CN210201840U - Base station antenna worker parameter acquisition device - Google Patents

Abstract

The utility model discloses a collection system is joined in marriage to basic station antenna worker, connect, the bottom shell cover including drain pan, two GPS antenna module, mainboard, NB-IOT module, AISG, the mounting hole has been seted up to the lateral wall of drain pan, the mainboard contains treater, triaxial acceleration sensor, two GPS antenna module, mainboard, NB-IOT module, AISG connect to set up respectively in the drain pan, just AISG connects the follow the mounting hole stretches out outside the drain pan, the bottom shell cover sets up on the drain pan, the mainboard respectively with NB-IOT module, AISG connect, two GPS antenna module connects. The utility model discloses can improve the accuracy, the installation of being convenient for, sealing performance is better.

Description

Base station antenna worker parameter acquisition device

Technical Field

The utility model relates to an antenna worker participates in technical field, specifically is a basic station antenna worker participates in collection system.

Background

The working parameters of the operator base station antenna not only relate to the coverage of signals, but also relate to key network performances such as signal coverage quality and the like. The service change of an operator is converted from voice to data, the data service is mainly converted from downloading and uploading into a main change to real-time interaction, the service change puts forward the requirements of low time delay and high speed on the network, and accurate coverage becomes necessary. Unpredictable factors such as typhoon, earthquake, material aging and the like can directly influence the attitude of a base station antenna, further influence signal coverage, cause the problems of poor call quality, insufficient telephone traffic absorption and the like, seriously influence network performance, increase customer complaint rate and increase the difficulty of data service popularization.

For a long time, the problems of inaccurate measurement, easy error of manual entry, poor real-time performance, incapability of determining data validity and the like exist in the operator base station antenna work parameter information acquisition and entry management. The base station antenna work parameter sensing module can intelligently and accurately monitor working parameters such as an azimuth angle, a downward inclination angle, a longitude and a latitude, an altitude and the like of a base station antenna, monitoring data information uploading can follow an AISG 2.0 protocol, an NB-IOT (self-building network management system) can be used, the integrity and the stability of data can be guaranteed, and remote intelligent acquisition and management of the antenna work parameter information in an OMC (self-building network management system) are achieved. The background applies the data remotely acquired by the antenna work parameters to daily optimization, and carries out verification, comparison and analysis, centralized parameter management, centralized analysis and optimization on the work parameter data, thereby meeting the requirements of low power consumption, wide coverage and large data volume. During use, the antenna parameter acquisition device is generally installed outside the base station antenna to monitor the working parameters of the base station antenna, so that the antenna parameter acquisition device which is convenient to install, good in sealing performance and high in monitoring accuracy needs to be designed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the shortcoming of above-mentioned prior art, providing one kind and can improving the accuracy, the installation of being convenient for, the better basic station antenna worker of sealing performance participates in collection system.

The utility model discloses a realize through following technical scheme: the utility model provides a collection system is joined in marriage to basic station antenna worker, includes drain pan, two GPS antenna module, mainboard, NB-IOT module, AISG joint, bottom shell cover, the mounting hole has been seted up to the lateral wall of drain pan, the mainboard contains treater, triaxial acceleration sensor, two GPS antenna module, mainboard, NB-IOT module, AISG joint set up respectively in the drain pan, just AISG joint is followed the mounting hole stretches out outside the drain pan, the bottom shell cover sets up on the drain pan, the mainboard respectively with NB-IOT module, AISG joint, two GPS antenna module connects.

Further: be provided with the lightning protection board in the drain pan, AISG connects the welding on the lightning protection board.

Further: the bottom shell is internally provided with a mounting plate, the two GPS antenna modules, the mainboard and the NB-IOT module are respectively fixed on the mounting plate, and the mainboard and the NB-IOT module are positioned between the two GPS antenna modules.

Further: the waterproof ring is arranged at the connecting part of the bottom shell and the bottom shell cover.

Further: the corner of the bottom shell is provided with a connecting block, and the connecting block is provided with bolt holes.

Further: and the side wall of the bottom shell is provided with a vent hole.

Further: the inner wall of the waterproof ring is provided with a plurality of screw hole columns distributed at intervals.

Further: the bottom shell is connected with the bottom shell cover through bolts, and the mounting plate is fixed in the bottom shell through bolts.

The beneficial effects of the utility model

Compared with the prior art, the longitude and latitude, the altitude, the azimuth angle and the downward inclination of the antenna can be accurately obtained by arranging the two GPS antenna modules, the calculation is more accurate, the NB-IOT module is adopted for communication, the power consumption is low, and the wireless transmission of the working parameter data to the data monitoring server can be realized through the NB-IOT module; utilize the connecting block on the angle of bolt and drain pan will the utility model discloses fix outside, simple to operate at the basic station antenna.

Drawings

Fig. 1 is an exploded view of the present invention.

Description of reference numerals: 1-bottom shell, 11-mounting hole, 12-connecting block, 13-bolt hole, 2-GPS antenna module, 3-main board, 4-NB-IOT module, 5-ASIG joint, 51-male head, 52-female head, 6-bottom shell cover, 7-lightning protection plate, 8-mounting plate, 9-waterproof ring and 91-screw hole column.

