CN111827764A - Electronic information is with multi-functional shockproof communication tower - Google Patents

Abstract

The invention discloses a multifunctional shockproof communication tower for electronic information, which comprises a tower frame, an antenna mounting frame and a stable base, wherein the antenna mounting frame is arranged at the top of the tower frame and used for mounting a communication antenna; a plurality of telescopic adjusting arm assemblies are arrayed on the outer circumference of the bottom of the tower, one end of each adjusting arm assembly is connected with a stabilizing rope through a connecting platform, and the other end of each stabilizing rope penetrates through the tower in a sliding mode and is connected to the wind-resistant anchor rod; the wind-resistant anchor rod is arranged in the tower and passes through the stable base to be anchored in the depth of the foundation; when the wind and earthquake resistant structure is used for preventing wind and earthquake, the adjusting arm assembly is driven, so that the stabilizing rope is stretched outwards and straightened, the wind-resistant anchor rod can apply downward acting force to the tower, and the vibration and the shaking of the tower are reduced.

Description

Electronic information is with multi-functional shockproof communication tower

Technical Field

The invention relates to the technical field of communication towers, in particular to a multifunctional shockproof communication tower for electronic information.

Background

With the rapid development of communication technology, people-to-people communication is achieved, so that the original letter mail is developed into the existing mobile phone call, a communication base station needs to be built to meet the coverage of communication signals, in order to improve the range and stability of information transmission, a communication antenna needs to be installed on a communication tower frequently, the communication tower is high in height, wind has a large influence on the communication tower at a high position, and therefore the communication tower is unstable in vibration.

Accordingly, those skilled in the art have provided a multifunctional shockproof communication tower for electronic information to solve the problems set forth in the background art described above.

Disclosure of Invention

In order to achieve the purpose, the invention provides the following technical scheme: a multifunctional shockproof communication tower for electronic information comprises a tower frame, an antenna mounting frame and a stable base, wherein the antenna mounting frame is arranged at the top of the tower frame and used for mounting a communication antenna, the stable base is arranged at the bottom of the tower frame and fixedly embedded below the earth surface;

a plurality of telescopic adjusting arm assemblies are arrayed on the outer circumference of the bottom of the tower, one end of each adjusting arm assembly is connected with a stabilizing rope through a connecting platform, and the other end of each stabilizing rope penetrates through the tower in a sliding mode and is connected to the wind-resistant anchor rod;

the wind-resistant anchor rod is arranged in the tower and passes through the stable base to be anchored in the depth of the foundation;

when the wind and earthquake resistant structure is used for preventing wind and earthquake, the adjusting arm assembly is driven, so that the stabilizing rope is stretched outwards and straightened, the wind-resistant anchor rod can apply downward acting force to the tower, and the vibration and the shaking of the tower are reduced.

Further, preferably, the bottom outer circumferential array of the tower has four sets of telescopic adjustment arm assemblies;

the adjusting arm assemblies are driven by the driving assembly in a unified mode.

Further, preferably, the driving assembly comprises an installation bin, a first bevel gear, a shaft sleeve and a follow-up gear, wherein the installation bin is fixedly sleeved outside the tower, the shaft sleeve is rotatably arranged on the outer circumference of the tower, a second bevel gear and the follow-up gear are coaxially fixed on the shaft sleeve, and the follow-up gear is meshed with a driving gear fixed at the output end of the motor set;

the motor set is fixed below the mounting bin, and the output end of the motor set extends out of the mounting bin and is connected with the mounting bin in a rotating mode;

the second bevel gear is meshed with a first bevel gear vertically arranged with the second bevel gear, and the first bevel gear is fixed at the driving end of the adjusting arm assembly, so that the adjusting arm assembly is driven by the rotation of the first bevel gear.

Further, as preferred, the regulating arm subassembly includes fixed arm, threaded rod, spout and flexible taut arm, wherein, the one end coaxial fixation of threaded rod has bevel gear one, and its other end threaded connection is in the screw thread chamber of flexible taut arm, adopt the multiunit slider to slide to set up in the multiunit spout of seting up on the fixed arm inner wall on the outer circumference of one end of flexible taut arm, the other end of flexible taut arm is fixed with the connection platform, the fixed arm horizontal fixation imbeds in the installation storehouse, still be provided with the firm seat between fixed arm and the threaded rod, the firm seat is fixed in the inner wall of fixed arm, and slides with the threaded rod and links to each other.

