CN110965836A

CN110965836A - Communication tower for mobile internet 5G communication

Info

Publication number: CN110965836A
Application number: CN201911308177.7A
Authority: CN
Inventors: 谢永宁; 赖丽君; 李志护; 谢剑嘉; 林涵; 张晓晶; 林燕红; 谢瑞玲
Original assignee: Fujian Zaodao Culture Media Co Ltd
Current assignee: Hailingnuo Technology (Changzhou) Co.,Ltd.
Priority date: 2019-12-18
Filing date: 2019-12-18
Publication date: 2020-04-07
Anticipated expiration: 2039-12-18
Also published as: CN110965836B

Abstract

The invention discloses a communication tower for mobile internet 5G communication, which structurally comprises a communication power supply device, an electrostatic support column, a positioning column, a fixed circular table, a steel cable positioning seat and a steel cable, and has the following effects: the signal power supply device mainly comprises a windward power generation mechanism and a power supply data transmission mechanism, multidirectional wind energy can be converted into mechanical energy of a generator through the windward power generation mechanism, the generator converts the mechanical energy into electric energy to be stored in an accumulator, independent power supply is implemented for each communication device of the communication tower, the power supply data transmission mechanism can utilize the rotation kinetic energy generated by a wind ring to enable a receiving antenna to move circumferentially under the condition of being electrified, multidirectional signal receiving is achieved, received signals are arranged by a signal collector and then transmitted to a top seat through a signal transmission supporting rod, the signals are outwards diffused and transmitted by a signal transmitting tower tip, the signals are covered in a certain range, and the signal receiving efficiency is improved.

Description

Communication tower for mobile internet 5G communication

Technical Field

The invention relates to the field of antenna communication, in particular to a communication tower for mobile internet 5G communication.

Background

The communication tower has the main functions of arranging received electromagnetic signals and then utilizing the transmitting tower tip to diffuse and transmit the electromagnetic signals outwards to enable the signals to be diffused and covered in a certain range, and the 5G network has the main advantages that the data transmission rate is far higher than that of a previous cellular network, can reach 10Gbit/s at most, is faster than that of the current wired internet and is 100 times faster than that of the current 4G LTE cellular network, and the other advantage is that the network delay is lower than 1 millisecond, and the 4G is 30-70 milliseconds, the existing communication tower on the market can not supply power by itself, the cable erection in remote mountain areas has certain construction difficulty and higher construction cost, the signal receiving antenna of the communication tower on the market is usually arranged in a directional mode, a plurality of signal receivers need to be erected on one communication tower to meet the data receiving requirement of the 5G network, and the installation difficulty and the whole weight of the communication tower are greatly increased, therefore, a communication tower for mobile internet 5G communication needs to be developed, so that the problems that the existing communication tower on the market cannot supply power by self, a cable is erected in a remote mountain region and has certain construction difficulty, meanwhile, the construction cost is high, a signal receiving antenna of the communication tower on the market is usually arranged in a directional mode, a plurality of signal receivers need to be erected on one communication tower to meet the data receiving requirement of a 5G network, and the installation difficulty and the whole weight of the communication tower are greatly increased are solved.

Summary of the invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: the utility model provides a communication tower for mobile internet communication, its structure includes communication power supply unit, static pillar, reference column, fixed round platform, cable wire positioning seat, cable wire, fixed round platform top central point put and be equipped with the reference column, the reference column install perpendicularly on fixed round platform, the reference column both sides be equipped with the cable wire positioning seat, cable wire positioning seat top be equipped with the cable wire, the cable wire positioning seat pass through the cable wire and connect with the reference column, the reference column top be equipped with the static pillar, the static pillar install perpendicularly on the reference column, the reference column top be equipped with communication power supply unit, communication power supply unit install perpendicularly on the reference column.

As a further optimization of the technical scheme, the communication power supply device comprises a signal transmitting tower tip, a top seat, a windward power generation mechanism and a power supply data transmission mechanism, wherein the power supply data transmission mechanism is arranged at the bottom of the windward power generation mechanism, the power supply data transmission mechanism is matched with the windward power generation mechanism, the top seat is arranged at the center of the top of the windward power generation mechanism, the signal transmitting tower tip is arranged at the center of the top seat, and the signal transmitting tower tip is vertically arranged on the top seat.

As the further optimization of the technical scheme, the windward power generation mechanism consists of a movable circular cover, a wind ring, an inner movable ring and a support rod, the outer ring of the movable circular cover is provided with the wind ring, the wind ring is connected with the movable circular cover, the inner ring of the movable circular cover is provided with the inner movable ring, the inner movable ring is connected with the movable circular cover, the bottom of the movable circular cover is provided with the support rod, and the support rod is connected with the movable circular cover.

