A back wiring assembly of a Xiongmao server with a modular cable management structure
By using a modular cable management structure and the sliding cooperation of guide blocks and cable management plates, the flexibility problem of cable management structure for domestically developed servers is solved, enabling flexible adjustment of the number of cables and positioning protection, thereby improving management and maintenance efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HUBEI WEIGUAN ZHIXIAN TECH CO LTD
- Filing Date
- 2025-07-22
- Publication Date
- 2026-06-12
AI Technical Summary
The existing cable management structure of domestic IT innovation servers is mostly fixed, which makes it difficult to flexibly expand or reduce according to actual needs, and cannot meet the diverse needs of different services for the number of cables.
It adopts a modular cable management structure, which allows for flexible increase or decrease of cable space through the sliding cooperation of guide blocks and cable management plates. It combines toothed parts and pressing modules for winding and positioning, uses elastic limit plates and rotating rollers to reduce friction, and is equipped with insulating sheets and heat dissipation modules for protection and heat dissipation.
It achieves flexible adaptability and ease of operation in cable management structure, facilitates maintenance and identification, and improves the adaptability and maintenance efficiency of cable management.
Smart Images

Figure CN224356453U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of server cable management technology, specifically to a back-end cabling component for a domestically developed server with a modular cable management structure. Background Technology
[0002] The term "IT Innovation Server" refers to server products based on the IT application innovation (IT Innovation) industry ecosystem. Whether it is an IT Innovation Server or other servers, a lot of cables will be laid out due to the connection and installation of the equipment. The existing cable management methods are mostly to organize the cables by using cable ties, cable clips or cable trays.
[0003] Currently, a utility model patent with announcement number CN212366708U discloses a server cable management device. This patent can fix cables separately through the cooperation between the card block and the mounting plate, so that the cables do not interfere with each other, making it easy to replace the cables individually, and making the cables neater and more convenient for server use.
[0004] The above-mentioned technical solutions can meet the quantitative cable management needs through preset card blocks and mounting plates, but they are difficult to cope with the different requirements of different services for the number of cables. Similar to the existing technology, the fixed cable management structure is not convenient to expand or reduce the cable management structure according to the actual needs of users, and its flexibility is not high. Based on this, this application provides a back-end cable routing component for domestically developed servers with a modular cable management structure to solve the above problems. Utility Model Content
[0005] Based on the above description, this utility model provides a back-end cable routing component for domestically developed servers with a modular cable management structure, in order to solve the problem that most existing cable management structures are fixed structures, which can only meet a fixed amount of cable management needs and are inconvenient to expand or reduce the cable management structure according to the actual number of cables.
[0006] The technical solution of this utility model to solve the above-mentioned technical problems is as follows: a back-end cabling component for a domestically developed server with a modular cable management structure, including a server rack, wherein a server module is provided inside the server rack;
[0007] The server rack is equipped with several cable outlet modules, installation modules and cable management components on its outer side, and the cable management components are equipped with connecting cables at their upper limits.
[0008] The cable management assembly includes a cable management plate, which has toothed parts for winding and limiting the connection cable, and a pressing module for pressing and positioning the connection cable.
[0009] The installation module includes a guide block, and the cable management piece is slidably connected to the guide block.
[0010] Through the above technical solution, several cable management pieces can be slidably set on the guide block by the sliding cooperation of the guide block and the cable management piece, so as to increase or decrease the space for laying the connecting cable according to the actual needs; the toothed piece can be used to wind the connecting cable to achieve pre-positioning, and then the pressing module is used to squeeze and limit it to complete the positioning of the connecting cable, thereby realizing the positioning management of the connecting cable.
[0011] Based on the above technical solution, the present invention can be further improved as follows.
[0012] Furthermore, the toothed member includes two fixing plates disposed on the cable management plate. The fixing plates are provided with a number of limiting plates that can elastically deform. The side of the limiting plate away from the corresponding fixing plate is trapezoidal, and the space between two adjacent limiting plates is a management space for placing connecting cables.
[0013] The limiting piece is detachably connected to two sets of connecting pieces. Each set of connecting pieces consists of two pieces, which are symmetrically distributed vertically. Correspondingly, the two connecting pieces are rotatably connected to each other on opposite sides via a rotating shaft and a rotating roller.
[0014] The above technical solution, with its trapezoidal end design, makes it easier for connecting cables to enter the management space for management. The rotating roller greatly reduces friction when the connecting cable comes into contact with it, thus protecting the outer side of the connecting cable.
