A single-pile corner integrated column

By designing a sliding turning device and support components for a single-pile corner integrated column, the problems of small turning radius and high resistance of cables in traditional railing systems have been solved, enabling smooth turning of cables and simplifying installation.

CN224431865UActive Publication Date: 2026-06-30XIAMEN SAID TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
XIAMEN SAID TECH CO LTD
Filing Date
2025-06-16
Publication Date
2026-06-30

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Abstract

This utility model relates to the field of column technology, specifically to a single-pile corner integrated column. Its features include a hollow column body with multiple sliding turning devices spaced apart along its height within its inner cavity. Multiple through holes are provided on two adjacent sides of the hollow column body. Each sliding turning device includes a support assembly and multiple turning guides rotatably mounted on the support assembly. During cable pulling, the turning guides can adaptably rotate, increasing the cable's turning radius. This helps reduce resistance during cable pulling, facilitating single-pass cable tightening without breaking the cable. The single-pile hollow column body is sufficient to achieve cable turning.
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Description

Technical Field

[0001] This utility model relates to the field of column technology, specifically to a single-pile corner integrated column. Background Technology

[0002] In corner installations, there are generally three traditional methods for railing systems. The first is to install two posts with opposite holes at the corner, where the wire rope is broken and fixed to the two posts. There are many options for the wire rope fixing devices. The second is to install a three-hole post at the corner. Although one post is removed, the wire rope still needs to be broken at this point, and the wire rope fixing device for one direction can only use one post hole, resulting in a relatively fixed type of fixing device. The third is to install an adjacent-hole post at the corner. A certain type of loop allows the wire rope to bend without breaking and connect to the next post. However, during tensioning, the small bending radius of the wire rope causes significant resistance, preventing the tensioner from tightening the rope in one go. It requires pulling the wire rope once, then tapping and shaking it, and then tightening it again. This process usually takes two to four times to achieve proper tension, making it quite cumbersome. Utility Model Content

[0003] The technical problem to be solved by this utility model is to provide a single-pile corner integrated column that allows the turning guide to rotate adaptively during the pulling of the cable, and increases the turning radius of the cable, which helps to reduce the resistance encountered by the cable during the pulling process, facilitates the tightening of the cable in one go, and does not require the cable to break. The turning angle of the cable can be achieved with only the hollow column of a single pile.

[0004] To solve the above-mentioned technical problems, the technical solution adopted by this utility model is as follows: a single-pile corner integrated column, including a hollow column body, a plurality of sliding turning devices are provided in the inner cavity of the hollow column body and spaced apart along its height direction, and a plurality of through holes corresponding one-to-one with the sliding turning devices are provided on two adjacent sides of the hollow column body, the sliding turning device including a support component and a turning guide rotatably provided on the support component, the turning guide being multiple and spaced apart.

[0005] Furthermore, it also includes a mounting bracket, which is detachably located within the cavity of the hollow column, and a sliding turning device is mounted on the mounting bracket.

[0006] Furthermore, the support assembly includes two support plates arranged parallel to each other vertically and a detachable connection mechanism for fixing the two support plates together as a whole, with a turning guide located between the two support plates.

[0007] Furthermore, the detachable connection mechanism includes at least one spacer sleeve and at least one fastener, the spacer sleeve being disposed between two support plates, and the fastener being used to lock and fix the spacer sleeve to the two support plates.

[0008] Furthermore, the support assembly also includes at least two fixed shafts connected between the two support plates, and the turning guide is rotatably sleeved on the fixed shafts.

[0009] Furthermore, the mounting bracket is provided with multiple insertion mechanisms spaced apart along its height direction. Each insertion mechanism includes two slots spaced apart vertically. One side of the support plate extends outward and forms an insertion part. The insertion parts of the two support plates are respectively inserted into the two slots of the insertion mechanism.

[0010] Furthermore, the mounting bracket is a right-angle bent piece. When the support piece is inserted into the mounting bracket, two adjacent sides of the support piece abut against the two inner sides of the mounting bracket, respectively.

[0011] Furthermore, the inner cross-section of the hollow column is polygonal, and the support plate is adapted to the inner cavity of the hollow column.

[0012] Furthermore, the turning guide is a round tube or a pulley.

[0013] Furthermore, the inner cavity of the hollow cylinder extends through at least one end, a connecting base plate is fixedly provided at the bottom end of the hollow cylinder, and multiple threaded holes are provided on the top surface of the hollow cylinder.

[0014] As described above, the monopile corner integrated column provided by this utility model has the following beneficial effects: when the cable is pulled, it will cause at least two turning guides in contact with the cable to rotate around their own central axis, thereby reducing the resistance encountered by the cable during the pulling process. At the same time, the distance between the at least two turning guides can increase the turning radius of the cable, which can further reduce the resistance encountered by the cable during the pulling process to a certain extent. In addition, the cable can directly pass through the hollow column of the monopile and bypass the sliding turning device to achieve the turning angle without breaking the cable, and it is easy to tighten the cable at once, making the installation steps easier and simpler. Attached Figure Description

[0015] Figure 1 This is a three-dimensional structural diagram of a single-pile corner integrated column according to the present invention.