As a further optimization of the technical scheme, the wind ring is composed of flat blades, windward grooves, a connecting joint, an insulating fixing ring and an anti-static inner ring, the anti-static inner ring is arranged on the insulating fixing ring, flat blades are arranged on the insulating fixing ring outer ring vertically, the connecting joint is arranged at the rear ends of the flat blades, the flat blades are connected with the insulating fixing ring through the connecting joint, and the windward grooves are arranged on two sides of the flat blades.

As the further optimization of this technical scheme, power supply data transmission device constitute by slide rail, signal transmission branch, pivot, generator, all-round signal receiver mechanism, the generator top be equipped with the pivot, the generator outer lane on be equipped with the slide rail, the slide rail gomphosis install on generator outer wall, the generator around both ends be equipped with signal transmission branch, signal transmission branch set up perpendicularly on the generator outer lane, generator bottom be equipped with all-round signal receiver mechanism, all-round signal receiver mechanism and generator electricity connect.

As a further optimization of the technical scheme, the all-dimensional signal receiving mechanism comprises a copper rail, an accumulator, a signal collector, a copper sliding block and a receiving antenna, wherein the copper rail is arranged on the outer ring of the accumulator, the copper rail is connected with the accumulator, the receiving antennas are arranged on two sides of the accumulator, the copper sliding block is arranged at the center of the rear end of each receiving antenna, the receiving antennas are in sliding fit with the copper rail through the copper sliding blocks, the signal collectors are arranged on the front side and the rear side of the accumulator, and the signal collectors are electrically connected with the copper rail.

Advantageous effects

The communication tower for mobile internet communication has the advantages of reasonable design, strong functionality and the following beneficial effects:

the invention relates to a communication power supply device, which mainly comprises a windward power generation mechanism and a power supply data transmission mechanism, wherein multidirectional wind energy can be converted into mechanical energy of a generator through the windward power generation mechanism, the generator converts the mechanical energy into electric energy to be stored in an electric energy storage device, each communication device of a communication tower is supplied with power autonomously, a receiving antenna can move circumferentially under the condition of electrifying through the power supply data transmission mechanism by utilizing the rotational kinetic energy generated by a wind ring, multidirectional signal receiving is realized, the received signals are arranged by a signal collector and then transmitted to a top seat through a signal transmission supporting rod, the signals are diffused and transmitted outwards by utilizing a signal transmitting tower tip, so that the signals cover in a certain range, the problems that the communication tower on the prior market can not supply power by self, a cable is erected in a remote mountain area and has certain construction difficulty and high construction cost are solved, moreover, signal receiving antennas of communication towers in the market are usually arranged in a directional manner, and a plurality of signal receivers are required to be erected on one communication tower to meet the data receiving requirement of the network, so that the problems of installation difficulty and overall weight of the communication tower are greatly increased;

according to the invention, through the connection mode of the insulating fixed ring and the anti-static inner ring with the movable circular cover, static electricity generated around the movable circular cover in rotation can be effectively reduced, interference on signal transmission of a signal transmission tower tip is avoided, each flat plate blade is surrounded into a circular wall structure along the outer ring of the insulating fixed ring, the windward effect of the flat plate blade can be increased under the action of the inclined windward grooves arranged on the two sides of the flat plate blade, meanwhile, the torque required in rotation of the movable circular cover is reduced, the rotating shaft is efficiently driven to rotate, and thus the generating efficiency of the generator is increased;

according to the movable conductive structure formed by the copper rail and the copper sliding block, two receiving antennas can move circumferentially along the copper rail under the driving of the movable circular cover and receive signals in all directions, the movable circular cover can stably rotate under the driving of the wind ring through the circumferential movable structure formed by the movable circular cover, the inner movable ring and the sliding rail, the receiving antennas can sequentially move circumferentially along the copper rail and synchronously transmit data under the connection effect of the supporting rod and the receiving antennas, the receiving antennas have activity, the receiving efficiency of signals is improved, the number of the antennas arranged on a communication tower is reduced, and the overall weight of the communication tower is reduced.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a front view of a communication tower for mobile internet 5G communication according to the present invention;

fig. 2 is a front sectional view of the communication power supply device of the present invention;

FIG. 3 is a front sectional view of the windward generator of the present invention;

FIG. 4 is a schematic top view of the wind ring of the present invention;

FIG. 5 is a schematic side view of the power supply data transmission mechanism of the present invention;

fig. 6 is a schematic side view of the omnidirectional signal receiving mechanism of the present invention.

