CN115086975A - Communication tower remote monitoring system and communication tower structure thereof - Google Patents

Abstract

The invention provides a communication tower remote monitoring system and a communication tower structure thereof, and relates to the field of communication equipment. This communication tower remote monitoring system and communication tower structure thereof through setting up oval piece, link, pressure detector and spring, carries out real-time supervision to it after the cable conductor is fixed, utilizes the spring shrink to lead to pressure detector to survey the numerical value and be zero, judges the cable conductor fracture of department. Through seting up the detection chamber in vertical support column, be equipped with infrared emitter, infrared receiving probe, piezo-resistor, thin steel wire and balancing weight in the detection chamber, detect whether whole communication tower takes place the slope to outside feedback inclination. The function of reporting the condition to maintenance personnel in time is played.

Description

Communication tower remote monitoring system and communication tower structure thereof

Technical Field

The invention relates to the technical field of communication equipment, in particular to a communication tower remote monitoring system and a communication tower structure thereof.

Background

As technology develops, communication towers become visible.

The communication tower belongs to a signal transmitting tower, also called a signal transmitting tower or a signal tower, mainly functions to support signals, is used for supporting a signal transmitting antenna and is used for communication departments such as mobile, communication, telecommunication, traffic satellite positioning systems and the like. The communication tower is divided into a ground communication iron tower and a roof communication iron tower. And a cable is connected between the adjacent communication iron towers.

Part of the communication tower is built on a hill. However, there are the following problems: during operation, various disastrous accidents can occur due to the action of natural conditions, such as cable breakage caused by storm weather. Or the tower body is inclined due to the change of the ground bottom condition, and the tower body is inclined when the ground bottom condition is changed and the tower body is supported unevenly, so that the tower body is easy to fall.

Due to the remote establishment position, it is very troublesome for maintenance personnel to come to regularly perform detection. The situation of the communication tower cannot be reported in time. Thereby causing a great loss to the communication line.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a communication tower remote monitoring system and a communication tower structure thereof, and solves the problems in the background technology.

(II) technical scheme

In order to realize the purpose, the invention is realized by the following technical scheme: the utility model provides a communication tower remote monitoring system and communication tower structure thereof, includes the pylon, the pylon top is equipped with the base, and base top central authorities department is equipped with communication module, and the base both sides are equipped with a pair of spliced pole respectively, and every is connected with taut subassembly between every spliced pole, the pylon bottom is connected with the support column, and the support column is vertical pierces ground, and the base top is connected with control module one, control module one and communication module electric connection.

The cable conductor tensioning device is characterized in that one side, facing the tensioning assembly, of the connecting column is connected with a hollow tube, the hollow tube plays a role in guiding the direction of a cable conductor, the hollow tube is connected with the tensioning assembly, the cable conductor penetrates through the connecting column, the hollow tube and the tensioning assembly, the tensioning assembly feeds information back to the control module I when the cable conductor is broken, and the control module I transmits the information to maintenance personnel by means of the communication module.

Preferably, the tensioning assembly comprises a frame, an elliptical block, a pressure detector and a spring, the end of the frame is connected with the hollow tube, the elliptical block is pivoted in the frame and can rotate around a shaft, a wire hole is formed in the elliptical block along the length direction, the pressure detector is arranged on the frame, the working end of the pressure detector is connected with the spring, a hook is arranged at one end, facing the elliptical block, of the spring, a hanging ring is arranged on the surface of the elliptical block, and the hanging ring is hooked by the hook.

Preferably, the oval piece is placed perpendicularly and is made the cable conductor pass the line hole, and the line hole is vertical form this moment, and the spring is elongated, and pressure detector measures numerical value and feeds back to control module one, and the spring shrink drives the oval piece upset when the cable conductor breaks, and pressure detector measures numerical value and is zero.

Preferably, a wire is connected to the control module, and the wire is electrically connected to the pressure detector.

Preferably, set up in the support column and detect the chamber, detect intracavity wall top central authorities and be connected with thin steel wire, the fixed balancing weight that has tied up of thin steel wire lower extreme, it is connected with a plurality of infra-red transmitters to detect intracavity wall top, detects intracavity wall bottom and connects because the corresponding infrared receiving probe of infra-red transmitter, and support column side inner wall is equipped with piezo-resistor for balancing weight department.

