CN214706211U - Large-field-angle spotlight antenna for 5G community coverage - Google Patents

Abstract

The utility model discloses a large-opening-angle spotlight antenna for 5G cell coverage, which is characterized by comprising an antenna box (1), an antenna cover (2), a main circuit board, a feeder line (3) and a large-angle bracket (4); the large-angle bracket (4) is arranged at the bottom of the antenna; the main circuit board is arranged in the antenna box (1); the antenna housing (2) is covered at the top of the antenna box (1) and forms a closed structure with the antenna box (1); a wiring hole for a feeder (3) to penetrate through is formed in the side part of the antenna box (1); one end of the feeder line (3) is in circuit connection with the main circuit board, and the other end of the feeder line penetrates through the antenna box (1) from the wiring hole. The utility model discloses a big flare angle shot-light antenna for 5G district covers can strengthen the district coverage, avoids appearing the signal blind area and can reduce the density that the antenna set up to reduce the configuration cost.

Description

Large-field-angle spotlight antenna for 5G community coverage

Technical Field

The utility model relates to an electronic communication field especially relates to a big flare angle shot-light antenna for 5G district covers.

Background

With the development and the common application of the 5G communication technology, the antenna becomes an important component of an antenna feeder (3) system of a 5G technology mobile communication base station. In a residential cell covered by a 5G network, the existing antenna has insufficient field angle, so that the problem of a blind area in 5G mobile communication signal coverage is caused, and the problem of influence on data communication quality due to poor coverage of the 5G network signal in the cell is caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a big flare angle shot-light antenna for 5G district covers.

The utility model provides a big flare angle shot-light antenna for 5G district covers, including antenna box (1), antenna house (2), main circuit board, feeder (3) and big angle support (4); the large-angle bracket (4) is arranged at the bottom of the antenna; the main circuit board is arranged in the antenna box (1); the antenna housing (2) is covered at the top of the antenna box (1) and forms a closed structure with the antenna box (1); a wiring hole for a feeder (3) to penetrate through is formed in the side part of the antenna box (1); one end of the feeder line (3) is in circuit connection with the main circuit board, and the other end of the feeder line penetrates through the antenna box (1) from the wiring hole.

The large-angle support (4) comprises a first support body (41), a second support body (42) and a third support body (43); the first frame body (41), the second frame body (42) and the third frame body (43) are sequentially and rotatably connected from bottom to top. The first frame body (41) comprises a first bending plate (411), a second bending plate (412) and a third bending plate (413); the second bending plate (412) and the third bending plate (413) are respectively arranged at two side parts of the first bending plate (411); the first bending plate (411) is of a rectangular plate-shaped structure with an arc-shaped chamfer; the second bending plate (412) and the third bending plate (413) are both of ear-shaped plate structures with semicircular tops. A first arc-shaped assembling hole (4111), a second arc-shaped assembling hole (4112), a third arc-shaped assembling hole (4113) and a fourth arc-shaped assembling hole (4114) are formed in the first bending plate (411); first arc pilot hole (4111), second arc pilot hole (4112), third arc pilot hole (4113) and fourth arc pilot hole (4114) are symmetrically enclosed and arranged. A fifth assembling hole (4125) is formed in the second bending plate (412); a sixth assembling hole (4136) is formed in the third bending plate (413); the fifth assembly hole (4125) and the sixth assembly hole (4136) are both arc-shaped holes. The second frame body (42) comprises a fourth bending plate (424), a fifth bending plate (425), a sixth bending plate (426), a seventh bending plate (427) and an eighth bending plate (428); the fourth bending plate (424) is a plate-shaped structure which is consistent with the first bending plate (411) in size and shape; the fifth bending plate (425), the sixth bending plate (426), the seventh bending plate (427) and the eighth bending plate (428) are all ear-shaped plate-shaped structures with semicircular tops; the fifth bending plate (425) and the sixth bending plate (426) are arranged oppositely; the seventh bending plate (427) and the eighth bending plate (428) are arranged oppositely; said fifth bend plate (425) and sixth bend plate (426) extending vertically in the direction of the bottom of said fourth bend plate (424); the fifth bend plate (425) and sixth bend plate (426) extend vertically in the direction of the top of fourth bend plate (424). The fourth bending plate (424) is provided with a plurality of circular assembling holes (400). The third frame body (43) comprises a ninth bending plate (439), a tenth bending plate (4310) and an eleventh bending plate (4311); the tenth bending plate (4310) and the eleventh bending plate (4311) are oppositely arranged at two side edges of the ninth bending plate (439) and form an integral structure with the ninth bending plate (439); a plurality of straight-line-shaped assembly holes (4312) with different lengths are formed in the ninth bending plate (439); a seventh arc-shaped assembling hole (4317) is formed in the tenth bending plate (4310); and an eighth arc-shaped assembly hole is formed in the eleventh bent (4311) plate. Said ninth bend plate (439) has the same size and structure as first bend plate (411); the length of the side edge of the first bending plate (411) provided on the second bending plate (412) and the third bending plate (413) is smaller than the length of the side edge of the ninth bending plate (439) provided on the tenth bending plate (4310) and the eleventh bending plate (4311). The second bending plate (412) and the third bending plate (413) extend vertically to the top direction of the first bending plate (411); the tenth bending plate (4310) and the eleventh bending plate (4311) extend vertically in the direction of the bottom of the ninth bending plate (439); the first frame body (41), the second frame body (42) and the third frame body (43) are fastened through screws (500).