Further, preferably, the stabilizing base is of a cavity structure, weight-increasing concrete is injected into the cavity of the stabilizing base, and a guide sleeve is fixedly arranged in the middle of the stabilizing base in a penetrating mode and used for enabling the wind-resistant anchor rod to penetrate through the guide sleeve;

the guide sleeve extends outwards along the axial direction of the guide sleeve and extends out of the stable base.

Further, as preferred, the coaxial base that sets up between firm base and drive assembly that is fixed with in the bottom of pylon, lay a plurality of connecting holes on the base for make fixed stock pass the connecting hole, and anchor in the ground, the base passes through the multiunit nut, fixes its locking on the stock.

Further, preferably, one end of each stabilizing rope, which is far away from the connecting platform, sequentially passes through the stabilizing sleeve and a preformed hole of the tower frame, is guided by the guide wheels, and is finally connected with the wind-resistant anchor rod;

the fixing sleeve is fixedly sleeved outside the tower frame, the fixing sleeve is fixedly embedded with a wear-resistant sleeve corresponding to the preformed hole of the tower frame, and the horizontal central axis of the wear-resistant sleeve and the horizontal central axis of the preformed hole are vertically and parallelly staggered;

the four groups of guide wheels are correspondingly and rotatably arranged on the inner wall of the tower and are positioned below the reserved hole.

Further, preferably, the antenna mounting rack is arranged on the tower frame in a manner that the micro-buffer assembly can rotate relatively;

the micro-buffer assembly comprises a connecting seat, a limiting rod and a limiting ring, wherein the connecting seat is arranged on the tower frame in a relatively rotating manner, an antenna mounting rack is fixed outside the connecting seat, and a first channel is formed in the middle of the connecting seat;

a stabilizing platform fixed on the inner wall of the tower is arranged below the connecting seat, and a second channel corresponding to the first channel is formed in the middle of the stabilizing platform;

a plurality of limiting arc-shaped grooves positioned outside the second channel are formed in the stabilizing table in a circumferential array;

the bottom of connecting seat is fixed with a plurality of gag lever posts that pass spacing arc wall, and a plurality of the gag lever post is connected with a spacing ring jointly.

Preferably, the outer part of the connecting seat located on the tower frame is provided with an annular hook-shaped limiting outer claw, the inner part of the connecting seat located on the tower frame is provided with an annular hook-shaped limiting inner claw, the length of the limiting outer claw extending downwards is different from that of the limiting inner claw, and the inner wall and the outer wall of the tower frame are respectively provided with a limiting ring groove corresponding to the limiting inner claw and the limiting outer claw.

Further, as preferred, two buffering bags that the symmetry set up are embedded to the spacing arc wall, two the through-hole that constitutes between the buffering bag can make the gag lever post pass wherein, it has buffering cotton, air and cushion rubber to fill in the buffering bag.

Compared with the prior art, the invention provides a multifunctional shockproof communication tower for electronic information, which has the following beneficial effects: when facing strong wind weather, through four group's of drive assembly drive regulating arm subassemblies, make firm rope be connected the platform and drive the outside tensile straight, thereby make the anti-wind stock can exert decurrent effort to the pylon from four directions through four groups of firm ropes, thereby realize positive active counter force wind-force, reduce the shock of pylon and rock, improve holistic stability, in addition, the antenna mounting bracket passes through the setting that trace buffering subassembly can be pivoted relatively on the pylon, thereby rotate through the trace buffering and unload the power, wherein the buffering bag can provide good shock-absorbing capacity, and spacing outer claw, spacing inner claw and spacing ring can provide better stability for the antenna mounting bracket.