Detailed Description

Fig. 1 is the utility model provides a pair of collection system embodiment structural schematic is joined in marriage to basic station antenna worker, including drain pan 1, two GPS antenna module 2, mainboard 3, NB-IOT module 4, AISG connects 5, drain pan lid 6, be provided with connecting block 12 on the angle of drain pan 1, be provided with bolt hole 13 on the connecting block 12, mounting hole 11 has been seted up to the lateral wall of drain pan 1, mainboard 3 contains treater, triaxial acceleration sensor, two GPS antenna module 2, mainboard 3, NB-IOT module 4, AISG connects 5 and sets up respectively in drain pan 1, and AISG connects 5 and stretches out from mounting hole 11 outside drain pan 1, drain pan lid 6 sets up on drain pan 1, mainboard 3 is connected with NB-IOT module 4, AISG connects 5, two GPS antenna module 2 respectively.

When the collecting device is used, the collecting device is fixed outside a base station antenna by using bolts and the connecting blocks 12 on the corners of the bottom shell 1, and the collecting device can be installed after being connected with the AISG joint 5 for power supply, so that the collecting device is convenient to install; the GPS antenna module 2 is used for acquiring longitude and latitude and altitude information of the antenna, the mainboard 3 comprises a processor and a three-axis acceleration sensor, a downward inclination angle and an azimuth angle of the antenna are acquired through local calculation of a built-in algorithm, and the NB-IOT module 4 is used for uploading acquired work parameter information to a data monitoring server.

Through setting up two GPS antenna modules 2, can acquire the longitude and latitude and altitude height of antenna and the calculation of azimuth, downtilt more accurate accurately, the communication adopts NB-IOT module 4, and the low power dissipation, and accessible NB-IOT module 4 realizes transmitting the worker parameter data to data monitoring server wirelessly.

Be provided with lightning protection plate 7 in the drain pan 1, AISG connects 5 welding on lightning protection plate 7, and AISG connects 5 including public head 51 and female head 52. Through lightning protection plate 7, avoid the damage of thunderstorm weather to the circuit component on mainboard 3.

A mounting plate 8 is arranged in the bottom shell 1, the mounting plate 8 is fixed in the bottom shell 1 through bolts, the two GPS antenna modules 2, the main board 3 and the NB-IOT module 4 are respectively fixed on the mounting plate 8, and the main board 3 and the NB-IOT module 4 are located between the two GPS antenna modules. The mounting plate 8 is fixed in the bottom case 1 by bolts, and the GPS antenna module 2, the mainboard 3 and the NB-IOT module 4 are arranged in the bottom case 1 through the mounting plate 8, so that the GPS antenna module 2, the mainboard 3 and the NB-IOT module 4 are stably arranged in the bottom case 1, and looseness is avoided.

The utility model discloses still include waterproof circle 9, waterproof circle 9 sets up at the connection position of drain pan 1 and drain pan lid 7, and waterproof circle 9's inner wall is provided with a plurality of interval distribution's screw hole post 91, and drain pan 1 and drain pan lid 6 pass through bolted connection. During the installation, waterproof circle 9 prevents between drain pan lid 6 and drain pan 1, and the bolt passes bottom pan lid 1, the screw hole post 91 and the drain pan 1 of waterproof circle 9 inner wall in proper order to with bottom pan lid 6, waterproof circle 9 and drain pan 1 fixed connection, the installation is simple. By using the waterproof ring 9, the sealing property of the connection between the bottom case cover 6 and the bottom case 1 can be improved.

The side wall of the bottom shell 1 is provided with a vent hole. Through the air vent, can be with the heat in the drain pan 1 from the air vent discharge, prevent that heat is too high in the drain pan 1, influence this device normal operating.

The above detailed description is specific to possible embodiments of the present invention, and the embodiments are not intended to limit the scope of the present invention, and all equivalent implementations or modifications that do not depart from the scope of the present invention should be included within the scope of the present invention.

Claims (8)

1. The utility model provides a basic station antenna worker is joined in marriage collection system which characterized in that: including drain pan, two GPS antenna module, mainboard, NB-IOT module, AISG joint, bottom shell cover, the mounting hole has been seted up to the lateral wall of drain pan, the mainboard contains treater, triaxial acceleration sensor, two GPS antenna module, mainboard, NB-IOT module, AISG joint set up respectively in the drain pan, just AISG connects the follow the mounting hole stretches out outside the drain pan, the bottom shell cover sets up on the drain pan, the mainboard respectively with NB-IOT module, AISG joint, two GPS antenna module connects.

2. The base station antenna parameter acquisition device according to claim 1, wherein: be provided with the lightning protection board in the drain pan, AISG connects the welding on the lightning protection board.

3. The base station antenna parameter acquisition device according to claim 2, wherein: the bottom shell is internally provided with a mounting plate, the two GPS antenna modules, the mainboard and the NB-IOT module are respectively fixed on the mounting plate, and the mainboard and the NB-IOT module are positioned between the two GPS antenna modules.

4. The base station antenna parameter acquisition device according to claim 3, wherein: the waterproof ring is arranged at the connecting part of the bottom shell and the bottom shell cover.

5. The base station antenna parameter acquisition device according to any one of claims 1 to 4, wherein: the corner of the bottom shell is provided with a connecting block, and the connecting block is provided with bolt holes.

6. The base station antenna parameter acquisition device according to claim 5, wherein: and the side wall of the bottom shell is provided with a vent hole.

7. The base station antenna parameter acquisition device according to claim 6, wherein: the inner wall of the waterproof ring is provided with a plurality of screw hole columns distributed at intervals.

8. The base station antenna parameter acquisition device according to claim 7, wherein: the bottom shell is connected with the bottom shell cover through bolts, and the mounting plate is fixed in the bottom shell through bolts.

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