The utility model provides a big flare angle shot-light antenna for 5G district covers for use at the residential quarter that covers at 5G network, can realize adjusting antenna operating angle according to floor actual conditions through wide-angle support, improve antenna horizontal direction or vertical direction signal cover, reinforcing district coverage avoids appearing the signal blind area and can reduce the density that the antenna set up, thereby reduces the configuration cost.

Drawings

Fig. 1 is a schematic structural view of a large-aperture spot lamp antenna for 5G cell coverage according to an embodiment of the present invention;

fig. 2 is a schematic view of a large-angle bracket structure in a large-aperture spot light antenna for 5G cell coverage according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a third frame in a large-aperture spot light antenna for 5G cell coverage according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a second frame in a large-aperture spot light antenna for 5G cell coverage according to an embodiment of the present invention;

fig. 5 is a schematic structural view of a first frame body in a large-aperture spot light antenna for 5G cell coverage according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1 to 5, the present embodiment provides a large field angle spot light antenna for 5G cell coverage, which includes an antenna box 1, an antenna housing 2, a main circuit board, a feeder line 3, and a large angle bracket 4; the large-angle bracket 4 is arranged at the bottom of the antenna; the main circuit board is arranged in the antenna box 1; the antenna housing 2 is covered on the top of the antenna box 1 and forms a closed structure with the antenna box 1; a wiring hole for a feeder 3 to penetrate is formed in the side of the antenna box 1; one end of the feeder line 3 is in circuit connection with the main circuit board, and the other end of the feeder line penetrates through the antenna box 1 from the wiring hole. As can be understood by those skilled in the art, the antenna box 1, the antenna housing 2, the main circuit board and the feeder 3 form a spot light antenna, and the spot light antenna can realize large-angle signal coverage through a large-angle support 4 arranged at the bottom of the spot light antenna, so that the signal coverage rate of a cell is higher.

The large-angle bracket 4 comprises a first bracket body 41, a second bracket body 42 and a third bracket body 43; the first frame body 41, the second frame body 42 and the third frame body 43 are rotatably connected from bottom to top in sequence. A person skilled in the art can connect, and by rotating the first frame body 41 and the second frame body 42 and rotating the second frame body 42 and the third frame body 43, a large-angle adjustment can be formed between the first frame body 41 and the third frame body 43, so as to achieve the large-angle adjustment of the antenna box 1.

The first frame 41 includes a first bending plate 411, a second bending plate 412 and a third bending plate 413; the second bending plate 412 and the third bending plate 413 are respectively disposed at two sides of the first bending plate 411; the first bending plate 411 is a rectangular plate-shaped structure with an arc-shaped chamfer; second bending plate 412 and third bending plate 413 are both ear-shaped plate structures with semicircular tops. It will be understood by those skilled in the art that the first bending plate 411 is used to fix the wide-angle bracket 4 provided in the present embodiment to a wall or a dedicated mounting bracket; the second bending plate 412 and the third bending plate 413 are used for movably connecting the first frame body 41 and the second frame body 42.

