CN216959248U - Freely adjust and lock location structure of signal tower cable - Google Patents

Abstract

The utility model provides a location structure of freely adjusting and locking signal tower cable, belongs to signal tower installation technical field, includes: the support device comprises a first half ring, a second half ring, a first connecting piece, a second connecting piece, a first support arm and a second support arm; by adopting the connection mode, the structure is simple, and the position of the support arm can be adjusted according to the positions of the first half ring and the second half ring, so that the angle for fixing the cable is adjusted, and the cable fixing device is more adaptive. The second semi-ring and first semi-ring sliding connection can finely tune according to the locking degree of screw rod and first nut, guarantee that first semi-ring and second semi-ring are stable to be fixed on the tower body, and the installation is high-efficient. The support arm can close with second nut and third nut soon through the holding ring, and the adjustment is to the elasticity degree of cable location, guarantees the stability of cable installation, reduces the maintenance number of times of signal tower.

Description

Freely adjust and lock location structure of signal tower cable

Technical Field

The utility model belongs to the technical field of signal tower installation, and particularly relates to a positioning structure for freely adjusting and locking a signal tower cable.

Background

The signal tower is a wireless signal transmitting device established by network operators, looks like a tower, and is called as a signal tower. And a form of a common radio station, which is a radio transceiver station for information transfer with a mobile telephone terminal through a communication switching center in a certain radio coverage area. At present, the tower body needs to be destroyed when the antenna bracket of the signal tower is installed, the service life of the tower body is greatly influenced, the installation is difficult, and the installation efficiency is low.

CN206727206U discloses a signal tower with antenna boom, include, the tower body with be fixed in the antenna boom on the tower body, the tower body includes along a plurality of montants that vertical direction set up and connects the horizontal pole between two montants, antenna boom is fixed in the horizontal pole, antenna boom includes: a stent body; the second connecting piece is detachably connected with the bracket main body; the first connecting piece is detachably connected with the cross rod; one end of the supporting arm is connected with the first connecting piece, and the other end of the supporting arm is connected with the second connecting piece.

Although the patent application solves the problem that the number of antennas which can be newly added is limited due to the limit of the capacity of the tower body; the vertical pole of the tower body is occupied by the original antenna, the antenna cannot be newly added to meet the hanging height requirement of the antenna, and the requirement of a user on the network coverage range cannot be met; but still have antenna boom fixed mounting, can't adjust and locking, maintain inconvenient scheduling problem.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems of the prior art that the antenna bracket is fixedly installed, cannot be adjusted and locked, is inconvenient to maintain and the like in the positioning structure, the utility model provides the positioning structure for freely adjusting and locking the cable of the signal tower, and the position of the supporting arm can be adjusted according to the positions of the first half ring and the second half ring, so that the fixed angle of the cable can be adjusted; and second semi-ring and first semi-ring sliding connection can finely tune according to the locking degree of screw rod and first nut, guarantees that first semi-ring and second semi-ring are stable to be fixed on the tower body, and the installation is high-efficient. The specific technical scheme is as follows:

the utility model provides a location structure of freely adjusting and locking signal tower cable, location structure includes: the support device comprises a first half ring, a second half ring, a first connecting piece, a second connecting piece, a first support arm and a second support arm; two first semi-rings arranged in parallel are wound on one side of the tower body, two second semi-rings arranged in parallel are wound on the other side of the tower body, and the second semi-rings are in sliding connection with the first semi-rings; the first half ring is connected with a first connecting piece in a sliding manner; a second connecting piece is connected to the second semi-ring in a sliding manner, and the second connecting piece is connected with the first connecting piece through a screw and a first nut; the first connecting piece is connected with a first supporting arm; and a second supporting arm is connected to the second connecting piece.

In the above technical scheme, the first half ring is of a hollow structure, and two ends of the second half ring are respectively embedded into two ends of the first half ring.

