An adjustable cabinet wiring device

By using an adjustable cabinet cabling device, the distance between the bottom frame and the top frame can be changed by adjusting the rod, simulating the structural dimensions of the transmission frame. This solves the problem of cabinet cabling planning before the transmission frame is processed, and improves production efficiency.

CN224503729UActive Publication Date: 2026-07-14709TH RESEARCH INSTITUTE CHINA STATE SHIPBUILDING CORP LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
709TH RESEARCH INSTITUTE CHINA STATE SHIPBUILDING CORP LTD
Filing Date
2025-07-29
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Before the transmission frame structure within the cabinet unit is fully fabricated, it is difficult to plan the cabling for the cabinet unit, which severely hinders the production schedule.

Method used

An adjustable cabinet cabling device is provided, including a mounting base, a bottom frame, an upper frame, a connecting rod, and an adjusting rod. The distance between the bottom frame and the upper frame is changed by adjusting the length of the adjusting rod, simulating the dimensions of the transmission frame structure, thereby enabling cabinet cabling planning before the transmission frame structure is fully manufactured.

Benefits of technology

This technology enables the cabinet wiring to be completed before the transmission frame structure is finished, improving production efficiency and making it suitable for chassis of different heights and lengths, thus avoiding production delays.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model provides an adjustable cabinet cabling device, wherein: at least two fixed seats are respectively used to slide and engage with slide rails on both sides of the inner wall of the cabinet unit; at least two first connecting rods respectively pass through the fixed seats on the corresponding sides, the upper ends of the at least two first connecting rods are respectively connected to the corresponding side of the upper frame, and the lower ends of the at least two first connecting rods are respectively movably connected to the corresponding side of the bottom frame; the upper ends of the at least two first adjusting rods are respectively connected to the fixed seats on the corresponding sides, and the lower ends of the at least two first adjusting rods are respectively connected to the corresponding side of the bottom frame; the first adjusting rods are used to adjust their own length, driving the bottom frame to move axially on the first connecting rods, so as to change the distance between the bottom frame and the upper frame, to simulate the size of the actual transmission frame structure, and the cabinet cabling can be performed after the chassis is placed in, realizing the completion of cabinet cabling before the transmission frame structure is completed.
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Description

Technical Field

[0001] This utility model relates to the field of cabinet cabling technology, and in particular to an adjustable cabinet cabling device. Background Technology

[0002] The rapid development and continuous upgrading of network products such as servers and switches are trending towards miniaturization, compactness, and modularity. This has led to an increasing number of chassis required in server racks, each typically equipped with multiple ports for transmitting various signals. Each port corresponds to a specific connector, which is mounted on the chassis panel. Chassis are interconnected via cables. With the increasing number of chassis, the requirements for rack cabling are becoming more stringent. Loose or inconsistent cable lengths can not only damage the cables but also cause equipment malfunctions and downtime.

[0003] To better explain the problems that exist in real-world scenarios, let's first... Figure 1 The structure of the server rack is described below. The server rack is divided into multiple rack units, each housing a server chassis. More specifically, a specific drive frame structure is needed to accommodate the chassis, and this drive frame structure is then placed within the rack unit. For example... Figure 1 As shown, Figure 1 The reference numeral A refers to the aforementioned transmission frame structure (the transmission frame structure is not actually a square structure). Figure 1 (This is only an example to illustrate the position and functional relationship of the transmission frame structure.) Figure 1 The reference numeral B is the cable guide frame. The end of the transmission frame structure facing the inside of the cabinet is connected to the cable guide frame inside the cabinet. The cable guide frame is used for cable routing and wiring, allowing the cables to connect to the chassis in the transmission frame structure.

[0004] In existing server rack scenarios, the on-board cabling is closely related to the rack space and the processing progress of the transmission frame structure inside the rack unit. After the transmission frame structure is processed, it needs to be placed in the corresponding rack unit position, and the chassis needs to be placed inside the transmission frame structure. Only then can the cables be led to the corresponding positions and connected to the chassis interfaces to accurately calculate the cable length and avoid cable damage caused by interference during the movement of the chassis.

[0005] Currently, before the transmission frame structure is fully manufactured, the chassis cannot be placed in the cabinet. The specific location of the connectors corresponding to the chassis ports inside the cabinet cannot be clearly marked, making it difficult to accurately calculate the cable length. The cable length can only be determined after the transmission frame structure is fully manufactured, so that wiring planning can be carried out and subsequent processes can be completed, which seriously hinders the production progress.

[0006] Therefore, overcoming the shortcomings of the existing technology is an urgent problem to be solved in this technical field. Utility Model Content

[0007] The problem this invention aims to solve is how to plan the cabling of a server rack unit before the transmission frame structure within the rack unit is fully fabricated, thereby improving the production efficiency of server racks.

