阅读说明：本技术 一种小型电信通讯设备 (Small telecommunication equipment ) 是由 程彩凤 林德树 于 2021-08-31 设计创作，主要内容包括：本发明公开了一种小型电信通讯设备,其包括：通讯模块,用作通讯源及信息处理控制终端；信号监测模块,实时监测所述通讯模块发出、接收信号区域的信号强弱并反馈于通讯模块内,由所述通讯模块控制调控转向模块调节改变信号放大模块的定向信号增强强度的区域；光源监测模块,实时监测阳光照射强度、方向,并将数据传至通讯模块处理,调控光电转换模块与光线的夹角,增强光能吸收率及提高光电转化率,为通讯模块提供电能；断电应急模块,由所述光电转换模块触发启动,并控制备用电源为通讯模块提供电能。(The invention discloses a small telecommunication device, which comprises: the communication module is used as a communication source and an information processing control terminal; the signal monitoring module is used for monitoring the strength of signals in a signal sending and receiving area of the communication module in real time and feeding the signals back to the communication module, and the communication module controls the regulation and control steering module to regulate and change the area of the directional signal enhanced strength of the signal amplification module; the light source monitoring module monitors the sunlight irradiation intensity and direction in real time, transmits data to the communication module for processing, regulates and controls an included angle between the photoelectric conversion module and light rays, enhances the light energy absorption rate and improves the photoelectric conversion rate, and provides electric energy for the communication module; and the power failure emergency module is triggered and started by the photoelectric conversion module and controls the standby power supply to provide electric energy for the communication module.)

1. A compact telecommunications device, comprising: it includes:

the communication module (1) is used as a communication source and an information processing control terminal;

the signal monitoring module (2) is used for monitoring the strength of signals in a signal sending and receiving area of the communication module (1) in real time and feeding the signals back into the communication module (1), and the communication module (1) controls the regulation and control steering module (3) to regulate and change the area of the directional signal strengthening strength of the signal amplification module (4);

the light source monitoring module (5) is used for monitoring the sunlight irradiation intensity and direction in real time, transmitting data to the communication module (1) for processing, regulating and controlling the included angle between the photoelectric conversion module (6) and light, enhancing the light energy absorption rate and improving the photoelectric conversion rate, and providing electric energy for the communication module (1);

and the power failure emergency module (7) is triggered and started by the photoelectric conversion module (6) and controls the standby power supply (8) to provide electric energy for the communication module (1).

2. A compact telecommunications device in accordance with claim 1, wherein: the light source monitoring module (5) comprises a lifting column (13) for supporting and adjusting the height and a connecting rod supporting arm (15) for assisting to support and support, wherein the connecting rod supporting arm (15) is of a two-section type connecting rod structure and is of a downward inward concave angle arrangement structure, the outer side end of the connecting rod supporting arm is hinged to the left end of the photoelectric conversion module (6), the inner side end of the connecting rod supporting arm is hinged to a first sleeve seat (14), and the first sleeve seat (14) is installed on the lifting column (13);

and the lifting columns (13) are arranged in two groups in the front and back, the output ends of the lifting columns are respectively fixed with a steering wheel disc (51) which is arranged in parallel in the front and back, and a light source tracking frame is arranged between the steering wheel discs (51) on the front side and the back side and is arranged in two groups in bilateral symmetry.

3. A compact telecommunications device in accordance with claim 2, wherein: a set of the light source tracking stand comprises:

a supporting slide rail (52) which is internally provided with a strip-shaped slide way penetrating through the front and the back;

rotary drive wheels (55) operating independently and arranged in a plurality of groups;