In the figure: the system comprises a communication power supply device-1, a signal transmitting tower tip-11, a top seat-12, a windward power generation mechanism-13, a movable circular cover-13 a, a wind ring-13 b, a flat plate blade-13 b1, a windward slot-13 b2, a connecting joint-13 b3, an insulating fixed ring-13 b4, an anti-static inner ring-13 b5, an inner movable ring-13 c, a support rod-13 d, a power supply data transmission mechanism-14, a slide rail-14 a, a signal transmission support rod-14 b, a rotating shaft-14 c, a generator-14 d, an omnibearing signal receiving mechanism-14 e copper rail-14 e1, a power storage device-14 e2, a signal collector-14 e3, a copper slider-14 e4, a receiving antenna-14 e5, an electrostatic support column-2, a positioning column-3, a fixed circular table-4, a power supply device-13, a movable circular, A steel cable positioning seat-5 and a steel cable-6.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Example 1

Referring to fig. 1 to 4, the present invention provides an embodiment of a communication tower for mobile internet 5G communication, comprising:

referring to fig. 1, a communication tower for mobile internet 5G communication structurally comprises a communication power supply device 1, an electrostatic support column 2, a positioning column 3, a fixing circular table 4, a steel cable positioning seat 5 and a steel cable 6, wherein the positioning column 3 is arranged at the center of the top of the fixing circular table 4, the positioning column 3 is vertically installed on the fixing circular table 4, the steel cable positioning seat 5 is arranged on two sides of the positioning column 3, the steel cable 6 is arranged at the top of the steel cable positioning seat 5, the steel cable positioning seat 5 is connected with the positioning column 3 through the steel cable 6, the electrostatic support column 2 is arranged at the top end of the positioning column 3, the communication power supply device 1 is arranged at the top end of the positioning column 3, and the communication power supply device 1 is vertically installed on the positioning column 3.

Referring to fig. 2, the communication power supply device 1 is composed of a signal transmitting tower tip 11, a top seat 12, a windward power generation mechanism 13 and a power supply data transmission mechanism 14, the bottom of the windward power generation mechanism 13 is provided with the power supply data transmission mechanism 14, the power supply data transmission mechanism 14 is matched with the windward power generation mechanism 13, the top seat 12 is arranged at the center of the top of the windward power generation mechanism 13, the signal transmitting tower tip 11 is arranged at the center of the top seat 12, and the signal transmitting tower tip 11 is vertically installed on the top seat 12.

Referring to fig. 3, the windward power generation mechanism 13 is composed of a movable circular cover 13a, a wind ring 13b, an inner movable ring 13c and a support rod 13d, the wind ring 13b is arranged on the outer ring of the movable circular cover 13a, the wind ring 13b is connected with the movable circular cover 13a, the inner movable ring 13c is arranged on the inner ring of the movable circular cover 13a, the inner movable ring 13c is connected with the movable circular cover 13a, two support rods 13d are vertically arranged at equal intervals at the bottom of the movable circular cover 13a, and the support rods 13d are connected with the movable circular cover 13 a.

Referring to fig. 4, the wind ring 13b is composed of a flat plate blade 13b1, a wind facing groove 13b2, a connection joint 13b3, an insulating fixing ring 13b4 and an anti-static inner ring 13b5, the inner ring of the insulating fixing ring 13b4 is provided with an anti-static inner ring 13b5, the outer ring of the insulating fixing ring 13b4 is uniformly provided with six flat plate blades 13b1 at equal intervals, the flat plate blade 13b1 is vertically arranged on the outer ring of the insulating fixing ring 13b4, the rear end of the flat plate blade 13b1 is provided with two connection joints 13b3 at equal intervals in parallel, the flat plate blade 13b1 is connected with the insulating fixing ring 13b4 through the connection joints 13b3, and the wind facing grooves 13b2 are uniformly distributed on two sides of the flat plate blade 13b 1.

The insulating fixed ring 13b4 is connected with the outer ring of the movable circular cover 13a through the antistatic inner ring 13b 5.

The windward groove 13b2 is obliquely arranged on the outer wall of the flat blade 13b 1.

When the anti-static electricity generating device is used, through the connection mode of the insulating fixing ring 13b4 and the anti-static electricity inner ring 13b5 with the movable circular cover 13a, static electricity generated around the movable circular cover 13a in rotation can be effectively reduced, interference on signal emission of the signal emission tower tip 11 is avoided, each flat plate blade 13b1 forms a circular wall structure along the outer ring of the insulating fixing ring 13b4, the windward effect of the flat plate blades 13b1 can be increased under the action of the inclined windward grooves 13b2 arranged on two sides of the flat plate blades 13b1, meanwhile, the torque required in rotation of the movable circular cover 13a is reduced, the rotating shaft 14c is efficiently driven to rotate, and therefore the electricity generating efficiency of the generator 14d is increased.

