CN112903004B - Data acquisition terminal monitoring platform - Google Patents

Data acquisition terminal monitoring platform Download PDF

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Publication number
CN112903004B
CN112903004B CN202011139733.5A CN202011139733A CN112903004B CN 112903004 B CN112903004 B CN 112903004B CN 202011139733 A CN202011139733 A CN 202011139733A CN 112903004 B CN112903004 B CN 112903004B
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data
data acquisition
monitoring
terminal
plate
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CN112903004A (en
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杨磊
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Beijing Secpoint Technology Co ltd
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Beijing Secpoint Technology Co ltd
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01DMEASURING NOT SPECIALLY ADAPTED FOR A SPECIFIC VARIABLE; ARRANGEMENTS FOR MEASURING TWO OR MORE VARIABLES NOT COVERED IN A SINGLE OTHER SUBCLASS; TARIFF METERING APPARATUS; MEASURING OR TESTING NOT OTHERWISE PROVIDED FOR
    • G01D21/00Measuring or testing not otherwise provided for
    • G01D21/02Measuring two or more variables by means not covered by a single other subclass
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02JCIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
    • H02J7/00Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
    • H02J7/34Parallel operation in networks using both storage and other dc sources, e.g. providing buffering
    • H02J7/35Parallel operation in networks using both storage and other dc sources, e.g. providing buffering with light sensitive cells

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  • General Physics & Mathematics (AREA)
  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Arrangements For Transmission Of Measured Signals (AREA)
  • Photovoltaic Devices (AREA)
  • Telephonic Communication Services (AREA)

Abstract

The invention discloses a data acquisition terminal monitoring platform; the system comprises a data acquisition terminal execution terminal system, a data acquisition terminal execution terminal system and a data processing terminal, wherein the data acquisition terminal execution terminal system is arranged outdoors and is used for acquiring outdoor environment data; the data acquisition monitoring host receives the environmental data acquired by the data acquisition terminal execution terminal system, summarizes and processes the corresponding data and uploads the data to the data acquisition monitoring server; the data acquisition monitoring system further comprises a bracelet, wherein the bracelet is in data communication with the data acquisition monitoring host and the data acquisition monitoring server through a network server; the data anomaly message that data acquisition monitoring host computer and data acquisition monitoring server sent is received through the bracelet to platform monitoring personnel, is convenient for go to and verifies and handle. The platform has the advantages of wide acquisition and monitoring application range, low implementation cost, high acquisition efficiency and the like; and accessible bracelet message is accepted and is controlled, and whole system's operation flexibility is high.