[0016] Figure 2 This is an exploded three-dimensional structural diagram of a single-pile corner integrated column according to the present invention.

[0017] Figure 3 for Figure 2 A magnified view of a portion of point A in the middle.

[0018] Figure 4 This is a three-dimensional structural diagram of the support plate being inserted into the mounting bracket.

[0019] Figure 5 This is a schematic diagram showing the usage state of a single-pile corner integrated column of this utility model.

[0020] In the diagram: 1-Hollow cylinder; 11-Inner cavity; 12-Perforation; 13-Connecting base plate; 14-Threaded hole; 2-Sliding turning device; 21-Support assembly; 211-Support piece; 2111-Plug-in part; 212-Detachable connection mechanism; 2121-Spacer sleeve; 2122-Fastener; 213-Fixed shaft; 22-Turn guide; 3-Mounting bracket; 31-Plug-in mechanism; 311-Slot; 4-Cable. Detailed Implementation

[0021] The present invention will be further described below through specific embodiments.

[0022] like Figures 1 to 5 As shown, the present invention discloses a single-pile corner integrated column, comprising a hollow column 1. The hollow column 1 has a plurality of sliding turning devices 2 spaced apart along its height within its inner cavity 11. Two adjacent sides of the hollow column 1 each have a plurality of through holes 12 corresponding to the sliding turning devices 2. Preferably, the through holes 12 are elongated and arranged laterally. Each sliding turning device 2 includes a support assembly 21 and a turning guide 22 rotatably mounted on the support assembly 21. Multiple turning guides 22 are spaced apart; preferably, two turning guides 22 are used. A cable 4 can pass through the through holes 12 on one side of the hollow column 1 and bypass the multiple turning guides 22 to form a [missing information - likely a cable or cable]. After multiple turning paths, the cable 4 emerges from the perforation 12 on another side. When the cable 4 is pulled, it causes at least two turning guides 22 in contact with the cable 4 to rotate around their own central axis, thereby reducing the resistance encountered by the cable 4 during the pulling process. At the same time, the distance between the at least two turning guides 22 increases the turning radius of the cable 4, which further reduces the resistance encountered by the cable 4 during the pulling process. In addition, the cable 4 can directly pass through the hollow column 1 of the single pile and bypass the sliding turning device 2 to achieve a turning angle without breaking the cable 4, and it is easy to tighten the cable 4 at once, making the installation process easier and simpler.

[0023] Preferably, the cable 4 is a steel wire rope.

[0024] The monopile corner integrated column also includes a mounting bracket 3, which is detachably disposed in the inner cavity 11 of the hollow column 1. The sliding turning device 2 is disposed on the mounting bracket 3 to facilitate the smooth installation of the sliding turning device 2 in the inner cavity 11 of the hollow column 1. During installation, the sliding turning device 2 can first be installed on the mounting bracket 3, and then the mounting bracket 3 together with the sliding turning device 2 can be installed into the inner cavity 11 of the hollow column 1 to achieve integrated installation of the mounting bracket 3, the sliding turning device 2 and the hollow column 1.

[0025] The support assembly 21 includes two vertically parallel support pieces 211 spaced apart and a detachable connecting mechanism 212 for fixing the two support pieces 211 together as a whole. The turning guide 22 is disposed between the two support pieces 211. The detachable connecting mechanism 212 includes at least one spacer sleeve 2121 and at least one fastener 2122. Preferably, there are two spacer sleeves 2121 and two fasteners 2122, which are spaced apart. In addition, the two spacer sleeves 2121 correspond one-to-one with the two turning guides 22. Between the support pieces 211, the fastener 2122 is used to lock and fix the spacer sleeve 2121 to the two support pieces 211. Accordingly, the fastener 2122 includes a first locking screw and a first locking nut. The first locking nut is a nylon anti-loosening nut. The support piece 211 is provided with a first through hole. The first locking screw passes through the first through hole on the two support pieces 211 and the spacer sleeve 2121 and is threadedly connected to the first locking nut, thereby fixing the two support pieces 211 into a whole. Preferably, the spacer sleeve 2121 is in the shape of a hollow cylinder.

[0026] In addition, the support assembly 21 also includes at least two fixed shafts 213, which are connected between the two support plates 211. Preferably, there are two fixed shafts 213. The turning guide 22 is rotatably sleeved on the fixed shafts 213. Correspondingly, the fixed shaft 213 includes a second locking screw and a second locking nut. The second locking nut is a nylon anti-loosening nut. The support plate 211 is provided with a second through hole. The second locking screw passes through the second through hole on the two support plates 211 and the turning guide 22 and is threadedly connected to the second locking nut, thereby realizing the rotatable installation of the turning guide 22 between the two support plates 211.