the support shafts (56) are arranged into a plurality of groups, the front ends and the rear ends of the support shafts penetrate through the strip-shaped slide ways, the support shafts are arranged in a left-right parallel mode and are connected with the inner walls of the strip-shaped slide ways in a left-right sliding mode, two groups of parallel adapter rings are sleeved at the front ends and the rear ends of the support shafts (56) and are connected through bearings, a multi-stage telescopic rod (57) facing upwards is fixed on the outer side wall of the adapter ring close to the outer side and the rear end of one group of the support shafts (56) close to the inner side, a photoelectric conversion module (6) is fixed at the upper output end of the multi-stage telescopic rod (57), the adapter ring close to the outer side and is fixed at the output end of one group of the rotary driving wheel pieces (55), a multi-stage telescopic rod (57) facing downwards is fixed at the outer side wall of the same group of the support shafts (56) close to the inner side and the outer side and a baffle (58) is fixed at the lower output end of the multi-stage telescopic rod (57), the adapter ring is fixed at the rear end close to the outer side on the output end of the group of rotary driving wheel pieces (55);

the fixed wheel discs (53) are correspondingly arranged in multiple groups with the rotary driving wheel pieces (55) and are used for installing and fixing the rotary driving wheel pieces (55);

push-pull rods (54) configured in a plurality of groups for connection fixation between the adjacent fixed sheaves (53).

4. A compact telecommunications device in accordance with claim 3, wherein: the front end and the rear end of the support shaft (56) are located at the end of the support shaft by the adapter rings on the outer sides.

5. A compact telecommunications device in accordance with claim 3, wherein: the supporting shaft (56) positioned at the junction of the left light source tracking frame and the right light source tracking frame is a shared shaft, the fixed turntable (53) at the front end and the rear end of the supporting shaft is fixed on the steering wheel disc (51), the output end of the rotary driving wheel piece (55) corresponding to the front end is connected with the outer side wall of the supporting slide rail at the left side, and the output end of the rotary driving wheel piece (55) corresponding to the rear end is connected with the outer side wall of the supporting slide rail at the right side.

6. A compact telecommunications device in accordance with claim 3, wherein: the baffle (58) is provided with a fitting groove.

7. A compact telecommunications device in accordance with claim 1, wherein: the communication module (1) is also provided with a fault monitoring module (9) which is used for monitoring factors generated by faults in the communication module (1), feeding back the factors to the environment triggering module (10) and the equipment triggering module (11), feeding back the factors to the maintenance workstation (12) and being provided with corresponding maintenance tools.

8. A compact telecommunications device in accordance with claim 1, wherein: the signal amplification module (4) comprises a signal amplification cover (41) which is of an arc-shaped curved surface structure and used for strengthening the signal intensity of the facing area, an arc-shaped sliding rail (43) is arranged in the shell, and an arc-shaped gear rack (42) is arranged on the outer side wall of the shell.

9. A compact telecommunications device in accordance with claim 1, wherein: the steering module (3) comprises:

a pillar (31), a second sleeve seat (34) and an I-shaped shaft collar (32) are respectively sleeved on the outer side walls of the upper end and the lower end of the pillar (31) and are connected with each other through bearings, a transverse support plate (36) is fixed on the ring wall of the lower end of the I-shaped shaft collar (32), a second sleeve seat is fixed on the support plate (36) close to the outer side end, a horizontal gear ring is fixed on the ring wall of the upper end of the I-shaped shaft collar (32), and a main gear is fixed at the output end of a motor (33) and is in meshed connection with the horizontal gear ring;

the bracket (35) is arranged on the second sleeve seat (34) above and below;

the driving gear (37) is arranged at the center of the bracket (35) and is in meshed connection with the arc-shaped gear rack (42);

the inclination adjusting pieces (38) are symmetrically arranged on two sides of the driving gear (37), the output ends of the inclination adjusting pieces are hinged with sliding columns (39), and the sliding columns (39) are embedded into the arc-shaped sliding rails (43) and are in sliding connection.

10. A compact telecommunications device in accordance with claim 1, wherein: the signal monitoring module (2) comprises a signal receiving cover (21) and a direction finder (22), the signal receiving cover (21) is installed at the upper end of the support column (31), the outer side wall of the signal receiving cover is provided with a multi-measurement monitoring annular wall, a multi-angle monitoring area is divided, the direction finder (22) is used for receiving monitoring data of the signal receiving cover (21) and feeding the monitoring data back to the communication module (1), and the control steering module (3) is controlled to adjust the signal amplification module strengthening area.

