CN111021812A

CN111021812A - Small-size adjustable 5G signal reception tower

Info

Publication number: CN111021812A
Application number: CN201911179431.8A
Authority: CN
Inventors: 雷谢明
Original assignee: 雷谢明
Current assignee: CERTUSNET Corp.
Priority date: 2019-11-27
Filing date: 2019-11-27
Publication date: 2020-04-17
Anticipated expiration: 2039-11-27
Also published as: CN111021812B

Abstract

The invention discloses a small adjustable 5G signal receiving tower, which structurally comprises a lightning rod, a loop bar, radiating holes, an antenna mounting groove, an exhaust winding ring, a positioning winding-proof wire holder and a positioning adjusting frame, and has the following effects: the movable mechanism is supported on the ground through three movable support rods in an equilateral triangle structure, the movable support rods are quickly positioned by utilizing the positioning support legs arranged at the bottom ends of the movable support rods, wind energy can be converted into sleeve rod efficient rotating mechanical energy by the movable mechanism, and meanwhile, antenna mounting grooves on two sides of the sleeve rod are driven to rotate, so that the signal receiving antenna can circumferentially move in situ, the signal receiving efficiency of the signal receiving antenna is improved, and the signal delay is reduced.

Description

Small-size adjustable 5G signal reception tower

Technical Field

The invention relates to the field of 5G antennas, in particular to a small adjustable 5G signal receiving tower.

Background

A base station, i.e. a public mobile communication base station, is an interface device for accessing the internet of a mobile device, and is also a form of a radio station, and refers to a radio transceiver station for information transmission between a mobile device and a mobile phone terminal through a mobile communication switching center in a certain radio coverage area, one of important components in the base station is a signal receiving antenna, the manufacturing of the mobile signal receiving antenna is an important part of investment of a communication operator, the manufacturing of the mobile signal receiving antenna is generally performed around the factors of coverage, call quality, investment benefit, difficulty in construction, convenience in maintenance and the like, as communication network services develop towards the direction of datamation and packetization, the development trend of the mobile signal receiving antenna is inevitably wide-band, large-coverage construction and IP formation, and the signal receiving surface of the existing mobile signal receiving antenna is generally set in a directional manner, the receiving of the multi-directional signals has certain delay, and the transmission and the receiving of the future 5G signals cannot be satisfied, so that a small and adjustable 5G signal receiving antenna needs to be developed, and the problems that the signal receiving surface of the existing mobile signal receiving antenna is generally arranged in a directional mode, the receiving of the multi-directional signals has certain delay, and the transmission and the receiving of the future 5G signals cannot be satisfied are solved.

Summary of the invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: a small adjustable signal receiving tower structurally comprises a lightning rod, a loop bar, heat dissipation holes, an antenna mounting groove, an exhaust winding ring, a positioning anti-winding wire holder and a positioning adjusting frame, the top of the positioning adjusting frame is provided with a loop bar which is vertically arranged on the positioning adjusting frame and is matched with the positioning adjusting frame by screw threads, the top end of the loop bar is provided with a lightning rod, the lightning rod is connected with the loop bar, the outer ring of the loop bar is provided with an exhaust winding ring, the exhaust winding ring is embedded and fixed on a notch on the surface of the sleeve rod, the sleeve rod is provided with a positioning anti-winding wire holder, the positioning anti-winding wire holder is connected with the loop bar, an antenna installation groove is arranged above the positioning anti-winding wire holder, the antenna mounting groove is arranged along the outer ring of the loop bar and connected with the loop bar, and radiating holes are uniformly distributed at the rear end of the antenna mounting groove.

As a further optimization of the technical scheme, the positioning winding-proof wire holder consists of a sliding seat, an antenna connector, a fixed inner ring, an outer cover, a conductive copper rail, a connecting copper rod, a bottom ring and a cable connector, wherein the fixed inner ring is arranged at the center of the outer cover, the fixed inner ring and the fixed inner ring are in interference fit, the outer cover is connected with a loop bar through the fixed inner ring, the antenna connector is arranged at the top of the outer cover, the antenna connector is vertically fixed on a notch on the top surface of the outer cover, the conductive copper rail is arranged in the outer cover and connected with the antenna connector, the bottom ring is arranged at the bottom of the outer cover, the sliding seat is arranged at the top of the bottom ring, the bottom ring is in sliding fit with a sliding groove in the outer cover through the sliding seat, the cable connector is arranged at the bottom of the bottom ring, and the cable connector, the fixed inner ring both sides be equipped with two and connect the copper pole, the connection copper pole bottom run through bottom ring and cable joint fixed connection, connection copper pole top and electrically conductive copper rail adopt sliding fit.

