CN213906680U - Optical communication terminal based on Internet of things - Google Patents

Abstract

The invention discloses an optical communication terminal based on the Internet of things; the device comprises a control chip, wherein the control chip is electrically connected with a voltage regulating module, a wireless communication and detection module, a driver, an optical fiber receiving module, an optical fiber sending module and a storage module; the battery pack is arranged in the optical communication terminal, so that power can be supplied for a short time when power is off, signal interruption caused by sudden power failure is prevented, the detection module is arranged, voltage detection can be realized when power is off, then power is supplied for use through the battery pack, communication connection is realized through optical fibers, wireless communication is realized, wireless network connection is realized, the detection module is arranged, communication network and system faults can be detected, automatic resetting and restarting are carried out, stable operation of the terminal is kept, and the cooling fan is arranged, so that cooling treatment of the terminal can be realized.

Description

Optical communication terminal based on Internet of things

Technical Field

The invention belongs to the technical field of optical communication terminals, and particularly relates to an optical communication terminal based on the Internet of things.

Background

Communication terminals are direct tools for different information applications (communication services), and undertake various tasks such as providing a good user interface for users, completing required service functions, accessing a communication network and the like. The transmission principle is 'total reflection of light', and the optical fiber has wide frequency band, low loss, light weight, strong anti-interference capability, high fidelity and reliable working performance, however, various optical communication terminals in the market still have various problems.

For example, the fiber optic communication terminal disclosed in the publication No. CN203224659U realizes that the pigtail and the connector thereof are both in the terminal box body, which not only facilitates connection, but also is not easy to damage, and improves the service life. And terminal box is internal to be provided with the dish fine board, can twine unnecessary optic fibre or tail optical fibre on it reserve, and the optic fibre baffle that sets up on the dish fine board makes optic fibre or tail optical fibre winding stable, but does not solve current optical communication terminal and can not continuously run after the outage, can not realize detecting the regulation, reset control with can not carry out the problem of heat dissipation processing etc. for this reason we propose an optical communication terminal based on thing networking.

Disclosure of Invention

The invention aims to provide an optical communication terminal based on the Internet of things, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an optical communication terminal based on the Internet of things comprises a control chip, wherein the control chip is electrically connected with a voltage regulating module, a wireless communication module, a detection module, a driver, an optical fiber receiving module, an optical fiber sending module and a storage module;

the voltage regulating module is electrically connected with a commercial power grid, the voltage regulating module is also electrically connected with a charging module, the charging module is electrically connected with a battery module, and the battery module is electrically connected with the control chip; the voltage regulating module is used for supplying power to the control chip, the battery module is charged when in normal operation, and the control chip is supplied with power when in power failure;

the detection module comprises a temperature detection module, a voltage detection module, a fault detection module and a communication detection module, wherein the temperature detection module is used for detecting the temperature inside the optical communication terminal, the voltage detection module is used for detecting the power supply condition of the commercial power grid, when the power supply of the commercial power grid is cut off, the battery module is controlled to carry out power supply operation, the fault detection module is used for detecting the operation condition of electronic equipment inside the optical communication terminal, and the communication detection module is used for detecting the operation states of the optical fiber receiving module, the optical fiber sending module and the wireless communication;

the driver is electrically connected with a heat radiation fan, and the heat radiation fan is used for performing heat radiation treatment on the interior of the optical communication terminal;

the optical fiber receiving module and the optical fiber sending module are in communication connection with the Internet of things terminal.

Preferably, the control chip is electrically connected with an auxiliary module, the auxiliary module comprises a control key, an indicator light and a display screen, the control module comprises a switch key, a reset key and an adjusting key, and the display screen is used for displaying various parameters of the optical communication terminal.

Preferably, the control chip is internally provided with a reset circuit and a clock crystal oscillator, and the clock crystal oscillator is used for generating a standard pulse signal.

Preferably, the reset circuit is electrically connected with the reset key, and the reset circuit is electrically connected with the communication detection module.