Description

Data acquisition terminal monitoring platform
Technical Field
The invention relates to the field of data acquisition and monitoring, in particular to a terminal monitoring platform applied to outdoor acquisition of ambient environment data of a specific place.
Background
At present, with the increasing shortage of water resources and the national emphasis on water resource management, the optimization of water resource allocation highlights the importance and technical support necessity of an automatic and informatization monitoring system. The water resource information provided by the automatic real-time monitoring of the water resource is very important. In general terms, the water resource automatic real-time monitoring technology can reflect the harm of certain trace components in water to users in time, realize the automatic real-time monitoring of water resources in key areas, key water areas and water supply source areas in water functional areas, and improve the data transmission and analysis efficiency of water resource information. The water quality information requirements of all levels of water administration departments and social public are met, and meanwhile, the early warning and forecasting and quick response capabilities to sudden and malignant water quality pollution accidents are improved.
The invention of patent number CN201910382185.X relates to the technical field of hydrologic monitoring equipment, in particular to a data acquisition method and a data acquisition system for hydrologic monitoring, wherein the data acquisition method for hydrologic monitoring comprises the steps of performing communication connection confirmation and time synchronization confirmation on an upper computer and the monitoring equipment before a fish lead enters water; after the fish lead enters water, the upper computer synchronously times, the monitoring equipment starts data information acquisition, and the acquired data information is stored one by one according to a time sequence; after the fish lead is discharged, the upper computer stops timing, the monitoring equipment uploads the collected data information to the upper computer, the upper computer sorts the data information by timing with the collection time, and the sorted data information is stored in the upper computer.
The invention of patent number CN201410232610.4 discloses a monitoring data acquisition terminal and a monitoring data system of a photovoltaic power station, wherein the monitoring data acquisition terminal comprises a data acquisition module, a storage module, a data processing module, a remote communication module and a power module. The photovoltaic power station monitoring system has the advantages that the working parameters of the photovoltaic power station are collected by the data collection module at preset intervals, the data collected by the data collection module are classified and stored in a grading mode through the data processing module, normal data are filtered, abnormal data are sent to the remote control device to be informed, the remote monitoring requirements of a user on the data of the power station are met, and the photovoltaic power station is safely and stably operated under the unattended condition.
Patent No. CN 201320425046.9's utility model discloses a wireless energy monitoring system with distal end is from environment monitoring function, utilize primary side energy emission system temperature sensor, primary side energy emission system humidity transducer, primary side energy emission system wind speed sensor, vice side energy emission system temperature sensor, vice side energy emission system humidity transducer, vice side energy emission system wind speed sensor, thereby can effectively monitor the environment around the distal end energy emission device, provide auxiliary information for energy emission system's safe operation in the smart power grids.
At present, the water quality of main rivers, lakes and reservoir water bodies in China generally presents a deterioration trend, and the tasks of water resource monitoring and environment monitoring are very heavy. In order to meet the requirements of environmental monitoring management and protection work development, environmental data needs to be collected and monitored; but a similar monitoring platform is lacked at present, and for the existing monitoring system, on one hand, the comprehensive monitoring performance is lower, and the automation, modernization and management systematization levels of water resource and environment monitoring cannot be improved; in addition, an effective management and control mode is lacked; this presents a problem for the work of the monitoring personnel.
Disclosure of Invention
Therefore, in order to solve the above-mentioned deficiencies, the present invention provides a data acquisition terminal monitoring platform; the platform has the advantages of wide acquisition and monitoring application range, low implementation cost, high acquisition efficiency and the like; and accessible bracelet message is accepted and is controlled, and whole system's operation flexibility is high.
The invention is realized in such a way that a data acquisition terminal monitoring platform is constructed, which comprises a data acquisition terminal execution terminal system, a data acquisition terminal execution terminal system and a data acquisition terminal execution terminal system, wherein the data acquisition terminal execution terminal system is arranged outdoors and is used for acquiring outdoor environment data; the data acquisition monitoring host receives the environmental data acquired by the data acquisition terminal execution terminal system, summarizes and processes the corresponding data and uploads the data to the data acquisition monitoring server; the data acquisition monitoring system further comprises a bracelet, wherein the bracelet is in data communication with the data acquisition monitoring host and the data acquisition monitoring server through a network server; the platform monitoring personnel receive the data abnormal message sent by the data acquisition monitoring host and the data acquisition monitoring server through the bracelet, and are convenient for going to check and process.
As an improvement of the above technical solution, in the data acquisition terminal monitoring platform, the data acquisition terminal execution terminal system includes a front end monitoring terminal, a data monitoring acquisition module, a power management module and a solar rechargeable battery; the solar charging battery is connected with the power supply management module, the output end of the power supply management module is connected with the front-end monitoring terminal, and the data monitoring and collecting module is connected with an external water quality data collecting and detecting instrument, a wind power and wind direction data collector, an environment temperature and humidity sensor, a monitoring camera and an illumination sensor; collecting corresponding water quality data, wind direction data, environment temperature and humidity data, environment camera data and ambient illumination data; the data are transmitted to a front-end monitoring terminal, processed by the front-end monitoring terminal and then transmitted to a data acquisition monitoring host; and then the data acquisition monitoring host computer sends the data to a data acquisition monitoring server.