As a further optimization of the technical scheme, the positioning adjusting frame consists of a movable mechanism, a bearing ring, movable support rods, positioning support legs and a limiting outer ring, the bottom of the movable mechanism is provided with the limiting outer ring, the central position of the limiting outer ring is provided with the bearing ring, the limiting outer ring is connected with the movable mechanism through the bearing ring, the outer ring of the limiting outer ring is provided with the movable support rods, the movable support rods are movably connected with the limiting outer ring through round pin shafts, the bottom ends of the movable support rods are provided with the positioning support legs, and the positioning support legs are movably connected with the movable support rods.

As a further optimization of the technical scheme, the movable mechanism comprises a rotary drum, a circular cavity, an impeller, an air inlet seat, a chute and flat blades, wherein the top end of the rotary drum is in threaded fit with a sleeve rod, the middle section of the rotary drum is provided with the circular cavity, the circular cavity and the rotary drum are of an integrated structure, the impeller is arranged at the center inside the circular cavity, the outer ring of the impeller is fixedly connected with the inner wall of the circular cavity, the air inlet seat is arranged at the bottom of the rotary drum, the air inlet seat is in threaded fit with the rotary drum, the flat blades are arranged on the outer wall of the rotary drum, and the blades are connected with the rotary drum.

As the further optimization of this technical scheme, the location stabilizer blade constitute by bull stick, screw rod, connecting seat, location triangle anchor, lower hob, last hob, connecting seat and activity branch adopt hinge fit, connecting seat central point put and be equipped with the screw rod, screw rod and connecting seat adopt screw-thread fit, the screw rod top be equipped with the bull stick, bull stick and screw rod adopt interference fit, connecting seat below be equipped with location triangle anchor, location triangle anchor about both ends be equipped with hob and lower hob, last hob and lower hob and location triangle anchor structure as an organic whole, location triangle anchor pass through last hob and screw rod and be connected.

As a further optimization of the technical scheme, the exhaust winding ring is of a vertical spiral structure, and exhaust holes are uniformly distributed on the surface of the exhaust winding ring.

As a further optimization of the technical scheme, the surface of the flat blade is distributed with chutes which are parallel to each other in sequence, and the chutes and the flat blade are of an integrated structure.

Advantageous effects

The small adjustable signal receiving tower has the advantages of reasonable design, strong functionality and the following beneficial effects:

the movable mechanism is supported on the ground through three movable support rods arranged in an equilateral triangle structure, the movable support rods are quickly positioned by utilizing the positioning support legs arranged at the bottom ends of the movable support rods, wind energy can be converted into efficient rotating mechanical energy of the loop bar by the movable mechanism, and meanwhile, antenna mounting grooves on two sides of the loop bar are driven to rotate, so that a signal receiving antenna can circumferentially move in situ, the receiving efficiency of the signal receiving antenna on the signal is improved, the delay of the signal is reduced, and meanwhile, all the parts are connected in a detachable mode, so that the movable mechanism has the characteristic of quick disassembly and assembly, and is convenient to adjust, transport and store in moving;

the positioning anti-winding wire holder is fixed on the loop bar through the fixed inner ring, and the antenna joint and the cable joint are in sliding fit with each other through the conductive copper rail, the connecting copper rod and the sliding seat, so that the conductive connection of the antenna joint and the cable joint is realized, the cable joint can be ensured to keep a static state under the condition of conductive transmission after the cable joint is connected, and the condition that the antenna cannot perform in-situ circumferential motion due to the fact that the two cables are wound with each other is prevented;

according to the invention, the flat blade is arranged on the outer wall of the rotary drum, the inclined grooves which are parallel to each other are arranged on the surface of the flat blade, the windward effect of the flat blade can be increased by arranging the inclined grooves, the rotating efficiency of the rotary drum is improved, the circular cavity is arranged at the middle section position of the rotary drum, the impeller is arranged in the circular cavity, under the condition of rotation of the rotary drum, the impeller rotates along with the rotating lead of the rotary drum, external air is sucked by the air inlet seat in the rotating process of the impeller, and is discharged into the loop bar after being pressurized, because the exhaust winding ring is arranged on the outer wall of the loop bar, the exhaust winding ring is of a vertical spiral structure, and exhaust holes are uniformly distributed on the surface of the exhaust winding ring, and airflow discharged into the loop bar after being pressurized is sequentially sprayed from the exhaust holes on the surface of the exhaust winding ring from bottom to;

according to the invention, the upper spiral rod and the lower spiral rod are arranged at the upper end and the lower end of the positioning triangular anchor, when the screw rod is rotated clockwise, the screw rod synchronously drives the positioning triangular anchor, the lower spiral rod and the upper spiral rod to rotate, so that the lower spiral rod gradually drills into soil, the positioning triangular anchor drives the soil, and the positioning triangular anchor is reversely inserted.

