CN210745451U - Cloud platform light traffic box system - Google Patents

Abstract

The utility model provides a cloud platform optical cross-connecting box system, which comprises an optical cross-connecting box group, a communication base station, a cloud server, a control terminal and a human-computer interaction terminal; the optical cross connecting box group consists of a plurality of optical cross connecting boxes and is formed by a wireless communication module and a detection circuit which are arranged on each optical cross connecting box; the detection circuit is in communication connection with the wireless communication module and is used for detecting the information of the optical communication box; the wireless communication module is in wireless communication connection with the communication base station respectively; the communication base station establishes network connection with the cloud server; and the control terminal and the human-computer interaction terminal are connected with the cloud server through a network. The utility model provides a cloud platform light traffic case system to the computer long-range patrols and examines mainly, and the field maintenance of manpower is for assisting, has changed the tradition and has patrolled and examined the condition one by one through the manpower, for the operator has reduced manpower financial resources, has saved the operation maintenance cost, has improved work efficiency effectively.

Description

Cloud platform light traffic box system

Technical Field

The utility model relates to a case technical application field is handed over to light, and is more specific relates to a cloud platform light traffic case system.

Background

The light traffic box is regarded as a strategic infrastructure of operators and is paid more and more attention. According to the design principle of the conventional optical cross-connecting box, one is arranged at each 500 meters in the busy area and 500 meters in the suburban area, and the dense and numb ground is distributed at each corner. Traditional light delivery management needs to arrange personnel to patrol and examine one by one, and is both with expense manpower and financial resources, and work efficiency is low. Nowadays, as 5G services are immediately started, the number of light traffic boxes tends to be multiplied, and as the number of light traffic boxes increases, the traditional management mode is further challenged, and the management time limit cannot be guaranteed.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an overcome current light and hand over case and manage through artificially, have the financial and energy waste, the beneath technical defect of work efficiency, for adapting emerging 5G business, provide a cloud platform light and hand over case system.

In order to solve the technical problem, the technical scheme of the utility model as follows:

the cloud platform optical delivery box system comprises an optical delivery box group, a communication base station, a cloud server, a control terminal and a human-computer interaction terminal; wherein:

the optical cross connecting box group consists of a plurality of optical cross connecting boxes, and each optical cross connecting box is provided with a wireless communication module and a detection circuit; the detection circuit is in communication connection with the wireless communication module and is used for detecting the information of the optical communication box; the wireless communication module is in wireless communication connection with the communication base station respectively;

the communication base station establishes network connection with the cloud server;

and the control terminal and the human-computer interaction terminal are connected with the cloud server through a network.

In the above scheme, in the cloud platform optical cross-connection box system, the detection circuit arranged in each optical cross-connection box collects optical cross-connection box information, sends the collected information to the communication base station through the wireless communication module, and uploads the information to the cloud server through the communication base station for storage; the control terminal can realize detection management of the exchange box group by monitoring the data information on the cloud server, and personnel do not need to be arranged to patrol one by one, so that manpower and material resources are saved, and the working efficiency is effectively improved; operation and maintenance personnel can remotely access cloud server data through a human-computer interaction end such as a mobile phone, and can maintain the cloud server data in real time when the abnormal information of the optical traffic box is found, so that the management time limit is guaranteed.

The optical cross connecting box comprises a box body, an optical fiber unit disc and a storage battery pack which are arranged in the box body, and a cable inlet unit arranged on the box body; wherein:

the storage battery pack supplies power to the detection circuit;

the detection circuit is electrically connected with the wireless communication module and establishes wireless communication connection with the communication base station;

the detection circuit is used for monitoring the state of the optical fiber terminal of the optical fiber unit disc;

the cable inlet unit is used for allowing an external cable to enter the box body and be connected with the optical fiber unit disc.

The solar storage battery pack comprises a box body, a storage battery pack and a solar cell panel, wherein the box body is provided with the solar cell panel, and the output end of the solar cell panel is electrically connected with the storage battery pack.

In the above scheme, the solar cell panel is used for collecting solar energy, converting the solar energy into chemical energy, storing the chemical energy in the storage battery pack and supplying power to the detection circuit.

The box body is provided with a box door, and the box body and the box door are provided with mutually matched door lock switches.

In the above scheme, the setting of chamber door has carried out effectual guarantee to the equipment that sets up in the box inside, prevents that the outsider from destroying fiber equipment.

The detection circuit comprises a microprocessor, an optical fiber terminal detection module, a displacement detection module and a door lock detection module; wherein:

the detection end of the optical fiber terminal detection module is connected with the optical fiber unit disc;

the displacement detection module is arranged in the box body and used for detecting whether the box body moves or not;

the door lock detection module is connected with the door lock switch and used for detecting the opening and closing state of the door lock switch;

the output ends of the optical fiber terminal detection module, the displacement detection module and the door lock detection module are electrically connected with the output end of the microprocessor;

the microprocessor is electrically connected with the wireless communication module to realize information interaction.

