CN115288506A - Communication base station tower - Google Patents

Abstract

The invention discloses a communication base station tower, and relates to the technical field of communication equipment. The tower comprises a tower body, a plurality of rows of communication antennas, a connecting flange, a plurality of first pull cables, a tower base and a second pull cable. The tower body comprises a plurality of supporting tower sections, and a plurality of rows of communication antennas are arranged on the upper side part of the tower body. Two adjacent support tower sections are fixed through the connecting flange, and a plurality of through holes are formed in the peripheral side of each support tower section. The stiff end of first cable is located the top of tower body, and stretches out and draw the bottom that the end was worn to establish the through-hole and is fixed in the tower body, and many first cables center on the tower body for carry out vertical reinforcement to the tower body. The tower base is fixed below the tower body and is provided with a plurality of fixing holes. The fixed end of the second inhaul cable and the supporting tower section are fixed in the through hole, and the stretching end and the tower base are fixed in the fixed hole to obliquely reinforce the tower body. Except that the structural strength who guarantees the communication tower, can also reduce tower body weight and the transport degree of difficulty. Has the advantages of convenient installation, wide application range and the like.

Description

Communication base station tower

Technical Field

The invention relates to the technical field of communication equipment, in particular to a communication base station tower.

Background

In the prior art, a communication tower is generally composed of a tower body, a ladder stand, an antenna support and other steel components and is mainly used for transmission and emission of microwave, ultrashort wave and wireless network signals. The communication towers are basically about 40m high and are all arranged at the highest point of the terrain in the service area so as to ensure the effects of large service radius and high signal quality. However, due to the installation topography of the communication tower, when the communication equipment is installed in some areas, the transportation and hoisting operation cannot be performed by vehicles, and the communication equipment can only be carried by people. Therefore, the transportation difficulty and the installation difficulty of the communication tower are increased.

Disclosure of Invention

The present invention has been made in view of the above problems, and aims to provide a communication base station tower that overcomes or at least partially solves the above problems.

The invention provides a communication base station tower, comprising:

the tower body comprises a plurality of supporting tower sections which are connected in sequence;

the multiple rows of communication antennas are arranged on the upper side part of the tower body;

the connecting flange is used for fixing two adjacent supporting tower sections, wherein a plurality of through holes are formed in the outer peripheral side of the connecting flange;

the fixed ends of the first inhaul cables are positioned at the top end of the tower body, and the stretching ends penetrate through the through holes and are fixed at the bottom end of the tower body, wherein the plurality of first inhaul cables form a surrounding for the tower body and are used for vertically reinforcing the tower body;

the tower base is fixed below the tower body and provided with a plurality of fixing holes;

and the fixed end of the second inhaul cable and the supporting tower section are fixed at the through hole, and the stretching end and the tower base are fixed at the fixed hole, so that the tower body is obliquely reinforced.

Optionally, the pipe diameters of the plurality of supporting tower sections decrease gradually from top to bottom, and in two adjacent supporting tower sections, the bottom end of the supporting tower section located above is inserted into the top end of the supporting tower section located below.

Optionally, the connecting flange includes a first flange portion and a second flange portion, the first flange portion is mounted on the lower side portion of the supporting tower section, the second flange portion is mounted on the top end of the supporting tower section, and the first flange portion, the second flange portion and the supporting tower section are of an integrated structure; wherein,

when two adjacent support tower sections form the grafting, first flange portion is folded on second flange portion, and forms the restriction to the grafting position.

Optionally, the first cable comprises a plurality of sub-cables connected from top to bottom in sequence, wherein two adjacent sub-cables are connected at the through hole through a connector.

Optionally, a plurality of maintenance platforms are further arranged on the tower body, and each maintenance platform is located below each row of communication antennas.

Optionally, the tower base includes:

the supporting rods are obliquely arranged, the top ends of the supporting rods are of an integrated structure, and the supporting rods are connected with the bottom end of the tower body through flanges;

the bearing base body is horizontally arranged and located at the bottom ends of the supporting rods, wherein the bottom ends of the supporting rods are separated from each other on the bearing base body to form a polygonal supporting structure, and the stretching end of the second inhaul cable is located on the bearing base body.