Technical Field

The invention relates to the technical field of communication equipment, in particular to small-sized telecommunication equipment.

Background

At present, the application of wireless communication equipment is wider. And the small telecommunication equipment is convenient to use and can meet the requirement of local area communication. However, in the existing small-sized communication equipment, the environmental adaptability is poor, the communication signal is not stable enough, and when the small-sized communication equipment is applied to a remote area with poor signal, the directional transmission cannot be well performed, so that the signal cannot be fully locked in a required area, the effectiveness of the real use of signal transmission is reduced, and a maintenance tool must be comprehensively equipped during maintenance, thereby consuming time and labor, and having low first-aid repair efficiency.

Accordingly, a small telecommunication apparatus is provided to solve the above-mentioned problems of the background art by those skilled in the art.

Disclosure of Invention

In order to achieve the purpose, the invention provides the following technical scheme: a compact telecommunications device, comprising:

the communication module is used as a communication source and an information processing control terminal;

the signal monitoring module is used for monitoring the strength of signals in a signal sending and receiving area of the communication module in real time and feeding the signals back to the communication module, and the communication module controls the regulation and control steering module to regulate and change the area of the directional signal enhanced strength of the signal amplification module;

the light source monitoring module monitors the sunlight irradiation intensity and direction in real time, transmits data to the communication module for processing, regulates and controls an included angle between the photoelectric conversion module and light rays, enhances the light energy absorption rate and improves the photoelectric conversion rate, and provides electric energy for the communication module;

and the power failure emergency module is triggered and started by the photoelectric conversion module and controls the standby power supply to provide electric energy for the communication module.

As a preferred technical solution of the present invention, the light source monitoring module includes a lifting column for supporting and adjusting the height, and a connecting rod bracket arm for assisting the supporting and supporting, wherein the connecting rod bracket arm is of a two-section type connecting rod structure and has a downward inward concave angle arrangement structure, an outer end thereof is hinged to a left end of the photoelectric conversion module, an inner end thereof is hinged to a first sleeve seat, and the first sleeve seat is installed on the lifting column;

and the front and the back of the lifting column are provided with two groups, the output ends of the lifting column are respectively fixed with a steering wheel disc which is arranged in parallel in the front and the back, a light source tracking frame is arranged between the steering wheel discs on the front side and the back side, and the two groups are arranged symmetrically in the left and the right.

As a preferred embodiment of the present invention, a group of the light source tracking frames includes:

the supporting slide rail is internally provided with a strip-shaped slide way which penetrates through the supporting slide rail from front to back;

rotary driving wheel members independently operating and configured in a plurality of groups;

the support shafts are arranged into a plurality of groups, the front ends and the rear ends of the support shafts penetrate through the strip-shaped slide way, the support shafts are arranged in parallel left and right and are connected with the inner wall of the strip-shaped slide way in a left-right sliding manner, the front end and the rear end of the supporting shaft are sleeved with two groups of parallel adapter rings which are connected through a bearing, the outer side wall of the adapter ring, close to the outer side and the inner side of the front end and the rear end of the supporting shaft, is fixedly provided with a multistage telescopic rod facing upwards, the output end of the multistage telescopic rod is fixedly provided with a photoelectric conversion module, the front end of the rotating driving wheel piece is fixed on the output end of the rotating driving wheel piece, the front end of the supporting shaft is fixed on the inner side, the rear end of the supporting shaft is fixed on the outer side wall of the rotating driving wheel piece, the outer side wall of the rotating driving wheel piece is fixed on the multi-stage telescopic rod, a baffle is fixed at the lower output end of the multi-stage telescopic rod, and the adapter ring is fixed at the output end of the group of rotary driving wheel pieces close to the outer side of the rear end of the multi-stage telescopic rod;

the fixed wheel discs are correspondingly provided with a plurality of groups of fixed wheel discs and are used for installing and fixing the rotary driving wheel pieces;

and the push-pull rods are arranged in multiple groups and are used for connecting and fixing the adjacent fixed wheel discs.

