5G communication television tower with high stability
By installing horizontal bars, diagonal braces, and telescopic locking mechanisms in the 5G communication TV tower frame, the problem of unstable vertical connections was solved, achieving higher stability and convenient maintenance.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- QINGDAOHAOMAIQILIN STEEL STRUCTURE CO LTD
- Filing Date
- 2023-09-28
- Publication Date
- 2026-06-30
AI Technical Summary
The existing 5G communication TV towers have insufficient vertical connections, resulting in instability when the tower is heightened.
An auxiliary connection mechanism, including crossbars and diagonal braces, is installed between the tower columns and further secured by a telescopic locking mechanism to ensure connection stability in both horizontal and vertical directions.
It improves the overall stability of the tower, enhances the connection strength in both horizontal and vertical directions, and facilitates later maintenance and repair.
Smart Images

Figure CN117345025B_ABST
Abstract
Description
Technical Field
[0001] This invention belongs to the field of television tower frames, and specifically relates to a 5G communication television tower frame with high stability. Background Technology
[0002] A 5G communication tower is a tower-like structure used by telecommunications operators to build and install 5G communication equipment. These towers support and mount 5G communication antennas, transmission equipment, and other related devices to provide high-speed, stable wireless communication services. Communication towers play a crucial role in 5G communication networks; they are typically located in high-rise buildings, on mountaintops, and other elevated locations to ensure better signal propagation and coverage over wide areas.
[0003] In existing patent literature, there is a patent with application number "202011419076.X" and invention title "Standard Tower Section, Expandable Tower and Vertically Load-Bearing Capacity Reinforced Tower". This patent includes four standard section columns and multiple column connectors. The standard section columns are vertically arranged to form a cuboid standard section frame. Adjacent standard section columns are fixedly connected by the column connectors. Each standard section column includes a standard column body. The top and bottom surfaces of the standard column body are fixedly provided with connecting plates. The side of the standard column body is provided with node plates for lateral expansion.
[0004] Although the patent uses a large number of standard section upper horizontal bars, standard section middle horizontal bars, standard section lower horizontal bars, upper standard section diagonal bars, and lower standard section diagonal bars for reinforcement, it can only reinforce the horizontal connection between two adjacent columns. In the vertical direction, it can only use flanges at the beginning and end of the columns for connection, which makes the vertical connection not stable enough. As the tower height increases, the risk of this instability in the vertical direction will be higher.
[0005] Therefore, in view of the shortcomings of the above solutions in actual production and implementation, modifications and improvements have been made. At the same time, in the spirit and concept of seeking excellence, with the assistance of professional knowledge and experience, and after much ingenuity and experimentation, this invention was created to provide a 5G communication TV tower frame with high stability to solve the above problems. Summary of the Invention
[0006] This invention proposes a highly stable 5G communication television tower frame, which solves the problems in the prior art.
[0007] The technical solution of this invention is implemented as follows:
[0008] A highly stable 5G communication television tower frame includes several tower columns, with each pair of adjacent tower columns fixedly installed end to end along their height direction.
[0009] An auxiliary connection mechanism is installed inside the tower column;
[0010] A crossbar is installed on the auxiliary connection mechanism. In the horizontal direction, the crossbars further connect and fix each two adjacent tower columns.
[0011] The auxiliary connection mechanism is equipped with cross braces, which further connect and fix adjacent tower columns in the vertical direction.
[0012] In the vertical direction, a telescopic locking mechanism is also installed between the horizontal bar and the diagonal bar.
[0013] In this scheme, horizontally, each pair of adjacent tower columns is further connected and fixed by a horizontal bar to ensure horizontal connection. In vertically, in addition to the end-to-end fixed installation between each pair of adjacent tower columns, a cross brace is used to further connect and fix them to ensure vertical connection. To further strengthen the connection between the horizontal bar and the cross brace, a telescopic locking mechanism is used to further connect and fix them, ensuring that each pair of adjacent connecting components are connected to each other, thereby improving overall stability.
[0014] As a preferred embodiment of a 5G communication television tower with high stability, the tower columns are fixed together by welding.
[0015] This approach, through welding, can improve the stability of the fixation between two adjacent tower columns.
[0016] As a preferred embodiment of a 5G communication TV tower with high stability, the tower column is provided with an installation groove, and the auxiliary connection mechanism is fixed in the installation groove by screws. The two ends of the installation groove are also provided with clearance grooves.