[0008] In a first aspect, an adjustable cabinet cabling device is provided, comprising: at least two mounting bases 1, a bottom frame 2, an upper frame 3, at least two first connecting rods 4, and at least two first adjusting rods 5, wherein:

[0009] The at least two fixed seats 1 are respectively used to slide and engage with the slide rails 6 on both sides of the inner sidewall of the cabinet unit;

[0010] The at least two first connecting rods 4 pass through the corresponding fixed base 1 on one side, the upper ends of the at least two first connecting rods 4 are respectively connected to the corresponding side of the upper frame 3, and the lower ends of the at least two first connecting rods 4 are respectively movably connected to the corresponding side of the bottom frame 2.

[0011] The upper ends of the at least two first adjusting rods 5 are respectively connected to the fixed base 1 on the corresponding side, and the lower ends of the at least two first adjusting rods 5 are respectively connected to the corresponding side of the bottom frame 2.

[0012] The first adjusting rod 5 is used to adjust its own length, thereby driving the bottom frame 2 to move axially on the first connecting rod 4, so as to change the distance between the bottom frame 2 and the upper frame 3.

[0013] Preferably, the bottom frame 2 includes: a first main trunk 21, a second main trunk 22, and at least two first side telescopic trunks 23, wherein:

[0014] One end of the first main rod 21 is movably sleeved on the lower end of the first connecting rod 4 on one side, and the other end of the first main rod 21 is movably sleeved on the lower end of the first connecting rod 4 on the other side.

[0015] One end of the second main rod 22 is fixedly sleeved to the lower end of the first adjusting rod 5 on one side, and the other end of the second main rod 22 is fixedly sleeved to the lower end of the first adjusting rod 5 on the other side.

[0016] The two ends of the first main trunk 21 are connected to the corresponding ends of the first side telescopic trunk 23 and the second main trunk 22, respectively.

[0017] Preferably, the upper frame 3 includes: a third main rod 31, a fourth main rod 32, at least two second side telescopic rods 33, and at least two second connecting rods 34, wherein:

[0018] One end of the third main rod 31 is sleeved on the upper end of the first connecting rod 4 on one side, and the other end of the third main rod 31 is sleeved on the upper end of the first connecting rod 4 on the other side.

[0019] The lower ends of the at least two second connecting rods 34 are respectively connected to the fixed seat 1 on the corresponding side;

[0020] One end of the fourth main rod 32 is sleeved on the upper end of the second connecting rod 34 on one side, and the other end of the fourth main rod 32 is sleeved on the upper end of the second connecting rod 34 on the other side.

[0021] The two ends of the third main trunk 31 are connected to the corresponding ends of the second side telescopic trunk 33 and the fourth main trunk 32, respectively.

[0022] Preferably, the adjustable rack cabling device further includes an interface panel 7, wherein:

[0023] The upper two sides of the interface panel 7 are respectively connected to the second telescopic rod 33 on the corresponding side, and the lower two sides of the interface panel 7 are respectively connected to the first telescopic rod 23 on the corresponding side.

[0024] Preferably, the first side telescopic rod 23 includes a first inner rod 231 and a first outer rod 232, wherein:

[0025] The first outer rod 232 is movably sleeved around the first inner rod 231;

[0026] The first outer rod 232 is connected to the first adjusting rod 5 and the first connecting rod 4 on the corresponding side, and the first inner rod 231 is connected to the corresponding side of the lower end of the interface panel 7.

[0027] Preferably, the second side telescopic rod 33 includes a second inner rod 331 and a second outer rod 332, wherein:

[0028] The second outer rod 332 is movably sleeved around the second inner rod 331;

[0029] The second outer rod 332 is connected to the second connecting rod 34, the first connecting rod 4, the third main rod 31 and the fourth main rod 32 on the corresponding side, and the second inner rod 331 is connected to the corresponding side of the upper end of the interface panel 7.

[0030] Preferably, the first adjusting rod 5 includes a first inner adjusting rod 51 and a first outer adjusting rod 52, wherein:

[0031] The first outer adjusting rod 52 is movably sleeved around the first inner adjusting rod 51;

[0032] The first inner adjusting rod 51 is connected to the corresponding side of the bottom frame 2, and the first outer adjusting rod 52 is connected to the corresponding side of the fixing seat 1;

[0033] The distance between the bottom frame 2 and the upper frame 3 is adjusted by moving the first outer adjusting rod 52 and the first inner adjusting rod 51 relative to each other.

[0034] Preferably, the first outer adjusting rod 52 is provided with a first screw hole 53, and the first screw hole 53 is connected to the first inner adjusting rod 51 inside the first outer adjusting rod 52;

[0035] A first screw 54 is fitted in the first screw hole 53. When the first inner adjusting rod 51 and the first outer adjusting rod 52 move relative to each other to a specified state, the first screw 54 fits in the first screw hole 53 and abuts and fixes the first inner adjusting rod 51.

