CN112965403A - Thing networking flashing individual soldier net gathers electronic unit - Google Patents

Abstract

The invention discloses an Internet of things flashing individual soldier grid acquisition electronic unit which comprises a control panel, a control chip, a plurality of data interfaces, an Internet of things communication module, a battery, a storage module, a GPS (global positioning system) positioning module, a data acquisition system and a detachable charging power supply system, wherein the charging power supply system comprises a solar control module, a solar panel and an electric quantity control conversion module; heating devices are arranged on the control chip and the storage module; the data acquisition system comprises a camera acquisition component, and/or an audio acquisition component, and/or a temperature detection component, and/or an audio output component, and/or an audio input component, and/or a laser element component; each unit component of the data acquisition system adopts a module design and can be adapted to the data interface.

Description

Thing networking flashing individual soldier net gathers electronic unit

Technical Field

The invention relates to the technical field of communication, in particular to an Internet of things flashing individual-soldier grid acquisition electronic unit.

Background

With the continuous progress of science and technology, it is more and more important whether the commander can timely obtain the on-site real-time condition of an individual soldier and timely and effectively issue command commands according to the real-time condition.

At present, a known field real-time monitoring system mainly comprises a camera and a communication module, and is rarely provided with other functions such as infrared and sound waves. The existing intelligent equipment has more products and single function, can not effectively distribute electric quantity and functional module components, uses the same set of equipment configuration standard for different tasks and scenes, is not beneficial to reducing cost and improving equipment reliability, and additionally consumes electric quantity. The existing equipment uses an external battery, other energy supply modes are rarely provided, electric quantity management is not set, multi-type power supply input is allowed, and the existing equipment is not beneficial to power supply maintenance and prolonging of endurance time. The known individual soldier system cannot collect the collected data, is applied to a large-scale analysis scene, and is only limited to serve equipment individuals instead of the whole network. The existing individual investigation equipment is high in cost, integrated solidification equipment is adopted, and the equipment is not suitable for the multi-environment working requirements. The used power supply system is large, the size and the weight bring great burden to a user, and the requirements of maintenance and light equipment in actual combat environment are not facilitated.

The camera system that unmanned aerial vehicle loaded is applicable to single video circuit reconnaissance, but the cost is higher, and the range is limited, can not effectively realize the data acquisition of bee colony tactics. The deployment of the single-point network video monitoring system can not realize the grid deployment and only can perform local area defense deployment.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides an Internet of things flashing individual-soldier grid acquisition electronic unit, which can be combined to configure various functional modules and is uploaded to multiple groups of available servers by using the same set or a group of communication systems.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: an Internet of things flashing individual soldier grid acquisition electronic unit comprises a control panel, a control chip, a plurality of data interfaces, an Internet of things communication module, a battery, a storage module, a GPS positioning module, a data acquisition system and a detachable charging power supply system, wherein the charging power supply system comprises a solar control module, a solar panel and an electric quantity control conversion module; the control chip and the storage module are provided with a heating device and a micro power supply; the data acquisition system comprises a camera acquisition component, and/or an audio acquisition component, and/or a temperature detection component, and/or an audio output component, and/or an audio input component, and/or a laser element component; each unit component of the data acquisition system adopts a module design and can be adapted to the data interface.

Preferably, the battery can be detachably arranged, and the battery, the solar control module and the electric quantity control conversion module are respectively matched with a power interface arranged on the control panel.

Preferably, the storage module is an SD card slot and an SD card.

Preferably, the control board uploads the data to the server through the internet of things communication module, and the server receives the data and then performs graph synthesis through the background image analysis and recognition system and the GPS positioning coordinate information, so that short real-time image acquisition and environment information acquisition of the area are realized.

Preferably, the data interface includes an indicator interface, and the indicator interface is connected to the indicator and is used for receiving the instruction of the server.

Preferably, the control chip is preset with working time, and when the control chip is in non-working time, all power supply and electric quantity control except the internet of things communication module and the charging power supply system are stopped.

Preferably, after receiving the instruction sent by the server, the internet of things communication module supplies power to the board-mounted functional module and the functional component connected to the data interface through the control chip.

Preferably, the internet of things communication module is intermittently connected with the server, and the internet of things communication module sends data and checks to receive results and instructions, so that signal tracking monitoring can be avoided.

(III) advantageous effects

The invention has the following beneficial effects:

1. the internet-of-things flashing individual-soldier grid acquisition electronic unit is manufactured into a patch, is embedded into a sheet, is in a disc type and other format shapes, is provided with 3 power interfaces and 4 data interfaces, and is convenient to attach to the surfaces of objects such as safety protection equipment, equipment surfaces, material surfaces and auxiliary monitoring equipment; the electronic unit can be applied to various work sites such as dispatching command, supervision, safety defense deployment and control, detection and the like, and the individual flashing electronic units are assembled in a combined mode according to needs, so that the electronic unit has the functions of a GPS (global positioning system), a micro camera, sound wave induction and the like, and is suitable for various tasks and scenes.