Preferably, it has control module two to inlay in the support column, control module two respectively with infrared receiving probe, piezo-resistor electric connection, a plurality of infrared emitter around being the circle around the axis, infrared emitter is the concentric circles and arranges, and when the support column was in vertical state, the ray that inlayer infrared emitter jetted out can not be sheltered from by the balancing weight.

Preferably, the pylon comprises roof, reinforcing bar montant, reinforcing bar horizontal pole, and roof top and base welding, reinforcing bar montant angle such as axis and roof bottom welding, reinforcing bar horizontal pole longitudinal arrangement welding between two adjacent reinforcing bar montants, the reinforcing bar horizontal pole that is located the below is connected with the support column.

Preferably, the top of the communication module is fixedly provided with a solar panel, the tower frame is connected with a storage battery, and the solar panel is electrically connected with the solar panel.

(III) advantageous effects

The invention provides a communication tower remote monitoring system and a communication tower structure thereof. The method has the following beneficial effects:

1. this communication tower remote monitoring system and communication tower structure thereof through setting up oval piece, link, pressure detector and spring, carries out real-time supervision to it after the cable conductor is fixed, utilizes the spring shrink to lead to pressure detector to survey the numerical value and be zero, judges the cable conductor fracture of department. Through seting up the detection chamber in vertical support column, be equipped with infrared emitter, infrared receiving probe, piezo-resistor, thin steel wire and balancing weight in the detection chamber, detect whether whole communication tower takes place the slope to outside feedback inclination. The function of reporting the condition to maintenance personnel in time is played.

Drawings

FIG. 1 is a perspective view of the structure of the present invention;

FIG. 2 is a schematic view of a tower construction of the present invention;

FIG. 3 is a partial schematic view of the present invention;

FIG. 4 is a schematic view of a base structure according to the present invention;

FIG. 5 is a schematic view of the tension assembly of the present invention;

FIG. 6 is an enlarged view of the structure of FIG. 5A according to the present invention;

FIG. 7 is an internal structural view of the tension assembly of the present invention;

FIG. 8 is a cross-sectional view of the internal construction of the tension assembly of the present invention;

FIG. 9 is a schematic view of the internal structure of the support post of the present invention.

In the figure: the system comprises a tower frame 1, a top plate 11, a steel bar vertical rod 12, a steel bar cross rod 13, a base 2, a control module I21, a lead 22, a communication module 3, a solar panel 31, a connecting column 4, a hollow tube 41, a tensioning assembly 5, a frame 51, an elliptical block 52, a suspension ring 521, a pressure detector 53, a spring 54, a hook 541, a supporting column 6, a detection cavity 61, an infrared emitter 62, an infrared receiving probe 63, a piezoresistor 64, a thin steel wire 7, a balancing weight 8 and a control module II 9.

Detailed Description

The embodiment of the invention provides a communication tower remote monitoring system and a communication tower structure thereof, and as shown in figures 1-9, the communication tower remote monitoring system comprises a tower frame 1, wherein a base 2 is welded on the top of the tower frame 1, a communication module 3 is fixedly installed at the center of the top of the base 2, and a pair of connecting columns 4 are respectively and fixedly installed on two sides of the base 2. A tensioning assembly 5 is connected between each pair of connecting columns 4, a supporting column 6 is fixedly mounted at the bottom of the tower frame 1, and the supporting column 6 vertically penetrates into the ground. The top of the base 2 is fixedly provided with a control module I21, and the control module I21 is electrically connected with the communication module 3.

The hollow pipe 41 is welded on one side of the connecting column 4 facing the tensioning component 5, and the hollow pipe 41 plays a role in guiding the direction of the cable. The hollow tube 41 is connected with the tensioning assembly 5, and the cable passes through the connecting column 4, the hollow tube 41 and the tensioning assembly 5.

When the cable works normally, the cable is in a tensioned state. When the cable breaks due to natural disasters, the tensioning assembly 5 feeds detected information back to the control module I21, and the control module I21 transmits the information to maintenance personnel by means of the communication module 3.

