CN220570592U - Information acquisition equipment - Google Patents

Abstract

The embodiment of the disclosure discloses an information acquisition device. The specific implementation mode of the information acquisition equipment comprises an energy storage monitoring box, industrial gateway equipment, a camera device and a rod borrowing support arm, wherein the energy storage monitoring box is arranged on a lamp rod; the camera device is in communication connection with the industrial gateway equipment, is electrically connected with the energy storage monitoring box, and is detachably arranged on the lamp post by the rod support arm; the energy storage monitoring box is used for storing electric energy provided by a power supply on the lamp post in a preset night time period, and the energy storage monitoring box is used for supplying power to the industrial gateway equipment and the camera device. The information acquisition equipment can improve the timeliness of the defense arrangement and the flexibility of implementation.

Description

Information acquisition equipment

Technical Field

The embodiment of the disclosure relates to the technical field of information acquisition, in particular to information acquisition equipment.

Background

The video monitoring technology is a very important security technology, and a monitoring and defense deployment mode generally adopted mainly comprises the aspects of infrastructure, equipment power supply, data transmission and the like, in particular, in the aspect of infrastructure: the method comprises the steps of customizing monitoring vertical rods with different heights according to factors such as the installation position of a camera, an application scene and the like by adopting a self-building monitoring vertical rod mode, and carrying out excavation operation of a vertical rod foundation pit; in terms of device power: the stable commercial power is provided for equipment such as a front-end camera, a light supplementing lamp and the like in a long distance by a point-to-point independent power supply mode in a mode of changing a road lamp box from a nearby main road, reporting a state network ammeter and the like and laying a main cable and a branch cable; in terms of data transmission: the method adopts an independent video private network mode of an optical fiber link, and transmits information such as real-time video, image data, structured data and the like to a central machine room through a data transmission mode of a transmitting end of an optical fiber transceiver, a branch optical cable route, a trunk optical cable route and a receiving end of the optical fiber transceiver so as to carry out data application in the next step.

However, when the monitoring and arming mode is adopted for monitoring and arming, the following technical problems often exist:

aiming at application scenes of short-period video defense deployment such as access video defense deployment on an unearthed construction site, temporary video defense deployment on an important position, emergency video defense deployment and the like, the service period is short, the time consumption is long when the vertical rods are monitored in different heights in a customized mode and excavation operation of the vertical rod foundation pit is carried out, long-distance power supply is adopted, a large number of communication pipe wells are rented for data transmission, the implementation flexibility is poor, and therefore the limitation on the aspects such as defense deployment aging and implementation flexibility degree is high.

The above information disclosed in this background section is only for enhancement of understanding of the background of the disclosed concept and, therefore, it may contain information that does not form the prior art that is known to those of ordinary skill in the art in this country.

Disclosure of Invention

The disclosure is in part intended to introduce concepts in a simplified form that are further described below in the detailed description. The disclosure is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used to limit the scope of the claimed subject matter. Some embodiments of the present disclosure propose an information acquisition device to solve the technical problems mentioned in the background section above.

Some embodiments of the present disclosure provide an information acquisition apparatus including: the energy storage monitoring box is arranged on the lamp post, the industrial gateway equipment is arranged on the energy storage monitoring box, and the energy storage monitoring box is electrically connected with a power supply on the lamp post and the industrial gateway equipment; the camera device is in communication connection with the industrial gateway equipment, the camera device is electrically connected with the energy storage monitoring box, the rod-borrowing support arm is detachably arranged on the lamp post, and the camera device is arranged on the rod-borrowing support arm; the energy storage monitoring box is used for storing electric energy provided by a power supply on the lamp post in a preset night time period, and the energy storage monitoring box is used for supplying power to the industrial gateway equipment and the camera device.

Optionally, the information collecting device further includes a light supplementing lamp, the light supplementing lamp is disposed on the lever support arm, and the light supplementing lamp is electrically connected with the energy storage monitoring box.

Optionally, the image capturing device is communicatively connected to the industrial gateway device through a cable.

Optionally, the energy storage monitoring box comprises an industrial gateway equipment reserved panel, a battery, a charge-discharge interface, a battery interface and a power management component; the industrial gateway equipment reserved mounting plate is used for mounting the industrial gateway equipment; the battery interface is electrically connected with a power supply on the lamp post and is used for receiving electric energy provided by the power supply on the lamp post; the battery interface is electrically connected with the battery through the power management component, and the battery is used for storing electric energy provided by a power supply on the lamp post; the charge-discharge interface is electrically connected with the battery, and the charge-discharge interface is used for being electrically connected with the image pickup device to supply power to the image pickup device.