Drawings

FIG. 1 is a schematic perspective view of a multifunctional shockproof communication tower for electronic information;

FIG. 2 is a schematic view of a lower half of a multifunctional shockproof communication tower for electronic information;

FIG. 3 is a schematic view of the structure at A in FIG. 2;

FIG. 4 is a schematic view of the top half of a multi-functional anti-vibration communication tower for electronic information;

FIG. 5 is a schematic view of a micro buffer module in a multifunctional shockproof communication tower for electronic information

In the figure: 1. a tower; 2. an antenna mounting bracket; 3. a drive assembly; 31. installing a bin; 32. a first bevel gear; 33. a shaft sleeve; 34. a follower gear; 35. a motor unit; 4. an adjustment arm assembly; 41. a fixed arm; 42. a stabilizing base; 43. a threaded rod; 44. a chute; 45. a telescopic tensioning arm; 5. stabilizing the rope; 6. a stable base; 61. weighting the concrete; 62. a guide sleeve; 63. a base; 64. fixing an anchor rod; 7. a wind-resistant anchor rod; 8. a connecting table; 9. a stabilizing sleeve; 10. wear-resistant rings; 11. a guide wheel; 12. a connecting seat; 13. limiting outer claws; 14. limiting the inner jaw; 15. a limiting rod; 16. a stabilizing table; 17. a second channel; 18. a limiting ring; 19. a limiting arc-shaped groove; 20. a buffer bag; 21. and (3) buffer rubber.

Detailed Description

Referring to fig. 1 to 5, in an embodiment of the present invention, a multifunctional shockproof communication tower for electronic information includes a tower frame 1, an antenna mounting frame 2 and a stable base 6, wherein the antenna mounting frame 2 is disposed at the top of the tower frame 1 for mounting a communication antenna, the stable base 6 is disposed at the bottom of the tower frame 1, and the stable base 6 is fixedly embedded below the ground surface;

a plurality of telescopic adjusting arm assemblies 4 are arrayed on the outer circumference of the bottom of the tower frame 1, one end of each adjusting arm assembly 4 is connected with a stabilizing rope 5 through a connecting platform 8, and the other end of each stabilizing rope 5 penetrates through the tower frame 1 in a sliding mode to be connected onto a wind-resistant anchor rod 7;

the wind-resistant anchor rod 7 is arranged in the tower frame 1 and is anchored in the depth of a foundation through the stable base 6;

when the wind and earthquake are prevented, the adjusting arm assembly 4 is driven, so that the stabilizing rope 5 is stretched outwards and straightened, the wind-resistant anchor rod 7 can apply downward acting force to the tower frame 1, and the vibration and the shaking of the tower frame 1 are reduced.

In a preferred embodiment, the bottom outer circumference of the tower 1 is provided with four sets of telescopic adjusting arm assemblies 4;

the adjusting arm assemblies 4 are driven by the driving assembly 3 in a unified manner, so that the tower 1 is stabilized from four directions at the same time.

In this embodiment, as shown in fig. 2-3, the driving assembly 3 includes a mounting bin 31, a first bevel gear 32, a shaft sleeve 33, and a follower gear 34, wherein the mounting bin 31 is fixedly sleeved outside the tower 1, the shaft sleeve 33 is rotatably disposed on the outer circumference of the tower 1, a second bevel gear and the follower gear 34 are coaxially fixed on the shaft sleeve 33, and the follower gear 34 is engaged with a driving gear fixed at an output end of the motor unit 35;

the motor set 35 is fixed below the mounting bin 31, the output end of the motor set 35 extends out of the mounting bin 31 and is connected with the mounting bin in a rotating mode, and the motor set comprises a motor and a speed reducing mechanism, so that output of large torque is achieved;

the second bevel gear is meshed with a first bevel gear 32 vertically arranged with the second bevel gear, and the first bevel gear 32 is fixed at the driving end of the adjusting arm assembly 4, so that the adjusting arm assembly 4 is driven by the rotation of the first bevel gear 32.