The tightening unit 5 includes a frame 51, an oval block 52, a pressure detector 53, and a spring 54. The end of the frame 51 is welded to the hollow pipe 41. The elliptical block 52 is pivoted in the frame 51, and the elliptical block 52 can rotate around the shaft. The oval block 52 is provided with a line hole along the length direction, the pressure detector 53 is fixedly arranged on the frame 51, and the working end of the pressure detector 53 is welded with the spring 54. The spring 54 is welded with a hook 541 towards one end of the oval block 52, the surface of the oval block 52 is welded with a hanging ring 521, and the hook 541 hooks the hanging ring 521.

In operation, with reference to fig. 5 and 8, the oval block 52 is vertically disposed to allow a cable to pass through the cable hole, which is vertical.

The spring 54 is stretched and the pressure detector 53 measures the value and feeds it back to the first control module 21. When the cable breakage spring 54 contracts to drive the oval block 52 to turn over, the pressure detector 53 detects that the value is zero due to the loss of the pulling of the spring 54. At this time, the control module one 21 transmits information to the person by means of the communication module 3.

The communication module 3 is a conventional technical means, so the specific structure and circuit arrangement are the same as those of the prior art and are not described in detail.

The first control module 21 is electrically connected with a wire 22, and the wire 22 is electrically connected with the pressure detector 53.

A detection cavity 61 is formed in the support column 6, a thin steel wire 7 is welded at the center of the top of the inner wall of the detection cavity 61, and a balancing weight 8 is fixedly bound at the lower end of the thin steel wire 7. A plurality of infrared emitters 62 are fixedly mounted on the top of the inner wall of the detection cavity 61, and an infrared receiving probe 63 corresponding to the infrared emitters 62 is fixedly mounted on the bottom of the inner wall of the detection cavity 61. The inner wall of the side edge of the supporting column 6 is fixedly provided with a piezoresistor 64 corresponding to the balancing weight 8.

A second control module 9 is embedded in the support column 6, and the infrared receiving probe 63 is electrically connected with the second control module 9. The second voltage dependent resistor 64 is electrically connected to the second control module 9. The second control module 9 is electrically connected with the communication module 3.

A plurality of infrared emitters 62 are looped around the axis, with infrared emitters 62 arranged in concentric circles. When the supporting column 6 is in a vertical state, the rays emitted by the innermost infrared emitter 62 are not blocked by the counterweight 8 and can be captured by the infrared receiving probe 63.

When the ground surface collapses, the entire support column 6 is inclined. Because thin steel wire 7, balancing weight 8 cooperation form the pendulum, the pendulum is perpendicular ground all the time. When the supporting column 6 inclines, the balancing weight 8 shields part of infrared rays, the infrared receiving probe 63 which does not capture the infrared rays transmits information to the second control module 9, and the second control module 9 transmits the information to the outside by means of the communication module 3. And the maintenance personnel judge the inclination condition of the supporting column 6 according to the shielding condition.

The piezoresistor 64 surrounds the weight 8 once. The above-described piezoresistors are conventional prior art. When the balancing weight 8 touches the piezoresistor, the circuit resistance changes, and the second control module 9 feeds back the information to the outside, which indicates that the support column 6 is seriously inclined. The inclination degree of the whole communication tower is too large.

The tower 1 comprises roof 11, reinforcing bar montant 12, reinforcing bar horizontal pole 13, and 11 tops of roof are welded with base 2, and reinforcing bar montant 12 is around the equal angle of axis and the welding of 11 bottoms on roof, and reinforcing bar horizontal pole 13 longitudinal arrangement welds between two adjacent reinforcing bar montants 12, and reinforcing bar horizontal pole 13 and the welding of support column 6 that are located the below. The entire tower is originally erected vertically above the ground so that the support columns 6 are initially inserted vertically into the ground.

3 top fixed mounting of communication module has solar panel 31, and 1 fixed mounting of pylon has the battery, solar panel 31 and solar panel 31 electric connection. The solar panel 31 is used to provide power to some electronic devices. The storage battery is electrically connected with each electronic part.