Optionally, the tower base includes:

the tower bottom section is vertically arranged and is connected with the bottom end of the tower body through a flange;

the steel fiber concrete layer is arranged inside the tower bottom section, and the cross section of the steel fiber concrete layer is circular;

the bearing base body is horizontally arranged and located at the bottom end of the tower bottom section, and the stretching end of the second inhaul cable is located on the bearing base body.

Optionally, the base station tower further includes a control room, a communication device, a storage battery pack and an oil power generation device, wherein the communication device, the storage battery pack and the oil power generation device are all installed in the control room, the communication device is electrically connected with the communication antenna, the storage battery pack is electrically connected with the communication device, and the oil power generation device is electrically connected with the storage battery pack.

Optionally, the lightning rod is still installed on the top of tower body, the base station tower still includes wind power generation set, wind power generation set be fixed in on the lightning rod, and with storage battery electricity is connected.

Optionally, a solar power generation device is further mounted on the bearing substrate, and the solar power generation device is electrically connected with the storage battery.

Compared with the prior art, the tower comprises a tower body, a plurality of rows of communication antennas, a connecting flange, a plurality of first inhaul cables, a tower base and a plurality of second inhaul cables. The tower body comprises a plurality of supporting tower sections which are connected in sequence, and a plurality of rows of communication antennas are arranged on the upper side portion of the tower body. Through two fixed adjacent support tower sections of flange, flange's periphery side is provided with a plurality of through-holes, and the stiff end of first cable is located the top of tower body, and stretches out the bottom that the end was worn to establish the through-hole and is fixed in the tower body, and many first cables form right the centering of tower body is used for carrying out vertical reinforcement to the tower body, and the tower base is fixed in the below of tower body, and has seted up a plurality of fixed orificess. The fixed end of the second inhaul cable and the supporting tower section are fixed at the through hole, and the stretching end and the tower base are fixed at the fixed hole and used for obliquely reinforcing the tower body. Combine the prestressing force design of first cable, second cable and sectional type tower body is when guaranteeing the structural strength of communication tower, can also effectively reduce tower body weight and the transport degree of difficulty. Meanwhile, the device has the advantages of convenience in installation, wide application range and the like.

The foregoing description is only an overview of the technical solutions of the present invention, and the embodiments of the present invention are described below in order to make the technical means of the present invention more clearly understood and to make the above and other objects, features, and advantages of the present invention more clearly understandable.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like parts throughout the drawings.

In the drawings:

fig. 1 is a schematic structural diagram of a communication base station tower according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a joint of two supporting tower segments according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of another tower base provided by an embodiment of the present invention;

reference numerals: 1. a tower body; 101. supporting the tower section; 2. a communication antenna; 3. a connecting flange; 301. a first flange portion; 302. a second flange portion; 4. a first cable; 5. a tower base; 501a, a support rod; 501b, a tower bottom section; 502b, a steel fiber concrete layer; 503. a load bearing substrate; 6. a second cable; 7. maintaining the platform; 8. a control room; 9. a lightning rod; 10. a wind power generation device; 11. a solar power generation device; 1101. a solar panel; 1102. a battery holder; 1103. a truss.

Detailed Description

Exemplary embodiments of the present invention will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the invention are shown in the drawings, it should be understood that the invention can be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.

Referring to fig. 1 to 3, an embodiment of the present invention provides a communication base station tower, where the base station tower may include a tower body 1, multiple rows of communication antennas 2, a connection flange 3, multiple first guys 4, a tower base 5, and multiple second guys 6, where:

the tower body 1 comprises a plurality of supporting tower sections 101 which are sequentially connected from top to bottom, for example, the number of the supporting tower sections 101 is 3-5, the tower body 1 is made of steel materials, and the number of the supporting tower sections 101 can be determined according to the length requirement of an installation scene. Thereby the uniformity of the production of the tower body 1 with different length requirements under each installation environment can be improved, and the production cost of the tower body 1 is reduced. Each support tower section 101 is a circular tube structure with a hollow center. Multirow communication antenna 2 sets up in the upside portion of tower body 1 for the transmission radio signal, wherein, in order to guarantee communication signal's coverage, need set up communication antenna 2 on the higher position of height on tower body 1. For example, the upper side of the tower body 1 may be understood as the side of the uppermost supporting tower section 101. Two adjacent support tower segments 101 are fixed by the connecting flange 3, wherein a plurality of through holes are provided on the outer circumferential side of the connecting flange 3. The stiff end of first cable 4 is located the top of tower body 1, and stretch-draw the end and wear to establish the bottom that the through-hole is fixed in tower body 1, wherein, many first cables 4 form right around of tower body 1 is used for right tower body 1 carries out vertical reinforcement. The skilled person can determine the specific number of the first cables 4 according to the actual pre-stress requirement, which is not limited herein, for example, the number of the first cables 4 may be 3, 4, and 5, etc. Many first cables 4's stiff end and/or stretch-draw end are the same circle and are set up, realize the ascending prestressing force design of vertical direction of communication basic station tower through first cable 4, and it can be when reducing the pipe diameter of tower body 1, reducing the steel quantity, guarantees that the structural strength of tower body 1 can not reduce.

The tower base 5 is fixed below the tower body 1 and is provided with a plurality of fixing holes. The fixed end of the second inhaul cable 6 is fixed with the supporting tower section 101 at the through hole, and the stretching end is fixed with the tower base 5 at the fixed hole, so that the tower body 1 is obliquely reinforced. Through the prestressing force design of second cable 6 on the incline direction, can adjust through the slope contained angle between second cable 6 and the tower body 1 the structural strength of basic station tower. Since the plurality of support tower sections 101 are provided with the through holes, in the installation process, a person skilled in the art can determine which support tower section 101 through hole the fixed end of the second cable 6 is installed on according to the actual application scenario.

In one example, the first cable 4 and the second cable 6 are both prestressed steel strands, and in order to improve the structural stability of the cables, the first cable 4 and the second cable 6 may be unbonded epoxy-coated steel strands. The fixing ends of the first cable 4 and the second cable 6 can be fixed by adopting an extrusion anchorage device, and the stretching ends of the first cable 4 and the second cable 6 can be fixed by adopting a clamping piece type anchorage device. The pull rope with the replaceable prestress outside the tower body 1 can adjust the stress of the tower body 1, and the pull rope is convenient to replace and recycle. In order to facilitate the replacement of the second inhaul cable 6, the length of the second inhaul cable 6 which is fixed by the clip type anchorage device can be reserved to be 0.3-0.4 m.

According to an optional embodiment of the invention, the pipe diameters of the plurality of supporting tower sections 101 are gradually reduced from top to bottom, in two adjacent supporting tower sections 101, the bottom end of the supporting tower section 101 positioned above is inserted into the top end of the supporting tower section 101 positioned below, the plurality of supporting tower sections 101 positioned from top to bottom are respectively inserted into the supporting tower sections 101 for primary fixation, and secondary fixation is formed through the connecting flange 3, so that the structural stability of the tower body 1 can be improved.

In an alternative embodiment of the invention, referring to fig. 2, the connecting flange 3 includes a first flange portion 301 and a second flange portion 302, and the first flange portion 301 is mounted on the lower side portion of the supporting tower segment 101. The lower side can be understood as the area where the side of the support tower section 101 faces downwards away from the center. The second flange portion 302 is mounted at the top end of the support tower section 101, and the first flange portion 301, the second flange portion 302 and the support tower section 101 are of an integrated structure. When two adjacent support tower sections 101 are inserted, the first flange portion 301 is overlapped on the second flange portion 302, and the insertion position is limited. Thereby, the plugging length of the two supporting tower segments 101 can be predefined by the first flange portion 301, and it can be determined during installation whether the two supporting tower segments 101 are plugged into place or whether the supporting tower segment 101 located above is perpendicular to the vertical direction by the first flange portion 301 and the second flange portion 302. The first flange portion 301 and the second flange portion 302 are connected by bolts. The design of the connecting structure between the connecting flange 3 and the tower body 1 can facilitate the carrying and installation of the tower body 1 and can also avoid the corrosion of steel caused by the water and other media entering the tower body 1. The base station tower can thus be stabilized for a long time after the first installation.

