CN209845153U - Hanging rod type solar Internet of things monitoring system - Google Patents

Abstract

The utility model relates to a monitored control system, in particular to peg formula solar energy thing networking monitored control system has solved monitored control system's application problem, includes at least one kind in monitoring module, communication module and light filling module, monitoring module, communication module and light filling module all include solar panel, built-in battery, support and shell, the shell includes swash plate, left side board and right side board, built-in battery locates in the inner chamber cavity, monitoring module still includes external camera, light filling module still includes external light filling lamp, camera and light filling lamp respectively with solar panel and built-in battery electric connection among the affiliated module, provide real-time high definition video passback, the video recording file can be saved more than 30 days, platform software and cell-phone APP provide video browse broadcast and download, reduce equipment energy consumption by a wide margin when having satisfied the demand of most trades to outdoor (field) control by a wide margin, Reduce the volume and the weight.

Description

Hanging rod type solar Internet of things monitoring system

Technical Field

The utility model relates to a monitored control system, in particular to peg formula solar energy thing networking monitored control system.

Background

At present, outdoor (field) monitoring equipment mainly comprises three types of 1 and traditional wired video monitoring probes, and 2 and solar 4G video monitoring probes. 3. Vehicle-mounted 4G video monitoring probe. However, in practical applications, the above-mentioned 3 types of devices have respective technical limitations, which results in that they cannot be widely popularized and used in many industrial application fields.

Specific technical limitations include: 1. traditional wired monitor probe needs pole setting, excavation, wiring, and the construction cycle is long, and construction cost is high, and unable nimble migration still pays high amount light line rent expense annually, and owing to have the requirement to optic fibre and electricity connection, consequently wired monitor probe can't be erect in many remote places.

2. Solar energy 4G video monitor probe generally adopts the solar panel battery more than 200W to supply power, and the volume is huge, and the installation needs to use large-scale mechanical equipment, need excavate alone and pole setting, construction cycle are longer and can't nimble migration. The construction cost is generally more than 3 thousands, the cost performance is very low, so the blind-repairing device is only used for monitoring and blind-repairing in individual remote places.

3. The vehicle-mounted 4G video monitoring probe needs to be refitted by a vehicle, the cost is high, each probe still needs to occupy one vehicle, and the large-area popularization cannot be realized.

In conclusion, an outdoor (field) monitoring device which is economical, practical, convenient and fast to install, capable of being moved and reused, free of excavation and wiring, free of large-scale mechanical equipment and capable of supporting online video browsing/monitoring video downloading of mobile phones and computers is lacking.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model provides a peg formula solar energy thing networking monitored control system.

In order to realize the purpose, the utility model adopts the technical scheme that: the hanging rod type solar Internet of things monitoring system at least comprises one of a monitoring module, a communication module and a light supplementing module, wherein the monitoring module, the communication module and the light supplementing module respectively comprise a solar panel, a built-in battery, a support and a shell;

the shell comprises an inclined plate, a left side plate and a right side plate, the left side plate and the right side plate are triangular, the bracket is L-shaped, and a closed inner cavity chamber is formed by fixedly assembling the shell and the bracket;

the monitoring module further comprises an external camera and an external light supplement lamp, and the camera and the light supplement lamp are respectively and electrically connected with the solar panel and the internal battery in the module;

the support is provided with an installation back surface and a supporting bottom surface perpendicular to the installation back surface, the installation back surface is provided with an installation hole position, a circuit opening and an installation groove, the supporting bottom surface is provided with a notch, and the wall of the notch groove is provided with an extension frame;

the solar panel comprises a support and is characterized in that the width of the inclined plate is larger than the width between the left side plate and the right side plate, the sun-back surface of the solar panel is provided with an installation part, the installation part is in a frame shape, the size and the shape of the installation part are matched with the inclined plate, the solar panel and the inclined plate are fixedly assembled, the top of the support is provided with a blocking part, and the blocking part is abutted to the solar panel.

The monitoring module, the communication module and the light supplementing module all comprise a charging control circuit and a voltage-stabilizing self-restarting circuit.

The built-in battery is a lithium iron phosphate battery.

Solar panel is made by monocrystalline silicon battery piece, the camera contains high sensitization chipset and built-in SD card, and the camera passes through the stainless steel hoop installation fixed.