[0015] Furthermore, the pressing module includes two mating plates and two guide rods disposed on the cable management sheet, with a limiting plate at the end of the guide rod and a pressing plate slidably connected to the outside of the guide rod;
[0016] The mating plate is located between the two corresponding fixed plates on opposite sides. The side of the pressing plate closest to the corresponding mating plate is bonded with an anti-slip pad, and the pressing plate can abut against the outer side of the corresponding mating plate through the anti-slip pad.
[0017] The above technical solution allows the pressing plate to rotate or slide outside the corresponding guide rod under the restriction of the limiting plate; the anti-slip pad can increase the stability of the positioning.
[0018] Furthermore, the cable management piece is provided with two support plates, and the outer side of the pressing plate is provided with an overlapping plate that can be placed on the top of the corresponding support plate, and a locking member is provided on the overlapping plate;
[0019] The locking component is a hand-turned screw, and the support plate has an internal threaded hole for threaded connection of the locking component.
[0020] The above technical solution allows the overlapping plate and the support plate to be locked together through the cooperation between the locking component and the internal threaded hole.
[0021] Furthermore, the outgoing module includes an outgoing hole located on the outside of the server rack for the connection cable to pass through, and a number of insulating sheets are provided on the top of the outgoing hole.
[0022] The above technical solution allows the connecting cable to pass through the outlet hole normally into the outside world, and the insulating sheet can play a certain role in blocking dust from the outlet hole.
[0023] Furthermore, the insulating sheet can be polyethylene insulating plastic, nylon sheet or rubber sheet, and the number of the wire outlet holes and guide blocks is equal, with the wire outlet holes located above the corresponding guide blocks.
[0024] The above technical solution allows the connecting cable, which passes through the outlet hole, to move normally to the outside of the guide block.
[0025] Furthermore, the installation module also includes a T-shaped slide groove on the right side of the guide block, the front of the T-shaped slide groove is open, and the cable management piece is provided with a T-shaped slider that can slide within the T-shaped slide groove.
[0026] Two locking bolts are threaded through the cable management plate, and several evenly distributed threaded grooves are provided on the guide block for the locking bolts to be threaded.
[0027] The above technical solution allows for the adjustment of the number of wire management pieces by sliding the T-shaped slider within the T-shaped groove.
[0028] Furthermore, the server module includes several device boards disposed within a server rack, the number of device boards being equal to the number of cable outlets, and server devices being disposed on the device boards;
[0029] The server equipment corresponds to the position of the corresponding cable outlet, and the server rack is equipped with several heat dissipation modules for heat dissipation of the server equipment.
[0030] The above technical solution enables the connection cable to be connected to the corresponding server equipment and to extend normally from the cable outlet; the heat dissipation module can dissipate heat from the server equipment.
[0031] Furthermore, the connecting cable is provided with a clip on the outside, which is held on the outside of the cable by elastic opening and closing, and the clip is provided with an identification plate.
[0032] The above technical solution, by setting up clips, allows operators to clearly determine which server device the connection cable is connected to by using the identification tags on the clips.
[0033] Compared with the prior art, the technical solution of this application has the following beneficial technical effects:
[0034] 1. It can be flexibly expanded or reduced according to the actual number and location of cables through modular settings, which improves the adaptability and practical adaptability of the cable management structure and facilitates maintenance.
[0035] 2. This modular design allows for easy adjustments by the operator, and the overall operation is simple and convenient, facilitating disassembly and installation. Furthermore, by assigning unique numbers to the cables, maintenance personnel can more intuitively and easily locate and identify cable information during maintenance and repair. Attached Figure Description
[0036] Figure 1 A schematic diagram of the overall structure of a back-end wiring assembly for a domestically developed server with a modular cable management structure, provided for an embodiment of this utility model;
[0037] Figure 2 This is an isometric view of an embodiment of the present invention;
[0038] Figure 3 This is an embodiment of the present utility model. Figure 1 A schematic diagram of the connection structure of a server rack in China;
[0039] Figure 4 This is a schematic diagram of the connection structure of the wire management piece in an embodiment of this utility model;
[0040] Figure 5 This is a schematic diagram of the combination of the cable management piece and the connecting cable in an embodiment of this utility model;
[0041] Figure 6 This is an embodiment of the present utility model. Figure 4 A magnified view of part A in the middle;
[0042] Figure 7 This is an embodiment of the present utility model. Figure 4 A magnified view of part B in the middle section;
[0043] Figure 8 This is an embodiment of the present utility model. Figure 4 A magnified view of part C in the middle;
[0044] Figure 9 This is a top view of the wire-retaining plate connection structure in an embodiment of the present invention;
[0045] Figure 10 This is a right-side view of the wire-connecting structure in an embodiment of this utility model.