In an alternative embodiment of the invention, each first cable 4 may include a plurality of sub-cables connected in sequence from top to bottom, wherein two adjacent sub-cables are connected at the through hole by a steel strand connector. Therefore, in the installation process, the first cable 4 does not need to be fixed after the plurality of support tower segments 101 are completely connected. After the installation of one supporting tower section 101 is completed, a sub-cable and the supporting tower section 101 are fixed at the through hole through the connector, so that the installation difficulty of the first cable 4 can be further reduced.

In an optional embodiment of the invention, the tower body 1 is further provided with a plurality of maintenance platforms 7, and each maintenance platform 7 is located below each row of communication antennas 2, so that relevant personnel can conveniently perform installation and construction or perform periodic maintenance through the maintenance platforms 7.

In an alternative embodiment of the invention, referring to fig. 1, the tower 5 may include a plurality of support rods 501a and a bearing substrate 503, wherein:

the plurality of support rods 501a are disposed in an inclined manner, and the number of the support rods 501a may be 3, 4, 5, and the like, which is not limited herein. The top ends of the support rods 501a are arranged together and are of an integrated structure, and the integrated structure is connected with the bottom end of the tower body 1 through a flange. The bearing substrate 503 is horizontally disposed and located at the bottom ends of the supporting rods 501a, wherein the bottom ends of the supporting rods 501a are separated from each other on the bearing substrate 503 to form a polygonal supporting structure. For example, the projection angles of each two adjacent support bars 501a on the bearing substrate 503 are consistent. The stretching end of the second pulling cable 6 is located on the bearing base 503 and is also located near the bottom end of the supporting rod 501 a.

In another alternative embodiment of the invention, referring to fig. 3, the tower base 5 may include a tower bottom section 501b, a steel fiber concrete layer 502b, and a bearing matrix 503, wherein:

the tower bottom section 501b is vertically arranged and connected with the bottom end of the tower body 1 through a flange. The steel fiber concrete layer 502b is arranged inside the tower bottom section 501b, and the cross section of the steel fiber concrete layer is circular. The thickness of the steel fiber concrete layer 502b can be determined by those skilled in the art according to the actual application scenario, and it can be formed by pouring steel fiber concrete at the time of field installation, so as to further improve the structural strength of the base station tower. The bearing substrate 503 is horizontally disposed and located at the bottom end of the tower bottom section 501b, and the tensioning end of the second cable 6 is located on the bearing substrate 503, wherein the bearing substrate 503 may be formed by pouring steel and concrete.

In an alternative embodiment of the invention, the base station tower may further include a control room 8, communication equipment, a storage battery pack, and an oil power generation device. The control room 8 may be a container structure or a concrete pouring structure, and may be installed below or outside the tower body 1, and the control room 8 is fixed on the bearing substrate 503. The communication equipment, the storage battery pack and the oil power generation device (such as a diesel generator) are all installed in the control room 8. In addition, other electrical control devices, such as an inverter, may be installed in the control room 8, which is not limited herein. The communication equipment is electrically connected with the communication antenna 2, the storage battery pack is electrically connected with the communication equipment, and the oil power generation device is electrically connected with the storage battery pack.

In an alternative embodiment of the invention, referring to fig. 1, a lightning rod 9 is further installed at the top end of the tower body 1, the base station tower further includes a wind power generation device 10, and the wind power generation device 10 is fixed on the lightning rod 9 and is electrically connected with the storage battery pack. In one example, the wind power generation device 10 may be a wind power generator that can rotate horizontally 360 ° into the wind. A maintenance platform 7 can be arranged below the wind driven generator, and an illuminating lamp is arranged on the outer side of the maintenance platform 7. Thereby facilitating the determination of the specific location of the base station tower in dimly lit conditions. In another example, a solar power generation device 11 is further mounted on the supporting substrate 503, and the solar power generation device 11 is electrically connected to a storage battery.