Preferably, a wireless antenna is included in the wireless communication, and the wireless antenna is used for increasing the coverage area of the wireless communication.

Preferably, the storage module includes a ROM storage module and a RAM storage module, the ROM storage module is used for storing the running program of the control chip, and the RAM storage module is used for storing the log of the optical communication terminal.

Preferably, the voltage regulation module comprises a voltage reduction circuit, a rectification circuit, a voltage stabilization circuit and a filter circuit, wherein the voltage reduction circuit is used for reducing the voltage of the commercial power grid to 5-12V, the rectification circuit is used for converting alternating voltage into direct voltage, and the filter circuit is used for filtering alternating voltage in the direct voltage.

Preferably, the voltage detection module is electrically connected with the voltage regulation module and the battery module, and the voltage detection module is used for controlling the battery module to supply power for the control chip when detecting that the voltage of the voltage regulation module is zero.

Preferably, when the temperature detection module detects that the temperature inside the optical communication terminal is too high, the control chip drives the cooling fan through the driver.

Preferably, the fault detection module is electrically connected with the indicator lamp, and the indicator lamp comprises a fault indicator lamp, an operation indicator lamp, a communication indicator lamp and a battery module power supply indicator lamp.

Compared with the prior art, the invention has the beneficial effects that:

(1) the battery pack is arranged in the optical communication terminal, so that power can be supplied for a short time when the power is cut off, the signal interruption caused by sudden power failure is prevented, and the voltage detection can be realized when the power is cut off by the detection module, and then the battery pack is used for supplying power.

(2) The invention realizes communication connection through optical fibers, realizes wireless communication, realizes wireless network connection, is provided with a detection module, can detect communication network and system faults, automatically resets and restarts, keeps stable operation of the terminal, and is provided with a cooling fan, so that cooling treatment of the terminal can be realized.

Drawings

FIG. 1 is a schematic diagram of the system of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, the present invention provides a technical solution: an optical communication terminal based on the Internet of things comprises a control chip, wherein the control chip is electrically connected with a voltage regulating module, a wireless communication module, a detection module, a driver, an optical fiber receiving module, an optical fiber sending module and a storage module;

the voltage regulating module is electrically connected with a commercial power grid, the voltage regulating module is also electrically connected with a charging module, the charging module is electrically connected with a battery module, and the battery module is electrically connected with the control chip; the voltage regulating module is used for supplying power to the control chip, the battery module is charged when in normal operation, and the control chip is supplied with power when in power failure;

the detection module comprises a temperature detection module, a voltage detection module, a fault detection module and a communication detection module, wherein the temperature detection module is used for detecting the temperature inside the optical communication terminal, the voltage detection module is used for detecting the power supply condition of the commercial power grid, when the power supply of the commercial power grid is cut off, the battery module is controlled to carry out power supply operation, the fault detection module is used for detecting the operation condition of electronic equipment inside the optical communication terminal, and the communication detection module is used for detecting the operation states of the optical fiber receiving module, the optical fiber sending module and the wireless communication;

the driver is electrically connected with a heat radiation fan, and the heat radiation fan is used for performing heat radiation treatment on the interior of the optical communication terminal;

the optical fiber receiving module and the optical fiber sending module are in communication connection with the Internet of things terminal.

Supplementary module can be more convenient controls regulation to optical communication terminal, and the pilot lamp can audio-visually show optical communication terminal's running state, and display screen display system parameter, in this embodiment, preferred, including control button, pilot lamp and display screen in the supplementary module, including switch button, reset button and regulation button in the control, the display screen is used for showing optical communication terminal's various parameters.