In the above technical solution, the first connecting member includes: a first fixing portion and a first mounting portion; the first fixing part is sleeved on the outer sides of the two first half rings at the same time, and a gap exists between the first fixing part and the first half rings; the first mounting portion is connected with the first fixing portion.

In the above technical solution, the first support arm includes: the first positioning ring is arranged on the first body; the first body is connected with the first fixing part; external threads are arranged on the outer walls of the two ends of the first positioning ring, and the two ends of the first positioning ring penetrate through the first body; the second nut suit is in the outside at first retainer ring both ends, just the second nut with the laminating of first body mutually.

In the above technical solution, the second connecting member includes: a second fixing portion and a second mounting portion; the second fixing parts are sleeved on the outer sides of the two second semi-rings at the same time, and a gap exists between the second fixing parts and the second semi-rings; the second mounting portion is connected with the second fixing portion.

In the above technical solution, the second support arm includes: the second positioning ring is arranged on the second body; the second body is connected with the second fixing part; external threads are arranged on the outer walls of the two ends of the second positioning ring, and the two ends of the second positioning ring penetrate through the second body; the third nut suit is in the outside at second holding ring both ends, just the third nut with the second body laminates mutually.

In the above technical solution, the first fixing portion is arc-shaped; the second fixing part is arc-shaped.

In the technical scheme, the radian of the first fixing part is 30-60 degrees; the radian of the second fixing part is 30-60 degrees.

In the above technical scheme, the first fixing portion and the second fixing portion are both provided with elastic anti-slip pads.

Compared with the prior art, the positioning structure for freely adjusting and locking the signal tower cable has the beneficial effects that: by adopting the connection mode, the structure is simple, the position of the supporting arm can be adjusted according to the positions of the first half ring and the second half ring, so that the angle for fixing the cable is adjusted, and the cable fixing device is more adaptive. The second semi-ring and first semi-ring sliding connection can finely tune according to the locking degree of screw rod and first nut, guarantee that first semi-ring and second semi-ring are stable to be fixed on the tower body, and the installation is high-efficient. The support arm can close with second nut and third nut soon through the holding ring, and the adjustment is to the elasticity degree of cable location, guarantees the stability of cable installation, reduces the maintenance number of times of signal tower.

The first half ring is of a hollow structure, and two ends of the second half ring are embedded into two ends of the first half ring respectively, so that the purpose of enabling the second half ring to be in sliding connection with the first half ring is achieved, a circular ring matched with the outer wall of the tower body in shape is formed in an enclosing mode, and the circular ring can be fixed on the outer wall of the tower body conveniently.

Secondly, the first fixing part is sleeved on the outer sides of the two first half rings at the same time, so that a gap between the two first half rings can be fixed; the first fixing part can slide on the first semi-ring by a gap between the first fixing part and the first semi-ring, so that the distance between the first connecting piece and the second connecting piece can be conveniently adjusted; through being connected first installation department with first fixed part to lock first connecting piece and second connecting piece through screw rod and first nut, improve the fixed stability of first support arm and second support arm.

Thirdly, the first support arm is fixed on the first connecting piece by connecting the first body with the first fixing part, so that the first support arm and the first connecting piece move synchronously; the outer wall through at first retaining ring both ends is provided with the external screw thread, and the first body is passed at the both ends of first retaining ring to with the second nut suit in the outside at first retaining ring both ends, and the second nut laminates with first body mutually, with locking first retaining ring on first body, detachable design, the fixed cable of being convenient for, convenient to use.

Fourthly, the second fixing parts are sleeved on the outer sides of the two second half rings at the same time, so that the gap between the two second half rings can be fixed; the second fixing part can slide on the second semi-ring by a gap between the second fixing part and the second semi-ring, so that the distance between the second connecting piece and the second connecting piece can be conveniently adjusted; through being connected second installation department with the second fixed part to lock second connecting piece and second connecting piece through screw rod and second nut, improve the fixed stability of second support arm and second support arm.