[0046] Attached image label: 1, Server rack;
[0047] 2. Outgoing cable module; 21. Outgoing cable hole; 22. Insulating sheet;
[0048] 3. Mounting module; 31. Guide block; 32. T-shaped slide; 33. T-shaped slider; 34. Locking bolt; 35. Threaded groove;
[0049] 4. Cable management assembly; 41. Cable management plate; 42. Fixing plate; 43. Limiting plate; 44. Connecting plate; 45. Rotating roller; 46. Mating plate; 47. Guide rod; 48. Pressing plate; 49. Limiting disc; 410. Anti-slip pad; 411. Support plate; 412. Overlap plate; 413. Locking component;
[0050] 51. Equipment board; 52. Server equipment; 53. Heat dissipation module;
[0051] 61. Connecting cable; 62. Clip; 63. Identification plate. Detailed Implementation
[0052] To facilitate understanding of this application, a more complete description will be provided below with reference to the accompanying drawings, which illustrate embodiments of the present application. However, the present application can be implemented in many different forms and is not limited to the embodiments described herein. Rather, these embodiments are provided so that the disclosure of this application will be thorough and complete.
[0053] Unless otherwise defined, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application.
[0054] Example: Reference Figure 1 and Figure 2 A back-end cable routing component for a domestically developed server with a modular cable management structure includes a server rack 1, within which a server module is installed; several cable exit modules 2, an installation module 3, and a cable management component 4 are provided on the outside of the server rack 1; the cable management component 4 has a connecting cable 61 positioned at its upper limit; the cable management component 4 includes a cable management piece 41, which has toothed parts for winding and limiting the connecting cable 61, and a pressing module for pressing and positioning the connecting cable 61; the installation module 3 includes a guide block 31, and the cable management piece 41 is slidably connected to the guide block 31.
[0055] refer to Figure 6 and Figure 9The toothed component includes two fixing plates 42 disposed on the cable management plate 41. The fixing plates 42 are provided with a number of limiting plates 43 that can elastically deform. The side of the limiting plate 43 away from the corresponding fixing plate 42 is trapezoidal. The space between two adjacent limiting plates 43 is a management space for placing the connecting cable 61. The limiting plate 43 can be a metal plate, a plastic plate or a polyurethane rubber block, which can ensure that the overall shape remains unchanged and can undergo a certain elastic deformation when subjected to pressure and can recover when the pressure is removed. Furthermore, the trapezoidal end setting makes it easier for the connecting cable 61 to enter the management space from the opening of the management space, so that the connecting cable 61 can be managed.
[0056] refer to Figure 6 Two sets of connecting plates 44 are detachably connected to the limiting plate 43. Each set of connecting plates 44 consists of two pieces, which are symmetrically distributed vertically. A rotating roller 45 is rotatably connected between the two corresponding connecting plates 44 on opposite sides via a rotating shaft. The rotating roller 45 can greatly reduce the friction when the connecting cable 61 comes into contact with it, thereby protecting the outside of the connecting cable 61.
[0057] It should be noted that the distance between the two rotating rollers 45 on opposite sides is less than the diameter of the connecting cable 61, so that the connecting cable 61 can push the two rotating rollers 45 to move when it moves, thereby causing the limiting piece 43 to undergo elastic deformation.
[0058] When using, refer to Figure 5 The connecting cable 61 is moved into the corresponding management space through the opening. During the movement, the outer surface of the connecting cable 61 touches the rotating roller 45 and pushes the corresponding limiting piece 43 to move through the rotating roller 45, so that the connecting cable 61 can move normally between the opposite sides of the two adjacent limiting pieces 43. Through repeated winding actions, the connecting cable 61 can be wound around the outer side of the corresponding limiting piece 43 for positioning.
[0059] refer to Figure 7 and Figure 8 The pressing module includes two mating plates 46 and two guide rods 47 disposed on the cable management plate 41. The end of the guide rod 47 is provided with a limiting plate 49. The pressing plate 48 is slidably connected to the outside of the guide rod 47, so that the pressing plate 48 can rotate or slide on the outside of the corresponding guide rod 47 under the restriction of the limiting plate 49. The mating plate 46 is located between the opposite sides of the two corresponding fixing plates 42. The side of the pressing plate 48 close to the corresponding mating plate 46 is bonded with an anti-slip pad 410. The pressing plate 48 can abut against the outside of the corresponding mating plate 46 through the anti-slip pad 410. The anti-slip pad 410 can increase the stability of the positioning. The anti-slip pad 410 can be a silicone pad or a rubber pad.