[0036] Preferably, the adjustable cabinet cabling device further includes a reinforcing rod 8, which is located above the upper frame 3. One end of the reinforcing rod 8 is connected to the upper end of the first connecting rod 4 on one side, and the other end of the reinforcing rod 8 is connected to the first connecting rod 4 on the other side.

[0037] Preferably, the fixing base 1 includes a sub-mounting component 11 and a pad 12, wherein:

[0038] The sub-mounting component 11 and the pad 12 are attached and fixedly connected;

[0039] The sub-mounting component 11 is connected to the first adjusting rod 5 on the corresponding side, and the first connecting rod 4 on the corresponding side passes through the sub-mounting component 11;

[0040] The pad 12 is used to slide and engage with the slide rail 6 on the corresponding side of the inner wall of the cabinet unit.

[0041] Unlike existing technologies, this utility model has at least the following beneficial effects:

[0042] By adjusting the length of the first adjusting rod 5, the bottom frame 2 is moved axially on the first connecting rod 4, thereby changing the distance between the bottom frame 2 and the upper frame 3. This simulates the dimensions of the actual transmission frame structure, allowing the chassis to be placed into the adjustable cabinet cabling device. This advances the process of calculating cable length and planning cabling, avoiding production delays caused by the transmission frame structure not being completed in time. In this invention, the adjustable cabinet cabling device advances the cabinet cabling process. After the transmission frame structure is completed, assembly is completed directly according to the pre-determined cabling method, enabling cabinet cabling to be completed before the transmission frame structure is finished, thus improving overall efficiency. Furthermore, the adjustable cabinet cabling device is height-adjustable, making it suitable for chassis of different heights.

[0043] Furthermore, the adjustable cabinet cabling unit can also be length-adjustable, making it suitable for chassis of different lengths. Attached Figure Description

[0044] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0045] Figure 1 This is a schematic diagram of an existing server rack scenario;

[0046] Figure 2 A schematic diagram of an adjustable cabinet cabling device provided for an embodiment of this utility model;

[0047] Figure 3 A schematic diagram of an adjustable cabinet cabling device mounted on a slide rail, provided for an embodiment of this utility model;

[0048] Figure 4 A schematic diagram of another adjustable cabinet cabling device provided in an embodiment of this utility model;

[0049] Figure 5 A schematic diagram of another adjustable cabinet cabling device provided for an embodiment of this utility model;

[0050] Figure 6 A schematic diagram of another adjustable cabinet cabling device provided for an embodiment of this utility model;

[0051] Figure 7 A schematic diagram of another adjustable cabinet cabling device provided in this embodiment of the utility model;

[0052] Figure 8 A schematic diagram of the interface panel position in an adjustable cabinet cabling device provided for an embodiment of this utility model;

[0053] Figure 9 A partial schematic diagram of the first adjusting rod in an adjustable cabinet cabling device provided for an embodiment of this utility model;

[0054] Figure 10 A partial schematic diagram of an adjustable cabinet cabling device provided in this embodiment of the present invention, wherein the first adjusting rod has a first screw;

[0055] Figure 11 A partial schematic diagram of the position of the fixing base in an adjustable cabinet cabling device provided for an embodiment of this utility model;

[0056] The attached figures are numbered as follows:

[0057] Fixed base 1; Sub-mounting component 11; Pad block 12; Bottom frame 2; First main rod 21; Second main rod 22; First side telescopic rod 23; First inner rod 231; First outer rod 232; Upper frame 3; Third main rod 31; Fourth main rod 32; Second side telescopic rod 33; Second inner rod 331; Second outer rod 332; Second connecting rod 34; First connecting rod 4; First adjusting rod 5; First inner adjusting rod 51; First outer adjusting rod 52; First screw hole 53; First screw 54; Slide rail 6; Interface panel 7; Acrylic plate 71; Metal plate 72; First panel seat 73; Second panel seat 74; Reinforcing rod 8. Detailed Implementation

[0058] To make the objectives, technical solutions, and advantages of this utility model clearer, the present utility model will be further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present utility model and are not intended to limit the present utility model.

[0059] In the description of this utility model, it should be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this disclosure and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this disclosure.

[0060] In the description of this utility model, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of indicated technical features. Therefore, a feature defined with "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of embodiments of this disclosure, unless otherwise stated, "a plurality of" means two or more. Furthermore, for example, the description may use the prefix "A" or "B" to describe the same type of nouns as two independent entities. In this case, the features defined with "A" and "B" are used only to distinguish between similar entities and should not be construed as indicating or implying relative importance or implicitly specifying the number of indicated technical features.

[0061] In describing some embodiments, the terms "coupled," "coupled," and "connected," and their derivative expressions, may be used. For example, the term "connected" may be used in describing some embodiments to indicate that two or more components have direct physical or electrical contact with each other. Similarly, the term "coupled" may be used in describing some embodiments to indicate that two or more components have direct physical or electrical contact. However, the terms "connected" or "coupled" may also refer to two or more components that do not have direct contact with each other but still cooperate or interact with each other, such as "optical coupling" or "wireless connection." The embodiments disclosed herein are not necessarily limited to the scope of this invention.