As a preferred technical scheme of the invention, the adapter rings at the outer sides of the front end and the rear end of the support shaft are positioned at the end head of the support shaft.

As a preferred technical solution of the present invention, the supporting shaft at the junction of the left and right light source tracking frames is a common shaft, the fixed turntables at the front and rear ends are fixed on the steering wheel disc, the output end of the rotary driving wheel corresponding to the front end is connected to the outer sidewall of the left supporting slide rail, and the output end of the rotary driving wheel corresponding to the rear end is connected to the outer sidewall of the right supporting slide rail.

As a preferable technical scheme of the invention, the baffle plate is provided with a fitting groove.

As a preferred technical solution of the present invention, the communication module is further provided with a fault monitoring module, which is used for monitoring a factor generated by a fault in the communication module, feeding the factor back to the environment triggering module and the equipment triggering module, feeding the factor back to the maintenance workstation, and assembling a corresponding maintenance tool.

As a preferred technical scheme of the invention, the signal amplification module comprises a signal amplification cover which is of an arc curved surface structure and used for strengthening the signal strength of the facing area, an arc slide rail is arranged in a shell of the signal amplification cover, and an arc gear strip is arranged on the outer side wall of the shell.

As a preferable technical solution of the present invention, the steering control module includes:

the support is sleeved with a sleeve seat II and an I-shaped shaft collar respectively by the outer side walls of the upper end and the lower end and is connected with the sleeve seat II and the I-shaped shaft collar through bearings, a transverse support plate is fixed on the annular wall of the lower end of the I-shaped shaft collar, the sleeve seat II is fixed by the outer side end of the support plate, a horizontal gear ring is fixed on the annular wall of the upper end of the I-shaped shaft collar, and a main gear is fixed at the output end of the motor and is in meshed connection with the horizontal gear ring;

the bracket is arranged on the second sleeve seat above and below the second sleeve seat;

the driving gear is arranged at the center of the bracket and is meshed and connected with the arc-shaped gear strip;

the inclination adjusting piece is symmetrically arranged on two sides of the driving gear, the output end of the inclination adjusting piece is hinged with a sliding column, and the sliding column is embedded into the arc-shaped sliding rail and is in sliding connection.

As a preferred technical scheme of the invention, the signal monitoring module comprises a signal receiving cover and a direction finder, the signal receiving cover is arranged at the upper end of the support, the outer side wall of the signal receiving cover is provided with a multi-measurement monitoring annular wall and is divided into a multi-angle monitoring area, and the direction finder is used for receiving monitoring data of the signal receiving cover, feeding the monitoring data back into the communication module and controlling the regulation and control steering module to regulate the strengthening area of the signal amplification module.

Compared with the prior art, the invention provides a small telecommunication device, which has the following beneficial effects:

in the invention, the photoelectric conversion module provides electric energy converted by light energy for the communication module, the light source monitoring module tracks light in real time, the optimal light energy absorption angle of the photoelectric conversion module is adjusted, the photoelectric conversion efficiency is improved, energy is saved, the power-off emergency module for starting a standby power supply is arranged, and is triggered by the photoelectric conversion module, so that the normal operation of the equipment is ensured, the light source monitoring module is provided with a baffle plate which can deal with severe weather and protect the equipment, the signal monitoring module monitors the intensity of external signal feedback so as to judge the area with a specific strong signal, and the signal amplification module is adjusted to carry out signal enhancement to the corresponding area by adjusting and controlling the steering module, so that the requirement of transient signal intensity in a certain area can be flexibly met, and the communication module can release signals more pertinently, thereby strengthened the stable transmission of signal, and can carry out direct or indirect real-time supervision to each module in this equipment through the fault monitoring module to will break down the production factor, reach environment trigger module, equipment trigger module, and then feed back to maintenance work station, make the restoration of trouble more accurate, high-efficient.

