CN219959401U - Antenna support for communication engineering - Google Patents

Abstract

The utility model discloses an antenna bracket for communication engineering, which comprises a base, wherein a supporting rod is vertically fixed on the base, the inner side of the upper half section of the supporting rod is provided with a mounting groove with an opening at the upper end, and a buffer mechanism extending to the outside of the mounting groove from bottom to top is arranged in the mounting groove; the buffer mechanism comprises a ball shell, a ball head and a buffer rod, the outer side wall of the ball shell is fixed with the inner bottom of the mounting groove through a plurality of conversion rods which are circumferentially distributed at intervals, the ball head is embedded in the ball shell and is rotationally connected with the ball shell, the lower end of the buffer rod is fixed with the ball head, and a plurality of compression springs which are circumferentially distributed in an array form are arranged between the outer wall of the buffer rod and the inner wall of the mounting groove; a top plate is fixed at the upper end of the buffer rod, a supporting substrate is arranged above the top plate, and a rotating shaft is arranged between the supporting substrate and the top plate; according to the utility model, through the arrangement of the buffer mechanism, the buffer mechanism can buffer and absorb wind power, so that the impact force of strong wind can be reduced, and the antenna bracket is prevented from toppling over.

Description

Antenna support for communication engineering

Technical Field

The utility model relates to the technical field of antenna supports, in particular to an antenna support for communication engineering.

Background

Modern communication gradually goes deep into various fields of comprehensive information processing, such as information acquisition, transmission, processing and the like from original pure information transmission functions. Particularly, with the rapid development of communication technologies, such as satellite communication, optical fiber communication, digital program control switching technology, and the like, and the construction of communication networks such as satellite television broadcasting networks, packet switching networks, user telephone networks, and the internet, communication is becoming an infrastructure for social development and an essential element for economic development, and is becoming more and more highly valued and vigorously developed in countries around the world.

The transmission and reception of data in communication engineering is an extremely important loop, and therefore, a data receiving antenna is one of important devices in communication engineering.

In order to enable the antenna to obtain better signal strength, the antenna is required to be installed at a high position without shielding through an antenna bracket when the antenna is installed, but the wind power received by the high position without shielding during wind starting is larger, the existing antenna bracket is in rigid connection, the buffering performance is poor, and the antenna bracket is easy to topple when being blown by strong wind, so that the antenna bracket for communication engineering, which is good in buffering performance, high in stability and difficult to topple, is urgently required to be developed according to the current situation, so that the defects in the current practical application are overcome, and the current requirements are met.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides the antenna bracket for the communication engineering, and the buffer mechanism is arranged to buffer and absorb wind power, so that the impact force of strong wind can be reduced, and the antenna bracket is prevented from tilting.

The antenna bracket for the communication engineering comprises a base, wherein a supporting rod is vertically fixed on the base, the inner side of the upper half section of the supporting rod is provided with an installation groove with an opening at the upper end, and a buffer mechanism extending to the outside of the installation groove from bottom to top is arranged in the installation groove; the buffer mechanism comprises a spherical shell, a ball head and a buffer rod, wherein the spherical shell is arranged at the inner bottom of the installation groove, the outer side wall of the spherical shell is fixed with the inner bottom of the installation groove through a plurality of conversion rods which are circumferentially distributed at intervals, the ball head is embedded in the spherical shell and is rotationally connected with the spherical shell, the lower end of the buffer rod is fixed with the ball head, the upper end of the buffer rod extends out of the installation groove, a plurality of compression springs which are circumferentially distributed in an array manner are arranged between the outer wall of the buffer rod and the inner wall of the installation groove, the inner end part of each compression spring is fixed with the outer wall of the buffer rod, and the outer end part of each compression spring is fixed with the inner wall of the installation groove; the upper end of buffer rod is fixed with the roof, and the top of roof is provided with the supporting baseplate, is provided with the pivot between supporting baseplate and the roof, and the upper end of pivot is fixed with the middle part of supporting baseplate lower extreme, and the lower extreme of pivot is rotated with the middle part of roof and is connected, and the supporting baseplate is used for supporting the antenna.

According to the utility model, through the arrangement of the buffer mechanism, the buffer mechanism can buffer and absorb wind power, so that the impact force of strong wind can be reduced, and the antenna bracket is prevented from toppling over.

The utility model relates to an antenna bracket for communication engineering, wherein a plurality of auxiliary reinforcing support legs which are circumferentially distributed at intervals are fixed on the outer side of a support rod; through the arrangement of the auxiliary reinforcing support legs which are circumferentially distributed at intervals, when the support rod is used, the lower ends of the auxiliary reinforcing support legs are fixed on the ground, so that the stability of the support rod can be further improved.