[0060] In use, the outer side of the connecting cable 61 is attached to the surface of the two corresponding mating plates 46, and the pressing plate 48 is moved so that it squeezes and limits the connecting cable 61 through the anti-slip pad 410.
[0061] refer to Figure 8 The cable management plate 41 is provided with two support plates 411. The outer side of the pressing plate 48 is provided with an overlapping plate 412 that can be placed on the top of the corresponding support plate 411. A locking member 413 is provided on the overlapping plate 412. The locking member 413 is a hand screw. The support plate 411 is provided with an internal threaded hole for the locking member 413 to be threaded. The overlapping plate 412 and the support plate 411 can be locked together by the cooperation between the locking member 413 and the internal threaded hole.
[0062] In use, first rotate the pressing plate 48 around the guide rod 47 so that the overlapping plate 412 moves above the corresponding support plate 411. Then move the pressing plate 48 to press and position the connecting cable 61 and place the overlapping plate 412 on the support plate 411. Finally, complete the positioning by rotating the locking part 413.
[0063] refer to Figure 1 and Figure 3 The cable outlet module 2 includes a cable outlet hole 21 located on the outside of the server rack 1 for the cable 61 to pass through. The top of the cable outlet hole 21 is provided with several insulating sheets 22, which allow the cable 61 to pass through the cable outlet hole 21 normally to the outside. The insulating sheets 22 can also protect the cable outlet hole 21 from dust.
[0064] refer to Figure 1 The insulating sheet 22 can be polyethylene insulating plastic, nylon sheet or rubber sheet. The number of outlet holes 21 and guide blocks 31 are equal. The outlet holes 21 are located above the corresponding guide blocks 31, so that the connecting cable 61 passing through the outlet holes 21 can move normally to the outside of the guide block 31.
[0065] refer to Figure 4 and Figure 10 The installation module 3 also includes a T-shaped groove 32 on the right side of the guide block 31. The front of the T-shaped groove 32 is open. The cable management piece 41 is provided with a T-shaped slider 33 that can slide within the T-shaped groove 32. By sliding the T-shaped slider 33 within the T-shaped groove 32, the number of cable management pieces 41 can be increased or decreased. Two locking bolts 34 are provided on the cable management piece 41. The guide block 31 is provided with several evenly distributed threaded grooves 35. The threaded grooves 35 are used for threaded connection of the locking bolts 34, so that the cable management piece 41 can be stably connected to the guide block 31 through the cooperation between the locking bolts 34 and the threaded grooves 35.
[0066] In use, the T-shaped slider 33 can move into the opening on the right side of the T-shaped groove 32 and slide therein, thereby increasing or decreasing the number of cable management pieces 41. The locking bolt 34 and the threaded groove 35 are then connected and engaged to complete the fixing.
[0067] refer to Figure 1 and Figure 2 The server module includes several device boards 51 disposed within the server rack 1. The number of device boards 51 is equal to the number of cable outlet holes 21. Server devices 52 are disposed on the device boards 51. The server devices 52 are positioned corresponding to the corresponding cable outlet holes 21, so that the connecting cables 61 can be connected to the corresponding server devices 52 and can extend normally from the cable outlet holes 21. Several heat dissipation modules 53 are disposed outside the server rack 1 for dissipating heat from the server devices 52. The heat dissipation modules 53 can dissipate heat from the server devices 52.
[0068] It should be noted that the heat dissipation module 53 is a heat dissipation fan, which achieves the effect of heat dissipation and cooling by guiding airflow. It is a commonly used heat dissipation method in existing industrial equipment and is electrically connected to the main controller and power supply.
[0069] refer to Figure 5 A clip 62 is provided on the outside of the connecting cable 61. The clip 62 is held on the outside of the cable by elastic opening and closing. A label 63 is provided on the clip 62. By setting the clip 62, the operator can clearly determine which server device 52 the connecting cable 61 is connected to by using the label 63 on the clip 62.
[0070] It should be noted that the clip 62 achieves its elastic opening and closing clamping function through a torsion spring, which is a publicly available technology, so it will not be described in detail. The label 63 can be affixed with a sticker indicating the type of cable or the device it is used to connect to, so that the operator can easily check it.