Optionally, the energy storage monitoring box further includes a display screen, the display screen is electrically connected with the battery, and the display screen is used for displaying the current voltage and the residual electric quantity of the battery.

Optionally, the energy storage monitoring box further comprises 2 paths of RS485/232 communication interfaces so as to realize external equipment communication.

Optionally, the energy storage monitoring box further comprises a solar panel electricity supplementing interface or a wind energy access electricity supplementing interface, wherein the solar panel electricity supplementing interface is used for being connected with a solar panel, and the wind energy access electricity supplementing interface is used for being connected with a wind driven generator.

Optionally, the energy storage monitoring box is further configured with a battery detection device, where the battery detection device is configured to detect at least one of the following parameters corresponding to the battery: voltage, current, temperature, charge and discharge, and battery remaining capacity.

Optionally, the industrial gateway device supports at least one network.

Optionally, the energy storage monitoring box is provided with a vent hole or a fan for heat dissipation.

Optionally, the energy storage monitoring box further comprises an antenna assembly, and the antenna assembly comprises a 5G external antenna, a wifi external antenna and a 4G antenna.

The above embodiments of the present disclosure have the following advantageous effects: the information acquisition equipment of some embodiments of the present disclosure can improve the protection time and the implementation flexibility. Specifically, the reason for the poor time efficiency and implementation flexibility of the related monitoring and prevention mode is that: the method aims at application scenes of short-period video defense arrangement such as access video defense arrangement of a land, temporary video defense arrangement of key positions, emergency video defense arrangement and the like, the service period is short, the monitoring vertical rods of different heights are customized, excavation operation of the vertical rod foundation pit is carried out, the time consumption is long, long-distance power supply is adopted, a large number of communication pipe wells are rented for data transmission, and the implementation flexibility is poor. Based on the above, the information acquisition device of some embodiments of the present disclosure includes an energy storage monitoring box, an industrial gateway device, a camera device and a lever borrowing arm, where the energy storage monitoring box is disposed on a lamp post, the industrial gateway device is disposed on the energy storage monitoring box, and the energy storage monitoring box is electrically connected with a power supply on the lamp post and the industrial gateway device; the camera device is in communication connection with the industrial gateway equipment, the camera device is electrically connected with the energy storage monitoring box, the rod-borrowing support arm is detachably arranged on the lamp post, and the camera device is arranged on the rod-borrowing support arm; the energy storage monitoring box is used for storing electric energy provided by a power supply on the lamp post in a preset night time period, and the energy storage monitoring box is used for supplying power to the industrial gateway equipment and the camera device. Because above-mentioned energy storage control case, industry gateway equipment and camera device all set up on the lamp pole to need not to customize different high control pole setting in addition and carry out the excavation operation of pole setting foundation ditch, reduce consuming time. Also because can carry out data transmission and the power on the lamp pole can charge energy storage control box evening through industrial gateway equipment, and can supply power to industrial gateway equipment and camera device through energy storage control box, need not to adopt long distance power supply and rent a large amount of communication tube wells and carry out data transmission, and then improve the flexibility ratio of implementation. Therefore, the information acquisition equipment can improve the timeliness of the defense arrangement and the flexibility of implementation.

Drawings

The above and other features, advantages, and aspects of embodiments of the present disclosure will become more apparent by reference to the following detailed description when taken in conjunction with the accompanying drawings. The same or similar reference numbers will be used throughout the drawings to refer to the same or like elements. It should be understood that the figures are schematic and that elements and components are not necessarily drawn to scale.

FIG. 1 is a schematic structural view of some embodiments of an information acquisition device according to the present disclosure;

FIG. 2 is a schematic diagram of some embodiments of lever arms included in an information acquisition device according to the present disclosure;

fig. 3 is a schematic structural view of some embodiments of an energy storage monitoring box included in an information acquisition device according to the present disclosure.

Detailed Description

Embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While certain embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete. It should be understood that the drawings and embodiments of the present disclosure are for illustration purposes only and are not intended to limit the scope of the present disclosure.