In the scheme, the optical fiber terminal detection module is used for detecting the occupation condition of each optical fiber terminal on the optical fiber unit disc, namely whether optical fiber communication is carried out or not, the control terminal is convenient to use, whether the optical fiber terminals in communication are loosened, plugged and plugged or not is detected, the control terminal automatically alarms after identifying abnormal data, and at the moment, operation and maintenance personnel are arranged to carry out targeted on-site troubleshooting, the service interruption time is shortened, and the maintenance efficiency is improved.

In the above scheme, the displacement detection module is configured to detect whether an optical cross-connect box performs unauthorized migration or modification; if unauthorized transfer occurs, the control terminal obtains information sent by the displacement detection module and automatically gives an alarm, and operation and maintenance personnel are arranged to check the box body on site at the moment, so that the safety of the optical delivery box is guaranteed in real time.

In the above scheme, the door lock detection module is used for detecting whether the cross traffic box is opened without authorization; if the door lock is not opened, the control terminal obtains information sent by the door lock detection module and automatically gives an alarm, and operation and maintenance personnel are arranged to check the box body on site at the moment, so that the safety of the optical delivery box is guaranteed in real time.

The optical fiber terminal detection module detects the running state of each optical fiber terminal on the optical fiber unit disc by adopting an OTDR detection unit.

The displacement detection module adopts a GPS positioning module to position the position of the light traffic box.

The door lock switch is realized by adopting a relay, and the relay control end is electrically connected with the microprocessor.

The detection end of the door lock detection module is electrically connected with the relay control end and used for detecting the opening and closing state of a door lock switch.

In the above scheme, cloud platform light traffic case system is patrolled and examined mainly with the computer is long-range, and the field maintenance of manpower is for assisting, has changed the tradition and has patrolled and examined the condition one by one through the manpower, for the operator has reduced manpower financial resources, has saved the operation maintenance cost.

Compared with the prior art, the utility model discloses technical scheme's beneficial effect is:

the utility model provides a cloud platform light traffic case system, gather light traffic case information by the detection circuitry who sets up in each light traffic case inside, and send the information of gathering to the communication base station by wireless communication module, upload the cloud ware by the communication base station and keep; the control terminal can realize detection management of the exchange box group by monitoring the data information on the cloud server, and personnel do not need to be arranged to patrol one by one, so that manpower and material resources are saved, and the working efficiency is effectively improved; operation and maintenance personnel can remotely access cloud server data through a human-computer interaction end such as a mobile phone, and can maintain the cloud server data in real time when the abnormal information of the optical traffic box is found, so that the management time limit is guaranteed.

Drawings

FIG. 1 is a schematic structural diagram of a cloud platform optical cross-connection box system;

FIG. 2 is a schematic view of a light cross box structure;

FIG. 3 is a schematic diagram of the detection circuit connection;

wherein: 1. carrying out optical cross connection; 11. a wireless communication module; 12. a box body; 121. a box door; 122. a door lock switch; 13. a fiber optic unit tray; 14. a detection circuit; 141. a microprocessor; 142. a fiber optic terminal detection module; 143. a displacement detection module; 144. a door lock detection module; 15. a battery pack; 16. a cable entry unit; 17. A solar panel; 2. a communication base station; 3. a cloud server; 4. a control terminal; 5. and a human-computer interaction end.

Detailed Description

The drawings are for illustrative purposes only and are not to be construed as limiting the patent;

for the purpose of better illustrating the embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product;

it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

The technical solution of the present invention will be further explained with reference to the accompanying drawings and examples.

Example 1

As shown in fig. 1, the cloud platform optical delivery box system includes an optical delivery box group, a communication base station 2, a cloud server 3, a control terminal 4 and a human-computer interaction terminal 5; wherein:

the optical communication box group consists of a plurality of optical communication boxes 1, and a wireless communication module 11 and a detection circuit 14 are arranged on each optical communication box 1; the detection circuit 14 is in communication connection with the wireless communication module 11 and is used for detecting information of the optical communication box 1; the wireless communication modules 11 are respectively in wireless communication connection with the communication base stations 2;

the communication base station 2 establishes network connection with the cloud server 3;

and the control terminal 4 and the human-computer interaction terminal 5 are connected with the cloud server 3 through a network.