Drawings

FIG. 1 is a schematic diagram of a logic structure of a telecommunication device according to the present invention;

FIG. 2 is an enlarged schematic view of the structure of the telecommunication apparatus of the present invention;

FIG. 3 is an enlarged view of a partial structure of the light source monitoring module according to the present invention;

FIG. 4 is an enlarged view of the light source tracking structure of the present invention;

FIG. 5 is an enlarged schematic view of a protection structure of a communication device according to the present invention;

in the figure: 1. a communication module; 2. a signal monitoring module; 3. a steering control module; 4. a signal amplification module; 5. a light source monitoring module; 6. a photoelectric conversion module; 7. a power failure emergency module; 8. a standby power supply; 9. a fault monitoring module; 10. an environment trigger module; 11. a device triggering module; 12. a maintenance workstation; 13. a lifting column; 14. a first sleeve seat; 15. a connecting rod bracket arm; 21. a signal receiving housing; 22. a direction finder; 41. a signal amplification cover; 42. an arc-shaped gear rack; 43. an arc-shaped slide rail; 31. a pillar; 32. an I-shaped collar; 33. a motor; 34. a sleeve seat II; 35. a bracket; 36. a support plate; 37. a drive gear; 38. a tilt adjustment member; 39. a traveler; 51. a steering wheel disc; 52. supporting the slide rail; 53. fixing the wheel disc; 54. a push-pull rod; 55. a rotary drive wheel member; 56. a support shaft; 57. a multi-stage telescopic rod; 58. and a baffle plate.

Detailed Description

Referring to fig. 1-5, the present invention provides a technical solution: 1. a compact telecommunications device, comprising: it includes:

the communication module 1 is used as a communication source and an information processing control terminal;

the signal monitoring module 2 is used for monitoring the strength of signals in a signal sending and receiving area of the communication module 1 in real time and feeding the signals back into the communication module 1, and the communication module 1 controls the regulation and control steering module 3 to regulate and change the area of the directional signal enhanced strength of the signal amplification module 4;

the light source monitoring module 5 monitors the sunlight irradiation intensity and direction in real time, transmits data to the communication module 1 for processing, regulates and controls the included angle between the photoelectric conversion module 6 and light, enhances the light energy absorption rate and improves the photoelectric conversion rate, and provides electric energy for the communication module 1;

and the power failure emergency module 7 is triggered and started by the photoelectric conversion module 6 and controls the standby power supply 8 to provide electric energy for the communication module 1.

In this embodiment, the light source monitoring module 5 includes a lifting column 13 for supporting and adjusting the height, and a connecting rod supporting arm 15 for supporting and supporting, where the connecting rod supporting arm 15 is a two-section connecting rod structure and has a downward concave angle structure, an outer end of the connecting rod supporting arm is hinged to the left end of the photoelectric conversion module 6, an inner end of the connecting rod supporting arm is hinged to a first sleeve seat 14, and the first sleeve seat 14 is installed on the lifting column 13;

two groups of lifting columns 13 are arranged in front and back, the output ends of the lifting columns are respectively fixed with steering wheel discs 51 which are arranged in parallel in front and back, and a light source tracking frame is arranged between the steering wheel discs 51 on the front side and the back side and is symmetrically arranged in two groups in left and right;

the lifting function of the lifting column is used for changing the light receiving area and the light irradiation angle of the photoelectric conversion module in a matching manner, reducing the height of the lifting rod under the severe weather condition, responding to the acting force of external air flow on the photoelectric conversion module, enhancing the fixing strength of the photoelectric conversion module and further improving the safety protection of communication equipment;

as a best embodiment, the hinged ends of the connecting rods at two ends of the connecting rod bracket arm are provided with elastic torsion structures, so that the connecting rod bracket arm has a tendency of expanding outwards, and the supporting strength of the overall structure of the photoelectric conversion module is enhanced.