In the description of the present disclosure, it should be noted that, unless explicitly stated and limited otherwise, the terms "disposed," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the terms in this disclosure will be understood by those of ordinary skill in the art in the specific context.

It should be further noted that, for convenience of description, only the portions related to the disclosure are shown in the drawings. Embodiments of the present disclosure and features of embodiments may be combined with each other without conflict.

It should be noted that the terms "first," "second," and the like in this disclosure are merely used to distinguish between different devices, modules, or units and are not used to define an order or interdependence of functions performed by the devices, modules, or units.

It should be noted that references to "one", "a plurality" and "a plurality" in this disclosure are intended to be illustrative rather than limiting, and those of ordinary skill in the art will appreciate that "one or more" is intended to be understood as "one or more" unless the context clearly indicates otherwise.

The names of messages or information interacted between the various devices in the embodiments of the present disclosure are for illustrative purposes only and are not intended to limit the scope of such messages or information.

The present disclosure will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Fig. 1 is a schematic structural view of some embodiments of an information acquisition device according to the present disclosure. Fig. 1 comprises an energy storage monitoring box 1, an industrial gateway device 2, a camera device 3 and a lever arm 4.

Fig. 2 is a schematic structural view of some embodiments of lever arms included in an information acquisition device according to the present disclosure. Fig. 2 includes a lever arm 4.

Fig. 3 is a schematic structural view of some embodiments of an energy storage monitoring box included in an information acquisition device according to the present disclosure. Fig. 3 includes an industrial gateway device reservation mounting board 11, a charge-discharge interface 12, a battery interface 13, and a power management component 14.

In some embodiments, the information collecting device may include an energy storage monitoring box 1, an industrial gateway device 2, a camera device 3 and a lever arm 4. The energy storage monitoring box 1 may be a device capable of storing electric energy and supplying power. The industrial gateway device 2 may be a device for providing a network for data transmission. For example, the industrial gateway device 2 may be a networked 5G industrial gateway. The imaging device 3 may be a device for performing imaging. For example, the imaging device 3 may be a camera. The energy storage monitoring box 1 can be arranged on a lamp post. The lamp post can be a street lamp at the roadside. The energy storage monitoring box 1 can be fixed on the lamp post in a hoop mode. The industrial gateway device 2 may be provided on the energy storage monitoring box 1. The energy storage monitoring box 1 can be electrically connected with a power supply on the lamp post and the industrial gateway device 2. The imaging device 3 may be provided on the lever arm 4. The lever arm 4 may be an arm for fixing to a lamp post and for adjusting the position of the image pickup device 3. One end of the rod-borrowing support arm 4 can be fixed on the lamp post. Specifically, one end of the rod-borrowing support arm 4 may be fixed on the lamp post in a hoop manner. The length of the lever arm 4 may be in the range of 1-3 meters. The specific length may be selected based on the actual length. Therefore, the position of the image pickup device 3 can be conveniently adjusted through the rod support arm 4, so that the information acquisition device can be suitable for more scenes.

Optionally, the information collecting device may further include a light supplementing lamp. The light supplement lamp may be disposed on the lever arm 4. The light supplementing lamp may be electrically connected to the energy storage monitor box 1. The energy storage monitoring box 1 can be used for supplying power to the light supplementing lamp. Therefore, the light compensation lamp can perform brightness compensation of the defense distribution area when the illumination environment is insufficient, so that the definition of the image acquired by the image pickup device 3 is improved.

In the process of solving the technical problems in the background technology by adopting the technical scheme, the following technical problems II are often accompanied: the limited scope of camera device installation causes the scope of control area to have the limitation, leads to the control effect relatively poor. For the second technical problems, the conventional solutions are generally: the camera device is installed by customizing a certain length of supporting rod according to the requirement, so that the monitoring area is enlarged. However, the conventional solutions described above still have the following problems: struts for different scene applications are different in length and custom-made struts take longer, resulting in lower deployment efficiency. Considering the problems of the conventional solutions described above, facing the two technical problems described above: the limited scope of camera device installation causes the scope of control area to have the limitation, leads to the control effect relatively poor. The following solution may be decided to be adopted:

alternatively, the lever arm 4 may be a telescopic lever. The telescopic strut may comprise a linkage assembly and a drive mechanism. The driving mechanism may be electrically connected to the energy storage monitoring box 1. The above-described connecting rod assembly may include an inner rod and an outer tube. The inner rod may be embedded inside the outer tube. The driving mechanism may be connected to the outer tube. Under the working state, the driving mechanism can drive the outer tube to move relative to the inner rod. The driving mechanism may be a mechanism for driving the link assembly to extend and retract. For example, the driving mechanism may be a motor. Thus, the horizontal position of the imaging device can be adjusted by the telescopic strut.