[0062] In the description of this utility model, "A and / or B" will be used to represent specific features. The corresponding expressions include the following three combinations: only A, only B, and a combination of A and B.

[0063] As used in this invention, “about,” “approximately,” or “approximately” includes the stated value and the average value within an acceptable range of deviation from the specified value, wherein the acceptable range of deviation is determined by a person skilled in the art taking into account the measurement under discussion and the error associated with the measurement of the specified quantity, i.e., the limitations of the measurement system.

[0064] Unless the context otherwise requires, throughout the specification and claims, the term "comprising" is interpreted as openly inclusive, meaning "including, but not limited to." In the description of the specification, terms such as "one embodiment," "some embodiments," "exemplary embodiment," "example," "specific example," or "some examples" are intended to indicate that a particular feature, structure, material, or characteristic associated with that embodiment or example is included in at least one embodiment or example of this disclosure. The illustrative representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials, or characteristics mentioned may be included in any suitable manner in any one or more embodiments or examples; that is, although they may be incorporated into embodiments or examples using the above terms for reasons such as order and position, it does not limit them to be incorporated in combination by a single embodiment or example.

[0065] Furthermore, the technical features involved in the various embodiments of this utility model described below can be combined with each other as long as they do not conflict with each other.

[0066] Example 1:

[0067] Currently, before the transmission frame structure is fully manufactured, the chassis cannot be placed in the cabinet. The specific location of the connectors corresponding to the chassis ports inside the cabinet cannot be clearly marked, making it difficult to accurately calculate the cable length. The cable length can only be determined after the transmission frame structure is fully manufactured, so that wiring planning can be carried out and subsequent processes can be completed, which seriously hinders the production progress.

[0068] This embodiment provides an adjustable cabinet cabling device, such as... Figure 2 and Figure 3 As shown, it includes: at least two fixed seats 1, a bottom frame 2, an upper frame 3, at least two first connecting rods 4, and at least two first adjusting rods 5, wherein: the at least two fixed seats 1 are respectively used to slide with slide rails 6 on both sides of the inner wall of the cabinet unit; the at least two first connecting rods 4 respectively pass through the fixed seat 1 on the corresponding side, the upper ends of the at least two first connecting rods 4 are respectively connected to the corresponding side of the upper frame 3, and the lower ends of the at least two first connecting rods 4 are respectively movably connected to the corresponding side of the bottom frame 2; the upper ends of the at least two first adjusting rods 5 are respectively connected to the fixed seat 1 on the corresponding side, and the lower ends of the at least two first adjusting rods 5 are respectively connected to the corresponding side of the bottom frame 2; the first adjusting rods 5 are used to adjust their own length, driving the bottom frame 2 to move axially on the first connecting rods 4, so as to change the distance between the bottom frame 2 and the upper frame 3.

[0069] In this embodiment, the adjustable rack cabling device is used to pre-adjust its size and structure according to the structural dimensions of the transmission frame structure before the transmission frame structure is fully processed and customized. The adjusted adjustable rack cabling device is then placed in the rack unit to simulate the transmission frame structure before it is fully processed. The chassis is placed in the adjustable rack cabling device, and rack cabling is performed on the cable management frame. This achieves the effect of completing rack cabling before the transmission frame structure is fully processed. After the rack cabling is completed, the adjustable rack cabling device can be removed from the rack unit. After the transmission frame structure is fully processed, it can be installed into the rack and directly connected to the cable management frame after the cabling is completed, thus improving the overall processing efficiency.

[0070] It should be noted that, in this embodiment, as Figure 3 As shown, the interface panel 7 is provided with multiple corresponding interface slots according to the interfaces on the corresponding chassis. The interface panel 7 is used to connect with the cable tray inside the cabinet. The cables on the cable tray are connected to the interfaces on the chassis through the interface slots. In the actual installation process, after the bottom frame 2 is axially moved and adjusted according to the specified dimensions, the interface panel 7 of the corresponding size is installed on the bottom frame 2 and the upper frame 3.

[0071] In this embodiment, the fixing base 1 is located between the upper frame 3 and the bottom frame 2, and is symmetrically distributed on both sides of the entire device (i.e., the adjustable rack cabling device provided in this embodiment). The entire device is used to be placed inside the rack unit. The fixing bases 1 on both sides of the device are used to slide and engage with the slide rails 6 on both sides inside the rack unit, realizing the sliding function of the entire device along the extension direction of the slide rails 6 in the rack unit, so that the entire device can be pulled out or pushed back in the rack unit. The interior of the entire device is used to house the chassis.