Example 2

Referring to fig. 1-6, the present invention provides a communication tower for mobile internet 5G communication.

Referring to fig. 5, the power supply data transmission mechanism 14 includes a slide rail 14a, a signal transmission support rod 14b, a rotating shaft 14c, a generator 14d, and an omnidirectional signal receiving mechanism 14e, the rotating shaft 14c is disposed on the top of the generator 14d, the slide rail 14a is disposed on the outer ring of the generator 14d, the slide rail 14a is in a circular structure and is embedded and installed on the outer wall of the generator 14d, the slide rail 14a and the inner movable ring 13c are in sliding fit, four signal transmission support rods 14b are disposed at the front end and the rear end of the generator 14d in parallel and equidistantly, the signal transmission support rod 14b is vertically disposed on the outer ring of the generator 14d, the omnidirectional signal receiving mechanism 14e is disposed at the bottom of the generator 14d, and the omnidirectional signal receiving mechanism 14e is electrically connected to the generator 14 d.

Referring to fig. 6, the omni-directional signal receiving mechanism 14e is composed of a copper rail 14e1, a power storage device 14e2, a signal receiver 14e3, a copper slider 14e4 and a receiving antenna 14e5, the power storage device 14e2 is electrically connected with a power generator 14d, the copper rail 14e1 is arranged on the outer ring of the power storage device 14e2, the copper rail 14e1 is connected with the power storage device 14e2, two receiving antennas 14e5 are arranged on two sides of the power storage device 14e2 in an axisymmetric structure, the copper slider 14e4 is arranged at the center of the rear end of the receiving antenna 14e5, the receiving antenna 14e5 is in sliding fit with the copper rail 14e1 through the copper slider 14e4, two signal receivers 14e3 are arranged on the front and rear sides of the power storage device 14e2 in an axisymmetric structure, and the signal receivers 14e3 are electrically connected with the copper rail 14e 1.

The generator 14d is connected with the movable circular cover 13a through a rotating shaft 14 c.

The signal receiver 14e3 is connected with the top seat 12 through a signal transmission strut 14 b.

The receiving antenna 14e5 is connected with the movable circular cover 13a through a strut 13 d.

When the communication tower is used, in combination with the first implementation, through a movable conductive structure formed by the copper rail 14e1 and the copper slider 14e4, the two receiving antennas 14e5 can move circumferentially along the copper rail 14e1 under the driving of the movable circular cover 13a, perform all-directional signal receiving, and through a circumferential movable structure formed by the movable circular cover 13a, the inner movable ring 13c and the slide rail 14a, the movable circular cover 13a can stably rotate under the driving of the wind ring 13b, and under the connecting action of the support rod 13d and the receiving antennas 14e5, the receiving antennas 14e5 sequentially move circumferentially along the copper rail 14e1 and perform data transmission synchronously, so that the receiving antennas 14e5 have activity, the signal receiving efficiency is improved, the number of antennas arranged on the communication tower is reduced, and the overall weight of the communication tower is reduced.

The specific realization principle is as follows:

the communication power supply device 1 mainly comprises a windward power generation mechanism 13 and a power supply data transmission mechanism 14, wherein the windward power generation mechanism 13 can convert multi-azimuth wind energy into mechanical energy of a generator 14d, the generator 14d converts the mechanical energy into electric energy to be stored in an accumulator 14e2, autonomous power supply is implemented on each communication device of the communication tower, the power supply data transmission mechanism 14 can utilize the rotating kinetic energy generated by a wind ring 13b to enable a receiving antenna 14e5 to move circumferentially under the condition of electrifying so as to realize multi-azimuth signal receiving, a signal receiver 14e3 arranges received signals and then transmits the signals to a top seat 12 through a signal transmission support rod 14b, a signal transmitting tower tip 11 is utilized to diffuse and transmit the signals outwards, so that the signals are covered in a certain range, because of the connection mode between an insulating fixed ring 13b4 and an anti-static inner ring 13b5 and a movable circular cover 13a, the static electricity generated around the movable circular cover 13a in the rotation process can be effectively reduced, the interference on the signal transmission of the signal transmission tower tip 11 is avoided, each flat plate blade 13b1 forms a circular wall structure along the outer ring of the insulating fixed ring 13b4, under the action of inclined windward slots 13b2 arranged at two sides of the flat plate blades 13b1, the windward effect of the flat plate blades 13b1 can be increased, the moment required in the rotation process of the movable circular cover 13a is reduced, the rotating shaft 14c is efficiently driven to rotate, and the generating efficiency of the generator 14d is increased, because of the movable conductive structure formed by the copper rail 14e1 and the copper slider 14e4, the two receiving antennas 14e5 can circumferentially move along the copper rail 14e1 under the driving of the movable circular cover 13a, and carry out omnibearing signal receiving, and the movable circular structure formed by the movable circular cover 13a, the inner movable ring 13c and the sliding rail 14a can enable the movable circular cover 13a to stably rotate under the driving of the wind ring 13b, under the connection effect of the support rod 13d and the receiving antenna 14e5, the receiving antenna 14e5 orderly moves along the copper rail 14e1 in the circumferential direction and synchronously transmits data, so that the receiving antenna 14e5 has activity, the receiving efficiency of signals is improved, the number of antenna settings on a communication tower is reduced, and the overall weight of the communication tower is reduced, thereby solving the problems that the existing communication tower on the market cannot supply power by self, the cable erection in remote mountain areas has certain construction difficulty, the construction cost is high, the signal receiving antenna of the communication tower on the market is usually arranged in a directional manner, a plurality of signal receivers are required to be erected on one communication tower to meet the data receiving requirement of a 5G network, and the installation difficulty and the overall weight of the communication tower are greatly increased.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides a mobile internet 5G communication tower for communication, its structure includes communication power supply unit (1), static pillar (2), reference column (3), fixed round platform (4), cable wire positioning seat (5), cable wire (6), its characterized in that:

the top of the fixed round platform (4) is provided with a positioning column (3), two sides of the positioning column (3) are provided with a steel cable positioning seat (5), the top of the steel cable positioning seat (5) is provided with a steel cable (6), the top end of the positioning column (3) is provided with an electrostatic support column (2), and the top end of the positioning column (3) is provided with a communication power supply device (1).

2. The communication tower for mobile internet 5G communication as claimed in claim 1, wherein: the communication power supply device (1) comprises a signal transmitting tower tip (11), a top seat (12), a windward power generation mechanism (13) and a power supply data transmission mechanism (14), wherein the power supply data transmission mechanism (14) is arranged at the bottom of the windward power generation mechanism (13), the top seat (12) is arranged at the top of the windward power generation mechanism (13), and the signal transmitting tower tip (11) is arranged at the top of the top seat (12).

3. The communication tower for mobile internet 5G communication as claimed in claim 2, wherein: windward power generation mechanism (13) constitute by activity circle cover (13a), wind ring (13b), interior movable ring (13c), branch (13d), activity circle cover (13a) outer lane on be equipped with wind ring (13b), activity circle cover (13a) inner circle on be equipped with interior movable ring (13c), activity circle cover (13a) bottom be equipped with branch (13 d).

4. The communication tower for mobile internet 5G communication as claimed in claim 3, wherein: wind ring (13b) by dull and stereotyped blade (13b1), windward groove (13b2), attach fitting (13b3), insulating retainer plate (13b4), prevent that static inner circle (13b5) constitutes, insulating retainer plate (13b4) inner circle on be equipped with and prevent static inner circle (13b5), insulating retainer plate (13b4) outer lane on be equipped with dull and stereotyped blade (13b1), dull and stereotyped blade (13b1) rear end be equipped with attach fitting (13b3), dull and stereotyped blade (13b1) both sides be equipped with windward groove (13b 2).

5. The communication tower for mobile internet 5G communication as claimed in claim 2, wherein: power supply data transmission device (14) constitute by slide rail (14a), signal transmission branch (14b), pivot (14c), generator (14d), all-round signal receiver mechanism (14e), generator (14d) top be equipped with pivot (14c), generator (14d) outer lane on be equipped with slide rail (14a), generator (14d) around both ends be equipped with signal transmission branch (14b), generator (14d) bottom be equipped with all-round signal receiver mechanism (14 e).

6. The communication tower for mobile internet 5G communication according to claim 5, wherein: the omnibearing signal receiving mechanism (14e) consists of a copper rail (14e1), an accumulator (14e2), a signal collector (14e3), a copper slider (14e4) and a receiving antenna (14e5), wherein the copper rail (14e1) is arranged on the outer ring of the accumulator (14e2), the receiving antennas (14e5) are arranged on two sides of the accumulator (14e2), the copper slider (14e4) is arranged at the rear end of the receiving antenna (14e5), and the signal collectors (14e3) are arranged on the front side and the rear side of the accumulator (14e 2).