CN114784498A - Fine-adjustment efficient antenna capable of preventing floater from being injured by crashing in severe weather and prevention method - Google Patents

Abstract

A fine-tuning type efficient antenna capable of preventing floaters from being injured by crashing in severe weather and a prevention method belong to the technical field of fine-tuning type antennas, and aim to solve the problems that broken stones on the ground can be rolled up under the action of wind power, the antenna in severe environment is easily hit by the broken stones, the normal operation of the antenna is influenced, even the signal transmission operation of the antenna is directly interrupted, and if a protection device is directly arranged on the periphery of the antenna, the signal receiving performance of the antenna is easily influenced; the cover plate swings to the right upper end of the fine adjustment type antenna piece to form the shielding cover cap, the shielding cover cap is in an inclined state, the fan faces to the right upper end of the fine adjustment type antenna piece at the moment, wind force is applied to the fine adjustment type antenna piece from top to bottom, and the shielding cover cap shields the fine adjustment type antenna piece in severe weather; the invention utilizes the mutual vertical of the rotating shaft points of the traction swing rod and the cover plate to enlarge the movable range of the cover plate and the traction swing rod, and under the mutual auxiliary cooperation of the traction swing rod and the traction swing rod, the bird repelling device can perform daily bird repelling to improve the functionality of the cover plate.

Description

Fine-adjustment type efficient antenna capable of preventing floater from being injured by smashing in severe weather and prevention method

Technical Field

The invention relates to the technical field of fine-tuning type antennas, in particular to a fine-tuning type efficient antenna capable of preventing floaters from being injured by smashing in severe weather and a prevention method.

Background

Common antennas comprise a mobile base station antenna, a broadcasting antenna, a radar antenna, a WI FI antenna, a mobile phone antenna and the like, when alternating current flows on the conducting wires, electromagnetic wave radiation can occur, and if the distance between the two conducting wires is very close, induction fields generated by the two conducting wires are reversely offset, so that the radiation is very weak; the two wires are opened, and the induced electric fields generated by the two wires are superposed in the same direction, so that the radiation is strong, and the radiation capability is related to the length and the shape of the wires.

The antenna is a device for radiating and receiving radio waves, but in high-strength weather, the broken stone on the ground can be rolled up under the action of wind, the antenna in a severe environment is easily hit by the broken stone, the normal operation of the antenna is influenced, even the signal transmission operation of the antenna is directly interrupted, if a protective device is directly additionally arranged on the periphery of the antenna, the external impact acting force can be prevented to a certain extent, the receiving performance of the antenna on signals is easily influenced, a plurality of connecting cables are arranged on the surface of the antenna, and the directly exposed cables are easy to attract flying birds to stay.

Aiming at the problems, the existing device is improved, and the fine-tuning type efficient antenna and the prevention method capable of preventing the floater from being injured by crashing in severe weather are provided.

Disclosure of Invention

The invention aims to provide a fine adjustment type efficient antenna capable of preventing floaters from being injured by crashing in severe weather and a prevention method, and solves the problems that in the background technology, the antenna is a device for radiating and receiving radio waves, but in high-intensity weather, broken stones on the ground can be rolled up under the action of wind force, the antenna in severe environment is easily hit by the broken stones, the normal operation of the antenna is influenced, and even the signal transmission operation of the antenna is directly interrupted, if a protection device is directly additionally arranged at the periphery of the antenna, the external impact acting force can be prevented to a certain extent, but the signal receiving performance of the antenna is easily influenced, and a plurality of connecting cables are arranged on the surface of the antenna, and the directly exposed cables are easy to attract flying birds to stay.

In order to achieve the purpose, the invention provides the following technical scheme: the fine-tuning high-efficiency antenna capable of preventing floating objects from being injured by crashing objects in severe weather comprises an antenna rod and an assembly part arranged on the surface of the antenna rod, wherein a fine-tuning antenna element is arranged on the surface of the assembly part, a positioning beam rod is arranged at the top end of the antenna rod, a steering adjusting part is arranged at the lower end of the positioning beam rod, a protective cover is arranged on one side of the steering adjusting part, the positioning beam rod comprises a mounting handle disc arranged at the top end of the antenna rod and an extension rod arranged on the side surface of the mounting handle disc, a positioning sleeve frame is arranged on one side of the extension rod, the steering adjusting part comprises a driving assembly part arranged at one end of the extension rod and an outer traction disc arranged on one side of the driving assembly part, an engagement sleeve rod is arranged on the side surface of the extension rod, the outer traction disc is sleeved at one end of the engagement sleeve rod, a sleeved traction disc is arranged on one side of the outer traction disc and sleeved on the surface of the antenna rod, and the driving assembly part, the surfaces of the outer traction disc and the sleeved traction disc are sleeved with guide traction belts;