2. This thing networking flashing individual soldier net gathers electronic unit, according to job requirement and scene needs, selects the appropriate electrical power generating system of cooperation, uses light and heat response and little energy storage equipment supply individual soldier's system electronic unit electric energy for connect for a short time or connect the thing networking for a long time and upload data.

3. The flashing individual-soldier grid acquisition electronic unit of the Internet of things has the functions of equipment awakening and sleeping, the equipment communication can be cut off after the functions are executed for a short time and the verification is successful, and the communication mode can wait for instructions in a silent mode and does not actively send data; the battery pack has the advantages that the cruising ability can be improved, and the functions of detection prevention and square positioning are achieved.

4. The flashing individual-soldier grid acquisition electronic unit of the Internet of things adopts a modular assembly technology on both functions and functional components, is plug-and-play, and is charged by externally inputting various power supplies; the link is not only modularized in management, but also modularized in application mode in aspects of electric quantity distribution, data transmission and server background data processing, so that the resource utilization rate is greatly improved, and the service time of equipment is prolonged; on the premise of reducing equipment cost, the running time is reduced and the working time is prolonged; meanwhile, the destruction instruction can be executed according to the requirement, the electronic chip is burnt out, the communication is closed, and the purpose of being disposable is achieved.

5. This thing networking flashing individual soldier's net gathers electronic unit uses thermal-insulated, waterproof, rust-resistant, dampproofing etc. outer coating material and coating material, uses micro power system techniques such as heat energy, light energy, little air current energy storage, improves the power storage ability.

6. The flashing individual-soldier grid acquisition electronic unit of the Internet of things has low equipment cost, can realize minimum assembly operation, improve the replacement degree of functional components, reduce energy consumption and prolong the working time; the device can realize automatic destruction, and the device automatically erases built-in information and carries out physical damage after the virtual server and the communication are closed.

Of course, it is not necessary for any product that implements the invention to achieve all of the above-described advantages at the same time.

Drawings

Fig. 1 is a block diagram of an internet-of-things flashing individual-soldier grid acquisition electronic unit.

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.

In the description of the present invention, it is to be understood that the terms "aperture", "upper", "lower", "thickness", "top", "middle", "length", "inner", "periphery", and the like, are used in an orientation or positional relationship that is merely for convenience in describing and simplifying the description, and do not indicate or imply that the referenced component or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present invention.

Referring to fig. 1, the electronic unit for acquiring a flashing individual soldier grid of the internet of things of the embodiment includes a control panel, a control chip, a plurality of data interfaces, a communication module of the internet of things, a battery, a storage module, a GPS positioning module, a data acquisition system, and a detachable charging power system, wherein the charging power system includes power input systems such as a solar control module, a solar panel, an electric quantity control conversion module and the like, and is used for storing electric energy, a power input 0 provides a charging function for the electric quantity control conversion module, and the electric energy absorbed and converted by the solar panel is stored in a power input 3 through the solar control module; the control panel is provided with a destroying system, the destroying system adopts a remote instruction code, a continuous working mode is started, and the chip is burnt out after long-time full-load operation; specifically, the method comprises the following steps: a heating device and a micro power supply are configured on the control chip, and direct over-temperature heating of the chip is realized by charging a capacitor of the heating device; or a self-destruction functional module with a thermal combustion agent is arranged on the data interface, and the equipment is heated after being electrified to realize high-temperature combustion and burn the equipment; the micro power supply is used for resisting cold and self-destruction of the chip; according to the field work requirement, functional components such as an audio acquisition component, a gas monitoring component, a temperature monitoring component, a humidity detection component, a laser element component, an electromagnetic wave testing component, an audio output component and the like can be assembled; each unit component of the data acquisition system adopts a module design and can be adapted to the data interface.

Furthermore, the battery is detachably arranged, and the battery, the solar control module and the electric quantity control conversion module are respectively matched with a power interface arranged on the control panel; the flashing individual soldier grid acquisition electronic unit of the Internet of things adopts a modular design mode, a modular assembly technology is adopted in function and functional components, not only is a physical link subjected to modular management, but also a modular application mode is adopted in the aspects of electric quantity distribution, data transmission and server background data processing, the resource utilization rate is greatly improved, the equipment use time is prolonged, and a richer and more changeable assembly scheme is provided so as to adapt to various different application scenes.

Further, the storage module is an SD card slot and an SD card, and the SD card is completely formatted before the self-destruction program is started.

Further, the control panel uploads the data to the server through the communication module of the internet of things according to the set frequency and mode, and the server receives the data and then performs graph synthesis through the background image analysis and recognition system and the GPS positioning coordinate information, so that short real-time image acquisition and environment information acquisition of the area are realized; the server side controls other components to record or acquire images in real time through issuing instructions and the control chip; stopping data uploading under the condition of bad communication environment, and performing data uploading again after the signal can be normally connected to be verified; the fuzzy picture is simulated into a high-definition picture by applying an intelligent algorithm, and the picture precision is improved by means of multi-track and high-height graphic distortion and deformation superposition.

Further, the data interface comprises an indicator interface, and the indicator interface is connected with the indicator and used for receiving the instruction of the server.