When the intelligent temperature-regulating device is used, the optical communication terminal is electrically connected with a commercial power grid, the commercial power grid supplies power, the voltage is reduced, rectified, filtered and stabilized through a circuit in the voltage-regulating module, then the control chip and the charging module are respectively supplied with power, the charging module charges the battery module, the control chip receives information of the Internet of things terminal through the optical fiber receiving module and sends the information to the Internet of things terminal through the optical fiber sending module, the optical fiber receiving module and the optical fiber sending module are also communicated through communication data, wireless communication is arranged on the control chip and can convert the data communication into a wireless network for covering, when the intelligent temperature-regulating device is operated, the detection module detects the optical communication terminal, when the temperature detection module detects that the temperature in the optical communication terminal is overhigh, the heat-radiating fan can be operated through the control chip and the driver, the realization is cooled down and is handled optical communication terminal to communication detection module is after detecting the communication problem, realizes resetting the optical communication terminal through the inside reset circuit of control chip, and can control the regulation that resets through the control button in the auxiliary module, and voltage detection module starts the electric module at once and supplies power to control chip when detecting the voltage of voltage regulating module and will be zero, keeps optical communication terminal's normal operating.

In order to realize automatic reset of the optical communication terminal and generate a stable pulse signal for information transmission control, in this embodiment, it is preferable that the control chip is provided with a reset circuit and a clock crystal oscillator, and the clock crystal oscillator is used for generating a standard pulse signal.

In order to realize manual and automatic reset operation, in this embodiment, preferably, the reset circuit is electrically connected to the reset button, and the reset circuit is electrically connected to the communication detection module.

In order to cover the wireless signal and increase the range of the wireless signal, in this embodiment, it is preferable that a wireless antenna is included in the wireless communication, and the wireless antenna is used to increase the coverage of the wireless communication.

In order to implement separation of storage modes, so that the storage system can be clear and no confusion occurs, in this embodiment, it is preferable that the storage module includes a ROM storage module and a RAM storage module, the ROM storage module is used for storing an operation program body of the control chip, and the RAM storage module is used for storing a log of the optical communication terminal.

In order to implement stable power supply to the control chip and maintain stable operation of the control chip, in this embodiment, it is preferable that the voltage regulation module includes a voltage reduction circuit, a rectification circuit, a voltage regulation circuit, and a filter circuit, the voltage reduction circuit is configured to reduce the voltage of the utility grid to between 5V and 12V, the rectification circuit is configured to convert an ac voltage into a dc voltage, and the filter circuit is configured to filter an ac voltage in the dc voltage.

In order to realize the quick voltage size that detects the voltage regulation module, realize the realization auxiliary power supply of uninterrupted, in this embodiment, it is preferred, voltage detection module with the voltage regulation module with battery module electric connection, voltage detection module is detecting the voltage of voltage regulation module is when zero, voltage detection module control the battery module does control chip supplies power.

In order to realize cooling the inside of the optical communication terminal and reduce the operation of the heat dissipation fan and the consumption of voltage, in this embodiment, preferably, when the temperature detection module detects that the temperature inside the optical communication terminal is too high, the control chip drives the heat dissipation fan through the driver.

In order to display the operating state of the optical communication terminal, in this embodiment, preferably, the fault detection module is electrically connected to the indicator light, and the indicator light includes a fault indicator light, an operating indicator light, a communication indicator light, and the battery module power supply indicator light.

The working principle and the using process of the invention are as follows: when the intelligent temperature-regulating device is used, the optical communication terminal is electrically connected with a commercial power grid, the commercial power grid supplies power, the voltage is reduced, rectified, filtered and stabilized through a circuit in the voltage-regulating module, then the control chip and the charging module are respectively supplied with power, the charging module charges the battery module, the control chip receives information of the Internet of things terminal through the optical fiber receiving module and sends the information to the Internet of things terminal through the optical fiber sending module, the optical fiber receiving module and the optical fiber sending module are also communicated through communication data, wireless communication is arranged on the control chip and can convert the data communication into a wireless network for covering, when the intelligent temperature-regulating device is operated, the detection module detects the optical communication terminal, when the temperature detection module detects that the temperature in the optical communication terminal is overhigh, the heat-radiating fan can be operated through the control chip and the driver, the realization is cooled down and is handled optical communication terminal to communication detection module is after detecting the communication problem, realizes resetting the optical communication terminal through the inside reset circuit of control chip, and can control the regulation that resets through the control button in the auxiliary module, and voltage detection module starts the electric module at once and supplies power to control chip when detecting the voltage of voltage regulating module and will be zero, keeps optical communication terminal's normal operating.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides an optical communication terminal based on thing networking, includes control chip, its characterized in that: the control chip is electrically connected with a voltage regulating module, a wireless communication and detection module, an auxiliary module, a driver, an optical fiber receiving module, an optical fiber sending module and a storage module;