the protective cover comprises a cover plate arranged at the upper end of the fine adjustment type antenna element and a fan arranged on the surface of the cover plate, a splicing long rod is arranged at one end of the cover plate, an adjusting fluted disc is arranged at one end of the splicing long rod, a driving assembly comprises a base disc arranged on the surface of the extension rod and a splicing connecting rod arranged on one side of the base disc, a driving traction disc is arranged at one end of the splicing connecting rod, a driving rotating shaft is arranged at the middle ends of the splicing connecting rod and the driving traction disc, a positioning snap ring is arranged on the side surface of the base disc and is arranged on the inner side of the splicing connecting rod, the adjusting fluted disc comprises a gear disc element and a limiting convex circular block arranged on the side surface of the gear disc element, the gear disc element is arranged between the base disc and the driving traction disc, the other side of the gear disc element is connected with the splicing long rod, a limiting annular groove is formed in the side surface of the limiting convex circular block, and the size of the limiting annular groove is larger than that of the positioning snap ring, the limiting ring groove is connected with the positioning clamp ring;

the inner side surface of the driving traction disc is provided with a butt joint sticking ring, the butt joint sticking ring is arranged on the outer side of the splicing connecting rod, the outer surface of the butt joint sticking ring is provided with an annular tooth surface, the annular tooth surface is meshed with the gear disc piece, the splicing long rod comprises a first butt joint rod connected with the center of the gear disc piece and a second butt joint rod connected with one end of the cover plate, a movable rotating piece is arranged between the first butt joint rod and the second butt joint rod, one side of the movable rotating piece is provided with a driving extension piece, the other side of the movable rotating piece is provided with a positioning control piece, one ends of the driving extension piece and the positioning control piece are connected with the first butt joint rod, and the other ends of the driving extension piece and the positioning control piece are connected with the second butt joint rod.

Furthermore, the movable rotating piece comprises a first connecting block connected with the first butt joint rod and a second connecting block connected with the second butt joint rod, a movable connecting piece is installed between the first connecting block and the second connecting block, and the driving extension piece and the positioning control piece are located on two sides of the movable connecting piece.

Further, the drive extension piece includes the installation butt joint piece that sets up in first butt joint pole and second butt joint pole side surface and sets up the activity recess on installation butt joint piece surface, and the installation butt joint piece is provided with two sets ofly.

Further, the inside of activity recess is provided with and cup joints the pivot, and the inside of activity recess is provided with connects the semicircle piece, and the installation butt joint piece is connected with being connected the semicircle piece through cup jointing the pivot, connects the semicircle piece and is provided with two sets ofly, installs the drive telescopic link between two sets of connection semicircle pieces.

Furthermore, the positioning control piece comprises a fixed connection block arranged on the side surface of each of the first butt joint rod and the second butt joint rod and a first folding rod arranged on the inner side of the fixed connection block, a second folding rod is arranged on the inner side of the first folding rod, one end of the first folding rod is connected with one group of fixed connection blocks, and one end of the second folding rod is connected with the other group of fixed connection blocks.

Furthermore, the first folding rod comprises a transverse outer rod connected with the fixed connection block and a sliding connection open groove formed in the surface of the transverse outer rod, and positioning sliding grooves are formed in the two sides of the inner portion of the sliding connection open groove.

Furthermore, the second folding rod comprises a transverse inner rod connected with the sliding connection open groove and a communication penetrating sliding groove formed in the surface of the transverse inner rod, a butt connection rod is arranged inside the communication penetrating sliding groove, two ends of the butt connection rod are connected with the positioning sliding groove, and the transverse outer rod is connected with the transverse inner rod through the butt connection rod.

Furthermore, the sleeve-joint traction disc comprises splicing rotating rings and traction swing rods, the splicing rotating rings are sleeved on the surfaces of the antenna rods, the traction swing rods are arranged on the surfaces of the two sides of the splicing rotating rings, the traction swing rods are provided with two groups, and one ends of the two groups of traction swing rods are provided with butt joint handle blocks.

Furthermore, the locating sleeve frame comprises an L-shaped connecting rod and a butt joint handle strip, wherein one end of the L-shaped connecting rod is connected with the side surface of the extension rod, the butt joint handle strip is arranged at one end of the L-shaped connecting rod, two ends of the butt joint handle strip are respectively provided with a limiting lantern ring, and the limiting lantern rings are connected with the first butt joint rod.

The invention provides another technical scheme that: the method for preventing the fine-tuning type efficient antenna from being injured by the floating objects in severe weather comprises the following steps:

s1: when the antenna is in bad weather, the driving rotating shaft is started, the base disc and the driving traction disc rotate along with the base disc and the driving traction disc, the splicing rotating ring rotates along the antenna rod, the outer traction disc rotates along the connecting sleeve rod, the adjusting fluted disc is in a rotating state, the edge of the positioning clamping ring is clamped on the inner side of the limiting annular groove, and the adjusting fluted disc drives the protective cover to integrally rotate;

s2: the comprehensive length of the driving extension piece is shortened, so that the second butt joint rod is folded relative to the first butt joint rod through the movable rotating piece, the cover plate swings to the right upper end of the fine adjustment type antenna piece through the movable rotating piece to form a shielding cover and is in an inclined state, and the fan faces to the right upper end of the fine adjustment type antenna piece at the moment and applies wind power to the fine adjustment type antenna piece from top to bottom;

