A support for cabling
By designing a bracket for cable routing, and utilizing a combination of grooved and positioning components, the problem of messy cable arrangement was solved, achieving neat cable arrangement and convenient maintenance, thus improving operation and maintenance efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ELECTRICITY AFFAIR ENG COMPANY OF CHINA RAILWAY NO 8 ENG GRP
- Filing Date
- 2025-07-11
- Publication Date
- 2026-06-26
Smart Images

Figure CN224418347U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of cable wiring, and in particular to a bracket for cable wiring. Background Technology
[0002] There is a lot of cable laying work in subway projects. When laying cables, cable trays are needed to support the cables to avoid contact and wear between the cables and the ground, prevent electrical leakage, and ensure the safety of subway operation. The cable trays currently used stack multiple cables.
[0003] However, the cables currently in use are arranged haphazardly on the cable trays, making maintenance difficult for operators. In particular, when encountering power cable faults, it takes a lot of time to identify the faulty cable, resulting in low maintenance efficiency. Utility Model Content
[0004] The purpose of this invention is to overcome the shortcomings of the existing technology, such as the messy arrangement of cables on the cable tray, and to provide a support for cable wiring.
[0005] This utility model provides a bracket for cable wiring, comprising:
[0006] A plurality of grooved parts, each grooved part having a through groove, the plurality of grooved parts being connected end to end in sequence, the through grooves of adjacent grooved parts being interconnected; at least one row of positioning components is provided in the through groove, each positioning component including a plurality of positioning elements, the plurality of positioning elements being arranged along the direction of the through groove, the positioning elements being connected to the grooved parts;
[0007] The grooved part has a notch, and the notch communicates with the through groove.
[0008] This utility model discloses a support for cable routing. The cable is arranged in the through groove of a grooved component. The grooved component limits the cable and supports the cable away from the ground, ensuring the safety of the cable. Positioning components fix the cable. Several positioning components are arranged along the direction of the through groove, and multiple positioning components limit the cable, making the cable neatly arranged in the through groove. Several grooved components are connected end to end to make the cable routing neat. The notch set on the grooved component allows the cable joint to be led out from the notch, thereby avoiding the cable joint from leading to messy cable arrangement in the through groove, ensuring neat cable arrangement and facilitating maintenance.
[0009] Preferably, the notch is formed on the side wall of the groove.
[0010] The cable connector is led out from the notch on the side wall of the groove to avoid changes in the cable routing direction affecting the neatness of the cable arrangement in the through groove.
[0011] Preferably, the grooved part is provided with a base, and the base is detachably connected to the grooved part.
[0012] The base and the recessed part are detachably connected, allowing the support frame and the recessed part to be transported separately, reducing the space occupied during transportation and facilitating on-site assembly. This is beneficial for cable wiring construction in confined spaces, and the base can support the recessed part to a specified height.
[0013] Preferably, the base includes a plurality of support frames, which are arranged at intervals on the groove, and the support frames are connected to the groove.
[0014] The grooved component is supported by multiple support frames. Compared to the monolithic base, the support frames are lighter and occupy less space, making it easier for workers to handle and install on the construction site.
[0015] Preferably, the support frame includes a first pillar and a second pillar, the first pillar and the second pillar are respectively located on opposite sides of the groove, the first pillar is connected to the side wall of the groove, and the second pillar is connected to the side wall of the groove.
[0016] The first and second pillars support the grooved part on opposite sides, respectively, so that the grooved part can be stably supported.
[0017] Preferably, the side of the first pillar is connected to the groove, and the side of the second pillar is connected to the groove; the tops of the first pillar and the second pillar are respectively provided with anti-collision caps.
[0018] The impact helmet is a structural component made of rubber, which can prevent workers from being hit and injured by the top of the first or second pillar when climbing or working on the groove.
[0019] Preferably, the positioning element includes several partitions and several support components, with the partitions connected to the top and bottom of the support components respectively, and the bottommost partition being connected to the groove element.
[0020] The space between the two partitions allows multiple cables to be neatly arranged within the space; by setting multiple partitions, multiple cable routing spaces can be arranged vertically, increasing the number of cable routing layers.
[0021] Preferably, the partition is a rectangular plate, and the support assembly includes a first support block and a second support block. The first support block and the second support block are respectively located at both ends of the partition. The first support block is bolted to the partition, and the second support block is bolted to the partition.
[0022] The cable routing space is located between the first support block and the second support block. The first support block and the second support block have the same height. The height of the first support block is slightly larger than the diameter of the cable, so that the cable is arranged in a single row in the cable routing space.
[0023] Preferably, the grooved part is provided with a fixing plate for connecting and fixing to the ground.