A first arc-shaped assembling hole 4111, a second arc-shaped assembling hole 4112, a third arc-shaped assembling hole 4113 and a fourth arc-shaped assembling hole 4114 are formed in the first bending plate 411; first arc assembly hole 4111, second arc assembly hole 4112, third arc assembly hole 4113 and fourth arc assembly hole 4114 are symmetrically arranged in a surrounding manner. Those skilled in the art will appreciate that the arcuate mounting holes may be adapted to mate with mounting holes at various locations on a mounting bracket or wall surface.

A fifth assembling hole 4125 is formed in the second bending plate 412; a sixth assembling hole 4136 is formed in the third bending plate 413; the fifth and sixth fitting holes 4125 and 4136 are arc-shaped holes. It will be understood by those skilled in the art that the fifth and sixth assembling holes 4125 and 4136 are formed in an arc shape, so that the connection between the first frame body 41 and the second frame body 42 can be achieved at various angles, thereby being suitable for a large-angle design of the stand.

Second frame 42 includes fourth bending plate 424, fifth bending plate 425, sixth bending plate 426, seventh bending plate 427, and eighth bending plate 428; fourth bending plate 424 is a plate-like structure having the same size and shape as first bending plate 411; fifth bending plate 425, sixth bending plate 426, seventh bending plate 427, and eighth bending plate 428 are all ear-shaped plate structures with semicircular tops; fifth bending plate 425 and sixth bending plate 426 are disposed opposite to each other; seventh bend plate 427 and eighth bend plate 428 are disposed opposite to each other; fifth bend plate 425 and sixth bend plate 426 extend vertically in the direction of the bottom of fourth bend plate 424; fifth bend plate 425 and sixth bend plate 426 extend vertically in the direction of the top of fourth bend plate 424. As will be appreciated by those skilled in the art, fifth bending plate 425 and sixth bending plate 426 are provided to be coupled to first frame 41; the seventh bending plate 427 and the eighth bending plate 428 are used to connect with the third frame 43.

The fourth bending plate 424 is provided with a plurality of circular assembling holes 400. Those skilled in the art will appreciate that mounting can be performed using mounting holes appropriately positioned therein according to the particular mounting requirements.

Third frame 43 includes ninth bending plate 439, tenth bending plate 4310 and eleventh bending plate 4311; tenth bend plate 4310 and eleventh bend plate 4311 are disposed opposite to each other at two side edges of ninth bend plate 439 and form an integral structure with ninth bend plate 439; a plurality of straight-line-shaped assembling holes 4312 with different lengths are formed in the ninth bending plate 439; a seventh arc-shaped assembling hole 4317 is formed in the tenth bending plate 4310; and an eighth arc-shaped assembly hole is formed in the eleventh bent 4311 plate.

Ninth bend plate 439 has the same size and structure as first bend plate 411; the length of the side edge of first bending plate 411 provided in second bending plate 412 and third bending plate 413 is smaller than the length of the side edge of ninth bending plate 439 provided in tenth bending plate 4310 and eleventh bending plate 4311. This facilitates the connection of the second bending plate 412, the third bending plate 413, the tenth bending plate 4310 and the eleventh bending plate 4311 to the second frame 42 from different sides of the second frame 42.

The second bending plate 412 and the third bending plate 413 extend vertically to the top direction of the first bending plate 411; tenth bend plate 4310 and eleventh bend plate 4311 extend perpendicularly to the bottom of ninth bend plate 439.

The first frame body 41, the second frame body 42 and the third frame body 43 are fastened by screws 500.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (10)

1. A big flare angle shot-light antenna for 5G district coverage, characterized by, including antenna box (1), antenna house (2), main circuit board, feeder (3) and big angle support (4); the large-angle bracket (4) is arranged at the bottom of the antenna; the main circuit board is arranged in the antenna box (1); the antenna housing (2) is covered at the top of the antenna box (1) and forms a closed structure with the antenna box (1); a wiring hole for a feeder (3) to penetrate through is formed in the side part of the antenna box (1); one end of the feeder line (3) is in circuit connection with the main circuit board, and the other end of the feeder line penetrates through the antenna box (1) from the wiring hole.