s3: when the comprehensive length of the driving extension piece is shortened, the distance between the two groups of mounting butt-joint blocks is continuously close, the distance between the two groups of fixing joint blocks is continuously far away, the transverse inner rod slides relative to the sliding joint open groove, the two groups of limiting lantern rings position the splicing long rod, the splicing long rod rotates relative to the limiting lantern rings, and the L-shaped connecting rod is fixedly connected with the extension rod to support the whole protective cover;

s4: when the flying birds surround the fine-tuning antenna element in normal weather, the guiding traction belt drives the driving assembly, the outer traction disc and the splicing rotating ring to rotate, the cover plate rotates by taking the splicing long rod as an axis, wind power is applied to the periphery of the cover plate through the fan on the surface of the cover plate, the rotating cover plate drives the surrounding flying birds, and the flying birds are impacted by the applied wind current, so that all implementation steps are completed.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention provides a fine-tuning high-efficiency antenna capable of preventing floaters from being injured by crashing in severe weather and a prevention method, when a protective cover is in an initial state, the protective cover is positioned at the upper end of the side of a fine-tuning antenna element, the protective cover is in a vertical form and is parallel to the installation of the fine-tuning antenna element, so that the protective cover and the fine-tuning antenna element keep a proper distance without influencing the signal transmission of the fine-tuning antenna element in a normal state, when the protective cover is in severe weather, a driving rotating shaft is started, a base disc and a driving traction disc rotate along with the base disc and the driving traction disc, under the traction action of a guide traction belt, a splicing rotating ring rotates along an antenna rod, an outer traction disc rotates along an engagement sleeve rod to form a series of linkage traction members, an annular tooth surface is engaged with a gear disc element to enable an adjusting gear disc to be in a rotating state, and the edge of a positioning snap ring is clamped at the inner side of a limit annular groove, the gear disc piece can be vertical to the butt joint sticking ring in the rotating process, the adjusting fluted disc drives the protective cover to integrally rotate, the protective cover is in a horizontal form and is vertical to the installation of the fine adjustment type antenna piece, the second butt joint rod is folded relative to the first butt joint rod through the movable rotating piece by shortening the comprehensive length of the driving extension piece, the cover plate swings to the right upper end of the fine adjustment type antenna piece through the movable rotating piece to form a shielding cover and presents an inclined state, the fan faces to the right upper end of the fine adjustment type antenna piece at the moment and applies wind power to the fine adjustment type antenna piece from top to bottom, the application range of the wind power is expanded by utilizing the inclined form of the cover plate, and the shielding cover covers the fine adjustment type antenna piece in severe weather so as to avoid rain, snow or hail from being accumulated on the surface of the fine adjustment type antenna piece and prevent foreign objects such as gravels in a certain direction from impacting, therefore, when the weather prediction module senses that severe weather is coming, a series of operations of the whole protective cover are controlled to protect the fine-tuning antenna element in advance so as to prolong the service life of the fine-tuning antenna element.

2. The invention provides a fine adjustment type high-efficiency antenna capable of preventing floater from being injured by crashing in bad weather and a prevention method, when the comprehensive length of a driving extension piece is shortened, a driving telescopic rod is started, the distance between two groups of mounting butt-joint blocks is continuously close, the distance between two groups of fixing butt-joint blocks is continuously far away, a transverse inner rod slides relative to a sliding-joint open groove, and the transverse inner rod and a transverse outer rod are still kept in limited movement when being mutually folded by using butt-joint connecting rods, so that a supporting point is provided for the folding of a long splicing rod, the stability of a first butt-joint rod and a second butt-joint rod in the folding process is enhanced, two groups of limiting lantern rings position the long splicing rod, the long splicing rod rotates relative to the limiting lantern rings, the L-shaped connecting rod is fixedly connected with the extending rod to support the whole protective cover, and the acting force applied to a gear disc piece by an active traction disc is shared, the control effect of the operation force of the protective cover is improved.

3. The invention provides a fine-tuning high-efficiency antenna capable of preventing floaters from being injured by smashing in severe weather and a prevention method.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a fine-tuning type efficient antenna capable of preventing a floater from being injured by heavy weather according to the invention;

FIG. 2 is a schematic view of an assembly structure of a fine tuning type efficient antenna positioning beam and a steering adjusting member capable of preventing a floater from being injured by the floater in severe weather;

FIG. 3 is a schematic view of the fine tuning type high-efficiency antenna protective cover for preventing the floating objects from being injured by the objects in bad weather according to the present invention;

FIG. 4 is a schematic structural diagram of a fine-tuning type efficient antenna driving assembly capable of preventing a floater from being injured by heavy weather according to the present invention;

FIG. 5 is a schematic view of an assembly structure of a fine tuning type efficient antenna adjusting fluted disc and an active traction disc capable of preventing the injury of floaters in severe weather according to the present invention;

FIG. 6 is a schematic diagram of the internal plane structure of the fine-tuning efficient antenna splicing long rod capable of preventing the floater from being injured by crashing in severe weather according to the invention;

FIG. 7 is a schematic structural view of a fine tuning type efficient antenna movable rotating part capable of preventing a floater from being injured by heavy weather according to the present invention;

FIG. 8 is a schematic view of an assembly structure of the fine tuning type high-efficiency antenna driving extension piece and the positioning control piece for preventing the floating objects from being injured by heavy weather according to the present invention;

fig. 9 is a schematic view of a split structure of a first folding rod and a second folding rod of the fine-tuning type efficient antenna capable of preventing a floater from being injured by the floater in severe weather;

FIG. 10 is a schematic view of the structure of a fine tuning type high-efficiency antenna sleeved traction disc capable of preventing a floater from being injured by the floater in severe weather according to the invention;

fig. 11 is a schematic structural view of the fine-tuning type efficient antenna positioning sleeve frame capable of preventing the floating objects from being injured by crashing in severe weather.