The utility model relates to an antenna bracket for communication engineering, wherein two circular arc grooves which are uniformly distributed in the circumferential direction are formed in the edge of a top plate, fastening bolts which are in one-to-one correspondence with the two circular arc grooves are vertically penetrated on a supporting substrate, nuts are connected with the lower end of each fastening bolt movably penetrating through the circular arc groove at the corresponding position and then are in threaded connection with the corresponding position, and the fastening bolts and the nuts are used for locking the supporting substrate and the top plate; by adopting the structure, after the nuts are screwed so that the fastening bolts and the nuts fasten the supporting substrate and the top plate, the orientation of the antenna fixed on the supporting substrate can be fixed; when the nut is unscrewed, the supporting substrate can rotate relative to the top plate by virtue of the rotating shaft, so that the direction of the antenna can be adjusted to a proper direction, and after the direction adjustment of the antenna is finished, the nut is screwed down again to fasten the nut and the fastening bolt to the supporting substrate and the top plate again.

The antenna bracket for the communication engineering comprises a rain cover, wherein the outer part of a buffer rod positioned between a top plate and a support rod is sleeved with the rain cover, the rain cover is fixed with the buffer rod, the outer edge of the rain cover extends to the outer side of the support rod in the circumferential direction, the rain cover is used for blocking rainwater to prevent the rainwater from entering into a mounting groove, and a gap is reserved between the rain cover and the support rod; through the setting of rain-proof cover, the rain-proof cover can block the rainwater and enter into the mounting groove in order to prevent the rainwater, and because leave the clearance between rain-proof cover and the bracing piece to when the relative bracing piece swing of buffer rod, can avoid producing between rain-proof cover and the bracing piece to interfere.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model and do not constitute a limitation on the utility model. In the drawings:

FIG. 1 is a schematic perspective view of the present utility model;

fig. 2 is a schematic perspective view of an assembled antenna according to the present utility model;

FIG. 3 is a schematic perspective view of the present utility model with portions removed;

fig. 4 is a schematic view of a partially cut-away structure of the present utility model.

In the figure: 1. a base; 2. a support rod; 201. auxiliary reinforcing legs; 202. a mounting groove; 3. a buffer mechanism; 301. a spherical shell; 302. a transfer rod; 303. ball head; 304. a buffer rod; 3041. a rain cover; 305. a compression spring; 4. a top plate; 401. an arc groove; 5. a support substrate; 501. a rotating shaft; 502. a fastening bolt; 503. and (3) a nut.

Detailed Description

Various embodiments of the utility model are disclosed in the following drawings, in which details of the practice are set forth in the following description for the purpose of clarity. However, it should be understood that these practical details are not to be taken as limiting the utility model. That is, in some embodiments of the utility model, these practical details are unnecessary. Moreover, for the purpose of simplifying the drawings, some conventional structures and components are shown in the drawings in a simplified schematic manner.

In addition, the descriptions of the "first," "second," and the like, herein are for descriptive purposes only and are not intended to be specifically construed as order or sequence, nor are they intended to limit the utility model solely for distinguishing between components or operations described in the same technical term, but are not to be construed as indicating or implying any relative importance or order of such features. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

As shown in fig. 1-4, the antenna bracket for communication engineering of the utility model comprises a base 1, wherein a supporting rod 2 is vertically fixed on the base 1, an installation groove 202 with an open upper end is arranged on the inner side of the upper half section of the supporting rod 2, and a buffer mechanism 3 extending to the outside of the installation groove 202 from bottom to top is arranged in the installation groove 202; the buffer mechanism 3 comprises a spherical shell 301, a ball head 303 and a buffer rod 304, wherein the spherical shell 301 is arranged at the inner bottom of the mounting groove 202, the outer side wall of the spherical shell 301 is fixed with the inner bottom of the mounting groove 202 through a plurality of transfer rods 302 which are circumferentially distributed at intervals, the ball head 303 is embedded in the spherical shell 301 and is rotationally connected with the spherical shell 301, the lower end of the buffer rod 304 is fixed with the ball head 303, the upper end of the buffer rod 304 extends out of the mounting groove 202, a plurality of compression springs 305 which are circumferentially distributed in an array manner are arranged between the outer wall of the buffer rod 304 and the inner wall of the mounting groove 202, and the inner end part of each compression spring 305 is fixed with the outer wall of the buffer rod 304; the upper end of the buffer rod 304 is fixed with a top plate 4, a supporting substrate 5 is arranged above the top plate 4, a rotating shaft 501 is arranged between the supporting substrate 5 and the top plate 4, the upper end of the rotating shaft 501 is fixed with the middle part of the lower end of the supporting substrate 5, the lower end of the rotating shaft 501 is rotationally connected with the middle part of the top plate 4, and the supporting substrate 5 is used for supporting an antenna; when the utility model is used, the base 1 is fixed on the ground, the antenna is fixed on the supporting substrate 5, when the antenna is blown by strong wind, the buffer rod 304 swings relative to the supporting rod 2, the ball head 303 rotates in the spherical shell 301, the compression spring 305 is driven to deform by the buffer rod 304, and the wind force is buffered and absorbed by the elasticity of the compression spring 305, so that the impact force of the strong wind is reduced, and the antenna bracket is prevented from toppling.