In summary, in the communication tower remote monitoring system and the communication tower structure thereof, the elliptical block 52, the suspension loop 521, the pressure detector 53 and the spring 54 are arranged, the cable is monitored in real time after being fixed, the spring 54 contracts to cause the value measured by the pressure detector 53 to be zero, and the cable is broken at the judgment part. Through set up in vertical support column 6 and detect chamber 61, be equipped with infrared emitter 62, infrared receiving probe 63, piezo-resistor 64, thin steel wire 7 and balancing weight 8 in detecting chamber 61, detect whether whole communication tower takes place the slope to outside feedback slope degree. The function of reporting the condition to maintenance personnel in time is played.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a communication tower remote monitoring system and communication tower structure thereof which characterized in that: the tower comprises a tower frame (1), wherein a base (2) is arranged at the top of the tower frame (1), a communication module (3) is arranged in the center of the top of the base (2), a pair of connecting columns (4) are respectively arranged on two sides of the base (2), a tensioning assembly (5) is connected between each pair of connecting columns (4), a supporting column (6) is connected to the bottom of the tower frame (1), the supporting column (6) vertically pierces the ground, a first control module (21) is connected to the top of the base (2), and the first control module (21) is electrically connected with the communication module (3);

spliced pole (4) are connected with hollow tube (41) towards taut subassembly (5) one side, hollow tube (41) play the effect of guide cable conductor trend, and hollow tube (41) are connected with taut subassembly (5), and the cable conductor passes spliced pole (4), hollow tube (41) and taut subassembly (5), and taut subassembly (5) feeds back information to control module (21) when the cable conductor fracture, and control module (21) give maintenance personal with the help of communication module (3) with information transfer.

2. A communication tower remote monitoring system and a communication tower structure thereof according to claim 1, wherein: the tensioning assembly (5) comprises a frame (51), an elliptical block (52), a pressure detector (53) and a spring (54), the end of the frame (51) is connected with the hollow pipe (41), the elliptical block (52) is pivoted in the frame (51), the elliptical block (52) can rotate around a shaft, a wire hole is formed in the elliptical block (52) along the length direction, the pressure detector (53) is arranged on the frame (51), the working end of the pressure detector (53) is connected with the spring (54), a hook 541 is arranged at one end, facing the elliptical block (52), of the spring (54), a hanging ring (521) is arranged on the surface of the elliptical block (52), and the hanging ring (521) is hooked by the hook (541).

3. A communication tower remote monitoring system and a communication tower structure thereof according to claim 2, wherein: the oval block (52) is vertically placed to enable a cable to penetrate through the cable hole, the cable hole is vertical, the spring (54) is elongated, the pressure detector (53) measures the value and feeds the value back to the control module I (21), when the cable breaks, the spring (54) contracts to drive the oval block (52) to turn over, and the value measured by the pressure detector (53) is zero.

4. A communication tower remote monitoring system and a communication tower structure thereof as claimed in claim 3, wherein: the first control module (21) is connected with a lead (22), and the lead (22) is electrically connected with the pressure detector (53).

5. A communication tower remote monitoring system and a communication tower structure thereof according to claim 1, wherein: set up in support column (6) and detect chamber (61), it is connected with thin steel wire (7) to detect chamber (61) inner wall top central authorities department, and thin steel wire (7) lower extreme is fixed to be binded balancing weight (8), it is connected with a plurality of infra-red transmitter (62) to detect chamber (61) inner wall top, detects chamber (61) inner wall bottom and connects because infra-red transmitter (62) corresponding infrared receiving probe (63), and support column (6) side inner wall is equipped with piezo-resistor (64) for balancing weight (8) department.

6. A communication tower remote monitoring system and communication tower structure thereof according to claim 5, characterized in that: the support column is embedded with two control modules (9), two control modules (9) respectively with infrared receiving probe (63), piezo-resistor (64) electric connection, a plurality of infrared emitter (62) are around being the circle around the axis, infrared emitter (62) are the concentric circles and arrange, and when support column (6) were in vertical state, the ray that inlayer infrared emitter (62) jetted out can not sheltered from by balancing weight (8).

7. A communication tower remote monitoring system and a communication tower structure thereof according to claim 1, wherein: the tower (1) comprises roof (11), reinforcing bar montant (12), reinforcing bar horizontal pole (13), and roof (11) top and base (2) welding, reinforcing bar montant (12) are around the equal angle of axis and roof (11) bottom welding, and reinforcing bar horizontal pole (13) longitudinal arrangement welds between two adjacent reinforcing bar montants (12), is located the reinforcing bar horizontal pole (13) of below and is connected with support column (6).

8. A communication tower remote monitoring system and a communication tower structure thereof according to claim 1, wherein: communication module (3) top fixed mounting has solar panel (31), and pylon (1) is connected with the battery, solar panel (31) and solar panel (31) electric connection.

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