In the figure: 1. an antenna mast; 2. an assembly member; 3. a fine tuning type antenna element; 4. positioning the beam rod; 41. mounting a handle disc; 42. an extension rod; 43. positioning a sleeve frame; 431. an L-shaped connecting rod; 432. butt-joint the handle strips; 433. a limiting lantern ring; 5. a steering adjustment member; 51. a drive assembly; 511. a base plate; 512. splicing the connecting rods; 513. an active traction disc; 5131. butting and attaching rings; 5132. an annular tooth surface; 514. positioning the snap ring; 515. driving the rotating shaft; 52. connecting the loop bar; 53. an outer traction disc; 54. sleeving a traction disc; 541. splicing the swivel rings; 542. butt joint of the handle blocks; 543. pulling the swing rod; 55. guiding the traction belt; 6. a protective cover; 61. a cover plate; 62. a fan; 63. splicing a long rod; 631. a first butt rod; 632. a second butt joint rod; 633. a movable rotating piece; 6331. a first engagement block; 6332. a second engagement block; 6333. a movable connecting piece; 634. actuating the elongate member; 6341. installing an abutting block; 6342. a movable groove; 6343. a rotating shaft is sleeved; 6344. connecting the semicircular blocks; 6345. driving the telescopic rod; 635. positioning a control member; 6351. fixing the connecting block; 6352. a first folding bar; 63521. a transverse outer rod; 63522. a sliding connection open groove; 63523. positioning the chute; 6353. a second folding bar; 63531. a transverse inner rod; 63532. the through sliding groove is communicated; 63533. connecting the connecting rods in a butt joint manner; 64. adjusting a fluted disc; 641. a gear disc; 642. a limiting convex round block; 643. and limiting the annular groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In order to solve the technical problems that in the weather of high intensity, the ground broken stones are rolled up due to the action of wind, so that an antenna in a severe environment is easily hit by the broken stones, the normal operation of the antenna is influenced, and even the signal transmission operation of the antenna is directly interrupted, if a protective device is directly arranged on the periphery of the antenna, although the external impact acting force can be prevented to a certain extent, the signal receiving performance of the antenna is easily influenced, as shown in fig. 1-6, the following preferred technical scheme is provided:

the fine-adjustment efficient antenna capable of preventing floating objects from being injured by pounding in severe weather comprises an antenna rod 1 and an assembly part 2 installed on the surface of the antenna rod 1, a fine-adjustment antenna part 3 is arranged on the surface of the assembly part 2, a positioning beam rod 4 is installed at the top end of the antenna rod 1, a steering adjusting part 5 is arranged at the lower end of the positioning beam rod 4, a protective cover 6 is installed on one side of the steering adjusting part 5, the positioning beam rod 4 comprises an installation handle disc 41 installed at the top end of the antenna rod 1 and an extension rod 42 installed on the side surface of the installation handle disc 41, a positioning sleeve frame 43 is installed on one side of the extension rod 42, the steering adjusting part 5 comprises a driving assembly 51 installed at one end of the extension rod 42 and an outer traction disc 53 arranged on one side of the driving assembly 51, an engagement sleeve rod 52 is installed on the side surface of the extension rod 42, the outer traction disc 53 is sleeved at one end of the engagement sleeve rod 52, a sleeved traction disc 54 is installed on one side of the outer traction disc 53, the sleeve traction disc 54 is sleeved on the surface of the antenna mast 1, and the surfaces of the driving assembly 51, the outer traction disc 53 and the sleeve traction disc 54 are sleeved with a guide traction belt 55.

The protective cover 6 comprises a cover plate 61 arranged at the upper end of the fine adjustment type antenna element 3 and a fan 62 arranged on the surface of the cover plate 61, one end of the cover plate 61 is provided with a long splicing rod 63, one end of the long splicing rod 63 is provided with an adjusting fluted disc 64, the driving assembly 51 comprises a base disc 511 arranged on the surface of the extension rod 42 and a splicing connecting rod 512 arranged on one side of the base disc 511, one end of the splicing connecting rod 512 is provided with a driving traction disc 513, the middle ends of the base disc 511, the splicing connecting rod 512 and the driving traction disc 513 are provided with driving rotating shafts 515, the side surface of the base disc 511 is provided with a positioning clamping ring 514, the positioning clamping ring 514 is arranged on the inner side of the splicing connecting rod 512, the adjusting fluted disc 64 comprises a gear disc 641 and a limiting convex circular block 642 arranged on the side surface of the gear disc 641, the gear disc 641 is arranged between the base disc 511 and the driving traction disc 513, the other side of the gear disc is connected with the long splicing rod 63, the side surface of the limiting convex circular block 642 is provided with a limiting annular groove 643, the size of the limiting annular groove 643 is larger than that of the positioning snap ring 514, and the limiting annular groove 643 is connected with the positioning snap ring 514.