The support is made by the whole punching press of aluminum alloy material, and the support passes through the stainless steel hoop installation fixed, the shell is made by stainless steel material.

The light filling lamp is a waterproof LED spotlight and is fixedly installed through a stainless steel hoop.

The communication module further comprises a 4G transmission circuit.

The system further comprises an equipment management software platform, a time division image application system and a mobile phone APP.

The device management software platform at least comprises a user information module, a user authority maintenance module, a device basic information maintenance module and a device parameter maintenance module.

The time division image application system at least comprises a real-time monitoring module, a map display module and a video retrieval downloading module.

The utility model has the advantages that: the utility model provides a peg formula solar energy thing networking monitored control system provides real-time high definition video passback, and the video file can be stored more than 30 days, and platform software and cell-phone APP provide video browse broadcast and download, reduce equipment energy consumption, reduce volume, reduce weight by a wide margin when having satisfied the demand of most trades to outdoor (field) control; the equipment adopts the modularized design, and has the advantages of convenient installation, no excavation, no power connection, migration multiplexing, no need of using large-scale mechanical equipment, low use cost, wide monitoring area, comparison analysis of the background, quick browsing of the mobile phone and the like.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic view of the bracket structure of the present invention.

Detailed Description

As shown in fig. 1-2, the hanging rod type solar internet of things monitoring system at least comprises one of a monitoring module, a communication module and a light supplement module, and the monitoring module, the communication module and the light supplement module all comprise a solar panel 1, a built-in battery, a bracket 2 and a shell 3. Compared with the traditional solar monitoring system which needs heavy equipment when being installed in a huge size, the hanging rod type solar Internet of things monitoring system adopts a modular design, the whole is divided into parts, the weight of each module is less than 15 kilograms, large machinery is not needed for installation, the transportation and the installation are convenient, two workers can be installed in 30 minutes to complete one set, namely, the hanging and the using are realized, and the characteristics of quick deployment and quick application are realized; the user can select corresponding modules according to the requirements of the monitored site environment, if the monitored site with good lighting conditions does not need a light supplementing module, and the site with sufficient network conditions does not need a 4G communication module, so that the construction and the use according to the requirements are really realized, and the construction and the use cost are greatly reduced; the spare and accessory parts of all modules adopt unified design, so that the maintenance, repair and purchase cost of equipment is greatly reduced.

The shell 3 comprises an inclined plate, a left side plate and a right side plate 4, the left side plate and the right side plate 4 are triangular, the support 2 is L-shaped, and a closed inner cavity chamber is formed between the shell 3 and the support 2 in a fixed assembling mode. The support 2 is provided with an installation back surface 5 and a supporting bottom surface 6 perpendicular to the installation back surface 5, an installation hole position 7, a circuit opening 8 and an installation groove 9 are arranged on the installation back surface 5, a notch 10 is arranged on the supporting bottom surface 6, and an extension frame 11 is arranged on the groove wall of the notch 10; the support 2 is made by the whole punching press of aluminum alloy material, and the support 2 is fixed through the installation of stainless steel hoop, the shell 3 is made by stainless steel material. The support 2 is integrally stamped by adopting an aluminum alloy material, forms a stable triangular frame structure with the shell 3, and is then provided with the solar panel 1. The rear end of the bracket 2 is provided with a mounting hole position 7 for mounting equipment fixed on the upright stanchion through a stainless steel hoop. The mounting slot 9 is positioned to facilitate the installation of a perforated backing plate that may be pre-installed in the interior chamber for further reinforcement with a stainless steel ferrule, but is by no means limited thereto and is only one embodiment. The arrangement of the slots 10 enables the inner cavity chamber to be opened downwards, certain air circulation is kept, namely the inside is relatively dry, water accumulation can be prevented, the long-term use of equipment is facilitated, and over-fast corrosion and corrosion are avoided. The extension frames 11 are arranged to be protruding strip-shaped structures, the extension frames 11 are asymmetrically arranged and staggered with each other, and therefore the circuit or other components connected with the circuit can be prevented from falling out to a certain extent. The assembly formed by the shell 3 and the bracket 2 has a simple structure and is convenient to produce and assemble.