The solar power generation device 11 may include a solar panel 1101, a battery holder 1102 and a truss 1103, wherein the battery holder 1102 is vertically fixed on the bearing substrate 503, the solar panel 1101 is fixed on the battery holder 1102, and during the installation process of the battery holder 1102, the sun-facing angle is determined in advance according to an actual application scenario. In order to improve the structural stability of the solar power generation device 11, the battery support 1102 and the tower bottom section 501b may be horizontally connected by a plurality of trusses 1103. In an example, a wind power generation device 10 may be further disposed on the top end of the battery holder 1102, and a maintenance platform 7 is further disposed on the bottom of the solar panel 1101, where the maintenance platform 7 is fixed to the battery holder 1102.

During the main operation of the base station tower, the wind turbine generator 10 and the solar power generator 11 may be used as main power supply equipment in advance. In the daily operation process, wind energy and solar energy are converted into electric energy and then stored in a storage battery pack, so that the daily use of the base station tower is met. When the wind power generation device 10 and the solar power generation device 11 cannot meet the power consumption of the communication tower. In order to ensure normal communication, the power supply system controls the oil power generation device to automatically start to generate power and convert the power to be supplied to the storage battery pack for charging and meet the requirement of power utilization of communication tower equipment.

The tower bottom section 501b, the tower body 1 and the battery support 1102 are respectively provided with a ladder stand. The tower body 1 is higher in height generally, and a falling-preventing climbing device can be further arranged, so that the safety coefficient of installation and maintenance of the base station tower is improved.

In summary, the invention discloses a communication base station tower, which comprises a tower body 1, a plurality of rows of communication antennas 2, a connecting flange 3, a plurality of first guy cables 4, a tower base 5 and a plurality of second guy cables 6. Wherein, tower body 1 includes a plurality of support tower sections 101 that connect gradually, and multirow communication antenna 2 sets up in the upside portion of tower body 1. Through two fixed adjacent support tower sections 101 of flange 3, the periphery side of flange 3 is provided with a plurality of through-holes, and first cable 4's stiff end is located the top of tower body 1, and stretches the end and wear to establish the through-hole and be fixed in the bottom of tower body 1, and many first cable 4 form right tower body 1 centers on for carry out vertical reinforcement to tower body 1, tower base 5 is fixed in the below of tower body 1, and has seted up a plurality of fixed orificess. The fixed end of the second inhaul cable 6 is fixed with the supporting tower section 101 at the through hole, and the stretching end is fixed with the tower base 5 at the fixed hole for obliquely reinforcing the tower body 1. Combine first cable 4, second cable 6 and sectional type tower body 1's prestressing force design, when guaranteeing the structural strength of communication tower, can also effectively reduce 1 weight of tower body and the transport degree of difficulty. Meanwhile, the device has the advantages of convenience in installation, wide application range and the like.

The embodiments in the present specification are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

As readily imaginable to the person skilled in the art: any combination of the above embodiments is possible, and thus any combination between the above embodiments is an embodiment of the present invention, but the present disclosure is not necessarily detailed herein for reasons of space.

In the description provided herein, numerous specific details are set forth. It is understood, however, that embodiments of the invention may be practiced without these specific details. In some instances, well-known methods, structures and techniques have not been shown in detail in order not to obscure an understanding of this description.

Similarly, it should be appreciated that in the foregoing description of exemplary embodiments of the invention, various features of the invention are sometimes grouped together in a single embodiment, figure, or description thereof for the purpose of streamlining the disclosure and aiding in the understanding of one or more of the various inventive aspects.

Furthermore, those skilled in the art will appreciate that while some embodiments described herein include some features included in other embodiments, rather than other features, combinations of features of different embodiments are meant to be within the scope of the invention and form different embodiments. For example, in the claims, any of the claimed embodiments may be used in any combination.