Drawings

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

FIG. 1 is a schematic diagram of a front view of a small adjustable 5G signal receiving tower according to the present invention;

FIG. 2 is a schematic cross-sectional view of the positioning and anti-winding wire holder of the present invention;

fig. 3 is a front view of the positioning adjustment frame of the present invention.

FIG. 4 is a front view of the movable mechanism of the present invention;

fig. 5 is a front view of the positioning leg of the present invention.

In the figure: lightning rod-1, loop bar-2, heat dissipation hole-3, antenna installation groove-4, exhaust winding ring-5, positioning anti-winding wire holder-6, slide seat-61, antenna joint-62, fixed inner ring-63, outer cover-64, conductive copper rail-65, connecting copper rod-66, bottom ring-67, cable joint-68, positioning adjusting frame-7, movable mechanism-71, rotary drum-71 a, circular cavity-71 b, impeller-71 c, air inlet seat-71 d, chute-71 e, flat blade-71 f, bearing ring-72, movable support rod-73, positioning support leg-74, rotary rod-74 a, screw rod-74 b, connecting seat-74 c, positioning triangular anchor-74 d, lower screw rod-74 e, positioning triangular anchor-74 d, and the like, An upper screw rod-74 f and a limit outer ring-75.

Detailed Description

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

Examples

Referring to fig. 1-5, the present invention provides a small and adjustable 5G signal receiving tower, which comprises:

referring to fig. 1, a small-sized adjustable 5G signal receiving tower comprises a lightning rod 1, a loop bar 2, a heat dissipation hole 3, antenna installation grooves 4, an exhaust winding ring 5, a positioning winding-proof wire holder 6 and a positioning adjusting frame 7, wherein the top of the positioning adjusting frame 7 is provided with the loop bar 2, the loop bar 2 is vertically arranged on the positioning adjusting frame 7 and is in threaded fit with the positioning adjusting frame 7, the top end of the loop bar 2 is provided with the lightning rod 1, the lightning rod 1 is connected with the loop bar 2, the loop bar 2 is in a hollow cylindrical structure, the outer ring is provided with the exhaust winding ring 5, the exhaust winding ring 5 is embedded and fixed on a notch on the surface of the loop bar 2, the loop bar 2 is provided with the positioning winding-proof wire holder 6, the positioning winding-proof wire holder 6 is connected with the loop bar 2, two antenna installation grooves 4 are arranged above the positioning winding-proof wire holder 6 in an axial symmetry structure, antenna mounting groove 4 set up along loop bar 2 outer lane, antenna mounting groove 4 and loop bar 2 connect, 4 rear end evenly distributed of antenna mounting groove have louvre 3, exhaust wind ring 5 be perpendicular helical structure and on the surface evenly distributed have the exhaust hole.

Referring to fig. 2, the positioning anti-winding wire holder 6 is composed of a sliding base 61, an antenna connector 62, a fixed inner ring 63, an outer cover 64, a conductive copper rail 65, a connecting copper rod 66, a bottom ring 67, and a cable connector 68, wherein the outer cover 64 is a hollow circular structure, the fixed inner ring 63 is arranged at the center of the outer cover 64, the fixed inner ring 63 and the fixed inner ring 63 are in interference fit, the outer cover 64 is connected with the loop bar 2 through the fixed inner ring 63, two antenna connectors 62 are arranged on the top of the outer cover 64 in parallel and equidistantly, the antenna connectors 62 are vertically fixed on a notch on the top surface of the outer cover 64, the conductive copper rail 65 is arranged inside the outer cover 64 and connected with the antenna connector 62, the bottom ring 67 is arranged at the bottom of the outer cover 64, four sliding bases 61 are uniformly arranged on the top of the bottom ring 67 at equal intervals, the sliding base ring 67 is in sliding fit with a sliding groove arranged inside, parallel equidistance in end ring 67 bottom be equipped with two cable joint 68, cable joint 68 install perpendicularly in end ring 67 bottom, fixed inner ring 63 both sides be equipped with two and connect copper pole 66, connection copper pole 66 bottom run through end ring 67 and cable joint 68 fixed connection, connection copper pole 66 top and electrically conductive copper rail 65 adopt sliding fit.