[0072] The first connecting rod 4 can be symmetrically distributed on both sides of the entire device, used to connect the upper frame 3, the fixed seat 1, and the bottom frame 2 from top to bottom. The first connecting rod 4 and the upper frame 3 can be fixedly connected, and the first connecting rod 4 and the fixed seat 1 can be fixedly connected. The "movable connection" means that the bottom frame 2 can move along the extension direction of the first connecting rod 4. The first adjusting rod 5 can be symmetrically distributed on both sides of the entire device, used to connect the fixed seat 1 and the bottom frame 2. The fixed seat 1 and the upper end of the first adjusting rod 5 can be fixedly connected, and the bottom frame 2 and the lower end of the first adjusting rod 5 can be fixedly connected. The first adjusting rod 5 can be a telescopic rod used to adjust its own length. When the first adjusting rod 5 changes its own length, since the fixed seat 1 itself is relatively fixed in the vertical direction, the distance between the fixed seat 1 and the bottom frame 2 is changed by the movement of the base frame on the first connecting rod 4. Since the distance between the upper frame 3 and the fixed seat 1 is fixed, the distance between the base frame and the upper frame 3 is also changed, thereby adjusting the height of the entire device. In this embodiment, both the first connecting rod 4 and the first adjusting rod 5 extend vertically downwards.

[0073] In this embodiment, "corresponding side" and "corresponding location" both refer to structural parts located on the same side of the adjustable cabinet cabling device as the main body. For example, in the statement "the at least two first connecting rods 4 respectively pass through the fixing seat 1 on the corresponding side", the "first connecting rod 4" refers to the main body, and the first connecting rod 4 passes through the fixing seat 1 located on the same side as itself.

[0074] In this embodiment, as Figure 7 As shown, the first adjusting rod 5 includes a first inner adjusting rod 51 and a first outer adjusting rod 52, wherein: the first outer adjusting rod 52 is movably sleeved around the first inner adjusting rod 51; the first inner adjusting rod 51 is connected to a corresponding side of the bottom frame 2, and the first outer adjusting rod 52 is connected to a corresponding side of the fixed seat 1; the distance between the bottom frame 2 and the upper frame 3 is adjusted by the relative movement between the first outer adjusting rod 52 and the first inner adjusting rod 51.

[0075] like Figure 8 and Figure 9 As shown, the first outer adjusting rod 52 is provided with a first screw hole 53, which is connected to the first inner adjusting rod 51 inside the first outer adjusting rod 52; the first screw 54 is fitted into the first screw hole 53 and abuts and fixes the first inner adjusting rod 51.

[0076] Furthermore, in this embodiment, to ensure the basic stability of the entire skeleton, the specific structure of the bottom skeleton 2 is as follows: Figure 4As shown, the bottom frame 2 includes: a first main rod 21, a second main rod 22, and at least two first side telescopic rods 23, wherein: one end of the first main rod 21 is movably sleeved on the lower end of a first connecting rod 4 on one side, and the other end of the first main rod 21 is movably sleeved on the lower end of a first connecting rod 4 on the other side; one end of the second main rod 22 is fixedly sleeved on the lower end of a first adjusting rod 5 on one side, and the other end of the second main rod 22 is fixedly sleeved on the lower end of a first adjusting rod 5 on the other side; the two ends of the first main rod 21 are respectively connected to the corresponding ends of the first side telescopic rods 23 and the second main rod 22.

[0077] In this embodiment, as Figure 4 As shown, both first side telescopic rods 23 are elongated cylindrical shapes and are distributed on both sides of the bottom surface of the device, with the two first side telescopic rods 23 parallel to each other. The first main rod 21 and the second main rod 22 are both elongated cuboid shapes and are parallel to each other. The two ends of the first side telescopic rod 23 are respectively fixedly sleeved onto the first main rod 21 and the second main rod 22. This fixed sleeve connection involves horizontally arranged through holes on the first main rod 21 and the second main rod 22, through which the first side telescopic rod 23 is passed and fixed. The first side telescopic rods 23 are all fixedly sleeved onto the same end of the first main rod 21 and the second main rod 22. The two first side telescopic rods 23, the first main rod 21, and the second main rod 22 are fixedly arranged in a rectangular shape, forming the bottom frame 2.

[0078] Similarly, through holes are provided vertically at both ends of the first main rod 21. The lower ends of the first connecting rods 4 on both sides of the device are movably sleeved in the through holes, which not only realizes the docking between the first main rod 21 and the first connecting rod 4, but also allows the first main rod 21 to move along the extension direction of the first connecting rod 4. Similarly, through holes are provided vertically at both ends of the second main rod 22. The lower ends of the first adjusting rods 5 on both sides of the device are fixedly sleeved in the through holes. By adjusting the length of the first adjusting rods 5, the entire bottom frame 2 is moved vertically. In this embodiment, the first main rod 21 is also provided with screw holes, which are connected to the first connecting rod 4. When the first main rod 21 moves to a designated position relative to the first connecting rod 4, screws are screwed into the screw holes to abut and fix the first connecting rod 4, thereby fixing the first main rod 21 and the first connecting rod 4 relatively.

