CN204598327U - Communication base station sky line monitoring system - Google Patents

Abstract

The utility model relates to a kind of communication base station sky line monitoring system, and this system comprises: fixed support, and this fixed support is fixedly mounted on the appliance arrangement on antenna; Angle detection device is arranged on described antenna, to obtain the angle parameter of antenna; Antenna power checkout gear, it is connected with antenna, for detecting the energy resource consumption performance parameter of antenna; Radio transmitting device, it is arranged on fixed support, by wireless channel, the data received is sent to background server; And background server, itself and radio transmitting device wireless connections, for receiving angle parameter and/or energy resource consumption performance parameter, be stored into local data base, and carry out analyzing and processing to data, final Graphics Processing result.The sensor-based data acquisition of the system that the utility model provides, abandons the artificial traditional scheme measured, and the error avoiding artificial measurement to produce, improves the certainty of measurement of antenna parameter, relies on wireless data transmission device, decreases and is arranged into on-the-spot personnel's input.

Description

Communication base station sky line monitoring system

Technical field

The utility model relates to wireless communication field, particularly relates to a kind of communication base station sky line monitoring system.

Background technology

In recent years, along with the fast development of communication industry, the especially fast development of 4G mobile network, equipment and base station get more and more, scale is also more and more huger, and network operation department has higher requirement to the response speed of Network Abnormal situation, emergency communication guarantee and centralized dispatching.Meanwhile, mobile communication is separated with the system of local network wire communication, makes the O&M weak of mobile communication and the large contradiction of maintenance work amount.In base station iron tower work runs, because the natural calamity such as high wind, earthquake causes the situation of antenna deviation to occur everywhere, this will cause mobile communication network quality to decline.At present, main employing manual method carries out azimuth verification, subjective experience according to network optimization personnel judges, location finding problem, then send attendant to on-the-spot adjustment, belong to passive optimization method, network optimization personnel drive to complete each community azimuth determination, analysis and judgement one by one, this manual method is consuming time, effort, the antenna condition information of inconvenient obtaining communication base station.

Utility model content

For the problems referred to above, the utility model provides a kind of communication base station sky line monitoring system, to realize the supplemental characteristic of Real-time Obtaining antenna, instantaneous transmission is to background server, in conjunction with large Data Management Analysis network condition, for the network optimization, personnel provide reference proposition, use manpower and material resources sparingly and the time.

For achieving the above object, the utility model have employed following technical scheme:

A kind of communication base station sky line monitoring system, this system comprises:

Fixed support, this fixed support is fixedly mounted on the appliance arrangement on antenna;

Angle detection device, it is installed on described antenna, to obtain the angle parameter of antenna;

Antenna power checkout gear, it is connected with described antenna, for detecting the energy resource consumption performance parameter of antenna;

Radio transmitting device, it is arranged on described fixed support, by wireless channel, the data received is sent to background server; And

Background server, itself and described radio transmitting device wireless connections, for receiving the angle parameter and/or energy resource consumption performance parameter that described radio transmitting device sends, being stored into local data base, and carrying out analyzing and processing to data, final Graphics Processing result.

According to the communication base station sky line monitoring system described in the utility model preferred embodiment, described angle detection device comprises angle detecting sensor and the first low-power consumption microcontroller chip.

According to the communication base station sky line monitoring system described in the utility model preferred embodiment, described antenna power checkout gear comprises electric current, voltage check device and the second low-power consumption microcontroller chip.

Compared to the prior art the communication base station sky line monitoring system that the utility model provides, has the following advantages:

First, the sensor-based data acquisition of communication base station sky line monitoring system that the utility model provides, abandon the artificial traditional scheme measured, avoid the artificial error measuring generation, improve the certainty of measurement of antenna parameter, rely on wireless data transmission device, decrease and be arranged into on-the-spot personnel's input.

Secondly, the information management of the communication base station sky line monitoring system bond networking technology that the utility model provides, is convenient to query analysis, improves the operating efficiency of network optimization personnel.

Again, it is little, low in energy consumption that the communication base station sky line monitoring system that the utility model provides has volume, the advantage that autgmentability is strong.

Accompanying drawing explanation

The communication base station sky line monitoring system general frame schematic diagram that Fig. 1 provides for the utility model embodiment.

Embodiment

Below by drawings and Examples, the technical solution of the utility model is described in further detail.