[0024] The grooved parts are fixed to the ground by a fixing plate, which secures them in the designated position; facilitates the docking of adjacent grooved parts; and prevents the grooved parts from shifting.
[0025] Preferably, the fixing plate has a plurality of fixing holes.
[0026] By setting a fixing bolt in the fixing hole, the fixing bolt is embedded in the ground, and the grooved part is fixed in the designated position.
[0027] Compared with the prior art, the beneficial effects of this utility model are as follows:
[0028] 1. This utility model provides a support for cable routing. The cable is arranged in the through groove of a grooved component. The grooved component limits the cable and supports the cable away from the ground, ensuring the safety of the cable. The cable is fixed by positioning components. Several positioning components are arranged along the direction of the through groove, and multiple positioning components limit the cable, making the cable neatly arranged in the through groove. Several grooved components are connected end to end to make the cable routing neat. The notch provided on the grooved component allows the cable joint to be led out from the notch, thereby avoiding the cable joint from leading to messy cable arrangement in the through groove, ensuring neat cable arrangement and facilitating maintenance.
[0029] 2. This utility model provides a support for cable wiring. A grooved component limits the cable's position, and the grooved component, supported by a base, allows the cable to be fixed at a specified height. Positioning components arranged within a through-slot further limit the cable's position, ensuring it is fixed along the slot's direction. Multiple rows of positioning components can fix different cables, ensuring neat cable arrangement within the through-slot. Cable connectors can be led out from the notch, thus preventing cable routing chaos, ensuring cable safety, and facilitating cable maintenance. It possesses significant economic and practical value. Attached Figure Description
[0030] Figure 1 This is a schematic diagram of the structure of a grooved component for a cable wiring bracket according to Embodiment 1 of this utility model;
[0031] Figure 2 This is a schematic diagram of the positioning component of a cable wiring bracket according to Embodiment 1 of this utility model;
[0032] Figure 3This is a schematic diagram of the second support column of a cable wiring bracket according to Embodiment 1 of this utility model.
[0033] Marked in the image:
[0034] 1-Groove, 2-Through groove, 3-Positioning component, 31-Positioning component, 311-Partition, 312-Supporting component, 3121-First support block, 3122-Second support block, 4-Notch, 5-Base, 51-Support frame, 511-First pillar, 512-Second pillar, 6-Anti-collision cap, 7-Fixing plate, 71-Fixing hole. Detailed Implementation
[0035] The present invention will be further described in detail below with reference to specific embodiments. However, it should not be construed as limiting the scope of the present invention to the following embodiments; all technologies implemented based on the content of the present invention fall within the scope of the present invention.
[0036] Unless otherwise specified, the use of terms such as "upper," "lower," "left," "right," "center," "inner," and "outer" to indicate orientation or positional relationships in the description of specific embodiments of this utility model is based on the orientation or positional relationships shown in the accompanying drawings, or the orientation or positional relationship in which the utility model product / equipment / device is typically placed during use. These terms are merely for the purpose of facilitating the description of the utility model solution or simplifying the description in specific embodiments, enabling those skilled in the art to quickly understand the solution, and do not indicate or imply that a specific device / component / element must have a specific orientation, or be constructed and operated in a specific positional relationship. Therefore, they should not be construed as limitations on this utility model.
[0037] Furthermore, the use of terms such as "horizontal," "vertical," "suspended," and "parallel" does not imply that the corresponding device / component / element must be absolutely horizontal, vertical, suspended, or parallel, but rather that it can be slightly tilted or have a deviation. For example, "horizontal" merely means that its direction is more horizontal relative to "vertical," not that the structure must be completely horizontal, but can be slightly tilted. Alternatively, it can be simplified to mean that the corresponding device / component / element, when set in a "horizontal," "vertical," "suspended," or "parallel" direction, can have an error / deviation of ±10% relative to the corresponding direction, more preferably within ±8%, more preferably within ±6%, more preferably within ±5%, and more preferably within ±4%. As long as the corresponding device / component / element is within the error / deviation range, it can still achieve its function in the present invention.
[0038] Furthermore, the use of terms such as "first," "second," and "third" in terminology is merely for distinguishing descriptions of identical or similar components and should not be interpreted as emphasizing or implying the relative importance of a particular component.
[0039] Furthermore, in the description of the embodiments of this utility model, "several", "multiple", and "several" represent at least two. The number can be any number, such as two, three, four, five, six, seven, eight, or nine, and can even exceed nine.