Optionally, the telescopic strut may further comprise a decelerator. The speed reducer may be disposed in the motor. The speed reducer can convert high-speed rotation of the motor into slow telescopic motion of the telescopic rod in a gear transmission or worm and gear transmission mode.

Alternatively, the image pickup device may be fixed to the outer tube. The image pickup device may include a camera and a cradle head. The cradle head may be disposed on the outer tube. The camera can be arranged on the cradle head. The light supplementing lamp can also be arranged on the cradle head. Therefore, the rotation direction of the camera can be adjusted through the cradle head, and the rotation direction of the light supplementing lamp is adjusted at the same time, so that the acquisition area of the camera is enlarged.

The related content of the telescopic support rod is taken as an utility model point of the embodiment of the disclosure, so that the technical problem that the scope of installation of the camera device is limited, the scope of the monitoring area is limited, and the monitoring effect is poor is solved. If the above factors are solved, the effect of expanding the monitoring range can be achieved. To achieve this effect, the present disclosure can adjust the horizontal position of the image pickup device through the telescopic strut. The steering of the camera can be further adjusted through the cradle head, so that the range of a monitoring area can be enlarged, and the monitoring effect is improved. And adjustable telescopic support pole can be applicable to various application scenes, need not to customize different support poles according to different application scenes to also can improve implementation efficiency.

In the process of solving the technical problems in the background technology by adopting the technical scheme, the following technical problems are accompanied: the height of the image pickup device is generally high, resulting in inconvenient installation. In view of the third technical problem, the conventional solutions are generally: the user adopts modes such as an escalator to install the camera device at a high place. However, the conventional solutions described above still have the following problems: the staff needs to climb to a higher place, resulting in lower safety for the staff. Considering the problems of the conventional solutions described above, facing the above technical problems three: the height of the image pickup device is generally high, resulting in inconvenient installation. The following solution may be decided to be adopted:

optionally, the information acquisition device may further include a height adjustment device. The height adjusting device may include a moving lever and a moving driving mechanism. The moving driving mechanism may be a mechanism for driving the moving rod to move up and down. For example, the movement driving mechanism may be an electromagnetic push rod or a stepping motor. One end of the moving rod may be fixed to one end driven by the moving driving mechanism. As an example, one end of the moving rod may be screw-fixed to the rotor of the stepping motor. The energy storage monitoring box 1 may be further electrically connected to the moving driving mechanism to supply power to the moving driving mechanism. The moving driving mechanism can be used for driving the moving rod to move up and down. The telescopic strut may be fixed to one end of the moving rod. Specifically, the telescopic strut may be detachably fixed to an end of the moving rod, which is not connected to the moving driving mechanism. As an example, the telescopic strut may be fixed to an end of the moving rod, which is not connected to the moving driving mechanism, by a bolt. The height adjusting device may be disposed at one side of the lamp post. Specifically, the moving driving mechanism may be fixed to one side of the lamp post by a bolt. Further, the height adjusting device may be further provided with a waterproof case. The waterproof case may be provided outside the movement driving mechanism to shield the movement driving mechanism.

The above-mentioned content of the height adjusting device is taken as an utility model point of the embodiment of the present disclosure, and solves the third technical problem that the installation height of the image pickup device is generally high, which causes inconvenient installation. If the above factors are solved, the effect of convenience in installation can be improved. In order to achieve the effect, the height of the telescopic support rod can be adjusted through the height adjusting device, so that the height of the camera device is adjusted, a worker does not need to install the camera device at a high place in a staircase or the like, and the safety of the worker can be improved.

In some embodiments, the camera 3 may be communicatively connected to the industrial gateway device 2. The imaging device 3 may be electrically connected to the energy storage monitor box 1. Specifically, the video image acquired by the image pickup device 3 may be transmitted to the industrial gateway apparatus 2. The industrial gateway device 2 may transmit the camera 3 to a central machine room for further data application. The image pickup device 3 can be supplied with power by being electrically connected to the energy storage monitor box 1. From this, can transmit the video image that above-mentioned camera device gathered to the center computer lab through above-mentioned industrial gateway equipment to carry out the data application of next step, and can supply power to industrial gateway equipment and camera device through energy storage monitor box, need not to adopt long distance power supply and rent a large amount of communication tube wells and carry out data transmission, and then improve the flexibility ratio of implementation.