[0079] Furthermore, to ensure the basic stability of the entire skeleton, the specific structural design of the upper skeleton 3 is as follows: Figure 5As shown, the upper frame 3 includes: a third main rod 31, a fourth main rod 32, at least two second side telescopic rods 33, and at least two second connecting rods 34, wherein: one end of the third main rod 31 is sleeved on the upper end of the first connecting rod 4 on one side, and the other end of the third main rod 31 is sleeved on the upper end of the first connecting rod 4 on the other side; the lower ends of the at least two second connecting rods 34 are respectively connected to the fixing seat 1 on the corresponding side; one end of the fourth main rod 32 is sleeved on the upper end of the second connecting rod 34 on one side, and the other end of the fourth main rod 32 is sleeved on the upper end of the second connecting rod 34 on the other side; the two ends of the third main rod 31 are respectively connected to the corresponding end of the fourth main rod 32 through the corresponding second side telescopic rod 33.

[0080] In this embodiment, both the third main rod 31 and the fourth main rod 32 are elongated cuboids. The third main rod 31 has through holes at both ends in the vertical direction, through which the upper end of the first connecting rod 4 passes and is fixedly sleeved onto the third main rod 31. The second connecting rod 34 is elongated cylindrical, with through holes in the vertical direction on the fixing base 1. The lower end of the second connecting rod 34 passes through these through holes and is fixedly sleeved onto the fixing base 1. The second connecting rod 34 extends vertically. The fourth main rod 32 also has through holes at both ends in the vertical direction, through which the upper end of the second connecting rod 34 passes and is fixedly sleeved onto the fourth main rod 32. The second connecting rods 34 on both sides of the device are parallel to each other, as are the third main rod 31 and the fourth main rod 32.

[0081] like Figure 5 As shown, both first-side telescopic rods 23 are elongated cylindrical shapes. Through holes are horizontally provided on the third main rod 31 and the fourth main rod 32, and the second-side telescopic rod 33 passes through these through holes and is fixed in place. The second-side telescopic rods 33 are fixedly sleeved to the same end of the third main rod 31 and the fourth main rod 32. The two second-side telescopic rods 33 are distributed on both sides of the bottom surface of the device and are parallel to each other. The two second-side telescopic rods 33, the third main rod 31, and the fourth main rod 32 are fixed together in a rectangular shape, and together with the second connecting rods 34 on both sides, they form the upper frame 3.

[0082] Furthermore, in this embodiment, since the interface side of the chassis faces inward when simulating the wiring of the cabinet unit through the device, it is necessary to lead wires from various components inside the cabinet and connect them to the interface end face on the chassis inside the cabinet unit. Therefore, the corresponding device also needs to be equipped with a corresponding panel structure on the end facing the inside of the cabinet unit to match the interface end face on the chassis, so as to facilitate subsequent wiring operations. Therefore, this embodiment also involves the following design.

[0083] likeFigure 6 As shown, the adjustable cabinet cabling device also includes an interface panel 7, wherein: the upper two sides of the interface panel 7 are respectively connected to the second telescopic rod 33 on the corresponding side, and the lower two sides of the interface panel 7 are respectively connected to the first telescopic rod 23 on the corresponding side.

[0084] In this embodiment, the interface panel 7 can be equipped with multiple interface slots according to the required chassis, which correspond to the various interfaces on the structural end face of the chassis. The interface panel 7 faces the inside of the chassis, and the various lines inside the chassis are connected to the chassis through the interface slots on the interface panel 7 to complete the wiring process. It should be noted that in this embodiment, since the size of the device needs to simulate the actual transmission frame structure, the size of the device needs to be adjusted in different simulation scenarios, and the size of the interface panel 7 needs to be adjusted synchronously. That is, based on the distance between the upper frame 3 and the lower frame 2 after the device is adjusted, an interface panel 7 with matching size and interface adaptation is made, and the interface panel 7 is installed on the first side telescopic rod 23 and the second side telescopic rod 33.

[0085] Furthermore, in this embodiment, in addition to the adjustable distance between the upper frame 3 and the bottom frame 2, the position of the interface panel 7 in the axial direction of the first side telescopic rod 23 also needs to be adjusted to further adapt to the size of the corresponding chassis. Therefore, this embodiment also includes the following design: Figure 7 As shown, the first side telescopic rod 23 includes a first inner rod 231 and a first outer rod 232, wherein: the first outer rod 232 is movably sleeved around the periphery of the first inner rod 231; the first outer rod 232 is connected to the first adjusting rod 5 and the first connecting rod 4 on the corresponding side, and the first inner rod 231 is connected to the corresponding side of the lower end of the interface panel 7.

[0086] like Figure 7 As shown, the second side telescopic rod 33 includes a second inner rod 331 and a second outer rod 332, wherein: the second outer rod 332 is movably sleeved around the periphery of the second inner rod 331; the second outer rod 332 is connected to the second connecting rod 34, the first connecting rod 4, the third main rod 31 and the fourth main rod 32 on the corresponding side, and the second inner rod 331 is connected to the corresponding side of the upper end of the interface panel 7.