[0040] Furthermore, in the description of the technical solution of this utility model, unless otherwise explicitly specified / limited / restricted, the terms "set up," "install," "connect," "link," "equipped with," "laid out," and "arranged" should be interpreted broadly. For example, they can refer to fixed connections, detachable connections, or integral connections; they can refer to common connection methods in the art, such as welding, riveting, bolting, and threaded connections. Such connections can be mechanical, electrical, or communication connections; they can be direct connections or indirect connections through an intermediate medium; and they can refer to the internal communication between two components.
[0041] Example 1
[0042] like Figures 1-3 As shown, a bracket for cable wiring is specifically composed of several grooved parts 1. A base 5 is connected to the bottom of the grooved part 1. The grooved part 1 is provided with a through groove 2. Several grooved parts 1 are connected end to end, and the through grooves 2 of adjacent grooved parts 1 are connected. At least one row of positioning components 3 is provided in the through groove 2. The positioning components 3 include several positioning elements 31. The several positioning elements 31 are arranged along the direction of the through groove 2 and are connected to the grooved parts 1. The grooved part 1 is provided with a notch 4, and the notch 4 is connected to the through groove 2.
[0043] The cable is laid out in the through groove 2 of the groove 1. The groove 1 limits the cable and supports it away from the ground, ensuring the safety of the cable. The cable is fixed by the positioning piece 31. Several positioning pieces 31 are arranged along the direction of the through groove 2, and multiple positioning pieces 31 limit the cable, making the cable neatly arranged in the through groove 2. Several groove pieces 1 are connected end to end to make the cable routing neat. The base 5 supports the groove piece 1, so that the groove piece 1 can be away from the ground, which facilitates the docking of adjacent groove pieces 1 and fixes the groove piece 1 at a specified height. The notch 4 set on the groove piece 1 allows the cable joint to be led out from the notch 4, thereby avoiding the cable joint from leading to the messy cable arrangement in the through groove 2, ensuring the cable arrangement is neat and easy to maintain.
[0044] Specifically, the bottom surface of the through groove 2 is set horizontally, and the side walls on both sides of the through groove 2 are perpendicular to the bottom surface and parallel to each other.
[0045] In one or more embodiments, the notch 4 is formed on the side wall of the groove 1, specifically, the bottom of the notch 4 is flush with the bottom surface of the through groove 2.
[0046] In one or more embodiments, the base 5 is composed of two support frames 51, which are arranged at intervals below the groove 1. The support frames 51 are connected to the groove 1 so that the support frames 51 can support and fix the groove 1 at a specified height.
[0047] In an optional embodiment, the support frame 51 and the groove 1 are detachably connected. The support frame 51 and the groove 1 are connected and fixed by bolts, which facilitates the separation and transportation of the support frame 51 and the groove 1. This makes it easy to assemble the bracket for cable wiring in a confined space, and is suitable for cable wiring in confined spaces in subway lines.
[0048] In an optional embodiment, the support frame 51 is composed of a first pillar 511 and a second pillar 512. The first pillar 511 and the second pillar 512 are located on opposite sides of the groove 1, respectively. The first pillar 511 is connected to the side wall of the groove 1, and the second pillar 512 is connected to the side wall of the groove 1. The length of the first pillar 511 and the length of the second pillar 512 are equal, and the length of the first pillar 511 is 1 meter. Specifically, the lengths of the first pillar 511 and the second pillar 512 can be set according to the actual required height.
[0049] In an optional embodiment, the side of the first pillar 511 is connected to the groove 1, and the side of the second pillar 512 is connected to the groove 1; the tops of the first pillar 511 and the second pillar 512 are respectively provided with anti-collision caps 6; the top of the first pillar 511 extends beyond the groove 1, and the top of the second pillar 512 extends beyond the groove 1, so that the side of the first pillar 511 is connected to the side of the groove 1, and the side of the second pillar 512 is connected to the side of the groove 1; the first pillar 511 and the second pillar 512 can be supported on both sides of the groove 1 respectively, so that the groove 1 is stably supported, making it convenient for operators to connect the first pillar 511 to the groove 1, and convenient for operators to connect the second pillar 512 to the groove 1; the first pillar 511 and the second pillar 512 have the same structure, and both the first pillar 511 and the second pillar 512 are channel steel; the first pillar 511 and the second pillar 512 are both connected to the groove 1 by bolts. In some embodiments, the first pillar 511 and the second pillar 512 can be fixed to the groove 1 by welding.
[0050] In one or more embodiments, the positioning member 31 consists of three partitions 311 and two sets of support components 312. The top and bottom of the support components 312 are respectively connected to the partitions 311, forming two wiring spaces between the two partitions 311. The partition 311 at the bottom is connected to the groove 1 and the partition 311 at the bottom is connected to the ground of the through groove 2. The partitions 311 are fixed to the groove 1 by bolt connection. The two wiring spaces are arranged in layers in the vertical direction.