Alternatively, the image pickup device 3 may be communicatively connected to the industrial gateway apparatus 2 via a cable. The cable may be a fiber optic cable. Thus, the video image collected by the camera device can be transmitted to the industrial gateway equipment through the cable.

In some embodiments, the energy storage monitoring box 1 may be used to store the electric energy provided by the power supply on the lamp post during a preset night time period. The energy storage monitoring box 1 can be used for powering the industrial gateway device 2 and the camera 3. The preset night time period can be a period of power supply for the lamp post.

In practice, the imaging device 3 acquires front-end video image information. The data information collected by the camera device 3 is accessed to an internet platform interface through the industrial gateway equipment 2 to realize real-time data feedback. All front-end equipment is uniformly powered by the energy storage monitoring box 1, and meanwhile, the lamp post is used for a power supply mode with power supply at night and without power supply at daytime. The energy storage monitoring box 1 is charged at night, and the energy storage monitoring box 1 discharges in daytime to provide the normal operation power consumption requirement of all front-end equipment.

Alternatively, the energy storage monitoring box 1 may include an industrial gateway device reservation mounting board 11, a battery, a charge-discharge interface 12, a battery interface 13, and a power management component 14. The industrial gateway device reservation mounting board 11 may be a 5G router reservation mounting board. The battery may be a lithium battery that can be charged and discharged. The industrial gateway device reservation mounting plate 11 may be used to mount the industrial gateway device 2. The battery interface 13 may be electrically connected to a power supply on the lamp post, and is configured to receive electric power provided by the power supply on the lamp post. The battery interface 13 may be electrically connected to the battery via the power management assembly 14, and the battery may be used to store electrical energy provided by a power source on the light pole. The charge/discharge interface 12 may be electrically connected to the battery, and the charge/discharge interface 12 may be electrically connected to the image pickup device 3 to supply power to the image pickup device 3.

Optionally, the energy storage monitoring box 1 may further include a display screen. The display screen may be electrically connected to the battery. The display screen may be used to display the current voltage and the remaining power of the battery.

Optionally, the output of the charge-discharge interface 12 included in the energy storage monitoring box 1 can provide a stable uninterrupted power supply for devices such as a camera, a sensor, a switch and the like, and has the functions of voltage stabilization and current stabilization. Output supports status monitoring (including common fault alarms such as overvoltage overload, undervoltage, short circuit, etc.).

Optionally, the energy storage monitoring box 1 can comprise a 20KV power supply lightning protection function and support surge protection and overcurrent and overvoltage protection. The energy storage monitoring box 1 can have an active control fire extinguishing function and a high-temperature self-extinguishing function. The energy storage monitoring box 1 can be provided with an aerosol fire extinguisher. Meanwhile, the energy storage monitoring box 1 does not contain polymer aerosol.

Optionally, the charging and discharging interface 12 included in the energy storage monitoring box 1 may include 220V ac output and 12V dc output, so as to provide remote management power for ac/dc devices and external devices in the energy storage monitoring box 1. The energy storage monitoring box 1 can be connected with a 220V alternating current power supply to introduce an automatic reclosing protection mechanism so as to ensure the electricity safety. The capacity of the battery may be 12.8V105AH. The battery can be a lithium iron phosphate cell with the specification of 15AH of a 4S7P32140 single body. The battery may support 485 communications. The output power of the battery may be 90W. The sustainable power supply time of the battery is more than or equal to 16 hours. The energy storage monitoring box 1 can comprise a special charger for a lithium iron phosphate battery pack of 14.6V20A. The charger special for the lithium iron phosphate battery pack can have a function of CC (Current-constant Current)/CV (constant Voltage), and support 160-264V of alternating-Current wide Voltage input. The power management component 14 may be a BMS (Battery Management System ). The power management assembly 14 may be used to manage battery overcharge, undervoltage, temperature acquisition, voltage acquisition, anomaly alarms, etc.