As an improvement of the above technical solution, in the data acquisition terminal monitoring platform, the data acquisition terminal execution terminal system and the data acquisition monitoring host are respectively arranged in a data acquisition box located outdoors;
the lower part in the data acquisition box body is provided with a battery control cylinder, a top block, a soft layer, a current-conducting groove, a heat-insulating layer, a buffer plate, a spring, a buffer rod and a butt buffer seat;
the solar rechargeable battery is positioned in a lower cavity inside the data acquisition box body, the battery control cylinder is connected with the battery part through the top block, and the battery control cylinder pushes the battery part through the top block to realize position movement; the other side in the data acquisition box body is provided with a power-on groove, and the side surface of the battery part is provided with a plug-in column corresponding to the position of the power-on groove; the top block and the electrifying groove are Y-shaped, and the tail end of the electrifying groove is provided with a soft layer; a butt-joint buffer seat is arranged in the middle of the electrified groove, a buffer rod is fixed on the butt-joint buffer seat and connected with a buffer plate, and a spring is sleeved outside the buffer rod extending out of the butt-joint buffer seat part; and a heat insulation layer is arranged on the outer side of the butt joint buffer seat.
As an improvement of the above technical solution, in the data acquisition terminal monitoring platform, an illumination system is arranged at the upper end of a data acquisition box body; the illumination system comprises a base, a lower rotating motor, a turntable, an upper seat plate, an upper rotating motor, a left screw rod, a right screw rod, a left sliding seat, a right sliding seat, a left push plate, a right push plate, a left photovoltaic mounting plate, a right photovoltaic mounting plate, a left photovoltaic plate and a right photovoltaic plate; the lower rotating motor is arranged in the base, the rotating end of the lower rotating motor extends out of the base and then is connected with the turntable, and the lower surface of the turntable is in contact with the upper surface of the base through a supporting ball; the turntable and the upper seat plate form a whole; the left screw rod and the right screw rod are respectively positioned at the upper part of the upper seat plate; the left sliding seat and the right sliding seat are respectively sleeved on the left screw rod and the right screw rod in a penetrating manner, the upper rotating motor is arranged on the lower surface of the upper seat plate, and the upper rotating motor drives the left screw rod and the right screw rod to rotate simultaneously; the lower ends of the left photovoltaic mounting plate and the right photovoltaic mounting plate are respectively connected with the edge of the upper seat plate; the left sliding seat and the right sliding seat are respectively connected with the corresponding left photovoltaic mounting plate and the right photovoltaic mounting plate through a left push plate and a right push plate; a left photovoltaic plate and a right photovoltaic plate are correspondingly fixed on the left photovoltaic mounting plate and the right photovoltaic mounting plate; wherein a group of illumination sensors are respectively arranged on the left photovoltaic mounting plate and the right photovoltaic mounting plate; the output ends of the left photovoltaic panel and the right photovoltaic panel are respectively connected with the power management module and the solar charging battery.
As an improvement of the technical scheme, the data acquisition terminal monitoring platform is characterized in that the data acquisition monitoring server is externally connected with a monitoring display screen.
As an improvement of the above technical solution, the platform for monitoring a data acquisition terminal is implemented as follows;
a, when a platform runs, a data monitoring and collecting module is connected with an external water quality data collecting and detecting instrument, a wind power and wind direction data collector, an environment temperature and humidity sensor, a monitoring camera and an illumination sensor, and the data monitoring and collecting module collects external corresponding water quality data, wind power and wind direction data, environment temperature and humidity data, environment camera data and ambient illumination data at intervals; the data information is transmitted to a front-end monitoring terminal, the front-end monitoring terminal classifies the received data information, the data information is transmitted to a data acquisition monitoring host one by one, the data acquisition monitoring host judges the received data one by one and a preset value in a system, if the value just obtained is within the range of the preset value, the environmental parameter is in a normal range, and the obtained data information is directly transmitted to a data acquisition monitoring server for storage; if the numerical value just obtained is higher than the preset value, judging that data is abnormal, sending a data abnormal message to a designated bracelet of a monitoring person by the data acquisition monitoring host through the network server at the moment, informing the person to go to a specific place for checking, then sending the data information to the data acquisition monitoring server for storage, and carrying out level confirmation on the abnormal data by the data acquisition monitoring server and displaying the abnormal data through a monitoring display screen;
the acquisition terminal execution terminal system and the data acquisition monitoring host are both powered by a solar rechargeable battery; the front-end monitoring terminal can control the lower rotating motor and the upper rotating motor through the detection information of the illumination sensor; meanwhile, the output ends of the left photovoltaic panel and the right photovoltaic panel are respectively connected with the power management module and the solar charging battery, so that the solar charging battery is charged;
c, when a thunderstorm condition occurs, monitoring personnel can transmit a power supply disconnection message to the data acquisition monitoring host through a bracelet or a data acquisition monitoring server, the data acquisition monitoring host sends a power supply disconnection command to a front end monitoring terminal at the moment, the front end monitoring terminal controls a battery control cylinder to act, the battery control cylinder drives a solar charging battery to realize position movement through a top block, an inserting column is moved away from an electrifying groove, and the data acquisition terminal executes the power supply disconnection of a terminal system and the data acquisition monitoring host at the moment; after the thunderstorm is over, the monitoring personnel go to the place and manually switch on the equipment.