Connecting the second body with the second fixing part to fix the second support arm on the second connecting piece so as to enable the second support arm and the second connecting piece to move synchronously; the outer wall through at second holding ring both ends is provided with the external screw thread, and the second body is passed at the both ends of second holding ring to with the third nut suit in the outside at second holding ring both ends, and the third nut laminates with the second body mutually, in order to lock the second holding ring on the second body, detachable design, the fixed cable of being convenient for, convenient to use.

Sixthly, be the arc through making first fixed part to make the second fixed part be the arc, make the outer wall shape adaptation of first connecting piece and second connecting piece and tower body, can increase the area of laminating, fixed effectual.

Seventhly, be 30 ~ 60 degrees through the radian that makes first fixed part to the radian that makes the second fixed part is 30 ~ 60 degrees, ensures that the length of first fixed part and second fixed part is moderate, also can have enough big area of contact with the tower body outer wall after adjusting, guarantees the stability of first support arm and second support arm, thereby guarantees the stability of cable.

Eighthly, through all being provided with the elasticity slipmat on making first fixed part and the second fixed part, elastic deformation and great coefficient of friction through the slipmat increase the frictional force of first fixed part and second fixed part and tower body outer wall, prevent first semi-ring and second semi-ring gliding, guarantee the fixed stability of cable.

In conclusion, the positioning structure is simple and quick to install, and compared with the positioning structure which is directly installed on the tower body, the positioning structure does not damage the tower body, improves the installation efficiency by more than 30 percent compared with the prior art, and takes less than 15 minutes in the installation process. The first supporting arm and the second supporting arm are adjustable in position, can adapt to different cable directions, and are high in adaptability.

Drawings

Fig. 1 is a top view of a freely adjustable and lockable positioning structure for a signal tower cable according to embodiments 1 and 2 of the present invention;

fig. 2 is a front view of a positioning structure of a freely adjustable and locking signal tower cable according to embodiments 1 and 2 of the present invention;

in FIGS. 1-2, wherein: 9. a tower body; 10. a first half ring; 12. a second half ring; 14. a first connecting member; 141. a first fixed part; 142. a first mounting portion; 16. a second connecting member; 161. a second fixed part; 162. a second mounting portion; 18. a first support arm; 181. a first body; 182. a first positioning ring; 183. a second nut; 20. a second support arm; 201. a second body; 202. a second positioning ring; 203. and a third nut.

Detailed Description

The utility model will be further described with reference to the following examples and figures 1-2, but the utility model is not limited to these examples.

Example 1

A positioning structure for freely adjusting and locking a signal tower cable, as shown in fig. 1-2, the positioning structure comprises: first half 10, second half 12, first connector 14, second connector 16, first support arm 18, and second support arm 20; two first semi-rings 10 which are arranged in parallel are wound on one side of the tower body 9, two second semi-rings 12 which are arranged in parallel are wound on the other side of the tower body 9, and the second semi-rings 12 are connected with the first semi-rings 10 in a sliding mode; a first connecting piece 14 is connected on the first half ring 10 in a sliding way; a second connecting piece 16 is connected on the second half ring 12 in a sliding manner, and the second connecting piece 16 is connected with the first connecting piece 14 through a screw and a first nut; the first connecting piece 14 is connected with a first supporting arm 18; a second support arm 20 is attached to the second connector 16.

The first half ring 10 has a hollow structure, and two ends of the second half ring 12 are embedded into two ends of the first half ring 10, respectively.

The first connecting member 14 includes: a first fixing portion 141 and a first mounting portion 142; the first fixing parts 141 are simultaneously sleeved on the outer sides of the two first half rings 10, and a gap exists between the first fixing parts 141 and the first half rings 10; the first mounting portion 142 is connected to the first fixing portion 141.

The first support arm 18 includes: a first body 181, a first positioning ring 182, and a nut; the first body 181 is connected to the first fixing portion 141; the outer walls of the two ends of the first positioning ring 182 are provided with external threads, and the two ends of the first positioning ring 182 penetrate through the first body 181; the nut is sleeved outside two ends of the first positioning ring 182, and the nut is attached to the first body 181.