2. A high aperture spot light antenna for 5G cell coverage according to claim 1, wherein the high angle bracket (4) comprises a first bracket (41), a second bracket (42) and a third bracket (43); the first frame body (41), the second frame body (42) and the third frame body (43) are sequentially and rotatably connected from bottom to top.

3. The large field angle spot light antenna for 5G cell coverage as claimed in claim 2, wherein the first frame (41) comprises a first bending plate (411), a second bending plate (412) and a third bending plate (413); the second bending plate (412) and the third bending plate (413) are respectively arranged at two side parts of the first bending plate (411); the first bending plate (411) is of a rectangular plate-shaped structure with an arc-shaped chamfer; the second bending plate (412) and the third bending plate (413) are both of ear-shaped plate structures with semicircular tops.

4. The big field angle spot lamp antenna for 5G cell coverage according to claim 3, wherein the first bending plate (411) is provided with a first arc-shaped assembling hole (4111), a second arc-shaped assembling hole (4112), a third arc-shaped assembling hole (4113) and a fourth arc-shaped assembling hole (4114); first arc pilot hole (4111), second arc pilot hole (4112), third arc pilot hole (4113) and fourth arc pilot hole (4114) are symmetrically enclosed and arranged.

5. The large field angle spot lamp antenna for 5G cell coverage as claimed in claim 4, wherein said second bent plate (412) is provided with a fifth assembling hole (4125); a sixth assembling hole (4136) is formed in the third bending plate (413); the fifth assembly hole (4125) and the sixth assembly hole (4136) are both arc-shaped holes.

6. The large field angle spot light antenna for 5G cell coverage as claimed in claim 5, wherein said second frame (42) comprises a fourth bending plate (424), a fifth bending plate (425), a sixth bending plate (426), a seventh bending plate (427), and an eighth bending plate (428); the fourth bending plate (424) is a plate-shaped structure which is consistent with the first bending plate (411) in size and shape; the fifth bending plate (425), the sixth bending plate (426), the seventh bending plate (427) and the eighth bending plate (428) are all ear-shaped plate-shaped structures with semicircular tops; the fifth bending plate (425) and the sixth bending plate (426) are arranged oppositely; the seventh bending plate (427) and the eighth bending plate (428) are arranged oppositely; said fifth bend plate (425) and sixth bend plate (426) extending vertically in the direction of the bottom of said fourth bend plate (424); the fifth bend plate (425) and sixth bend plate (426) extend vertically in the direction of the top of fourth bend plate (424).

7. The big field angle spot lamp antenna for 5G cell coverage as claimed in claim 6, wherein said fourth bending plate (424) is provided with a plurality of circular assembling holes (400).

8. The large field angle spot lamp antenna for 5G cell coverage as claimed in claim 7, wherein the third frame body (43) comprises a ninth bending plate (439), a tenth bending plate (4310) and an eleventh bending plate (4311); the tenth bending plate (4310) and the eleventh bending plate (4311) are oppositely arranged at two side edges of the ninth bending plate (439) and form an integral structure with the ninth bending plate (439); a plurality of straight-line-shaped assembly holes (4312) with different lengths are formed in the ninth bending plate (439); a seventh arc-shaped assembling hole (4317) is formed in the tenth bending plate (4310); and an eighth arc-shaped assembly hole is formed in the eleventh bent (4311) plate.

9. The large field angle spot lamp antenna for 5G cell coverage as claimed in claim 8, wherein said ninth flexure plate (439) has the same size and structure as said first flexure plate (411); the length of the side edge of the first bending plate (411) provided on the second bending plate (412) and the third bending plate (413) is smaller than the length of the side edge of the ninth bending plate (439) provided on the tenth bending plate (4310) and the eleventh bending plate (4311).

10. The large field angle spot lamp antenna for 5G cell coverage as claimed in claim 9, wherein the second bending plate (412) and the third bending plate (413) extend perpendicularly to a top direction of the first bending plate (411); the tenth bending plate (4310) and the eleventh bending plate (4311) extend vertically in the direction of the bottom of the ninth bending plate (439); the first frame body (41), the second frame body (42) and the third frame body (43) are fastened through screws (500).

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