Referring to fig. 3, the positioning adjustment frame 7 is composed of a movable mechanism 71, a bearing ring 72, movable support rods 73, positioning support legs 74 and a limiting outer ring 75, the bottom of the movable mechanism 71 is provided with the limiting outer ring 75, the center of the limiting outer ring 75 is provided with the bearing ring 72, the limiting outer ring 75 is connected with the movable mechanism 71 through the bearing ring 72, three movable support rods 73 are uniformly arranged on the outer ring of the limiting outer ring 75 at equal intervals, the movable support rods 73 are movably connected with the limiting outer ring 75 through round pin shafts, the bottom ends of the movable support rods 73 are provided with the positioning support legs 74, and the positioning support legs 74 are movably connected with the movable support rods 73.

Referring to fig. 4, the movable mechanism 71 is composed of a rotating cylinder 71a, a circular cavity 71b, an impeller 71c, an air inlet seat 71d, a chute 71e, and flat blades 71f, the top end of the rotating cylinder 71a is in threaded fit with the loop bar 2, the circular cavity 71b is disposed at the middle section of the rotating cylinder 71a, the circular cavity 71b and the rotating cylinder 71a are in an integrated structure, the impeller 71c is disposed at the center inside the circular cavity 71b, the outer ring of the impeller 71c is fixedly connected with the inner wall of the circular cavity 71b, the air inlet seat 71d is disposed at the bottom of the rotating cylinder 71a, the air inlet seat 71d and the rotating cylinder 71a are in threaded fit, four flat blades 71f are uniformly disposed on the outer wall of the rotating cylinder 71a at equal intervals, each flat blade 71f surrounds a to form a ring wall structure, the blades 71f are connected with the rotating cylinder 71a, the chutes 71e are uniformly distributed on the surface of the flat blades 71f and are parallel to each other, the chute 71e and the flat blade 71f are of an integrated structure.

Referring to fig. 5, the positioning leg 74 is composed of a rotating rod 74a, a screw 74b, a connecting seat 74c, a positioning triangular anchor 74d, a lower screw rod 74e, and an upper screw rod 74f, the connecting seat 74c and the movable support rod 73 are matched by a hinge, a screw 74b is arranged at the center of the connecting seat 74c, the screw 74b is in threaded fit with the connecting seat 74c, the top end of the screw 74b is provided with a rotating rod 74a, the rotating rod 74a and the screw rod 74b are in interference fit, a positioning triangular anchor 74d is arranged below the connecting seat 74c, the upper end and the lower end of the positioning triangular anchor 74d are provided with an upper screw rod 74f and a lower screw rod 74e, the upper screw rod 74f and the lower screw rod 74e are integrated with the positioning triangular anchor 74d, and the positioning triangular anchor 74d is connected with the screw 74b through the upper screw rod 74 f.

The specific realization principle is as follows:

the movable mechanism 71 is supported on the ground through three movable support rods 73 arranged in an equilateral triangle structure, the movable support rods 73 are quickly positioned by utilizing the positioning support feet 74 arranged at the bottom ends of the movable support rods 73, the movable mechanism 71 can convert wind energy into high-efficiency rotating mechanical energy of the loop bar 2 and simultaneously drive the antenna mounting grooves 4 at two sides of the loop bar 2 to rotate, so that the signal receiving antenna can circumferentially move in situ, the signal receiving efficiency of the signal receiving antenna is improved, and the delay of signals is reduced, meanwhile, all the components of the invention are connected in a detachable mode, have the characteristic of quick disassembly and assembly, are convenient to accommodate in adjustment and carrying movement, because the flat plate blade 71f is arranged on the outer wall of the rotary drum 71a, and the inclined grooves which are parallel to each other are arranged on the surface of the flat plate blade 71f, the windward effect of the flat plate blade 71f can be, the middle section of the drum 71a is provided with a circular cavity 71b, the impeller 71c is installed in the circular cavity 71b, under the condition that the drum 71a rotates, the impeller 71c rotates along with the rotating lead of the drum 71a, the impeller 71c sucks external air from the air inlet seat 71d during the rotation process, the air is discharged into the loop bar 2 after being pressurized, because the outer wall of the loop bar 2 is provided with the exhaust winding ring 5, the exhaust winding ring 5 is in a vertical spiral structure and the surface is uniformly provided with exhaust holes, the air flow discharged into the loop bar 2 after being pressurized is sequentially sprayed from the exhaust holes on the surface of the exhaust winding ring 5 from bottom to top in a spiral shape, the rotating efficiency of the loop bar 2 and the drum 71a can be greatly improved, the antenna can rotate uniformly under the driving of the loop bar 2, because the upper and lower ends of the positioning triangular anchor 74d are provided with an upper spiral rod 74f and a lower spiral rod 74e, when the screw rod 74b rotates clockwise, the screw rod 74b synchronously drives the positioning triangular anchor 74d, the lower spiral rod 74, the lower screw rod 74e is gradually drilled into the soil, the positioning triangular anchor 74d is driven into the soil, and the positioning triangular anchor 74d is reversely inserted, so that the fixing degree between the lower screw rod and the soil can be improved, when the positioning triangular anchor 74d is deeply inserted into the soil, the screw rod 74b is continuously rotated, the upper screw rod 74f is gradually drilled into the soil, the positioning of the positioning triangular anchor 74d in the soil is realized, so that the stability of the movable support rod 73 is improved, because the positioning anti-winding wire holder 6 is fixed on the loop bar 2 through the fixed inner ring 63, because the antenna connector 62 and the cable connector 68 are in sliding fit with each other through the conductive copper rail 65, the connecting copper rod 66 and the sliding seat 61, the conductive connection between the antenna connector 62 and the cable connector 68 is realized, the rotation of the antenna connector 62 along with the antenna can be ensured, and the cable connector 68 can be kept in a static state under the condition of conductive transmission after the cable connector is, therefore, the situation that the antenna cannot perform in-situ circumferential motion due to the fact that the two cables are mutually wound is prevented.