[0087] In this embodiment, the first inner rod 231 can move axially within the first outer rod 232, and the second inner rod 331 can move axially within the second outer rod 332. The position of the interface panel 7 is adjusted by the synchronous movement of the first inner rod 231 and the second inner rod 331. In this embodiment, a screw hole can be provided on the first outer rod 232, leading to the inner first inner rod 231. After moving the first inner rod 231 to a designated position, a screw is screwed into the screw hole to abut and fix the first inner rod 231, thus maintaining the first side telescopic rod 23 at a designated length. Similarly, a screw hole can be provided on the second outer rod 332, leading to the inner second inner rod 331. After moving the second inner rod 331 to a designated position, a screw is screwed into the screw hole to abut and fix the second inner rod 331, thus maintaining the second side telescopic rod 33 at a designated length, thereby adjusting the interface panel 7 to the designated position.

[0088] In this embodiment, as Figure 8 As shown, the interface panel 7 includes an acrylic plate 71, a metal plate 72, a first panel base 73, and a second panel base 74. The acrylic plate 71 and the metal plate 72 are stacked, and both the first panel base 73 and the second panel base 74 are disposed on the metal plate 72. Both the first panel base 73 and the second panel base 74 are rectangular. The first panel base 73 is fixedly connected at both ends to second inner rods 331 located on both sides. This fixed connection can be achieved by providing through holes in the first panel base 73 and fixing the second inner rods 331 within these through holes. Similarly, the second panel base 74 is fixedly connected at both ends to first inner rods 231 located on both sides. This fixed connection can also be achieved by providing through holes in the second panel base 74 and fixing the first inner rods 231 within these through holes. The first panel base 73 and the second panel base 74 are used to improve the docking stability of the first side telescopic rod 23 and the second side telescopic rod 33 with the interface panel 7.

[0089] In this embodiment, to further improve the overall stability of the device structure, the following design is also involved: such as Figure 5 As shown, the adjustable cabinet cabling device also includes a reinforcing rod 8, which is located above the upper frame 3. One end of the reinforcing rod 8 is connected to the upper end of the first connecting rod 4 on one side, and the other end of the reinforcing rod 8 is connected to the first connecting rod 4 on the other side to reinforce the rod 8.

[0090] In this embodiment, the reinforcing rod 8 is elongated cuboid in shape. By providing through holes at both ends of the reinforcing rod 8, the upper end of the corresponding first connecting rod 4 is fixedly sleeved in the through hole, thereby achieving fixation between the reinforcing rod 8 and the first connecting rods 4 on both sides. The reinforcing rod 8 improves the connection stability of the upper frame 3.

[0091] Furthermore, since the mounting base 1 needs to be connected to the first adjusting rod 5, the first connecting rod 4, and the second connecting rod 34 simultaneously, and also needs to cooperate with the slide rail 6 inside the cabinet unit, multiple through holes need to be drilled on the mounting base 1 for connecting to the first adjusting rod 5, the first connecting rod 4, and the second connecting rod 34. Corresponding mating mechanisms also need to be provided to cooperate with the slide rail 6. The relatively small mounting base 1 does not have sufficient installation space. Therefore, this embodiment also involves the following design:

[0092] like Figure 11 As shown, the mounting base 1 includes a sub-mounting component 11 and a pad 12, wherein: the sub-mounting component 11 and the pad 12 are fitted together and fixedly connected; the sub-mounting component 11 is connected to a first adjusting rod 5 on a corresponding side, and a first connecting rod 4 on a corresponding side passes through the sub-mounting component 11; the pad 12 is used to slide and engage with a slide rail 6 on a corresponding side of the inner wall of the cabinet unit. In this embodiment, both the sub-mounting component 11 and the pad 12 are elongated strips, and are fixedly connected by screws through corresponding screw holes provided on the sub-mounting component 11 and the pad 12.

[0093] 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 and improvements 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. An adjustable cabinet cabling device, characterized in that, include: At least two fixed seats (1), a bottom frame (2), an upper frame (3), at least two first connecting rods (4), and at least two first adjusting rods (5), wherein: The at least two fixed seats (1) are respectively used to slide with the slide rails (6) on both sides of the inner sidewall of the cabinet unit; The at least two first connecting rods (4) pass through the corresponding fixed base (1) on one side respectively. The upper ends of the at least two first connecting rods (4) are connected to the corresponding side of the upper frame (3) respectively. The lower ends of the at least two first connecting rods (4) are movably connected to the corresponding side of the bottom frame (2) respectively. The upper ends of the at least two first adjusting rods (5) are respectively connected to the fixed seat (1) on the corresponding side, and the lower ends of the at least two first adjusting rods (5) are respectively connected to the corresponding side of the bottom frame (2). The first adjusting rod (5) is used to adjust its own length and drive the bottom frame (2) to move axially on the first connecting rod (4) to change the distance between the bottom frame (2) and the upper frame (3).