The solar panel comprises a support 2 and is characterized in that the width of the inclined plate is larger than the width between the left side plate and the right side plate 4, the back sun surface of the solar panel 1 is provided with an installation part, the installation part is in a frame shape, the size and the shape of the installation part are matched with those of the inclined plate, the solar panel 1 and the inclined plate are fixedly assembled, the top of the support is provided with a stop part 13, and the stop part 13 is abutted to the solar panel 1. When the solar panel 1 is installed, the solar panel 1 is equivalent to an embedded clamping structure, namely the solar panel 1 is embedded on the inclined plate, and the solar panel 1 is limited by the blocking part 13, so that the solar panel 1 is prevented from being separated when strong wind and rain occur. And other common connecting structures or connecting pieces such as threaded connection are matched, so that the safety and stability can be greatly improved.

The monitoring module further comprises an external camera 12, the light supplementing module further comprises an external light supplementing lamp, and the camera 12 and the light supplementing lamp are electrically connected with the solar panel 1 and the built-in battery in the module respectively. The built-in battery is a lithium iron phosphate battery, and a high-capacity lithium iron phosphate battery is used for storing and supplying energy, so that normal operation of the equipment in continuous rainy days is ensured. The lithium iron phosphate battery has the characteristics of high safety, long service life (5-7 years), large capacity, light weight, high temperature resistance and the like, is widely applied to the field of electric automobiles, and can ensure the power utilization safety of the product in outdoor summer high-temperature insolation environments.

The monitoring module, the communication module and the light supplementing module all comprise a charging control circuit and a voltage-stabilizing self-restarting circuit. The charging control circuit is used for solar charging management, and intelligent control is achieved by using the high-end MCU chip. The protection circuit has the advantages of overcharge protection, overdischarge protection, electronic short circuit protection, overload protection, storage battery reverse connection protection, solar battery reverse connection protection and the like. The voltage-stabilizing self-restarting circuit is mainly used for equipment power supply and voltage stabilization, and because the power supply voltage of the solar panel 1 is unstable, a voltage-stabilizing management circuit is required to be added to carry out voltage-stabilizing management on the output voltage, wherein the input voltage is 9-24V, and the output voltage is 12V; the circuit is powered off and restarted once every 24 hours, so that the front-end equipment is prevented from being halted. Are all mature technical means and are not set forth or limited herein too much.

Solar panel 1 is made by monocrystalline silicon battery piece, camera 12 contains high sensitization chipset and built-in SD card, and camera 12 passes through the stainless steel hoop installation fixed. The high-sensitivity chipset, H.265 coding, super-strong night vision capability, maximum 1920 x 1080 resolution, low power consumption design, and average power consumption less than 1.5W; the built-in 128G high-durability SD card has a service life of 5 years and can store high-definition video for 30 days. The imported monocrystalline silicon cell piece is adopted for production, the conversion efficiency of the photovoltaic cell reaches more than 19%, the volume is smaller, and the size of a 40W power cell panel is only 540mmX540mmX25 mm; the lightning protection is carried out by the lightning protection device, and the service life of power generation is as long as more than 15 years. The camera 12 and the light supplement lamp are not directly mounted on the housing 3 or the bracket 2, but are also mounted on the vertical rod through a stainless steel hoop.

The light filling lamp is a waterproof LED spotlight, and the light filling lamp is fixedly installed through a stainless steel hoop, so that the use requirement is met, and the economy and the cost are achieved.

The communication module further comprises a 4G transmission circuit and a full-network communication module, supports APN network setting, is designed with low power consumption, and is used for the networking data transmission of the camera 12.

The system further comprises an equipment management software platform, a time division image application system and a mobile phone APP. The device management software platform at least comprises a user information module, a user authority maintenance module, a device basic information maintenance module and a device parameter maintenance module. And the user information maintenance module is used for providing maintenance management for the basic information of the platform user by a system administrator, and the maintenance contents comprise user names, account numbers, passwords, contact ways and the like. And the user authority maintenance module is used for providing configuration management for the user authority by a system administrator. And the equipment basic information maintenance module is used for providing maintenance and updating of the equipment basic information including equipment numbers, equipment types, equipment monitoring scenes, equipment geographic information, field photos and the like for a system administrator. And the equipment parameter maintenance module is used for providing configuration maintenance for the parameters of the equipment by a system administrator, and comprises a monitoring mode, an uploading path and the like.