[0017] With this solution, the screws are placed in the clearance groove during installation, and the auxiliary connecting mechanism is fixed in the mounting groove within the clearance groove, making installation more convenient.
[0018] As a preferred embodiment of a 5G communication TV tower with high stability, the auxiliary connection mechanism includes a mechanism shell, and two crossbar connecting sleeves are fixedly connected in the middle of the mechanism shell. The two crossbar connecting sleeves are horizontally set, and the openings of the two crossbar connecting sleeves are opened in opposite directions. The crossbar connecting sleeves and the crossbars are disassembled and fixed by bolts and nuts.
[0019] Using this scheme, the auxiliary connection mechanism can simultaneously connect and fix two adjacent tower columns on the left and right sides through two crossbar connecting sleeves, thereby ensuring the stability of the installation.
[0020] As a preferred embodiment of a 5G communication TV tower with high stability, the upper and lower ends of the outer shell of the mechanism are respectively movably connected to two diagonal rod connecting sleeves. The openings of the diagonal rod connecting sleeves are opened in opposite directions, and the diagonal rod connecting sleeves and the cross diagonal rods are disassembled and fixed by bolts and nuts.
[0021] Using this scheme, the auxiliary connection mechanism can simultaneously connect and fix two adjacent tower columns at the top and bottom through two diagonal connecting sleeves, thereby ensuring the stability of the installation.
[0022] As a preferred embodiment of a 5G communication TV tower with high stability, the diagonal brace connecting sleeve is movably mounted on a reference shaft fixed inside the housing of the mechanism, and the included angle between the diagonal brace connecting sleeve and the horizontal plane is 0°-60°.
[0023] With this design, the diagonal brace connecting sleeve can move within a small range around the reference axis center, making the installation of cross diagonal braces more flexible and convenient.
[0024] As a preferred embodiment of a 5G communication TV tower frame with high stability, the upper and lower sides of the crossbar are fixed with first connecting rings, and the two first connecting rings are located on the same vertical plane.
[0025] This design allows for further reinforcement of the crossbar via the first connecting ring.
[0026] As a preferred embodiment of a 5G communication TV tower with high stability, the upper and lower sides of the cross diagonal brace are fixed with second connecting rings, and the two second connecting rings are located on the same vertical plane.
[0027] This design allows for further reinforcement of the diagonal crossbars via a second connecting ring.
[0028] As a preferred embodiment of a 5G communication TV tower with high stability, the telescopic locking mechanism includes a main locking sleeve, one end of which is rotatably connected to a self-locking adjustment seat. The self-locking adjustment seat is connected to a telescopic sleeve via a threaded drive. The telescopic sleeve is hidden inside the main locking sleeve. At least one rotating rib is fixedly connected to the self-locking adjustment seat.
[0029] This design utilizes a rotating self-locking adjusting seat, which, under the action of the thread, drives the telescopic sleeve to move linearly, thus achieving telescoping and eliminating assembly errors and improving installation flexibility. The rotating rib facilitates the rotation of the self-locking adjusting seat.
[0030] As a preferred embodiment of a 5G communication TV tower with high stability, both the main locking sleeve and the telescopic sleeve are fixed with a third connecting ring at their ends, and the two third connecting rings are located on the same vertical plane.
[0031] The third connecting ring can be interconnected with either the first or the second connecting ring.
[0032] In this design, the telescopic locking mechanism is connected to the first connecting ring on the crossbar and the second connecting ring on the diagonal bar via the third connecting rings at both ends. By extending and retracting the mechanism, self-locking is achieved, thereby strengthening the connection between the crossbar and the diagonal bar.
[0033] After adopting the above technical solution, the beneficial effects of the present invention are:
[0034] 1. In the horizontal direction, each pair of adjacent tower columns is further connected and fixed by a horizontal bar to ensure horizontal connection. In the vertical direction, in addition to the end-to-end fixed installation between each pair of adjacent tower columns, they are further connected and fixed by a cross brace to ensure vertical connection. In order to further strengthen the connection between the horizontal bar and the cross brace, a telescopic locking mechanism is used to further connect and fix them, ensuring that each pair of adjacent connecting components are connected to each other to improve overall stability.