2. The adjustable cabinet cabling device according to claim 1, characterized in that, The bottom frame (2) includes: a first main trunk (21), a second main trunk (22), and at least two first side telescopic trunks (23), wherein: One end of the first main rod (21) is movably sleeved on the lower end of the first connecting rod (4) on one side, and the other end of the first main rod (21) is movably sleeved on the lower end of the first connecting rod (4) on the other side. One end of the second main rod (22) is fixedly sleeved on the lower end of the first adjusting rod (5) on one side, and the other end of the second main rod (22) is fixedly sleeved on the lower end of the first adjusting rod (5) on the other side. The two ends of the first main trunk (21) are connected to the corresponding first side telescopic rod (23) and the corresponding end of the second main trunk (22) respectively.

3. The adjustable cabinet cabling device according to claim 2, characterized in that, The upper frame (3) includes: a third main rod (31), a fourth main rod (32), at least two second side telescopic rods (33), and at least two second connecting rods (34), wherein: One end of the third main rod (31) is sleeved on the upper end of the first connecting rod (4) on one side, and the other end of the third main rod (31) is sleeved on the upper end of the first connecting rod (4) on the other side. The lower ends of the at least two second connecting rods (34) are respectively connected to the fixed seat (1) on the corresponding side; One end of the fourth main rod (32) is sleeved on the upper end of the second connecting rod (34) on one side, and the other end of the fourth main rod (32) is sleeved on the upper end of the second connecting rod (34) on the other side. The two ends of the third main trunk (31) are connected by the corresponding second side telescopic trunk (33) and the corresponding end of the fourth main trunk (32).

4. The adjustable cabinet cabling device according to claim 3, characterized in that, The adjustable rack cabling device also includes an interface panel (7), wherein: The upper two sides of the interface panel (7) are respectively connected to the second telescopic rod (33) on the corresponding side, and the lower two sides of the interface panel (7) are respectively connected to the first telescopic rod (23) on the corresponding side.

5. The adjustable cabinet cabling device according to claim 4, characterized in that, The first side telescopic rod (23) includes a first inner rod (231) and a first outer rod (232), wherein: The first outer rod (232) is movably sleeved around the first inner rod (231); The first outer rod (232) is connected to the first adjusting rod (5) and the first connecting rod (4) on the corresponding side, and the first inner rod (231) is connected to the corresponding side of the lower end of the interface panel (7).

6. The adjustable cabinet cabling device according to claim 4, characterized in that, The second side telescopic rod (33) includes a second inner rod (331) and a second outer rod (332), wherein: The second outer rod (332) is movably sleeved around the second inner rod (331); The second outer rod (332) is connected to the second connecting rod (34), the first connecting rod (4), the third main rod (31) and the fourth main rod (32) on the corresponding side, and the second inner rod (331) is connected to the corresponding side of the upper end of the interface panel (7).

7. The adjustable cabinet cabling device according to claim 1, characterized in that, The first adjusting rod (5) includes a first inner adjusting rod (51) and a first outer adjusting rod (52), wherein: The first outer adjusting rod (52) is movably sleeved around the first inner adjusting rod (51); The first inner adjusting rod (51) is connected to the corresponding side of the bottom frame (2), and the first outer adjusting rod (52) is connected to the corresponding side of the fixing seat (1); The distance between the bottom frame (2) and the upper frame (3) is adjusted by moving the first outer adjusting rod (52) and the first inner adjusting rod (51) relative to each other.

8. The adjustable cabinet cabling device according to claim 7, characterized in that, The first outer adjusting rod (52) is provided with a first screw hole (53), and the first screw hole (53) is connected to the first inner adjusting rod (51) inside the first outer adjusting rod (52); A first screw (54) is fitted in the first screw hole (53). When the first inner adjusting rod (51) and the first outer adjusting rod (52) move relative to each other to a specified state, the first screw (54) fits in the first screw hole (53) and abuts and fixes the first inner adjusting rod (51).

9. The adjustable cabinet cabling device according to claim 1, characterized in that, The adjustable cabinet cabling device also includes a reinforcing rod (8), which is located above the upper frame (3). One end of the reinforcing rod (8) is connected to the upper end of the first connecting rod (4) on one side, and the other end of the reinforcing rod (8) is connected to the first connecting rod (4) on the other side.

10. The adjustable cabinet cabling device according to claim 1, characterized in that, The mounting base (1) includes a sub-mounting component (11) and a pad (12), wherein: The sub-mount (11) and the pad (12) are attached and fixedly connected; The sub-mounting component (11) is connected to the first adjusting rod (5) on the corresponding side, and the first connecting rod (4) on the corresponding side passes through the sub-mounting component (11). The pad (12) is used to slide and engage with the slide rail (6) on the corresponding side of the inner wall of the cabinet unit.