Further, the control chip is preset with working time, when the control chip is in non-working time, all power supplies except the internet of things communication module and the charging power system are stopped, and the control chip is dormant in the non-working time of the module so as to achieve the purpose of prolonging the working time: and the control chip stops all power supply outputs except the communication and power supply system and performs dormancy outside the set action working time range.

The equipment is awakened and dormant in set time, the function is executed for a short time, and the equipment is switched off after the success of the verification; the communication mode waits for an instruction in a silent mode and does not actively send data; the data is stored on the SD card, and the data is uploaded again after the interference signal disappears or the communication is recovered to normal; and setting a time interval or random time to send a short message to the server, receiving the corresponding short message to realize connection signal validation, and stopping supplying power to the communication module in the rest time. Configuring a radio signal receiving module for monitoring in a specific environment, and triggering equipment to start a communication function or a corresponding function by taking a specific interval signal as an identification code; taking the internet of things communication module as an example, when the equipment is in silent dormancy, only the internet of things communication module, the control chip and the charging power supply system operate; the communication module of the Internet of things only receives a set radio channel signal, starts a specific function through silent reception, and transmits a signal report to the position under some special environments; in addition to wireless telecommunication signals, sound signals, light signals, chemical signals, etc. may also be used as control signals, but the requirements on distance and environmental factors are high.

Further, after the communication module of the internet of things receives an instruction sent by the server, the power supply and the electric quantity control are carried out on the functional components connected to the board-mounted functional module and the data interface through the control chip.

Furthermore, the communication module of the internet of things is discontinuously connected with the server, and can send data, check and receive results and instructions, so that signal tracking monitoring can be avoided; and sending the short message to the server, and receiving the corresponding short message to realize connection signal validation. Attaching fragment data labels after sending the data fragments, and checking and sequencing at a server; and sending data segments with the time length less than the time length required by monitoring signals in a working environment at random intervals, and effectively avoiding signal monitoring and positioning.

Furthermore, the control panel is made into a patch type, an embedded sheet type and a circular sheet type, so that the control panel can be conveniently attached to the surfaces of safety protection equipment, materials and auxiliary monitoring equipment; the device is assembled on various materials and flying appliances such as helium gas, water and floating prevention and the like, so that the purpose of being applied to various working scenes is achieved; the device is provided with pressure induction, electromagnetic induction and the like, can realize interference area judgment, interference target locking and the like, has wide application range, can improve the deployment capability of individual equipment, enlarge the data monitoring range and the like.

Furthermore, the coating material and the coating material are made of heat-insulating, waterproof, antirust and moistureproof materials, and the micro-power system technologies such as heat energy, light energy, micro-airflow energy storage and the like are applied to charge the battery, so that the storage capacity of the power supply is improved.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (8)

1. The utility model provides a thing networking flashing individual soldier net gathers electronic unit, includes control panel, control chip, a plurality of data interface, thing networking communication module, battery, storage module, GPS orientation module and data acquisition system, its characterized in that: the solar charging system also comprises a charging power supply system which is detachably arranged, wherein the charging power supply system comprises a solar control module, a solar panel and an electric quantity control conversion module; the control chip and the storage module are provided with a heating device and a micro power supply; the data acquisition system comprises a camera acquisition assembly, and/or an audio acquisition assembly, and/or a temperature detection assembly, and/or a laser element assembly; each unit component of the data acquisition system adopts a module design and can be adapted to the data interface.

2. The internet-of-things flashing individual-soldier grid acquisition electronic unit as claimed in claim 1, wherein: the battery can be dismantled and set up, battery, solar control module and electric quantity control conversion module respectively with the power source interface adaptation that sets up on the control panel.

3. The internet-of-things flashing individual-soldier grid acquisition electronic unit as claimed in claim 1, wherein: the storage module is an SD card slot and an SD card.

4. The internet-of-things flashing individual-soldier grid acquisition electronic unit as claimed in claim 1, wherein: the control panel uploads data to the server through the Internet of things communication module, and the server receives the data and then performs graph synthesis through the background image analysis and recognition system and the GPS positioning coordinate information, so that short real-time image acquisition and environment information acquisition of the area are realized.

5. The Internet of things flashing individual-soldier grid acquisition electronic unit as claimed in claim 4, wherein: the data interface comprises an indicator interface, and the indicator interface is connected with an indicator and used for receiving the instruction of the server.

6. The Internet of things flashing individual-soldier grid acquisition electronic unit as claimed in claim 5, wherein: the control chip is preset with working time, and when the control chip is in non-working time, all power supplies except the Internet of things communication module and the charging power system are stopped.

7. The Internet of things flashing individual-soldier grid acquisition electronic unit as claimed in claim 6, wherein: after the communication module of the internet of things receives an instruction sent by the server, the power supply and the electric quantity control are carried out on the functional components connected on the board-mounted functional module and the data interface through the control chip.

8. The Internet of things flashing individual-soldier grid acquisition electronic unit as claimed in claim 7, wherein: the internet of things communication module is connected with the server intermittently, sends data, checks and collects results and instructions, and can avoid signal tracking monitoring.

Images