the voltage regulating module is electrically connected with a commercial power grid, the voltage regulating module is also electrically connected with a charging module, the charging module is electrically connected with a battery module, and the battery module is electrically connected with the control chip; the voltage regulating module is used for supplying power to the control chip, the battery module is charged when in normal operation, and the control chip is supplied with power when in power failure;

the detection module comprises a temperature detection module, a voltage detection module, a fault detection module and a communication detection module, wherein the temperature detection module is used for detecting the temperature inside the optical communication terminal, the voltage detection module is used for detecting the power supply condition of the commercial power grid, when the power supply of the commercial power grid is cut off, the battery module is controlled to carry out power supply operation, the fault detection module is used for detecting the operation condition of electronic equipment inside the optical communication terminal, and the communication detection module is used for detecting the operation states of the optical fiber receiving module, the optical fiber sending module and the wireless communication;

the driver is electrically connected with a heat radiation fan, and the heat radiation fan is used for performing heat radiation treatment on the interior of the optical communication terminal;

the optical fiber receiving module and the optical fiber sending module are in communication connection with the Internet of things terminal.

2. The optical communication terminal based on the internet of things according to claim 1, wherein: the control chip is electrically connected with an auxiliary module, the auxiliary module comprises a control key, an indicator light and a display screen, the control chip comprises a switch key, a reset key and an adjusting key, and the display screen is used for displaying various parameters of the optical communication terminal.

3. The optical communication terminal based on the internet of things as claimed in claim 2, wherein: the control chip is internally provided with a reset circuit and a clock crystal oscillator, and the clock crystal oscillator is used for generating a standard pulse signal.

4. The optical communication terminal based on the internet of things as claimed in claim 3, wherein: the reset circuit is electrically connected with the reset key, and the reset circuit is electrically connected with the communication detection module.

5. The optical communication terminal based on the internet of things according to claim 1, wherein: the wireless communication device comprises a wireless antenna which is used for increasing the coverage range of the wireless communication.

6. The optical communication terminal based on the internet of things according to claim 1, wherein: the storage module comprises a ROM storage module and a RAM storage module, the ROM storage module is used for storing the running program body of the control chip, and the RAM storage module is used for storing the log of the optical communication terminal.

7. The optical communication terminal based on the internet of things according to claim 1, wherein: the voltage-regulating module comprises a voltage-reducing circuit, a rectifying circuit, a voltage-stabilizing circuit and a filter circuit, wherein the voltage-reducing circuit is used for reducing the voltage of the commercial power grid to between 5V and 12V, the rectifying circuit is used for converting alternating-current voltage into direct-current voltage, and the filter circuit is used for filtering the alternating-current voltage in the direct-current voltage.

8. The optical communication terminal based on the internet of things according to claim 1, wherein: the voltage detection module is electrically connected with the voltage regulation module and the battery module, the voltage detection module detects that the voltage of the voltage regulation module is zero, and the voltage detection module controls the battery module to supply power to the control chip.

9. The optical communication terminal based on the internet of things according to claim 1, wherein: when the temperature detection module detects that the temperature inside the optical communication terminal is too high, the control chip drives the cooling fan through the driver.

10. The optical communication terminal based on the internet of things as claimed in claim 2, wherein: the fault detection module is electrically connected with the indicator lamp, and the indicator lamp comprises a fault indicator lamp, an operation indicator lamp, a communication indicator lamp and a battery module power supply indicator lamp.

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