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

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

Claims

1. The utility model provides a small-size adjustable 5G signal reception tower, its structure includes lightning rod (1), loop bar (2), louvre (3), antenna mounting groove (4), exhaust winding ring (5), location are prevented winding wire holder (6), positioning adjustment frame (7), its characterized in that:

location alignment jig (7) top be equipped with loop bar (2), loop bar (2) top be equipped with lightning rod (1), loop bar (2) outer lane on be equipped with exhaust winding ring (5), loop bar (2) on be equipped with the location and prevent winding wire holder (6), the location prevent winding wire holder (6) top and be equipped with antenna mounting groove (4), antenna mounting groove (4) rear end be equipped with louvre (3).

2. The small adjustable 5G signal receiving tower as claimed in claim 1, wherein: location prevent around connection terminal (6) constitute by slide (61), antenna connector (62), fixed inner ring (63), dustcoat (64), electrically conductive copper rail (65), connection copper pole (66), end ring (67), cable joint (68), dustcoat (64) central point put and be equipped with fixed inner ring (63), dustcoat (64) top be equipped with antenna connector (62), dustcoat (64) inside be equipped with electrically conductive copper rail (65), dustcoat (64) bottom be equipped with end ring (67), end ring (67) top be equipped with slide (61), end ring (67) bottom be equipped with cable joint (68), fixed inner ring (63) both sides be equipped with connection copper pole (66).

3. The small adjustable 5G signal receiving tower as claimed in claim 2, wherein: location alignment jig (7) constitute by activity mechanism (71), bearing ring (72), activity branch (73), location stabilizer blade (74), spacing outer loop (75), activity mechanism (71) bottom be equipped with spacing outer loop (75), spacing outer loop (75) central point put and be equipped with bearing ring (72), spacing outer loop (75) outer lane on be equipped with activity branch (73), activity branch (73) bottom be equipped with location stabilizer blade (74).

4. The small adjustable 5G signal receiving tower as claimed in claim 3, wherein: the movable mechanism (71) consists of a rotary drum (71a), a circular cavity (71b), an impeller (71c), an air inlet seat (71d), a chute (71e) and a flat plate blade (71f), the circular cavity (71b) is arranged at the middle section of the rotary drum (71a), the impeller (71c) is arranged at the center of the circular cavity (71b), the air inlet seat (71d) is arranged at the bottom of the rotary drum (71a), and the flat plate blade (71f) is arranged on the outer wall of the rotary drum (71 a).

5. The small adjustable 5G signal receiving tower as claimed in claim 3, wherein: location stabilizer blade (74) constitute by bull stick (74a), screw rod (74b), connecting seat (74c), location triangle anchor (74d), lower screw rod (74e), last screw rod (74f), connecting seat (74c) central point put and be equipped with screw rod (74b), screw rod (74b) top be equipped with bull stick (74a), connecting seat (74c) below be equipped with location triangle anchor (74d), location triangle anchor (74d) about both ends be equipped with screw rod (74f) and lower screw rod (74 e).

6. The small adjustable 5G signal receiving tower as claimed in claim 1, wherein: the exhaust winding ring (5) is of a vertical spiral structure, and exhaust holes are uniformly distributed on the surface of the exhaust winding ring.

7. The small adjustable 5G signal receiving tower as claimed in claim 4, wherein: inclined grooves (71e) which are parallel to each other in sequence are distributed on the surface of the flat blade (71 f).