In a specific implementation process, the cloud platform optical cross-connecting box system collects information of the optical cross-connecting boxes 1 through the detection circuits 14 arranged in each optical cross-connecting box 1, sends the collected information to the communication base station 2 through the wireless communication module 11, and uploads the collected information to the cloud server 3 through the communication base station 2 for storage; the control terminal 4 can realize detection management of the optical communication box group by monitoring the data information on the cloud server 3, and personnel do not need to be arranged to carry out routing inspection one by one, so that manpower and material resources are saved, and the working efficiency is effectively improved; operation and maintenance personnel can remotely access data of the cloud server 3 through the human-computer interaction terminal 5 such as a mobile phone, and can maintain the optical traffic box 1 in real time when the information is abnormal, so that the management time limit is guaranteed.

Example 2

More specifically, as shown in fig. 2, the optical cross-connecting box 1 includes a box body 12, a fiber unit tray 13 and a battery pack 15 arranged inside the box body 12, and a cable inlet unit 16 arranged on the box body 12; wherein:

the battery pack 15 supplies power to the detection circuit 14;

the detection circuit 14 is electrically connected with the wireless communication module 11, and establishes wireless communication connection with the communication base station 2;

the detection circuit 14 is used for monitoring the state of the optical fiber terminal of the optical fiber unit disc 13;

the cable entry unit 16 is used for external cables to enter the box 12 and be connected with the optical fiber unit disc 13.

More specifically, a solar panel 17 is disposed on the top of the box 12, and an output end of the solar panel 17 is electrically connected to the storage battery 15.

In a specific implementation process, the solar panel 17 is used for collecting solar energy, converting the solar energy into chemical energy, storing the chemical energy in the storage battery pack 15 and supplying power to the detection circuit 14.

More specifically, a door 121 is disposed on the box 12, and a door lock switch 122 is disposed on the box 12 and the door 121 and engaged with each other.

In the specific implementation process, the arrangement of the box door 121 effectively guarantees the equipment arranged inside the box body 12, and prevents outsiders from damaging the optical fiber equipment.

Example 3

More specifically, as shown in fig. 3, the detection circuit 14 includes a microprocessor 141, a fiber terminal detection module 142, a displacement detection module 143, and a door lock detection module 144; wherein:

the detection end of the optical fiber terminal detection module 142 is connected with the optical fiber unit disc 13;

the displacement detection module 143 is disposed in the box 12 and is used for detecting whether the box 12 moves;

the door lock detection module 144 is connected to the door lock switch 122, and is configured to detect an open/close state of the door lock switch 122;

the output ends of the optical fiber terminal detection module 142, the displacement detection module 143 and the door lock detection module 144 are electrically connected with the output end of the microprocessor 141;

the microprocessor 141 is electrically connected to the wireless communication module 11 to realize information interaction.

In a specific implementation process, the optical fiber terminal detection module 142 is configured to detect an occupation situation of each optical fiber terminal on the optical fiber unit disc 13, that is, whether optical fiber communication is performed or not, so as to facilitate calling of a control terminal, and also detect whether a service interruption occurs due to looseness, plug-in or the like of an optical fiber terminal in communication, and send acquired data to the communication base station 2 by the wireless communication module 11, and then store the acquired data to the cloud server 3 by the communication base station 2, so as to facilitate acquisition of information by the control terminal 4; the control terminal 4 identifies the abnormal data and then automatically gives an alarm, and at the moment, operation and maintenance personnel are arranged to carry out targeted on-site troubleshooting, so that the service interruption time is shortened, and the maintenance efficiency is improved.

In a specific implementation process, the displacement detection module 143 is configured to detect whether the optical cross-connect box 1 performs unauthorized migration; if unauthorized migration and modification occur, the displacement detection module 143 sends the acquired data to the communication base station 2 through the wireless communication module 11, and then the data is stored in the cloud server 3 through the communication base station 2, so that the control terminal 4 can conveniently acquire information; the control terminal 4 will obtain the information sent by the displacement detection module 143 and perform automatic alarm, at this time, the operation and maintenance personnel is arranged to check the box body 12 on site, and the safety of the optical delivery box 1 is guaranteed in real time.

In a specific implementation, the door lock detection module 144 is configured to detect whether the cross traffic box 1 is opened without authorization; if the door lock is not authorized to be opened, the door lock detection module 144 sends the acquired data to the communication base station 2 through the wireless communication module 11, and then the data is stored in the cloud server 3 through the communication base station 2, so that the control terminal 4 can conveniently acquire the information; the control terminal 4 will obtain the information sent by the door lock detection module 144 and perform automatic alarm, at this time, operation and maintenance personnel are arranged to go to the box body 12 for on-site inspection, and the safety of the light delivery box 1 is guaranteed in real time.

More specifically, the optical fiber terminal detection module 142 detects the operating state of each optical fiber terminal on the optical fiber unit tray 13 by using an OTDR detection unit.

More specifically, the displacement detection module 143 uses a GPS positioning module to position the position of the light traffic box 1.