In this embodiment, as shown in fig. 3, the adjusting arm assembly 4 includes a fixing arm 41, a threaded rod 43, a sliding slot 44, and a telescopic tensioning arm 45, wherein one end of the threaded rod 43 is coaxially fixed with a first bevel gear 32, the other end of the threaded rod is in threaded connection with a threaded cavity of the telescopic tensioning arm 45, a plurality of sets of sliding blocks are adopted on an outer circumference of one end of the telescopic tensioning arm 45 to be slidably disposed in the plurality of sets of sliding slots 44 formed on the inner wall of the fixing arm 41, a connecting platform 8 is fixed to the other end of the telescopic tensioning arm 45, the fixing arm 41 is horizontally and fixedly embedded in the mounting bin 31, a stabilizing seat 42 is further disposed between the fixing arm 41 and the threaded rod 43, and the stabilizing seat 42 is fixed in the inner wall of the fixing arm 41 and is slidably connected with.

In this embodiment, the stabilizing base 6 is a cavity structure, wherein the cavity is filled with weight-increasing concrete, and the middle part of the stabilizing base 6 is fixedly provided with a guide sleeve 62 in a penetrating manner for allowing the wind-resistant anchor rod 7 to pass through;

the guide sleeve 62 extends axially outwardly along it and projects beyond the stabilizing base 6.

As a preferred embodiment, a base 63 disposed between the stabilizing base 6 and the driving assembly 3 is coaxially fixed to the bottom of the tower 1, a plurality of connecting holes are disposed on the base 63 for allowing a fixing anchor rod 64 to pass through the connecting holes and be anchored in the foundation, and the base 63 is locked and fixed to the anchor rod 64 by a plurality of sets of nuts, so as to achieve a daily stabilizing effect.

As a preferred embodiment, as shown in fig. 2, one end of each stabilizing rope 5, which is far away from the connecting platform 8, sequentially passes through the stabilizing sleeve 9 and the preformed hole of the tower frame 1, is guided by the guide wheel 11, and is finally connected with the wind-resistant anchor rod 7;

the stable sleeve 9 is fixedly sleeved outside the tower frame 1, the wear-resistant sleeve 10 corresponding to the preformed hole of the tower frame 1 is fixedly embedded in the stable sleeve 9, the horizontal central axis of the wear-resistant sleeve 10 is vertically parallel and staggered with the horizontal central axis of the preformed hole, namely, the horizontal central axis of the wear-resistant sleeve 10 is parallel to and does not coincide with the horizontal central axis of the preformed hole, so that the dispersion of stress points is realized, the stable sleeve 9 can also improve the strength of the tower frame 1, and the problem that the integral strength is insufficient due to the formation of the preformed hole is solved;

the four groups of guide wheels 11 are correspondingly and rotatably arranged on the inner wall of the tower frame 1 and are positioned below the reserved holes.

In this embodiment, as shown in fig. 4-5, the antenna mounting bracket 2 is disposed on the tower 1 in a manner that the micro-buffer assembly can rotate relatively;

the micro-buffer assembly comprises a connecting seat 12, a limiting rod 15 and a limiting ring 18, wherein the connecting seat 12 is arranged on the tower 1 in a relatively rotatable manner, an antenna mounting rack 2 is fixed outside the connecting seat 12, and a first channel is formed in the middle of the connecting seat 12;

a stabilizing table 16 fixed on the inner wall of the tower frame 1 is arranged below the connecting seat 12, and a second channel 17 corresponding to the first channel is formed in the middle of the stabilizing table 16;

a plurality of limiting arc-shaped grooves 19 positioned outside the second channel 17 are formed in the stabilizing table 16 in a circumferential array;

a plurality of limiting rods 15 penetrating through the limiting arc-shaped grooves 19 are fixed at the bottom of the connecting seat 12, and a limiting ring 18 is connected with the plurality of limiting rods 15 together.

In order to improve the rotation stability of the antenna mounting frame 2 in a micro-buffering manner, an annular hook-shaped limiting outer claw 13 is arranged at the outer part of the connecting seat 12 positioned on the tower frame 1, an annular hook-shaped limiting inner claw 14 is arranged at the inner part of the connecting seat 12 positioned on the tower frame 1, the downward extending lengths of the limiting outer claw 13 and the limiting inner claw 14 are different, and limiting ring grooves corresponding to the limiting inner claw 14 and the limiting outer claw 13 are respectively formed in the inner wall and the outer wall of the tower frame 1.