[0027] The mounting bracket 3 is provided with a plurality of insertion mechanisms 31 spaced apart along its height direction. Each insertion mechanism 31 includes two slots 311 spaced apart vertically. One side of the support piece 211 extends outward and forms an insertion part 2111. The insertion parts 2111 of the two support pieces 211 are respectively inserted into the two slots 311 of the insertion mechanism 31. This facilitates the quick assembly and disassembly of the sliding bending device 2 on the mounting bracket 3. In addition, the mounting bracket 3 is a right-angle bent part and a sheet metal part. When the support piece 211 is inserted into the mounting bracket 3, two adjacent sides of the support piece 211 abut against two inner sides of the mounting bracket 3, thereby making the installation between the sliding bending device 2 and the mounting bracket 3 more stable.

[0028] The inner cavity 11 of the hollow column 1 has a polygonal cross-section, preferably a quadrilateral shape. The support piece 211 is adapted to the inner cavity 11 of the hollow column 1, that is, the length and width of the support piece 211 are adapted to the length and width of the inner cavity 11. In this way, when the mounting bracket 3 and the sliding bending device 2 are installed together in the inner cavity 11 of the hollow column 1, the four peripheral edges of the support piece 211 can abut against the inner surface of the inner cavity 11, thereby playing a certain positioning role and further ensuring the installation stability of the mounting bracket 3 and the sliding bending device 2 in the inner cavity 11 of the hollow column 1.

[0029] Preferably, the turning guide 22 is a round tube or a pulley.

[0030] The inner cavity 11 of the hollow column 1 extends through at least one end. In this embodiment, the inner cavity 11 extends through the bottom end of the hollow column 1, and the top end of the hollow column 1 is a closed end to ensure aesthetic appearance and eliminate the need for an additional column cap. Meanwhile, the mounting bracket 3, together with the sliding bending device 2, can be inserted into the inner cavity 11 from the bottom end of the hollow column 1. In addition, a connecting base plate 13 is fixedly provided at the bottom end of the hollow column 1 to facilitate the fixed installation of the hollow column 1 on the corresponding mounting surface through the connecting base plate 13. The top surface of the hollow column 1 is provided with multiple threaded holes 14 to facilitate the installation of hand guards.

[0031] It should be understood that during the development of any practical implementation, such as in any engineering or design project, numerous specific implementation decisions may be made. Such development efforts may be complex and time-consuming, but for those of ordinary skill in the art who benefit from this disclosure, the development effort will be a routine work of design, manufacturing, and production without much experimentation.

[0032] The above are only some specific embodiments of this utility model, but the design concept of this utility model is not limited thereto. Any non-substantial modifications made to this utility model using this concept shall be considered as an infringement of the protection scope of this utility model.

Claims

1. A single-pile corner integrated column, characterized in that: The device includes a hollow column, in which a plurality of sliding turning devices are provided in the inner cavity along its height direction. On two adjacent sides of the hollow column, a plurality of through holes corresponding to the sliding turning devices are provided. The sliding turning device includes a support assembly and a turning guide rotatably mounted on the support assembly. There are multiple turning guides arranged at intervals.

2. The single-pile corner integrated column according to claim 1, characterized in that: It also includes a mounting bracket, which is detachably disposed in the inner cavity of the hollow column, and the sliding bending device is disposed on the mounting bracket.

3. The single-pile corner integrated column according to claim 2, characterized in that: The support assembly includes two support plates arranged parallel to each other and spaced apart, and a detachable connecting mechanism for fixing the two support plates together as a whole. The turning guide is located between the two support plates.

4. The single-pile corner integrated column according to claim 3, characterized in that: The detachable connection mechanism includes at least one spacer sleeve and at least one fastener. The spacer sleeve is disposed between the two support pieces, and the fastener is used to lock and fix the spacer sleeve to the two support pieces.

5. A single-pile corner integrated column according to claim 3, characterized in that: The support assembly further includes at least two fixed shafts, which are connected between the two support plates, and the turning guide is rotatably sleeved on the fixed shafts.

6. A single-pile corner integrated column according to claim 3, characterized in that: The mounting bracket is provided with a plurality of insertion mechanisms spaced apart along its height direction. Each insertion mechanism includes two slots spaced apart vertically. One side of the support piece extends outward and forms an insertion part. The insertion parts of the two support pieces are respectively inserted into the two slots of the insertion mechanism.

7. A single-pile corner integrated column according to claim 3, characterized in that: The mounting bracket is a right-angle bent piece. When the support piece is inserted into the mounting bracket, two adjacent sides of the support piece abut against two inner sides of the mounting bracket.

8. A single-pile corner integrated column according to claim 3, characterized in that: The hollow column has a polygonal cross-section, and the support plate is adapted to the inner cavity of the hollow column.

9. A single-pile corner integrated column according to claim 1, characterized in that: The turning guide is a round tube or a pulley.

10. A single-pile corner integrated column according to claim 1, characterized in that: The hollow column has an inner cavity extending through at least one end, a connecting base plate is fixedly provided at the bottom end of the hollow column, and multiple threaded holes are provided on the top surface of the hollow column.