The inner side surface of the driving traction disc 513 is provided with a butt joint attachment ring 5131, the butt joint attachment ring 5131 is arranged on the outer side of the splicing connecting rod 512, the outer surface of the butt joint attachment ring 5131 is provided with an annular tooth surface 5132, the annular tooth surface 5132 is in meshing connection with the gear disc member 641, the splicing long rod 63 comprises a first butt joint rod 631 connected with the center of the gear disc member 641 and a second butt joint rod 632 connected with one end of the cover plate 61, a movable rotating member 633 is arranged between the first butt joint rod 631 and the second butt joint rod 632, one side of the movable rotating member 633 is provided with a driving extension member 634, the other side of the movable rotating member 633 is provided with a positioning control member 635, one ends of the driving extension member 634 and the positioning control member 635 are connected with the first butt joint rod 631, and the other ends of the driving extension member 634 and the positioning control member 635 are connected with the second butt joint rod 632.

Specifically, when the shield 6 is in the initial state, it is located at the upper end of the fine-tuning antenna element 3, the shield 6 is in the vertical form, and the shield 6 is parallel to the installation of the fine-tuning antenna element 3, so that the shield 6 and the fine-tuning antenna element 3 keep a proper distance, and the signal transmission of the fine-tuning antenna element 3 in the normal state is not affected, when in bad weather, the driving rotating shaft 515 is started, the base disc 511 and the driving traction disc 513 rotate accordingly, the splicing rotating ring 541 rotates along the antenna rod 1 under the traction action of the guiding traction belt 55, the outer traction disc 53 rotates along the splicing sleeve rod 52, a series of linkage traction members are formed, the adjusting toothed disc 64 is in the rotating state by the meshing connection of the annular toothed surface 5132 and the gear disc 641, and the edge of the positioning snap ring 514 is snapped inside the limiting annular groove 643, so that the gear disc 641 is in the rotating process, can be vertical to the abutting ring 5131, the adjusting fluted disc 64 drives the whole protective cover 6 to rotate, so that the protective cover 6 is in a horizontal form, the protective cover 6 is vertical to the installation of the fine-tuning antenna element 3, the second butt joint rod 632 is folded relative to the first butt joint rod 631 through the movable rotating element 633 by shortening the comprehensive length of the driving extending element 634, the cover plate 61 swings to the right upper end of the fine-tuning antenna element 3 through the movable rotating element 633 to form a shielding cover and presents an inclined state, and the fan 62 faces to the right upper end of the fine-tuning antenna element 3 at the moment to apply wind force to the fine-tuning antenna element 3 from top to bottom, the application range of the wind force is expanded by utilizing the inclined form of the cover plate 61, so that the shielding cover shields the fine-tuning antenna element 3 in bad weather, avoids rain, snow or hail from being accumulated on the surface of the fine-tuning antenna element 3 and intercepts the impact of foreign objects such as gravels and the like in a certain direction, therefore, when the weather prediction module senses that severe weather is coming, a series of operations of the whole protective cover 6 are controlled to protect the fine-tuning antenna element 3 in advance, so that the service life of the fine-tuning antenna element 3 is prolonged.

In order to better solve the technical problem that the operation of the protective cover is inconvenient to control, as shown in fig. 6-9, the following preferred technical solutions are provided:

the movable rotating piece 633 comprises a first connecting block 6331 connected with a first butt rod 631 and a second connecting block 6332 connected with a second butt rod 632, a movable connecting piece 6333 is installed between the first connecting block 6331 and the second connecting block 6332, the driving extension piece 634 and the positioning control piece 635 are located on two sides of the movable connecting piece 6333, the driving extension piece 634 comprises a mounting butt block 6341 arranged on the side surface of the first butt rod 631 and the second butt rod 632 and a movable groove 6342 opened on the surface of the mounting butt block 6341, two sets of the mounting butt block 6341 are arranged, a socket rotating shaft 6343 is arranged inside the movable groove 6342, a connecting semicircular block 6344 is arranged inside the movable groove 6342, the mounting butt block 6341 is connected with the connecting semicircular block 6344 through the socket rotating shaft 6343, two sets of the connecting semicircular blocks 6344 are arranged, a driving telescopic rod 6345 is arranged between the two sets of the connecting semicircular blocks 6344, the positioning control piece 635 comprises a fixed connecting block 6351 arranged on the side surface of the first butt rod and the second butt rod 632 and a fixed connecting block 6351 arranged on the side surface of the second butt rod 632 A first folding bar 6352 is installed inside the fixed link block 6351, a second folding bar 6353 is installed inside the first folding bar 6352, one end of the first folding bar 6352 is connected to one set of fixed link blocks 6351, and one end of the second folding bar 6353 is connected to the other set of fixed link blocks 6351.