In this embodiment, a set of the light source tracking frame includes:

a supporting slide rail 52, in which a strip-shaped slide way penetrating through the front and the back is arranged;

rotary drive wheels 55 operating independently and arranged in multiple groups;

the supporting shafts 56 are arranged into a plurality of groups, the front ends and the rear ends of the supporting shafts penetrate through the strip-shaped slide way, the supporting shafts are arranged in parallel left and right and are connected with the inner wall of the strip-shaped slide way in a left-right sliding manner, two groups of parallel adapter rings are sleeved at the front end and the rear end of the support shaft 56 and are connected through bearings, a multi-stage telescopic rod 57 facing upwards is fixed on the outer side wall of the adapter ring at the front end close to the outer side and the rear end close to the inner side of the support shaft 56, a photoelectric conversion module 6 is fixed at the output end of the multi-stage telescopic rod 57, the adapter ring with the front end close to the outer side is fixed on the output end of a group of the rotary driving wheel piece 55, the multi-stage telescopic rods 57 facing downwards are fixed on the outer side wall of the adapter ring with the front end close to the inner side and the rear end close to the outer side of the support shaft 56 of the same group, a baffle plate 58 is fixed on the lower output end of the multi-stage telescopic rods 57, the adapter ring is fixed at the rear end of the rotary driving wheel 55 close to the outer side;

a plurality of fixed wheel discs 53, which are provided corresponding to the rotary driving wheel piece 55 and are used for installing and fixing the rotary driving wheel piece 55;

push-pull rods 54 arranged in a plurality of groups for connection fixation between the adjacent fixed sheaves 53;

in this, can change the adjacent photoelectric conversion module of left and right sides, the interval between the adjacent baffle through the push-and-pull rod, the cooperation of being convenient for is rotated the driving wheel spare and is independently adjusted photoelectric conversion module, the one side slope direction of baffle to and the upper and lower position's of photoelectric conversion module, baffle interchange, mainly used changes sensitive surface, angle, reinforcing photoelectric conversion efficiency, and, in adverse circumstances such as stormy rain promptly, the adjusting flap is in the top, protection photoelectric conversion module and communication module are not influenced.

In this embodiment, the adapter rings at the outer sides of the front and rear ends of the support shaft 56 are located at the end of the support shaft.

In this embodiment, the supporting shaft 56 at the junction of the left and right light source tracking frames is a common shaft, the fixed turntable 53 at the front and rear ends thereof is fixed on the steering wheel disc 51, the output end of the rotary driving wheel 55 corresponding to the front end is connected with the outer side wall of the supporting slide rail on the left side, and the output end of the rotary driving wheel 55 corresponding to the rear end is connected with the outer side wall of the supporting slide rail on the right side;

so that the integral inclination angle of the left and right side supporting slide rails can be adjusted, and the push-pull rod and the rotary driving wheel piece are matched, further, the optimal light absorption angle of the photoelectric conversion module in the photoelectric conversion process is adjusted, the optimal inclination angle of the baffle in the severe environment is adjusted, and the protection strength of the communication equipment and the photoelectric conversion module is improved.

In this embodiment, the baffle 58 is provided with a fitting groove, so that the thickness of the baffle in the fitting and stacking process is reduced, the preparation thickness of the baffle is reduced, the weight is reduced, and the fitting between the baffles is more accurate and tight.

In this embodiment, the communication module 1 is further provided with a fault monitoring module 9, configured to monitor a factor generated by a fault in the communication module 1, feed back the factor to the environment triggering module 10 and the equipment triggering module 11, feed back the factor to the maintenance workstation 12, and equip a corresponding maintenance tool;

therefore, the tool equipment for repairing the fault can be equipped more pertinently, and the fault repairing efficiency is improved.