Claims (10)

1. A communication base station tower, comprising:

the tower comprises a tower body (1), wherein the tower body (1) comprises a plurality of supporting tower sections (101) which are connected in sequence;

the multi-row communication antenna (2), the multi-row communication antenna (2) is arranged at the upper side part of the tower body (1);

the connecting flange (3) is used for fixing two adjacent supporting tower sections (101), wherein a plurality of through holes are formed in the outer peripheral side of the connecting flange (3);

the fixing end of the first inhaul cable (4) is positioned at the top end of the tower body (1), the stretching end of the first inhaul cable penetrates through the through hole and is fixed at the bottom end of the tower body (1), and the first inhaul cable (4) surrounds the tower body (1) and is used for vertically reinforcing the tower body (1);

the tower base (5) is fixed below the tower body (1) and provided with a plurality of fixing holes;

a plurality of second inhaul cables (6), the fixed end of the second inhaul cable (6) is fixed with the supporting tower section (101) at the through hole, and the stretching end is fixed with the tower base (5) at the fixed hole, so that the tower body (1) is obliquely reinforced.

2. The communication base station tower of claim 1, wherein the pipe diameters of the plurality of supporting tower sections (101) are gradually reduced from top to bottom, and of the two adjacent supporting tower sections (101), the bottom end of the supporting tower section (101) located above is inserted into the top end of the supporting tower section (101) located below.

3. The communication base station tower of claim 2, wherein the connection flange (3) comprises a first flange portion (301) and a second flange portion (302), the first flange portion (301) is mounted to a lower side portion of the supporting tower section (101), the second flange portion (302) is mounted to a top end of the supporting tower section (101), and the first flange portion (301), the second flange portion (302) and the supporting tower section (101) are of a one-piece structure; wherein,

when two adjacent supporting tower sections (101) are spliced, the first flange part (301) is overlapped on the second flange part (302), and the splicing position is limited.

4. The tower of claim 1, wherein the first cable (4) comprises a plurality of sub-cables connected in sequence from top to bottom, wherein two adjacent sub-cables are connected at the through hole by a connector.

5. The communication base station tower according to claim 1, wherein a plurality of maintenance platforms (7) are further provided on the tower body (1), each maintenance platform (7) being located below each row of communication antennas (2).

6. The communication base station tower according to claim 1, wherein the tower base (5) comprises:

the supporting rods (501 a) are obliquely arranged, the top ends of the supporting rods (501 a) are of an integrated structure, and the supporting rods are connected with the bottom end of the tower body (1) through flanges;

the bearing base body (503) is horizontally arranged and is positioned at the bottom ends of the supporting rods (501 a), wherein the bottom ends of the supporting rods (501 a) are separated from each other on the bearing base body (503) to form a polygonal supporting structure, and the stretching end of the second inhaul cable (6) is positioned on the bearing base body (503).

7. The communication base station tower according to claim 1, wherein the tower base (5) comprises:

the tower bottom section (501 b) is vertically arranged and is connected with the bottom end of the tower body (1) through a flange;

the steel fiber concrete layer (502 b) is arranged inside the tower bottom section (501 b), and the cross section of the steel fiber concrete layer (502 b) is circular;

the bearing base body (503) is horizontally arranged and located at the bottom end of the tower bottom section (501 b), and the tensioning end of the second inhaul cable (6) is located on the bearing base body (503).

8. The communication base station tower according to claim 6 or 7, further comprising a control room (8), communication equipment, a storage battery pack and an oil power generation device, wherein the communication equipment, the storage battery pack and the oil power generation device are all installed in the control room (8), the communication equipment is electrically connected with the communication antenna (2), the storage battery pack is electrically connected with the communication equipment, and the oil power generation device is electrically connected with the storage battery pack.

9. The communication base station tower of claim 8, wherein a lightning rod (9) is further installed at the top end of the tower body (1), the base station tower further comprises a wind power generation device (10), and the wind power generation device (10) is fixed on the lightning rod (9) and is electrically connected with the storage battery pack.

10. The tower of claim 6, wherein the bearing base (503) is further provided with a solar power generation device (11), and the solar power generation device (11) is electrically connected with the storage battery.

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