Fig. 1 is the communication base station sky line monitoring system general frame schematic diagram that the utility model provides.As seen from the figure, this system comprises:

Fixed support 4, this fixed support 4 fixedly mounts appliance arrangement on antenna 1;

Angle detection device 2, it is installed on described antenna 1, to obtain the angle parameter of antenna, the such as parameter such as azimuth, angle of declination;

Antenna power checkout gear 3, it is connected with described antenna 1, and for detecting the energy resource consumption performance parameter of antenna 1, such as transmitting power, nominal power equal energy source consume performance parameter;

Radio transmitting device 6, it is arranged on described fixed support 4, by wireless channel, the data received is sent to background server 8; And

Background server 8, itself and described radio transmitting device 6 wireless connections, for receiving the angle parameter and/or energy resource consumption performance parameter that described radio transmitting device 6 sends, being stored into local data base, and carrying out analyzing and processing to data, final Graphics Processing result.

Further, described angle detection device 2 can comprise angle detecting sensor and the first low-power consumption microcontroller chip.Described antenna power checkout gear 3 comprises can electric current, voltage check device and the second low-power consumption microcontroller chip.

Fixed support 4 is used high-precision angle detection device 2 and power detection device 3 to be arranged on the antenna 1 that is erected at above pole 5, the position being easy to sense antenna tilt should be chosen in installation site, the knots modification of the state parameter that the angle that high-precision angle detection device 2 gathers antenna departs from, antenna power checkout gear 3 detects the transmitting power of antenna, nominal power equal energy source consumes performance parameter, and send to wireless data transmission device 6 by after this collection result process, data are sent to background server 8 by wireless network 7 by this device, background server 8 stores data result to database, and utilize cloud and large Data Management Analysis, network optimization personnel are presented to the monitoring result of base station.

Main step during use can be divided into:

1, sensor installation.Antenna is installed high-precision angle detection device, all using center of antenna as basic point, extracts reflection antenna azimuth and the isoparametric variable quantity in inclination angle.

2, data acquisition.When antenna for base station be subject to external environment or human factor impact and cause state parameter to change, transducer detects state knots modification, convert thereof into gageable, linearly analog electrical signal (voltage or electric current), be sent in data acquisition unit and carry out data transaction, convert analog signal to digital signal, for Computer Analysis.

3, transfer of data.After carrying out data acquisition, rely on radio transmitting device, wirelessly by process after digital data transmission to background server.

4, background analysis.Background server maintenance data storehouse technology, the limit index that the transmitting power of the antenna azimuth detected, dip angle parameter knots modification, antenna, nominal power equal energy source consume in performance parameter and design specification is contrasted, judge that whether antenna azimuth, angled state, power stage be normal thus, and by result feedback to network optimization personnel.

In the embodiment that the utility model provides, sensor part is deployed on antenna for base station by system, achieve the base station iron tower antenna management system for monitoring of integration, simultaneously in conjunction with long-range background server, Real-Time Monitoring is dispersed in antenna for base station situation everywhere, instant obtaining information data, help administrative staff to note abnormalities, have low-power consumption, volume is little, be easy to carry, be easy to the feature expanded.

It should be noted last that, above embodiment is only in order to illustrate the technical solution of the utility model and unrestricted, although be described in detail the utility model with reference to preferred embodiment, those of ordinary skill in the art is to be understood that, can modify to the technical solution of the utility model or equivalent replacement, and not depart from the spirit and scope of technical solutions of the utility model.

Claims (3)

1. a communication base station sky line monitoring system, is characterized in that, comprising:

Fixed support, this fixed support is fixedly mounted on the appliance arrangement on antenna;

Angle detection device, it is installed on described antenna, to obtain the angle parameter of antenna;

Antenna power checkout gear, it is connected with described antenna, for detecting the energy resource consumption performance parameter of antenna;

Radio transmitting device, it is arranged on described fixed support, by wireless channel, the data received is sent to background server; And

Background server, itself and described radio transmitting device wireless connections, for receiving the angle parameter and/or energy resource consumption performance parameter that described radio transmitting device sends, being stored into local data base, and carrying out analyzing and processing to data, final Graphics Processing result.

2. communication base station sky according to claim 1 line monitoring system, is characterized in that, described angle detection device comprises angle detecting sensor and the first low-power consumption microcontroller chip.

3. communication base station sky according to claim 1 line monitoring system, is characterized in that, described antenna power checkout gear comprises electric current, voltage check device and the second low-power consumption microcontroller chip.