Alternatively, the energy storage monitoring box 1 may support remote control of the output power source, and restart the front-end power supply device. The energy storage monitoring box 1 can support a mains supply input voltage stabilizing function, and can continuously and stably output alternating current 220V voltage when the alternating current 150-265V voltage is input, so that the normal operation of equipment is ensured.

Alternatively, the above-described tank 1 may be provided with a battery detection device. The battery detection device may be configured to detect at least one of the following parameters corresponding to the battery: voltage, current, temperature, charge and discharge, and battery remaining capacity.

Alternatively, the energy storage monitoring box 1 may be provided with a vent or a fan for heat dissipation. The fan can be automatically turned on or off through a temperature sensor.

Optionally, the energy storage monitoring box 1 may further include a movable ring interface including door magnet, temperature sensor, smoke sensor, water intrusion, fan, electronic lock, etc.

Optionally, the energy storage monitoring box 1 may further include a 2-way RS485/232 communication interface to implement external device communication.

Optionally, the energy storage monitoring box 1 may further include a solar panel electricity-supplementing interface or a wind energy access electricity-supplementing interface. The solar panel electricity supplementing interface can be used for connecting a solar panel. The wind energy access electricity supplementing interface can be used for connecting a small wind driven generator. The electric energy produced by the solar panel or the small wind power generator can be used for charging the energy storage monitoring box.

Optionally, the tank body of the energy storage monitoring tank 1 may be made of stainless steel. The energy storage monitoring box 1 can be internally provided with accessories such as an alternating current input air switch, an alternating current output air switch, a socket and the like, and the size of the box body is 650 x 450 x 350mm or less.

Optionally, the energy storage monitoring box 1 can also support a unified platform management function, support remote restarting, support visual interface management, and can intuitively display the running state of equipment: on-line/off-line; parameters such as equipment box temperature, output voltage, current, smoke feeling, overvoltage, overcurrent, undervoltage, short-circuit protection, overcurrent protection, network connection state, box door state, battery state, fan working state and the like; the system supports GIS (Geographic Information System ) map, equipment classification management, data analysis and diagnosis functions, fault classification automatic dispatch lists, alarm information classification management, record inquiry, fault processing condition inquiry, hierarchical authority function, operation and maintenance organization management, online rate statistics function, log inquiry function and the like. The energy storage monitoring box 1 can support layered management: the first layer carries out regional/project division supervision on the equipment, and the second layer manages the equipment such as the camera, the intelligent energy storage box and the like according to the category or tree structure. The whole system is clear at a glance, the management and maintenance are convenient and effective, and the operation efficiency is improved. The key login mode also realizes security and confidentiality. When the equipment has an unresolved fault in automatic repair, the equipment immediately alarms, and informs a background manager of immediate repair. And the GIS system is configured by software, so that fault points are visualized on a map, and the method is simplified.

Specifically, the energy storage monitoring box 1 can check the data state of each node in a remote monitoring center, control the on-off of each node to monitor the information such as the battery electric quantity, the voltage, the current and the like, capture various alarming actions in real time, and record operation logs such as faults, maintenance and the like. The data information is statistically analyzed monthly/yearly, and support is provided for overall decision making.

Alternatively, the industrial gateway device 2 may support at least one network. Specifically, the industrial gateway device 2 may support simultaneous online and multi-network backup handover of multiple networks such as WAN (Wide Area Network ), WLAN (Wireless Local Area Networks, wireless local area network), and 4G/5G; supporting the function of a WLAN AP/station client and realizing the transmission rate of a wireless local area network with the highest 1200 Mbps; support 3 gigabit LANs, 1 gigabit WAN ports; the multi-parameter multifunctional combined switching function is supported, and the flexible and rapid communication switching of multiple servers and the switching of single-card multiple operators are realized; support VPDN (Virtual Private Dial Network), APN (Access Point Name) private network access; support CA (Certificate Authority) digital certificates.

Further, the industrial gateway device 2 can support QoS (Quality of Service ), and can perform QoS bandwidth intelligent management in various manners for services and IP (Internet Protocol) network segments; support static routing, support RIPv2 (second version of Routing Information Protocol) and OSPF (Open Shortest Path First) dynamic routing, support source address policy routing; timing management is supported, and timing offline or data idle offline is supported; the platform management is supported, the equipment flow can be counted in real time, and the network state of the equipment can be monitored; support LCPLink Control Protocol) link detection functions such as detection, ICMP (Internet Control Message Protocol) detection, heartbeat packet detection and the like, and ensure the stability and reliability of the wireless network; LED (Light Emitting Diod, light emitting diode) status monitoring (status of display system, 4G/5G network type and signal strength etc.) is supported.