Specifically, when the overall length of the driving extension piece 634 is shortened, the driving extension rod 6345 is actuated, the distance between the two sets of installation docking blocks 6341 is continuously close, the distance between the two sets of fixed engagement blocks 6351 is continuously far, the transverse inner rod 63531 slides relative to the sliding open slot 63522, and the butt joint connecting rod 63533 is used to ensure that the transverse inner rod 63531 and the transverse outer rod 63521 still keep spacing movement when being mutually folded, thereby not only providing a supporting point for the folding of the long splicing rod 63, and the stability of the first butt joint rod 631 and the second butt joint rod 632 is enhanced in the folding process, the two groups of limiting lantern rings 433 position the long splicing rod 63, the long splicing rod 63 rotates relative to the limiting lantern rings 433, through the fixed connection of L shape connecting rod 431 and extension rod 42 to support protection casing 6 is whole, share the effort that initiative traction disc 513 applyed to gear disc spare 641, promote the control effect of protection casing 6 operation dynamics.

In order to solve the technical problem that the surface of the antenna is provided with a plurality of connecting cables, and the directly exposed cables are easy to attract flying birds to stay, as shown in fig. 1-4, 10 and 11, the following preferred technical solutions are provided:

the first folding rod 6352 comprises a transverse outer rod 63521 connected with the fixed connection block 6351 and a sliding open slot 63522 opened on the surface of the transverse outer rod 63521, positioning sliding slots 63523 are opened on both sides inside the sliding open slot 63522, the second folding rod 6353 comprises a transverse inner rod 63531 connected with the sliding open slot 63522 and a communicating through sliding slot 63532 opened on the surface of the transverse inner rod 63531, a butt-joint connecting rod 63533 is arranged inside the communicating through sliding slot 63532, both ends of the butt-joint connecting rod 63533 are connected with the positioning sliding slots 63523, the transverse outer rod 63521 is connected with the transverse inner rod 63531 through the butt-joint connecting rod 63533, the sleeved traction disc 54 comprises a spliced swivel 541 sleeved on the surface of the antenna rod 1 and traction swing rods 543 arranged on both side surfaces of the spliced swivel 541, two groups of the traction swing rods 543 are arranged, one end of the two groups of the traction swing rods 543 is provided with a butt-joint handle block 542, the positioning sleeve frame 43 comprises an L-shaped connecting rod 431 with one end connected with the side surface of the extension rod 42 and a butt-joint handle strip 432 arranged on one end of the L-shaped connecting rod 431, the two ends of the butt joint handle bar 432 are both provided with a limiting lantern ring 433, and the limiting lantern ring 433 is connected with the first butt joint rod 631.

Specifically, when in normal weather, when a bird surrounds the fine adjustment type antenna element 3, the guiding traction belt 55 drives the driving assembly 51, the outer traction disc 53 and the splicing swivel 541 to rotate, the cover plate 61 rotates around the splicing long rod 63 as an axis, wind force is applied to the periphery through the fan 62 on the surface of the cover plate 61, the rotating cover plate 61 drives the bird at the periphery and is impacted by the applied wind flow, the bird is intercepted to stay on a connecting cable arranged on the surface of the antenna, the traction swing rod 543 rotates around the antenna rod 1 as the axis along with the rotation of the splicing swivel 541, the rotation axis points of the traction swing rod 543 and the cover plate 61 are perpendicular to each other, so that the movement range of the cover plate 61 and the traction swing rod 543 is expanded, the bird is subjected to daily expelling under the mutual auxiliary matching, and the functionality of the cover plate 61 is improved.

To better explain the above embodiments, the present invention also provides an implementation scheme of a method for preventing a fine-tuning type high-efficiency antenna from being injured by a floater in severe weather, including the following steps:

the method comprises the following steps: when the antenna is in bad weather, the driving rotating shaft 515 is started, the base disc 511 and the driving traction disc 513 rotate along with the driving rotating shaft, the splicing rotating ring 541 rotates along the antenna rod 1, the outer traction disc 53 rotates along the connecting sleeve rod 52, the adjusting fluted disc 64 is in a rotating state, the edge of the positioning clamping ring 514 is clamped on the inner side of the limiting annular groove 643, and the adjusting fluted disc 64 drives the whole protective cover 6 to rotate;

step two: by shortening the overall length of the driving extension piece 634, the second docking rod 632 is folded relative to the first docking rod 631 via the movable rotating piece 633, the cover plate 61 swings to the right upper end of the fine adjustment type antenna element 3 via the movable rotating piece 633 to form a shielding cover and presents an inclined state, and at this time, the fan 62 faces the right upper end of the fine adjustment type antenna element 3 to apply wind force to the fine adjustment type antenna element 3 from top to bottom;

step three: when the overall length of the driving extension piece 634 is shortened, the distance between the two groups of mounting butt joint blocks 6341 is continuously close, the distance between the two groups of fixing connection blocks 6351 is continuously far away, the transverse inner rod 63531 slides relative to the sliding open groove 63522, the two groups of limiting lantern rings 433 position the long splicing rod 63, the long splicing rod 63 rotates relative to the limiting lantern rings 433, and the whole protective cover 6 is supported through the fixed connection of the L-shaped connecting rod 431 and the extension rod 42;

step four: when birds surround the fine adjustment type antenna element 3 in normal weather, the guiding traction belt 55 drives the driving assembly 51, the outer traction disc 53 and the splicing rotating ring 541 to rotate, the cover plate 61 rotates around the splicing long rod 63 as an axis, wind force is applied to the periphery through the fan 62 on the surface of the cover plate 61, the rotating cover plate 61 drives the surrounding birds, and the birds are impacted by the applied wind flow, so that all implementation steps are completed.