[0071] The above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.
Claims
1. A back-end cabling assembly for a domestically developed server with a modular cable management structure, comprising a server rack (1), wherein a server module is provided within the server rack (1); Its features are, The server rack (1) is provided with several cable outlet modules (2), installation modules (3) and cable management components (4) on its outer side. The cable management components (4) are provided with connecting cables (61) at their upper limits. The cable management assembly (4) includes a cable management piece (41), which has a toothed part for winding and limiting the connecting cable (61) and a pressing module for pressing and positioning the connecting cable (61). The installation module (3) includes a guide block (31), and the cable management piece (41) is slidably connected to the guide block (31).
2. The back-end cabling assembly for a domestically developed server with a modular cable management structure according to claim 1, characterized in that, The toothed member includes two fixing plates (42) on the cable management plate (41). The fixing plate (42) is provided with a number of limiting plates (43) that can be elastically deformed. The side of the limiting plate (43) away from the corresponding fixing plate (42) is trapezoidal. The space between two adjacent limiting plates (43) is a management space for placing the connecting cable (61). The limiting piece (43) is detachably connected to two sets of connecting pieces (44). Each set of connecting pieces (44) consists of two pieces, which are symmetrically distributed vertically. The two corresponding connecting pieces (44) are rotatably connected to each other on opposite sides via a rotating shaft and a rotating roller (45).
3. The back-end cabling assembly for a domestically developed server with a modular cable management structure according to claim 2, characterized in that, The pressing module includes two mating plates (46) and two guide rods (47) on the wire management piece (41). The end of the guide rod (47) is provided with a limiting plate (49), and the outside of the guide rod (47) is slidably connected to the pressing plate (48). The mating plate (46) is located between the two corresponding fixing plates (42) on opposite sides. The pressing plate (48) has an anti-slip pad (410) glued to the side of the corresponding mating plate (46). The pressing plate (48) can abut against the outer side of the corresponding mating plate (46) through the anti-slip pad (410).
4. The back-end cabling assembly for a domestically developed server with a modular cable management structure according to claim 3, characterized in that, The cable management piece (41) is provided with two support plates (411), and the outer side of the pressing plate (48) is provided with an overlapping plate (412) that can be placed on the top of the corresponding support plate (411). A locking piece (413) is provided on the overlapping plate (412). The locking component (413) is a hand-turning screw, and the support plate (411) has an internal thread hole for the locking component (413) to be threaded.
5. The back-end cabling assembly for a domestically developed server with a modular cable management structure according to claim 1, characterized in that, The outgoing module (2) includes an outgoing hole (21) opened on the outside of the server rack (1) for the connecting cable (61) to pass through, and a number of insulating sheets (22) are provided on the top of the outgoing hole (21).
6. The back-end cabling assembly for a domestically developed server with a modular cable management structure according to claim 5, characterized in that, The insulating sheet (22) can be polyethylene insulating plastic, nylon sheet or rubber sheet, and the number of the wire outlet hole (21) and the guide block (31) are equal, with the wire outlet hole (21) located above the corresponding guide block (31).
7. The back-end cabling assembly for a domestically developed server with a modular cable management structure according to claim 1, characterized in that, The installation module (3) also includes a T-shaped slide groove (32) opened on the right side of the guide block (31). The front of the T-shaped slide groove (32) is open. The cable management piece (41) is provided with a T-shaped slider (33) that can slide within the T-shaped slide groove (32). Two locking bolts (34) are provided on the cable management plate (41), and several threaded grooves (35) are evenly distributed on the guide block (31). The threaded grooves (35) are for the locking bolts (34) to be threaded.
8. The back-end cabling assembly for a domestically developed server with a modular cable management structure according to claim 5, characterized in that, The server module includes several device boards (51) located in the server rack (1). The number of device boards (51) is equal to the number of cable outlet holes (21). Server devices (52) are provided on the device boards (51). The server device (52) is positioned corresponding to the corresponding cable outlet (21), and the server rack (1) is provided with a plurality of heat dissipation modules (53) for dissipating heat from the server device (52).
9. A back-end cabling assembly for a domestically developed server with a modular cable management structure according to any one of claims 1-8, characterized in that, The connecting cable (61) is provided with a clip (62) on the outside. The clip (62) is held on the outside of the cable by elastic opening and closing. The clip (62) is provided with an identification piece (63).