The second connector 16 includes: a second fixing portion 161 and a second mounting portion 162; second fixing portion 161 is simultaneously sleeved on the outer sides of two second half rings 12, and a gap exists between second fixing portion 161 and second half rings 12; the second mounting portion 162 is connected to the second fixing portion 161.

The second support arm 20 includes: a second body 201, a second positioning ring 202 and a nut; the second body 201 is connected with the second fixing portion 161; external threads are arranged on the outer walls of the two ends of the second positioning ring 202, and the two ends of the second positioning ring 202 penetrate through the second body 201; the nut suit is in the outside at second holding ring 202 both ends, and the nut laminates with second body 201 mutually.

The first fixing portion 141 is arc-shaped; the second fixing portion 161 has an arc shape.

The radian of the first fixing portion 141 is 30 degrees; the arc of the second fixing portion 161 is 30 degrees.

Elastic anti-slip pads are arranged on the first fixing portion 141 and the second fixing portion 161.

The positioning structure of this embodiment is used for installing on the tower body 9 of the signal tower on trial, and during installation, will wind first semi-ring 10 and second semi-ring 12 on the outside of tower body 9 earlier, make the both ends of second semi-ring 12 imbed respectively in the both ends of first semi-ring 10, through first nut locking, the position of first connecting piece 14 and second connecting piece 16 is fixed, is about to fix first support arm 18 and second support arm 20. By screwing the second nut 183 and the third nut 203, the gap between the cable and the first positioning ring 182 and the second positioning ring 202 is adjusted according to the number of the cables, and the stability of the cable after being fixed is improved. The installation need not to destroy and weld tower body 9, can accomplish through revolving the screwed nut, and the installation is high-efficient.

Example 2

A positioning structure for freely adjusting and locking a signal tower cable, as shown in fig. 1-2, the positioning structure comprises: first half 10, second half 12, first connector 14, second connector 16, first support arm 18, and second support arm 20; two first semi-rings 10 which are arranged in parallel are wound on one side of the tower body 9, two second semi-rings 12 which are arranged in parallel are wound on the other side of the tower body 9, and the second semi-rings 12 are connected with the first semi-rings 10 in a sliding mode; a first connecting piece 14 is connected on the first half ring 10 in a sliding way; a second connecting piece 16 is connected on the second half ring 12 in a sliding manner, and the second connecting piece 16 is connected with the first connecting piece 14 through a screw and a first nut; the first connecting piece 14 is connected with a first supporting arm 18; a second support arm 20 is attached to the second connector 16.

The first half ring 10 has a hollow structure, and two ends of the second half ring 12 are embedded into two ends of the first half ring 10, respectively.

The first connecting member 14 includes: a first fixing portion 141 and a first mounting portion 142; the first fixing parts 141 are simultaneously sleeved on the outer sides of the two first half rings 10, and a gap exists between the first fixing parts 141 and the first half rings 10; the first mounting portion 142 is connected to the first fixing portion 141.

The first support arm 18 includes: a first body 181, a first positioning ring 182, and a nut; the first body 181 is connected to the first fixing portion 141; the outer walls of the two ends of the first positioning ring 182 are provided with external threads, and the two ends of the first positioning ring 182 penetrate through the first body 181; the nut is sleeved outside two ends of the first positioning ring 182, and the nut is attached to the first body 181.

The second connector 16 includes: a second fixing portion 161 and a second mounting portion 162; second fixing portion 161 is simultaneously sleeved on the outer sides of two second half rings 12, and a gap exists between second fixing portion 161 and second half rings 12; the second mounting portion 162 is connected to the second fixing portion 161.

The second support arm 20 includes: a second body 201, a second positioning ring 202 and a nut; the second body 201 is connected with the second fixing portion 161; the outer walls of the two ends of the second positioning ring 202 are provided with external threads, and the two ends of the second positioning ring 202 penetrate through the second body 201; the nut suit is in the outside at second holding ring 202 both ends, and the nut laminates with second body 201 mutually.