The time division image application system at least comprises a real-time monitoring module, a map display module and a video retrieval downloading module. The system mainly provides management for front-end equipment and monitoring videos by a user, and comprises equipment list display, map display, real-time video browsing, historical video downloading and the like. Which are well established technical tools and are not set forth or limited herein.

The utility model has the advantages that: the utility model provides a peg formula solar energy thing networking monitored control system provides real-time high definition video passback, and the video file can be stored more than 30 days, and platform software and cell-phone APP provide video browse broadcast and download, reduce equipment energy consumption, reduce volume, reduce weight by a wide margin when having satisfied the demand of most trades to outdoor (field) control; the equipment adopts the modularized design, and has the advantages of convenient installation, no excavation, no power connection, migration multiplexing, no need of using large-scale mechanical equipment, low use cost, wide monitoring area, comparison analysis of the background, quick browsing of the mobile phone and the like.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate the position or positional relationship based on the position or positional relationship shown in the drawings, and are only for convenience of description, and are not intended to indicate or imply that the device or element referred to must have a specific position, be constructed and operated in a specific orientation, and therefore, are not to be considered as limitations of the present invention, and the fundamental principles, main features, and advantages of the present invention have been shown and described above, as would be understood by those skilled in the art.

Claims (10)

1. The hanging rod type solar Internet of things monitoring system is characterized by at least comprising one of a monitoring module, a communication module and a light supplementing module, wherein the monitoring module, the communication module and the light supplementing module respectively comprise a solar panel, a built-in battery, a bracket and a shell;

the shell comprises an inclined plate, a left side plate and a right side plate, the left side plate and the right side plate are triangular, the bracket is L-shaped, and a closed inner cavity chamber is formed by fixedly assembling the shell and the bracket;

the monitoring module further comprises an external camera and an external light supplement lamp, and the camera and the light supplement lamp are respectively and electrically connected with the solar panel and the internal battery in the module;

the support is provided with an installation back surface and a supporting bottom surface perpendicular to the installation back surface, the installation back surface is provided with an installation hole position, a circuit opening and an installation groove, the supporting bottom surface is provided with a notch, and the wall of the notch groove is provided with an extension frame;

the solar panel comprises a support and is characterized in that the width of the inclined plate is larger than the width between the left side plate and the right side plate, the sun-back surface of the solar panel is provided with an installation part, the installation part is in a frame shape, the size and the shape of the installation part are matched with the inclined plate, the solar panel and the inclined plate are fixedly assembled, the top of the support is provided with a blocking part, and the blocking part is abutted to the solar panel.

2. The system according to claim 1, wherein the monitoring module, the communication module and the light supplement module each comprise a charging control circuit and a voltage stabilizing self-restarting circuit.

3. The hanging rod type solar internet of things monitoring system according to claim 2, wherein the built-in battery is a lithium iron phosphate battery.

4. The hanging rod type solar internet of things monitoring system as claimed in claim 3, wherein the solar panel is made of monocrystalline silicon battery pieces, the camera comprises a high-light-sensitivity chip set and a built-in SD card, and the camera is fixedly installed through a stainless steel hoop.

5. The hanging rod type solar internet of things monitoring system as claimed in claim 1, wherein the bracket is integrally stamped from an aluminum alloy material and is fixedly mounted through a stainless steel hoop, and the housing is made from a stainless steel material.

6. The hanging rod type solar internet of things monitoring system according to claim 1, wherein the light supplement lamp is a waterproof LED spotlight and is fixedly installed through a stainless steel hoop.

7. The system of claim 2, wherein the communication module further comprises a 4G transmission circuit.

8. The system of claim 1, further comprising an equipment management software platform, a time division video application system, and a cell phone APP.

9. The system of claim 8, wherein the device management software platform comprises at least a user information module, a user permission maintenance module, a device basis information maintenance module, and a device parameter maintenance module.

10. The system of claim 8, wherein the time-division imaging application system comprises at least a real-time monitoring module, a map display module, and a video retrieval download module.