As the preferred embodiment, two buffer bags 20 that the symmetry set up are embedded in the spacing arc groove 19, two the through-hole that constitutes between the buffer bags 20 can make gag lever post 15 pass wherein, it has buffering cotton, air and cushion rubber 21 to fill in the buffer bags 20, and in the weather of strong wind, but antenna mounting bracket 2 sets up on pylon 1 through trace buffer assembly relative rotation, and wherein buffer bags 20 can provide good shock-absorbing capacity, and spacing outer claw, spacing inner claw and spacing ring 18 can provide better stability for antenna mounting bracket 2.

When specifically implementing, install this device as above, when facing strong wind weather, through four group's regulating arm subassemblies 4 of drive assembly 3 drive, make firm rope 5 be connected platform 8 and drive outside tensile straight, thereby make anti-wind stock 7 can exert decurrent effort to pylon 1 from four directions through four groups firm rope 5, thereby counter-force wind-force, reduce the vibration of pylon 1 and rock, improve holistic stability, in addition, antenna mounting bracket 2 passes through the setting of trace buffering subassembly pivoted relatively on pylon 1, thereby rotate through the trace buffering and unload the power, wherein buffer capsule 20 can provide good shock-absorbing capacity, and spacing outer claw, spacing inner claw and spacing ring 18 can provide better stability for antenna mounting bracket 2.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention are equivalent to or changed within the technical scope of the present invention.

Claims (10)

1. A multifunctional shockproof communication tower for electronic information comprises a tower frame (1), an antenna mounting frame (2) and a stabilizing base (6), wherein the antenna mounting frame (2) is arranged at the top of the tower frame (1) and used for mounting a communication antenna, the stabilizing base (6) is arranged at the bottom of the tower frame (1), and the stabilizing base (6) is fixedly embedded below the earth surface;

the method is characterized in that: a plurality of telescopic adjusting arm assemblies (4) are arrayed on the outer circumference of the bottom of the tower (1), one ends of the adjusting arm assemblies (4) are connected with stabilizing ropes (5) through connecting tables (8), and the other ends of the stabilizing ropes (5) penetrate through the tower (1) in a sliding mode and are connected to wind-resistant anchor rods (7);

the wind-resistant anchor rod (7) is arranged in the tower (1) and is anchored in the depth of a foundation through the stabilizing base (6);

when the wind and earthquake resistant tower is in a windproof and shockproof state, the adjusting arm assembly (4) is driven, so that the stabilizing rope (5) is stretched outwards and straightened, the wind resistant anchor rod (7) can apply downward acting force to the tower (1), and the vibration and shaking of the tower (1) are reduced.

2. The multifunctional shockproof communication tower for electronic information as claimed in claim 1, wherein: four groups of telescopic adjusting arm assemblies (4) are arrayed on the outer circumference of the bottom of the tower (1);

the adjusting arm assemblies (4) are driven by the driving assembly (3) in a unified mode.

3. The multifunctional shockproof communication tower for electronic information as claimed in claim 2, wherein: the driving assembly (3) comprises a mounting bin (31), a first bevel gear (32), a shaft sleeve (33) and a follow-up gear (34), wherein the mounting bin (31) is fixedly sleeved outside the tower (1), the shaft sleeve (33) is rotatably arranged on the outer circumference of the tower (1), a second bevel gear and the follow-up gear (34) are coaxially fixed on the shaft sleeve (33), and the follow-up gear (34) is meshed with a driving gear fixed at the output end of a motor set (35);

the motor set (35) is fixed below the mounting bin (31), and the output end of the motor set (35) extends out of the mounting bin (31) and is rotatably connected with the mounting bin;

the second bevel gear is meshed with a first bevel gear (32) vertically arranged with the second bevel gear, and the first bevel gear (32) is fixed at the driving end of the adjusting arm assembly (4) so as to drive the adjusting arm assembly (4) through the rotation of the first bevel gear (32).