The first fixing portion 141 is arc-shaped; the second fixing portion 161 has an arc shape.

The radian of the first fixing portion 141 is 60 degrees; the arc of the second fixing portion 161 is 60 degrees.

Elastic anti-slip pads are arranged on the first fixing portion 141 and the second fixing portion 161.

The location structure of this embodiment is tried in installing on the tower body 9 of signal tower, and this structural installation is simple, swift, compares in directly installing on tower body 9, not only does not cause the damage to tower body 9, compares and improves about 36% in prior art installation effectiveness, and the installation time spent is about 13 minutes. The first support arm 18 and the second support arm 20 are adjustable in position, capable of adapting to different cable directions, and high in adaptability.

Claims (9)

1. The utility model provides a freely adjust and lock location structure of signal tower cable, location structure installs on tower body (9), its characterized in that, location structure still includes: a first half ring (10), a second half ring (12), a first connector (14), a second connector (16), a first support arm (18), and a second support arm (20);

two first semi-rings (10) which are arranged in parallel are wound on one side of the tower body (9), two second semi-rings (12) which are arranged in parallel are wound on the other side of the tower body (9), and the second semi-rings (12) are connected with the first semi-rings (10) in a sliding mode; the first half ring (10) is connected with a first connecting piece (14) in a sliding way; the second half ring (12) is connected with a second connecting piece (16) in a sliding manner, and the second connecting piece (16) is connected with the first connecting piece (14) through a screw and a first nut; a first support arm (18) is connected to the first connecting piece (14); the second connecting piece (16) is connected with a second supporting arm (20).

2. The structure of claim 1, wherein the first half ring (10) is hollow, and two ends of the second half ring (12) are embedded into two ends of the first half ring (10).

3. The structure of claim 1, wherein the first connector (14) comprises: a first fixing portion (141) and a first mounting portion (142); the first fixing parts (141) are sleeved on the outer sides of the two first half rings (10) at the same time, and a gap exists between the first fixing parts (141) and the first half rings (10); the first mounting portion (142) is connected to the first fixing portion (141).

4. A freely adjustable and lockable positioning structure for signal tower cables according to claim 3, characterized in that the first support arm (18) comprises: a first body (181), a first positioning ring (182), and a second nut (183); the first body (181) is connected with the first fixing part (141); the outer walls of the two ends of the first positioning ring (182) are provided with external threads, and the two ends of the first positioning ring (182) penetrate through the first body (181); the second nut (183) is sleeved on the outer sides of two ends of the first positioning ring (182), and the second nut (183) is attached to the first body (181).

5. The structure of claim 4, wherein the second connecting member (16) comprises: a second fixing portion (161) and a second mounting portion (162); the second fixing parts (161) are sleeved on the outer sides of the two second half rings (12) at the same time, and a gap exists between the second fixing parts (161) and the second half rings (12); the second mounting portion (162) is connected to the second fixing portion (161).

6. The structure of claim 5, wherein the second support arm (20) comprises: a second body (201), a second retaining ring (202) and a third nut (203); the second body (201) is connected with the second fixing part (161); the outer walls of the two ends of the second positioning ring (202) are provided with external threads, and the two ends of the second positioning ring (202) penetrate through the second body (201); the third nut (203) is sleeved on the outer sides of two ends of the second positioning ring (202), and the third nut (203) is attached to the second body (201).

7. The structure of claim 6, wherein the first fixing portion (141) is arc-shaped; the second fixing portion (161) is arc-shaped.

8. The positioning structure of freely adjusting and locking signal tower cable according to claim 7, characterized in that the radian of the first fixing part (141) is 30-60 degrees; the radian of the second fixing part (161) is 30-60 degrees.

9. The structure of claim 6, wherein the first fixing portion (141) and the second fixing portion (161) are provided with elastic anti-slip pads.

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