[0035] 2. The installation of the tower column is carried out using the auxiliary connection mechanism, which is easy to disassemble and install, facilitating later maintenance, repair and replacement.
[0036] 3. The telescopic locking mechanism, through the rotation of the self-locking adjustment seat, can drive the telescopic sleeve to move linearly under the action of the thread, thereby realizing telescopic movement, eliminating assembly errors, and improving its flexibility during installation. Attached Figure Description
[0037] To more clearly illustrate the technical solutions in the embodiments of the present invention 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 the present invention. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0038] Figure 1 This is a three-dimensional structural diagram of the present invention after installation in an embodiment;
[0039] Figure 2 The three-dimensional structure of the present invention Figure 1 ;
[0040] Figure 3 The three-dimensional structure of the present invention Figure 2 ;
[0041] Figure 4 This is a three-dimensional structural diagram of the tower column in this invention;
[0042] Figure 5 This is a three-dimensional structural diagram of the auxiliary connecting mechanism in this invention;
[0043] Figure 6 This is an internal sectional view of the auxiliary connecting mechanism in this invention;
[0044] Figure 7 The three-dimensional structure of the crossbar in this invention Figure 1 ;
[0045] Figure 8 The three-dimensional structure of the crossbar in this invention Figure 2 ;
[0046] Figure 9 This is the three-dimensional structure of the intersecting diagonal braces in this invention. Figure 1 ;
[0047] Figure 10 This is the three-dimensional structure of the intersecting diagonal braces in this invention. Figure 2 ;
[0048] Figure 11 This is the three-dimensional structure of the telescopic locking mechanism in this invention. Figure 1 ;
[0049] Figure 12 This is the three-dimensional structure of the telescopic locking mechanism in this invention. Figure 2 ;
[0050] Figure 13 This is an internal cross-sectional view of the telescopic locking mechanism in this invention;
[0051] In the diagram, 1-tower column; 2-auxiliary connecting mechanism; 201-mechanism housing; 202-crossbar connecting sleeve; 203-reference shaft; 204-diagonal bar connecting sleeve; 3-crossbar; 4-cross diagonal bar; 5-telescopic locking mechanism; 501-main locking sleeve; 502-self-locking adjustment seat; 503-telescopic sleeve; 504-rotating rib; 505-third connecting ring; 6-second connecting ring; 7-mounting groove; 8-avoidance groove; 9-first connecting ring. Implementation
[0052] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.
[0053] like Figures 1 to 3 As shown, a highly stable 5G communication television tower includes twelve tower columns 1, which are arranged in a circular array. Each pair of adjacent tower columns 1 are fixedly installed end to end along their height direction.
[0054] An auxiliary connection mechanism 2 is installed inside tower column 1;
[0055] A crossbar 3 is installed on the auxiliary connection mechanism 2. In the horizontal direction, the crossbar 3 further connects and fixes each two adjacent tower columns 1.
[0056] A cross brace 4 is installed on the auxiliary connection mechanism 2. In the vertical direction, the cross brace 4 further connects and fixes each two adjacent tower columns 1.
[0057] In the vertical direction, a telescopic locking mechanism 5 is also installed between the horizontal bar 3 and the crossbar 4.
[0058] According to this scheme, in the horizontal direction, each pair of adjacent tower columns 1 is further connected and fixed by a horizontal bar 3 to ensure the connection in the horizontal direction; in the vertical direction, in addition to the end-to-end fixed installation of each pair of adjacent tower columns 1, they are further connected and fixed by a cross brace 4 to ensure the connection in the vertical direction; in order to further strengthen the connection between the horizontal bar 3 and the cross brace 4, a telescopic locking mechanism 5 is used to further connect and fix them, ensuring that each pair of adjacent connecting components are connected to each other, so as to improve the overall stability.
[0059] like Figure 4 As shown, tower column 1 is fixed to tower column 1 by welding.
[0060] Implementing this plan, welding can improve the stability of the fixation between two adjacent tower columns.
[0061] The tower column 1 has an installation groove 7. The auxiliary connection mechanism 2 is fixed in the installation groove 7 by screws. The two ends of the installation groove 7 are also provided with clearance grooves 8.
[0062] When this scheme is implemented, the screws are placed in the clearance groove 8 during installation, and the auxiliary connecting mechanism 2 is fixed to the mounting groove 7 in the clearance groove 8, which makes installation more convenient.