More specifically, the door lock switch 122 is implemented by a relay, and the control end of the relay is electrically connected to the microprocessor 141.

More specifically, the detecting end of the door lock detecting module 144 is electrically connected to the relay control end, and is configured to detect the open/close state of the door lock switch 122.

In the specific implementation process, the cloud platform optical cross-connection box system is mainly based on remote inspection of a computer, and is assisted by manpower field maintenance, so that the traditional condition that inspection is carried out one by one through manpower is changed, manpower and financial resources are reduced for operators, and the operation and maintenance cost is saved.

In a specific implementation process, the cloud platform optical cross-connecting box system collects information of the optical cross-connecting boxes 1 through the detection circuits 14 arranged in each optical cross-connecting box 1, sends the collected information to the communication base station 2 through the wireless communication module 11, and uploads the collected information to the cloud server 3 through the communication base station 2 for storage; the control terminal 4 can realize detection management of the optical communication box group by monitoring the data information on the cloud server 3, and personnel do not need to be arranged to carry out routing inspection one by one, so that manpower and material resources are saved, and the working efficiency is effectively improved; operation and maintenance personnel can remotely access data of the cloud server 3 through a human-computer interaction 5 end such as a mobile phone, and can maintain the data in real time when the information of the optical traffic box 1 is found to be abnormal, so that the management time limit is guaranteed.

It is obvious that the above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not limitations to the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (9)

1. Cloud platform light traffic case system, its characterized in that: the system comprises an optical exchange box group, a communication base station (2), a cloud server (3), a control terminal (4) and a human-computer interaction terminal (5); wherein:

the optical cross connecting box group consists of a plurality of optical cross connecting boxes (1), and each optical cross connecting box (1) is provided with a wireless communication module (11) and a detection circuit (14); the detection circuit (14) is in communication connection with the wireless communication module (11) and is used for detecting information of the optical cross-connect box (1); the wireless communication module (11) is in wireless communication connection with the communication base station (2) respectively;

the communication base station (2) is connected with the cloud server (3) through a network;

the control terminal (4) and the human-computer interaction end (5) are connected with the cloud server (3) through a network.

2. The cloud platform light cross-box system of claim 1, wherein: the optical cable cross connecting cabinet (1) further comprises a cabinet body (12), an optical fiber unit disc (13) and a storage battery pack (15) which are arranged inside the cabinet body (12), and a cable inlet unit (16) which is arranged on the cabinet body (12); wherein:

the storage battery pack (15) supplies power to the detection circuit (14);

the detection circuit (14) is electrically connected with the wireless communication module (11) and establishes wireless communication connection with the communication base station (2);

the detection circuit (14) is used for monitoring the state of the optical fiber terminal of the optical fiber unit disc (13);

the cable inlet unit (16) is used for external cables to enter the box body (12) and connected with the optical fiber unit disc (13).

3. The cloud platform light cross-box system of claim 2, wherein: the solar energy storage battery pack is characterized in that a solar energy cell panel (17) is arranged on the box body (12), and the output end of the solar energy cell panel (17) is electrically connected with the storage battery pack (15).

4. The cloud platform light cross-box system of claim 3, wherein: the box body (12) is provided with a box door (121), and the box body (12) and the box door (121) are provided with door lock switches (122) which are matched with each other.

5. The cloud platform light cross-box system of claim 4, wherein: the detection circuit (14) comprises a microprocessor (141), an optical fiber terminal detection module (142), a displacement detection module (143) and a door lock detection module (144); wherein:

the detection end of the optical fiber terminal detection module (142) is connected with the optical fiber unit disc (13);

the displacement detection module (143) is arranged in the box body (12) and is used for detecting whether the box body (12) moves or not;

the door lock detection module (144) is connected with the door lock switch (122) and is used for detecting the opening and closing state of the door lock switch (122);

the output ends of the optical fiber terminal detection module (142), the displacement detection module (143) and the door lock detection module (144) are electrically connected with the output end of the microprocessor (141);

the microprocessor (141) is electrically connected with the wireless communication module (11) to realize information interaction.

6. The cloud platform light cross-box system of claim 5, wherein: and the optical fiber terminal detection module (142) detects the running state of each optical fiber terminal on the optical fiber unit disc by adopting an OTDR detection unit.

7. The cloud platform light cross-box system of claim 5, wherein: the displacement detection module (143) adopts a GPS positioning module to position the position of the light traffic box.

8. The cloud platform light cross-box system of claim 5, wherein: the door lock switch (122) is realized by adopting a relay, and the control end of the relay is electrically connected with the microprocessor (141).

9. The cloud platform light cross-box system of claim 8, wherein: the detection end of the door lock detection module (144) is electrically connected with the relay control end and is used for detecting the opening and closing state of the door lock switch (122).

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