A plurality of auxiliary reinforcing supporting legs 201 which are circumferentially distributed at intervals are fixed on the outer side of the supporting rod 2; by arranging the plurality of auxiliary reinforcing legs 201 at intervals in the circumferential direction, the lower ends of the auxiliary reinforcing legs 201 are fixed on the ground when the support rod 2 is used, so that the stability of the support rod 2 can be further improved.

Two circular arc grooves 401 which are uniformly distributed in the circumferential direction are formed in the edge of the top plate 4, fastening bolts 502 which are in one-to-one correspondence with the two circular arc grooves 401 are vertically penetrated on the supporting substrate 5, nuts 503 are connected with the lower ends of the fastening bolts 502 movably penetrating through the circular arc grooves 401 at corresponding positions in a threaded manner, and the fastening bolts 502 and the nuts 503 are used for locking the supporting substrate 5 and the top plate 4; by adopting the structure, after the nuts are screwed so that the fastening bolts and the nuts fasten the supporting substrate and the top plate, the orientation of the antenna fixed on the supporting substrate can be fixed; when the nut is unscrewed, the supporting substrate can rotate relative to the top plate by virtue of the rotating shaft, so that the direction of the antenna can be adjusted to a proper direction, and after the direction adjustment of the antenna is finished, the nut is screwed down again to fasten the nut and the fastening bolt to the supporting substrate and the top plate again.

The outer part of the buffer rod 304 between the top plate 4 and the support rod 2 is sleeved with a rain cover 3041, the rain cover 3041 is fixed with the buffer rod 304, the outer edge of the rain cover 3041 extends to the outer side of the circumferential direction of the support rod 2, the rain cover 3041 is used for blocking rainwater so as to prevent the rainwater from entering the mounting groove 202, and a gap is reserved between the rain cover 3041 and the support rod 2; through the setting of rain-proof cover, the rain-proof cover can block the rainwater and enter into the mounting groove in order to prevent the rainwater, and because leave the clearance between rain-proof cover and the bracing piece to when the relative bracing piece swing of buffer rod, can avoid producing between rain-proof cover and the bracing piece to interfere.

The foregoing description is only illustrative of the utility model and is not to be construed as limiting the utility model. Various modifications and variations of the present utility model will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, or the like, which is within the spirit and principles of the present utility model, should be included in the scope of the claims of the present utility model.

Claims (4)

1. An antenna boom for communication engineering, characterized in that: the device comprises a base (1), wherein a supporting rod (2) is vertically fixed on the base (1), an installation groove (202) with an opening at the upper end is formed in the inner side of the upper half section of the supporting rod (2), and a buffer mechanism (3) extending to the outside of the installation groove (202) from bottom to top is arranged in the installation groove (202); the buffer mechanism (3) comprises a spherical shell (301), a ball head (303) and a buffer rod (304), wherein the spherical shell (301) is arranged at the inner bottom of the mounting groove (202), the outer side wall of the spherical shell (301) is fixed with the inner bottom of the mounting groove (202) through a plurality of transfer rods (302) which are circumferentially distributed at intervals, the ball head (303) is embedded in the spherical shell (301) and is rotationally connected with the spherical shell (301), the lower end of the buffer rod (304) is fixed with the ball head (303), the upper end of the buffer rod (304) extends out of the mounting groove (202), a plurality of compression springs (305) which are circumferentially distributed in an array manner are arranged between the outer wall of the buffer rod (304) and the inner wall of the mounting groove (202), and the inner end of each compression spring (305) is fixed with the outer wall of the buffer rod (304); the upper end of buffer rod (304) is fixed with roof (4), the top of roof (4) is provided with supporting baseplate (5), be provided with pivot (501) between supporting baseplate (5) and roof (4), the upper end of pivot (501) is fixed with the middle part of supporting baseplate (5) lower extreme, the lower extreme of pivot (501) is connected with the middle part rotation of roof (4), supporting baseplate (5) are used for supporting the antenna.

2. The antenna mount for communication engineering according to claim 1, wherein a plurality of auxiliary reinforcing legs (201) are fixed to the outer side of the support rod (2) at circumferentially spaced intervals.

3. The antenna bracket for communication engineering according to claim 1 or 2, wherein two circular arc grooves (401) which are uniformly distributed in the circumferential direction are formed in the edge of the top plate (4), fastening bolts (502) which are in one-to-one correspondence with the two circular arc grooves (401) are vertically arranged on the supporting substrate (5) in a penetrating manner, nuts (503) are connected with the lower ends of the fastening bolts (502) in a threaded manner after the lower ends of the fastening bolts movably penetrate through the circular arc grooves (401) in the corresponding positions, and the fastening bolts (502) and the nuts (503) are used for locking the supporting substrate (5) and the top plate (4).

4. The antenna mount for communication engineering according to claim 1 or 2, wherein a rain cover (3041) is sleeved outside the buffer rod (304) between the top plate (4) and the support rod (2), the rain cover (3041) is fixed to the buffer rod (304), an outer edge of the rain cover (3041) extends to an outer side of the support rod (2) in a circumferential direction, the rain cover (3041) is used for blocking rainwater to prevent the rainwater from entering the mounting groove (202), and a gap is left between the rain cover (3041) and the support rod (2).