[0063] like Figures 5 to 6 As shown, the auxiliary connecting mechanism 2 includes a mechanism housing 201. Two crossbar connecting sleeves 202 are fixedly connected to the middle of the mechanism housing 201. The two crossbar connecting sleeves 202 are horizontally arranged and have openings that are opposite to each other. The crossbar connecting sleeves 202 and the crossbar 3 are detached and fixed by bolts and nuts.
[0064] When implemented according to this scheme, the auxiliary connection mechanism 2 can simultaneously connect and fix the two adjacent tower columns 1 on the left and right sides through two crossbar connecting sleeves 202, thereby ensuring the stability of the installation.
[0065] The upper and lower ends of the outer shell 201 of the mechanism are respectively movably connected to two diagonal rod connecting sleeves 204. The openings of the diagonal rod connecting sleeves 204 are reversed. The diagonal rod connecting sleeves 204 and the cross diagonal rods 4 are detached and fixed by bolts and nuts.
[0066] When implemented according to this scheme, the auxiliary connection mechanism 2 can simultaneously connect and fix the two adjacent tower columns 1 at the top and bottom through two diagonal connecting sleeves 204, thereby ensuring the stability of the installation.
[0067] The diagonal connecting sleeve 204 is movably mounted on the reference shaft 203 fixed inside the mechanism housing 201, and the included angle between the diagonal connecting sleeve 204 and the horizontal plane is 50°.
[0068] With this scheme implemented, the diagonal connecting sleeve 204 can move within a small range around the center of the reference axis 203, making the installation of the cross diagonal brace 4 more flexible and convenient.
[0069] like Figures 7 to 8 As shown, the upper and lower sides of the crossbar 3 are both fixed with first connecting rings 9, and the two first connecting rings 9 are located on the same vertical plane.
[0070] Implementing this scheme, the first connecting ring 9 facilitates further reinforcement of the crossbar 3.
[0071] like Figures 9 to 10 As shown, the upper and lower sides of the cross brace 4 are both fixed with second connecting rings 6, and the two second connecting rings 6 are located on the same vertical plane.
[0072] Implementing this scheme, the second connecting ring 6 facilitates further reinforcement of the cross brace 4.
[0073] like Figures 11 to 13 As shown, the telescopic locking mechanism 5 includes a main locking sleeve 501. One end of the main locking sleeve 501 is rotatably connected to a self-locking adjusting seat 502. A telescopic sleeve 503 is connected to the self-locking adjusting seat 502 via a threaded drive. The telescopic sleeve 503 is hidden inside the main locking sleeve 501. At least one rotating rib 504 is fixedly connected to the self-locking adjusting seat 502.
[0074] When implemented according to this scheme, by rotating the self-locking adjusting seat 502, the telescopic sleeve 503 can be moved linearly under the action of the thread, thereby realizing telescoping and eliminating assembly errors and improving the flexibility of installation. The rotating rib 504 facilitates the rotation of the self-locking adjusting seat 502.
[0075] Both the main locking sleeve 501 and the telescopic sleeve 503 are fixed with a third connecting ring 505 at their ends, and the two third connecting rings 505 are located on the same vertical plane.
[0076] The third connecting ring 505 can be interconnected with the first connecting ring 9 or the second connecting ring 6.
[0077] According to this scheme, the telescopic locking mechanism 5 is connected to the first connecting ring 9 on the crossbar 3 and the second connecting ring 6 on the crossbar 4 through the third connecting rings 505 at both ends, and then self-locking is achieved by telescopically extending and retracting it, thereby strengthening the connection between the crossbar 3 and the crossbar 4.
[0078] Working principle of the invention:
[0079] During installation, firstly, the auxiliary connection mechanism 2 is fixed to the mounting groove 7 in the tower column 1 using screws. Then, the twelve tower columns 1 are arranged in a circular array. Finally, the joint flange 6 can be used to quickly fix the ends of two adjacent tower columns 1 along their height direction.
[0080] Secondly, between the two tower columns 1 in the horizontal direction, the crossbar connecting sleeve 202 and the crossbar 3 are disassembled and fixed by bolts and nuts to ensure the connection in the horizontal direction.
