support plate 12. The tilt angle of the support plate 12 is preferably 10-20°, so that the top opening of the storage component 1 and the folding plate 13 can better face the user, facilitating the user to open the folding plate 13 to organize the internal cables or electrical equipment. The limiting strip 121 can block electrical equipment such as power strips inside the storage component 1, preventing the electrical equipment from sliding out. After cable management is completed, the connecting member 22 and the storage component 1 move to a higher position, and the storage component 1 rotates to make the support plate 12 horizontal, shortening the distance between the storage component 1 and the tabletop and avoiding interference with the user's legs.

[0065] In summary, although the present invention has been disclosed above with reference to preferred embodiments, the above preferred embodiments are not intended to limit the present invention. Those skilled in the art can make various modifications and refinements without departing from the spirit and scope of the present invention. Therefore, the scope of protection of the present invention shall be determined by the scope defined in the claims.

Claims

1. A mounting and housing device for a cable, characterized in that Includes wall racks and storage components; The hanging brackets are two arranged horizontally, each hanging bracket including a fixing member and a connecting member. The top of the fixing member is provided with a fixing plate, which is used to install to the bottom surface of the table. The connecting member is rotatably arranged about the horizontal direction and is vertically adjustable to the fixing member. At least one of the connecting members is provided with a cable hole for installing cables. The storage component is used to store electrical equipment, and its two horizontal ends are respectively connected to a docking component; the storage component is U-shaped in general, and includes a positioning plate, a support plate and a folding plate connected in sequence along the longitudinal direction. The positioning plate and the folding plate are both located above the support plate. The positioning plate and the support plate are both installed on the docking component. The folding plate and the support plate can be folded and connected, and the folding plate and the docking component can be detachably connected.

2. The installation housing device for a cable according to claim 1, wherein A limiting strip extends upward from the side of the support plate adjacent to the folding plate, and the limiting strip is foldably connected to the folding plate.

3. The mounting and housing device for a cable according to claim 2, wherein The positioning plate and the support plate are foldable and connected. When the storage component is separated from the docking component, the positioning plate flips towards the folding plate and folds with the support plate. The limiting strip is spaced apart from the positioning plate. The folding plate can flip towards the positioning plate and onto the positioning plate.

4. The installation housing device for a cable according to claim 3, wherein The positioning plate, the support plate, and the folding plate are all made of rigid materials, and the positioning plate and the support plate, as well as the support plate and the folding plate, are connected by soft materials.

5. The cable installation and storage device according to claim 4, characterized in that, The soft material wraps around the positioning plate, the support plate, and the folding plate.

6. The cable installation and storage device according to claim 1, characterized in that, The folding plate and the docking part are connected by a magnetic structure, Velcro, or buckle.

7. The cable installation and storage device according to claim 1, characterized in that, The docking component includes a threading plate, a positioning connecting plate, a supporting connecting plate, and a folding connecting plate. The threading hole is disposed on the threading plate. The positioning connecting plate, the supporting connecting plate, and the folding connecting plate are all connected to the side of the threading plate facing the other docking component. The positioning connecting plate is parallel to and connected to the positioning plate. The supporting connecting plate is parallel to and connected to the supporting plate. The folding plate is parallel to the folding connecting plate and connected by a magnetic attraction structure.

8. The cable installation and storage device according to claim 7, characterized in that, The positioning connecting plate, the supporting connecting plate, and the folding connecting plate are all located inside the U-shaped structure of the storage component.

9. The cable installation and storage device according to any one of claims 1-8, characterized in that, The fastener is provided with an adjustment hole arranged vertically, and the wall of the adjustment hole is provided with a plurality of limiting grooves, which are arranged vertically; the connecting member is provided with a screw hole. The bracket also includes an adjusting bolt, which passes through the adjusting hole and is threaded into the threaded hole. When the adjusting bolt is in the limiting groove, tightening the adjusting bolt locks the fixing member and the docking member together. When the adjusting bolt is loosened, the adjusting bolt can move along the adjusting hole to drive the docking member and the storage member to rise and fall, and the docking member can rotate relative to the fixing member with the adjusting bolt as the pivot.

10. The cable installation and storage device according to any one of claims 1-8, characterized in that, The fixing member and the docking member are connected by an adjustment mechanism, which includes a rotating rod and a sliding rod. The rotating rod and the sliding rod are hinged by a rotating shaft and are X-shaped. The axis of the rotating shaft is transverse. The two ends of the rotating rod are rotatably connected to the fixing member and the docking member, respectively, and the rotation axis is transverse. The two ends of the sliding rod are slidably connected to the fixing member and the docking member along the longitudinal direction. The bottom end of the sliding rod is closer to the folding plate than the bottom end of the rotating rod; The rotating shaft is positioned closer to the bottom end of the rotating rod than the top end of the rotating rod, and the rotating shaft is positioned closer to the top end of the sliding rod than the bottom end of the sliding rod; when the docking member moves upward to the highest position, the support plate is in a horizontal state; when the docking member moves downward to the lowest position, the support plate is tilted towards the folding plate.