4. The multifunctional shockproof communication tower for electronic information as claimed in claim 3, wherein: adjusting arm subassembly (4) are including fixed arm (41), threaded rod (43), spout (44) and flexible taut arm (45), wherein, the one end coaxial fixation of threaded rod (43) has bevel gear (32), and its other end threaded connection is in the screw thread chamber of flexible taut arm (45), adopt multiunit slider slip to set up in multiunit spout (44) seted up on fixed arm (41) inner wall on the outer circumference of one end of flexible taut arm (45), the other end of flexible taut arm (45) is fixed with connection platform (8), fixed arm (41) horizontal fixation embedding is in erection bin (31), still be provided with between fixed arm (41) and threaded rod (43) and stabilize seat (42), stabilize seat (42) are fixed in the inner wall of fixed arm (41), and slide with threaded rod (43) and link to each other.

5. The multifunctional shockproof communication tower for electronic information as claimed in claim 1, wherein: the stabilizing base (6) is of a cavity structure, weight-increasing concrete is injected into the cavity of the stabilizing base, and a guide sleeve (62) is fixedly arranged in the middle of the stabilizing base (6) in a penetrating mode and used for enabling the wind-resistant anchor rod (7) to penetrate through the guide sleeve;

the guide sleeve (62) extends axially outwardly thereof and projects beyond the stabilizing base (6).

6. The multifunctional shockproof communication tower for electronic information as claimed in claim 2, wherein: the coaxial base (63) that is fixed with the setting between firm base (6) and drive assembly (3) in the bottom of pylon (1), lay a plurality of connecting holes on base (63) for make fixed stock (64) pass the connecting hole, and anchor in the ground, base (63) are through the multiunit nut, fix its locking on stock (64).

7. The multifunctional shockproof communication tower for electronic information as claimed in claim 1, wherein: one end of each stabilizing rope (5) far away from the connecting platform (8) sequentially passes through a stabilizing sleeve (9) and a preformed hole of the tower (1), is guided by a guide wheel (11), and is finally connected with a wind-resistant anchor rod (7);

the fixing sleeve (9) is fixedly sleeved outside the tower frame (1), a wear-resistant sleeve (10) corresponding to the preformed hole of the tower frame (1) is fixedly embedded in the fixing sleeve (9), and the horizontal central axis of the wear-resistant sleeve (10) and the horizontal central axis of the preformed hole are vertically and parallelly staggered;

the four groups of guide wheels (11) are correspondingly and rotatably arranged on the inner wall of the tower frame (1) and are positioned below the reserved holes.

8. The multifunctional shockproof communication tower for electronic information as claimed in claim 1, wherein: the antenna mounting rack (2) is arranged on the tower (1) in a manner that the micro buffer assembly can rotate relatively;

the micro-buffer assembly comprises a connecting seat (12), a limiting rod (15) and a limiting ring (18), wherein the connecting seat (12) is arranged on the tower (1) in a relatively rotatable manner, an antenna mounting rack (2) is fixed outside the connecting seat (12), and a first channel is formed in the middle of the connecting seat (12);

a stabilizing platform (16) fixed on the inner wall of the tower (1) is arranged below the connecting seat (12), and a second channel (17) corresponding to the first channel is formed in the middle of the stabilizing platform (16);

a plurality of limiting arc-shaped grooves (19) positioned outside the second channel (17) are formed in the stabilizing table (16) in a circumferential array;

the bottom of the connecting seat (12) is fixed with a plurality of limiting rods (15) penetrating through the limiting arc-shaped grooves (19), and the limiting rods (15) are jointly connected with a limiting ring (18).

9. The multifunctional shockproof communication tower for electronic information of claim 8, wherein: the connecting seat (12) are located the outside part of pylon (1) and are equipped with hook-shaped spacing outer claw of annular (13), the inside part that connecting seat (12) are located pylon (1) is equipped with hook-shaped spacing inner claw of annular (14), spacing outer claw (13) is different with spacing inner claw (14) downwardly extending's length, set up respectively on the inside and outside wall of pylon (1) with spacing inner claw (14) and spacing outer claw (13) corresponding spacing annular.

10. The multifunctional shockproof communication tower for electronic information of claim 8, wherein: two buffer bags (20) that the symmetry set up are embedded in spacing arc wall (19), two the through-hole that constitutes between buffer bag (20) can make gag lever post (15) pass wherein, it has buffering cotton, air and cushion rubber (21) to fill in buffer bag (20).

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