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 as the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (10)

1. Can prevent bad weather floater from smashing high-efficient antenna of fine setting type of hindering, including antenna mast (1) and install built-up member (2) on antenna mast (1) surface, the surface of built-up member (2) is provided with fine setting type antenna part (3), its characterized in that: a positioning beam rod (4) is installed at the top end of an antenna rod (1), a steering adjusting part (5) is arranged at the lower end of the positioning beam rod (4), a protective cover (6) is installed at one side of the steering adjusting part (5), the positioning beam rod (4) comprises a mounting handle disc (41) installed at the top end of the antenna rod (1) and an extension rod (42) installed on the side surface of the mounting handle disc (41), a positioning sleeve frame (43) is installed at one side of the extension rod (42), the steering adjusting part (5) comprises a driving assembly (51) installed at one end of the extension rod (42) and an outer traction disc (53) arranged at one side of the driving assembly (51), a connecting sleeve rod (52) is installed on the side surface of the extension rod (42), the outer traction disc (53) is sleeved at one end of the connecting sleeve rod (52), a sleeved traction disc (54) is installed at one side of the outer traction disc (53), and the sleeved traction disc (54) is sleeved on the surface of the antenna rod (1), the surfaces of the driving assembly (51), the outer traction disc (53) and the sleeved traction disc (54) are sleeved with a guide traction belt (55);

the protective cover (6) comprises a cover plate (61) arranged at the upper end of the fine adjustment type antenna element (3) and a fan (62) arranged on the surface of the cover plate (61), a splicing long rod (63) is installed at one end of the cover plate (61), an adjusting fluted disc (64) is installed at one end of the splicing long rod (63), a driving assembly (51) comprises a base disc (511) arranged on the surface of the extension rod (42) and a splicing connecting rod (512) installed on one side of the base disc (511), an active traction disc (513) is arranged at one end of the splicing connecting rod (512), the middle ends of the base disc (511), the splicing connecting rod (512) and the active traction disc (513) are respectively provided with a driving rotating shaft (515), a positioning clamping ring (514) is arranged on the side surface of the base disc (511), the positioning clamping ring (514) is arranged on the inner side of the splicing connecting rod (512), the adjusting fluted disc (64) comprises a gear disc element (641) and a limiting convex circular block (642) arranged on the side surface of the gear disc element (641), the gear disc piece (641) is arranged between the base disc (511) and the driving traction disc (513), the other side of the gear disc piece (641) is connected with the splicing long rod (63), a limiting annular groove (643) is formed in the side surface of the limiting convex circular block (642), the size of the limiting annular groove (643) is larger than that of the positioning clamping ring (514), and the limiting annular groove (643) is connected with the positioning clamping ring (514);

the inner side surface of the driving traction disc (513) is provided with a butt joint sticking ring (5131), the butt joint sticking ring (5131) is arranged at the outer side of the splicing connecting rod (512), the outer surface of butt joint paste ring (5131) is provided with annular flank of tooth (5132), annular flank of tooth (5132) is connected with gear dish spare (641) meshing, concatenation stock (63) are including the first butt joint pole (631) that is connected with the center of gear dish spare (641) and the second butt joint pole (632) that is connected with cover plate (61) one end, install activity commentaries on classics piece (633) between first butt joint pole (631) and the second butt joint pole (632), one side of activity commentaries on classics piece (633) is provided with drive extension piece (634), location control piece (635) are installed to the opposite side of activity commentaries on classics piece (633), the one end of drive extension piece (634) and location control piece (635) is connected with first butt joint pole (631), the other end of drive extension piece (634) and location control piece (635) is connected with second butt joint pole (632).

2. The fine tuning type efficient antenna capable of preventing the smashing injury of the floater in the bad weather as claimed in claim 1, wherein: the movable rotating piece (633) comprises a first joining block (6331) connected with the first butt rod (631) and a second joining block (6332) connected with the second butt rod (632), a movable connecting piece (6333) is installed between the first joining block (6331) and the second joining block (6332), and the driving extension piece (634) and the positioning control piece (635) are located on two sides of the movable connecting piece (6333).

3. The fine tuning type efficient antenna capable of preventing the smashing injury of the floater in the severe weather as claimed in claim 2, wherein: the driving extension piece (634) comprises mounting butt joint blocks (6341) arranged on the side surfaces of the first butt joint rod (631) and the second butt joint rod (632) and movable grooves (6342) formed in the surfaces of the mounting butt joint blocks (6341), and two groups of the mounting butt joint blocks (6341) are arranged.