Optionally, the industrial gateway device 2 can support management of an M2M (Machine to Machine) platform, and can count device flow and monitor device network status in real time; support SNMP (Simple Network Management Protocol) network management functions; providing local log and remote log of system to realize real-time monitoring; networks such as NR (New Radio), LTE (Long Term Evolution), HSPA+ (High-Speed Packet Access +), CDMA 2000 EV-DO Rev. A, WCDMA (Wideband Code Division Multiple Access), HSDPA (High Speed Downlink Packet Access), HSUPA (High Speed Uplink Packet Access), TD-SCDMA (Time Division-Synchronous Code Division Multiple Access) and the like are supported while being downward compatible with GPRS (General Packet Radio Service)/EDGE (Enhanced Data Rate for GSM Evolution) or CDMA 1X networks.

Alternatively, the industrial gateway device 2 may support firmware or patch upgrades locally or remotely; supporting a plurality of parameter management modes of WEB (World Wide Web), CLI (Command-Line Interface) and a platform; supporting parameter backup and import, and supporting import and export of parameter configuration by using a private key; support TF (TransFlash Card) card to upgrade and maintain the system; and the internal storage of the equipment is supported, and the expansion storage of the SATA (Serial Advanced Technology Attachment) hard disk and the TF card is supported.

Alternatively, the industrial gateway device 2 described above may support a NTP (Network Time Protocol) network Time tick function and an RTC (Real-Time Clock) Real-Time Clock function.

Alternatively, the industrial gateway device 2 may include an antenna interface, an ethernet interface, a WAN interface, a serial port, a reset button, a power socket, 2 ground studs, and 1 USB interface. Specifically, the antenna interfaces may include SMA-K header, 4G/5G antenna interfaces (or 8 4G/5G antennas, different numbers of different module antennas), 2 wifi2.4G and 2 wifi5.8G antenna interfaces (one GPS antenna interface is reserved). The ethernet interface may include 3 RJ45 switching ports. The Ethernet interface standard may be 10M/100M/1000MBase-T adaptive. The WAN interface may include 1 RJ45 switch port. The standard of the WAN interface can be 10M/100M/1000MBase-T self-adaption.

Optionally, the tank 1 may further include an antenna assembly. The antenna assembly can comprise a 5G external antenna, a wifi external antenna and a 4G antenna. Thus, stability of the network signal can be enhanced by installing the antenna assembly, thereby transmitting data more stably.

In practice, the information acquisition device can adopt a 5G/4G wireless flow mode to transmit back pictures, structured data and video images, access a camera to the Internet by configuring the industrial gateway device 2, then transmit the data to an Internet platform interface through the Internet, and finally push the data to each data application platform through a safety boundary.

For data backhaul: the 5G/4G flow is calculated according to 1024KB in total according to 3 photos, the average is calculated by taking shots 1000 times per day, 3 calculated flows are shot each time, and the annual flow of a single-path camera is 0.35TB through calculation.

For video backhaul: and (5) continuously returning the video resource for 24 hours for measurement and calculation. The 4Mbit/s real-time code rate is adopted for 24 hours uninterrupted transmission throughout the day, and the annual flow rate of a single-path camera is 132.34TB.