[0081] Then, between the two tower columns 1 in the vertical direction, the diagonal brace connecting sleeve 204 and the cross diagonal brace 4 are disassembled and fixed by bolts and nuts to ensure the connection in the vertical direction.
[0082] Finally, by rotating the self-locking adjusting seat 502 between the horizontal bar 3 and the diagonal bar 4 in the vertical direction, the telescopic sleeve 504 can be moved linearly under the action of the thread, thereby realizing telescopic movement. This allows the third connecting ring 505 to connect with the first connecting ring 9 and the second connecting ring 6. Then, by rotating the self-locking adjusting seat 502, the horizontal bar 3 and the diagonal bar 4 are self-locked, thereby strengthening the connection between the horizontal bar 3 and the diagonal bar 4. After installation, it can ensure that each two adjacent connecting components are connected to each other, thereby improving the overall stability.
[0083] In the description of this invention, it should be understood that the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," and "outer," etc., indicating orientations or positional relationships based on the orientations or positional relationships shown in the accompanying drawings, are only for the convenience of describing the invention 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, and therefore should not be construed as a limitation of the invention. In the description of this invention, unless otherwise specified and limited, it should be noted that the terms "installed," "connected," and "linked" should be interpreted broadly. For example, they can refer to mechanical or electrical connections, or internal connections between two elements; they can be direct connections or indirect connections through an intermediate medium. Those skilled in the art can understand the specific meaning of the above terms according to the specific circumstances.
[0084] The above are merely preferred embodiments of the present invention and are not intended to limit the present invention. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present invention should be included within the protection scope of the present invention.
Claims
1. A 5G communication television tower frame with high stability, comprising several tower columns (1), wherein each pair of adjacent tower columns (1) are fixedly installed end to end along their height direction; Its features are: An auxiliary connection mechanism (2) is installed inside the tower column (1); A crossbar (3) is installed on the auxiliary connection mechanism (2). In the horizontal direction, the two adjacent tower columns (1) are further connected and fixed by the crossbar (3). The auxiliary connection mechanism (2) is equipped with a cross brace (4), and in the vertical direction, the tower columns (1) are further connected and fixed by the cross brace (4); In the vertical direction, a telescopic locking mechanism (5) is also installed between the crossbar (3) and the crossbar (4); The auxiliary connecting mechanism (2) includes a mechanism housing (201), with two crossbar connecting sleeves (202) fixedly connected in the middle of the mechanism housing (201). The openings of the two crossbar connecting sleeves (202) are opposite to each other. The crossbar connecting sleeves (202) are detached and fixed to the crossbar (3). Two diagonal connecting sleeves (204) are movably connected to the upper and lower ends of the mechanism housing (201). The openings of the diagonal connecting sleeves (204) are opposite to each other. The diagonal connecting sleeves (204) are detached and fixed to the cross diagonal (4). The inclined rod connecting sleeve (204) is movably mounted on the reference shaft (203) fixed inside the mechanism housing (201), and the movable angle between the inclined rod connecting sleeve (204) and the horizontal plane is 0°-60°; The upper and lower sides of the crossbar (3) are both fixed with first connecting rings (9), and the two first connecting rings (9) are located on the same vertical plane; The upper and lower sides of the cross brace (4) are both fixed with second connecting rings (6), and the two second connecting rings (6) are located on the same vertical plane; The telescopic locking mechanism (5) includes a main locking sleeve (501), one end of which is rotatably connected to a self-locking adjustment seat (502), and a telescopic sleeve (503) is drivenly connected to the self-locking adjustment seat (502). The telescopic sleeve (503) is hidden inside the main locking sleeve (501), and at least one rotating rib (504) is fixedly connected to the self-locking adjustment seat (502). The ends of the main locking sleeve (501) and the telescopic sleeve (503) are both fixed with a third connecting ring (505), and the two third connecting rings (505) are located on the same vertical plane. The third connecting ring (505) can be interconnected with the first connecting ring (9) or the second connecting ring (6).
2. The 5G communication TV tower frame with high stability according to claim 1, characterized in that, The tower column (1) is fixed to the tower column (1) by welding.
3. A highly stable 5G communication television tower frame according to claim 2, characterized in that, The tower column (1) is provided with an installation groove (7), the auxiliary connection mechanism (2) is installed and fixed in the installation groove (7), and the two ends of the installation groove (7) are also provided with clearance grooves (8).