4. The fine tuning type high efficiency antenna for preventing the injury of the floater in the bad weather as claimed in claim 3, wherein: the movable groove (6342) is internally provided with a sleeving rotating shaft (6343), the movable groove (6342) is internally provided with a connecting semicircular block (6344), the installation butt joint block (6341) is connected with the connecting semicircular block (6344) through the sleeving rotating shaft (6343), the connecting semicircular blocks (6344) are provided with two groups, and a driving telescopic rod (6345) is installed between the two groups of connecting semicircular blocks (6344).

5. The fine tuning type efficient antenna capable of preventing the smashing injury of the floater in the severe weather as claimed in claim 4, wherein: the positioning control piece (635) comprises a fixed connection block (6351) arranged on the side surface of each of the first connecting rod (631) and the second connecting rod (632) and a first folding rod (6352) arranged on the inner side of the fixed connection block (6351), a second folding rod (6353) is arranged on the inner side of the first folding rod (6352), one end of the first folding rod (6352) is connected with one group of fixed connection blocks (6351), and one end of the second folding rod (6353) is connected with the other group of fixed connection blocks (6351).

6. The fine tuning type efficient antenna capable of preventing the smashing injury of the floater in the bad weather as claimed in claim 5, wherein: the first folding rod (6352) comprises a transverse outer rod (63521) connected with the fixed connection block (6351) and a sliding open groove (63522) formed in the surface of the transverse outer rod (63521), and positioning sliding grooves (63523) are formed in two sides of the inner portion of the sliding open groove (63522).

7. The fine tuning type efficient antenna capable of preventing the smashing injury of the floater in the severe weather as claimed in claim 6, wherein: the second folding rod (6353) comprises a transverse inner rod (63531) connected with the sliding open groove (63522) and a communicating through sliding groove (63532) formed in the surface of the transverse inner rod (63531), a butt-joint connecting rod (63533) is arranged inside the communicating through sliding groove (63532), two ends of the butt-joint connecting rod (63533) are connected with the positioning sliding groove (63523), and the transverse outer rod (63521) is connected with the transverse inner rod (63531) through the butt-joint connecting rod (63533).

8. The fine tuning type high efficiency antenna for preventing the injury of the floater in the bad weather as claimed in claim 7, wherein: the sleeve joint traction disc (54) comprises a splicing rotating ring (541) sleeved on the surface of the antenna rod (1) and traction swing rods (543) arranged on the surfaces of the two sides of the splicing rotating ring (541), two groups of traction swing rods (543) are arranged, and one end of each group of traction swing rods (543) is provided with a butt joint handle block (542).

9. The fine tuning type high efficiency antenna for preventing the injury of the floater in the bad weather as claimed in claim 8, wherein: the locating sleeve frame (43) comprises an L-shaped connecting rod (431) and a butt joint handle bar (432), wherein one end of the L-shaped connecting rod (431) is connected with the side surface of the extension rod (42), the butt joint handle bar (432) is arranged at one end of the L-shaped connecting rod (431), two ends of the butt joint handle bar (432) are provided with limiting lantern rings (433), and the limiting lantern rings (433) are connected with a first butt joint rod (631).

10. The method for preventing a fine-tuned high-efficiency antenna from being injured by a floating object in severe weather as claimed in claim 9, wherein: the method comprises the following steps:

s1: when the antenna is in bad weather, the driving rotating shaft (515) is started, the base disc (511) and the driving traction disc (513) rotate along with the base disc, the splicing rotating ring (541) rotates along the antenna rod (1), the outer traction disc (53) rotates along the connecting sleeve rod (52), the adjusting fluted disc (64) is in a rotating state, the edge of the positioning clamping ring (514) is clamped on the inner side of the limiting annular groove (643), and the adjusting fluted disc (64) drives the protective cover (6) to integrally rotate;

s2: by shortening the comprehensive length of the driving extension piece (634), the second butt joint rod (632) is folded relative to the first butt joint rod (631) through the movable rotating piece (633), the cover plate (61) swings to the right upper end of the fine adjustment type antenna piece (3) through the movable rotating piece (633) to form a shielding cover and is in an inclined state, and at the moment, the fan (62) faces to the right upper end of the fine adjustment type antenna piece (3) to apply wind power to the fine adjustment type antenna piece (3) from top to bottom;

s3: when the comprehensive length of the driving extension piece (634) is shortened, the distance between two groups of installation butt-joint blocks (6341) is continuously close, the distance between two groups of fixed joint blocks (6351) is continuously far away, a transverse inner rod (63531) slides relative to a sliding joint open groove (63522), two groups of limiting lantern rings (433) position a splicing long rod (63), the splicing long rod (63) rotates relative to the limiting lantern rings (433), and the L-shaped connecting rod (431) is fixedly connected with an extension rod (42) to integrally support the protective cover (6);

s4: when the flying birds surround the fine adjustment type antenna element (3) in normal weather, the guide traction belt (55) drives the driving assembly (51), the outer traction disc (53) and the splicing rotating ring (541) to rotate, the cover plate (61) rotates by taking the splicing long rod (63) as an axis, wind force is applied to the periphery through the fan (62) on the surface of the cover plate (61), the rotating cover plate (61) drives the flying birds at the periphery, and the flying birds are impacted by the applied wind current, and therefore all implementation steps are completed.

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