The above embodiments of the present disclosure have the following advantageous effects: the information acquisition equipment of some embodiments of the present disclosure can improve the protection time and the implementation flexibility. Specifically, the reason for the poor time efficiency and implementation flexibility of the related monitoring and prevention mode is that: the method aims at application scenes of short-period video defense arrangement such as access video defense arrangement of a land, temporary video defense arrangement of key positions, emergency video defense arrangement and the like, the service period is short, the monitoring vertical rods of different heights are customized, excavation operation of the vertical rod foundation pit is carried out, the time consumption is long, long-distance power supply is adopted, a large number of communication pipe wells are rented for data transmission, and the implementation flexibility is poor. Based on the above, the information acquisition device of some embodiments of the present disclosure includes an energy storage monitoring box, an industrial gateway device, a camera device and a lever borrowing arm, where the energy storage monitoring box is disposed on a lamp post, the industrial gateway device is disposed on the energy storage monitoring box, and the energy storage monitoring box is electrically connected with a power supply on the lamp post and the industrial gateway device; the camera device is in communication connection with the industrial gateway equipment, the camera device is electrically connected with the energy storage monitoring box, the rod-borrowing support arm is detachably arranged on the lamp post, and the camera device is arranged on the rod-borrowing support arm; the energy storage monitoring box is used for storing electric energy provided by a power supply on the lamp post in a preset night time period, and the energy storage monitoring box is used for supplying power to the industrial gateway equipment and the camera device. Because above-mentioned energy storage control case, industry gateway equipment and camera device all set up on the lamp pole to need not to customize different high control pole setting in addition and carry out the excavation operation of pole setting foundation ditch, reduce consuming time. Also because can carry out data transmission and the power on the lamp pole can charge energy storage control box evening through industrial gateway equipment, and can supply power to industrial gateway equipment and camera device through energy storage control box, need not to adopt long distance power supply and rent a large amount of communication tube wells and carry out data transmission, and then improve the flexibility ratio of implementation. Therefore, the information acquisition equipment can improve the timeliness of the defense arrangement and the flexibility of implementation.

The foregoing description is only of the preferred embodiments of the present disclosure and description of the principles of the technology being employed. It will be appreciated by those skilled in the art that the scope of the disclosure in the embodiments of the disclosure is not limited to the specific combination of features described above, but encompasses other technical solutions formed by any combination of features described above or their equivalents without departing from the spirit of the disclosure. Such as the above-described features, are mutually substituted with (but not limited to) the features having similar functions disclosed in the embodiments of the present disclosure.

Claims (8)

1. An information acquisition device is characterized by comprising an energy storage monitoring box, an industrial gateway device, a camera device and a rod borrowing support arm, wherein,

the energy storage monitoring box is arranged on the lamp post, the industrial gateway equipment is arranged on the energy storage monitoring box, and the energy storage monitoring box is electrically connected with a power supply on the lamp post and the industrial gateway equipment;

the camera device is in communication connection with the industrial gateway equipment, the camera device is electrically connected with the energy storage monitoring box, the rod borrowing support arm is detachably arranged on the lamp post, and the camera device is arranged on the rod borrowing support arm;

the energy storage monitoring box is used for storing electric energy provided by a power supply on the lamp post in a preset night time period, and the energy storage monitoring box is used for supplying power to the industrial gateway equipment and the camera device.

2. The information acquisition device of claim 1, further comprising a light supplement lamp disposed on the lever arm, the light supplement lamp electrically connected to the energy storage monitor box.

3. The information acquisition device of claim 1, wherein the camera means is communicatively connected to the industrial gateway device by a cable.

4. The information acquisition device of claim 1, wherein the energy storage monitoring box comprises an industrial gateway device reservation mounting plate, a battery, a charge-discharge interface, a battery interface, a display screen, a power management component and a power-supplementing interface;

the industrial gateway equipment reserved mounting plate is used for mounting the industrial gateway equipment;

the battery interface is electrically connected with a power supply on the lamp post and is used for receiving electric energy provided by the power supply on the lamp post;

the battery interface is electrically connected with the battery through the power management component, and the battery is used for storing electric energy provided by a power supply on the lamp post;

the charging and discharging interface is electrically connected with the battery and is used for being electrically connected with the image pickup device to supply power to the image pickup device;

the display screen is electrically connected with the battery and is used for displaying the current voltage and the residual electric quantity of the battery;

the electricity supplementing interface comprises a solar panel electricity supplementing interface and/or a wind energy access electricity supplementing interface, wherein the solar panel electricity supplementing interface is used for being connected with a solar panel, and the wind energy access electricity supplementing interface is used for being connected with a wind driven generator.

5. The information acquisition device of claim 4, wherein the energy storage monitoring box further comprises a 2-way RS485/232 communication interface to enable external device communication.

6. The information acquisition device according to claim 4, wherein the energy storage monitoring box is further configured with a battery detection means for detecting at least one of the following parameters corresponding to the battery: voltage, current, temperature, charge and discharge, and battery remaining capacity.

7. The information acquisition device according to claim 1, wherein the energy storage monitor box is provided with a vent hole or a fan for heat dissipation.

8. The information acquisition device of claim 1, wherein the industrial gateway device supports at least one network, the energy storage monitoring box further comprising an antenna assembly comprising a 5G external antenna, a wifi external antenna, and a 4G antenna.