In this embodiment, the signal amplification module 4 includes a signal amplification cover 41, which is an arc-shaped curved surface structure for enhancing the signal strength of the facing area, and an arc-shaped slide rail 43 is disposed in the housing, and an arc-shaped gear rack 42 is mounted on the outer side wall of the housing.

In this embodiment, the steering control module 3 includes:

a pillar 31, which is respectively sleeved with a sleeve seat II 34 and an I-shaped shaft collar 32 by the outer side walls of the upper end and the lower end and is connected with the bearing, a transverse support plate 36 is fixed on the annular wall of the lower end of the I-shaped shaft collar 32, a sleeve seat II is fixed by the outer side end of the support plate 36, a horizontal gear ring is fixed on the annular wall of the upper end of the I-shaped shaft collar 32, and a main gear is fixed at the output end of a motor 33 and is in meshed connection with the horizontal gear ring;

the bracket 35 is arranged on the second sleeve seat 34 above and below;

a driving gear 37 installed at the center of the bracket 35 and engaged with the arc gear rack 42;

the inclination adjusting pieces 38 are symmetrically arranged on two sides of the driving gear 37, the output ends of the inclination adjusting pieces are hinged with sliding columns 39, and the sliding columns 39 are embedded into arc-shaped sliding rails 43 and are connected in a sliding mode;

so as to improve the accurate orientation of the signal amplification area by the signal amplification housing.

In this embodiment, the signal monitoring module 2 includes a signal receiving cover 21 and a direction finder 22, the signal receiving cover 21 is installed at the upper end of the pillar 31, the outer side wall of the signal receiving cover 21 is provided with a multi-measurement monitoring ring wall, and is divided into a multi-angle monitoring area, the direction finder 22 is used for receiving the monitoring data of the signal receiving cover 21, feeding the monitoring data back to the communication module 1, and controlling the regulation and control steering module 3 to regulate the signal amplification module strengthening area;

as the best embodiment, the signal receiving cover receives the change of the signal intensity fed back by the external signal, namely the signal is suddenly enhanced, the direction of a correspondingly changed area is processed by the direction finder, the direction of the signal amplification module is adjusted by the regulating and controlling steering module, and the signal enhancement is carried out on the area.

In particular implementation, the method comprises the following steps:

s1: the fault monitoring module is used for directly monitoring the communication module, the equipment fault problem of the signal monitoring module and the light source monitoring module, whether to electrify, and real-time monitoring, and divide the fault problem that produces into external environment, self equipment is two types, feedback to the environment trigger module, the equipment trigger module, and then feedback to the maintenance work station, equip corresponding repair tools, salvage, among them, when cutting off the power supply, the fault monitoring module triggers the outage emergency module to charge for whole equipment, and whether the circular telegram situation among the monitoring each equipment is normal, when not cutting off the power supply, then direct monitoring, and regulate and control turn to the module, the photoelectric conversion module, the signal amplification module, then monitor through cooperating the communication module, accessible electric current, voltage, the normal change's of photoelectric conversion rate mode such as change monitors.

S2: the light irradiation direction is monitored by the light source monitoring module, the included angle of photoelectric conversion module and light is regulated and controlled, light is traced, light energy is converted into the storage of electric energy, the operation of supply communication module and whole equipment, here, trouble monitoring module monitoring communication module's electric quantity, and photoelectric conversion module's electric energy exhausts, all triggers outage emergency module, starts stand-by power supply.

S3: the signal intensity of each area is monitored by the signal monitoring module, the areas with more signal feedback are oriented, and the irradiation area of the signal amplification module is adjusted by the regulation and control steering module to perform corresponding enhancement.

S4: the adverse circumstances of accessible fault monitoring module auxiliary monitoring climatic environment to reach in the light source monitoring module, the adjusting stop position is in the top, protects whole communication equipment.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can substitute or change the technical solution of the present invention and the inventive concept within the technical scope of the present invention, and the technical solution and the inventive concept thereof should be covered by the scope of the present invention.