[0051] In an optional embodiment, the partition 311 is a rectangular plate, and the support assembly 312 includes a first support block 3121 and a second support block 3122. The first support block 3121 and the second support block 3122 are located at the two ends of the partition 311, respectively. The first support block 3121 is bolted to the partition 311, and the second support block 3122 is bolted to the partition 311, allowing the cable to be maintained by disassembling the partition 311. In the design, the height of the first support block 3121 and the height of the second support block 3122 are the same. When the cable diameter is 5 cm, the height of the first support block 3121 is greater than 5 cm and less than 6 cm, which can prevent the partition 311 from clamping the cable. The distance between the first support block 3121 and the second support block 3122 is set to a multiple of 5 cm, allowing multiple cables with a diameter of 5 cm to be arranged sequentially in the wiring space.
[0052] In one or more embodiments, the groove 1 is provided with a fixing plate 7 for connecting and fixing to the ground. Specifically, the fixing plate 7 increases the connection area between the base 5 and the ground, so that the base 5 is firmly fixed on the ground. The bottom of the first pillar 511 and the second pillar 512 are both connected with the fixing plate 7.
[0053] In an optional embodiment, the fixing plate 7 has a plurality of fixing holes 71. By inserting bolts into the fixing holes 71 and embedding the bolts into the ground, the base 5 is firmly fixed by the fixing plate 7.
[0054] This embodiment describes a cable routing bracket. In use, the bracket is first assembled on-site according to the cable location, ensuring the base 5 is firmly fixed to the ground, adjacent grooves 1 are aligned, and adjacent through slots 2 are connected. When fixing the cables, multiple cables are first arranged in the lower cable routing space, and then the partition 311 is installed.
[0055] An upper cabling space is formed, the cables in the upper cabling space are arranged, and the top partition 311 is installed to fix the arrangement of the cables; when it is necessary to connect the cable connector to the equipment, the cable connector is led out from the notch 4 to avoid the cable routing mess and facilitate maintenance.
[0056] 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. A bracket for cable wiring, characterized in that, include: A plurality of grooved parts (1), each grooved part (1) having a through groove (2), the plurality of grooved parts (1) being connected end to end, the through grooves (2) of adjacent grooved parts (1) being connected; at least one row of positioning components (3) is provided in the through groove (2), the positioning components (3) including a plurality of positioning elements (31), the plurality of positioning elements (31) being arranged along the direction of the through groove (2), the positioning elements (31) being connected to the grooved parts (1); The groove (1) has a notch (4) which is connected to the through groove (2).
2. A bracket for cable wiring according to claim 1, characterized in that, The notch (4) is formed on the side wall of the groove (1).
3. A bracket for cable wiring according to claim 1, characterized in that, The groove (1) is provided with a base (5), and the base (5) is detachably connected to the groove (1).
4. A bracket for cable wiring according to claim 3, characterized in that, The base (5) includes a plurality of support frames (51), which are spaced apart on the groove (1) and are connected to the groove (1).
5. A bracket for cable wiring according to claim 4, characterized in that, The support frame (51) includes a first pillar (511) and a second pillar (512). The first pillar (511) and the second pillar (512) are located on opposite sides of the groove (1). The first pillar (511) is connected to the side wall of the groove (1), and the second pillar (512) is connected to the side wall of the groove (1).
6. A bracket for cable wiring according to claim 5, characterized in that, The side of the first pillar (511) is connected to the groove (1), and the side of the second pillar (512) is connected to the groove (1); the top of the first pillar (511) and the second pillar (512) are respectively provided with anti-collision caps (6).
7. A bracket for cable wiring according to claim 1, characterized in that, The positioning component (31) includes several partitions (311) and several support components (312). The top and bottom of the support components (312) are respectively connected to the partitions (311), and the partition (311) at the bottom layer is connected to the groove component (1).
8. A bracket for cable wiring according to claim 7, characterized in that, The partition (311) is a rectangular plate. The support assembly (312) includes a first support block (3121) and a second support block (3122). The first support block (3121) and the second support block (3122) are located at the two ends of the partition (311), respectively. The first support block (3121) is bolted to the partition (311), and the second support block (3122) is bolted to the partition (311).
9. A bracket for cable wiring according to any one of claims 1-8, characterized in that, The groove (1) is provided with a fixing plate (7) for connecting and fixing to the ground.
10. A bracket for cable wiring according to claim 9, characterized in that, The fixing plate (7) has several fixing holes (71).