The invention has the following advantages: the invention has the following improvements and advantages;
the invention provides a data acquisition terminal monitoring platform through improvement, which comprises a data acquisition terminal execution terminal system, a data acquisition terminal monitoring server and a data acquisition terminal monitoring server, wherein the data acquisition terminal execution terminal system is arranged outdoors and is used for acquiring outdoor environment data; the data acquisition monitoring host receives the environmental data acquired by the data acquisition terminal execution terminal system, summarizes and processes the corresponding data and uploads the data to the data acquisition monitoring server; the data acquisition monitoring system further comprises a bracelet, wherein the bracelet is in data communication with the data acquisition monitoring host and the data acquisition monitoring server through a network server; the data anomaly message that data acquisition monitoring host computer and data acquisition monitoring server sent is received through the bracelet to platform monitoring personnel, is convenient for go to and verifies and handle. The data monitoring and collecting module collects corresponding external water quality data, wind direction data, environmental temperature and humidity data, environmental camera data and ambient illumination data at intervals; the data information is transmitted to a front-end monitoring terminal, the front-end monitoring terminal classifies the received data information, the data information is transmitted to a data acquisition monitoring host one by one, the data acquisition monitoring host judges the received data one by one and a preset value in a system, if the value just obtained is within the range of the preset value, the environmental parameter is in a normal range, and the obtained data information is directly transmitted to a data acquisition monitoring server for storage; and if the numerical value just obtained is higher than the preset value, judging that the data is abnormal, sending a data abnormal message to an appointed bracelet of a monitoring person by the data acquisition monitoring host through the network server, informing the person to go to a specific place for checking, then sending the data information to the data acquisition monitoring server for storage, confirming the grade of the abnormal data by the data acquisition monitoring server, and displaying the abnormal data through the monitoring display screen. The platform has the advantages of wide acquisition and monitoring application range, low implementation cost, high acquisition efficiency and the like; and accessible bracelet message is accepted and is controlled, and whole system's operation flexibility is high.
In the data acquisition terminal monitoring platform, the data acquisition terminal execution terminal system is provided with a front-end monitoring terminal, a data monitoring acquisition module, a power management module and a solar rechargeable battery; the solar charging battery is connected with the power supply management module, the output end of the power supply management module is connected with the front-end monitoring terminal, and the data monitoring and collecting module is connected with an external water quality data collecting and detecting instrument, a wind power and wind direction data collector, an environment temperature and humidity sensor, a monitoring camera and an illumination sensor; collecting corresponding water quality data, wind direction data, environment temperature and humidity data, environment camera data and ambient illumination data; the data are transmitted to a front-end monitoring terminal, processed by the front-end monitoring terminal and then transmitted to a data acquisition monitoring host; and then the data acquisition monitoring host computer sends the data to a data acquisition monitoring server. The platform can be used for simultaneously collecting and monitoring multiple environmental parameters such as collected corresponding water quality data, wind direction data, environmental temperature and humidity data, environmental camera data, ambient illumination data and the like, and is wide in application range.
In the data acquisition terminal monitoring platform, the data acquisition terminal execution terminal system and the data acquisition monitoring host are respectively arranged in a data acquisition box body located outdoors; the lower part in the data acquisition box body is provided with a battery control cylinder, a top block, a soft layer, a current-conducting groove, a heat-insulating layer, a buffer plate, a spring, a buffer rod and a butt buffer seat; when the solar energy charging device is implemented, the solar charging battery is positioned in a lower cavity inside the data acquisition box body (the data acquisition box body can be opened), the air cylinder is connected with the battery part through the top block, and the battery controls the air cylinder to push the battery part through the top block to realize position movement; the other side in the data acquisition box body is provided with a power-on groove, and the side surface of the battery part is provided with a plug-in column corresponding to the position of the power-on groove; the top block and the electrifying groove are Y-shaped, and the tail end of the electrifying groove is provided with a soft layer; a butt-joint buffer seat is arranged in the middle of the electrified groove, a buffer rod is fixed on the butt-joint buffer seat and connected with a buffer plate, and a spring is sleeved outside the buffer rod extending out of the butt-joint buffer seat part; and a heat insulation layer is arranged on the outer side of the butt joint buffer seat. When a thunderstorm condition occurs, monitoring personnel can transmit a power supply disconnection message to the data acquisition monitoring host through the bracelet or the data acquisition monitoring server, the data acquisition monitoring host sends a power supply disconnection instruction to the front-end monitoring terminal at the moment, the front-end monitoring terminal controls the battery to control the cylinder to act, the battery control cylinder drives the solar charging battery to realize position movement through the ejector block, the inserting column is removed from the electrifying groove, and the data acquisition terminal executes the power supply disconnection of the terminal system and the data acquisition monitoring host at the moment; after the thunderstorm is over, the monitoring personnel go to the place to manually switch on the equipment (electrify).
4, in the data acquisition terminal monitoring platform, an illumination system is arranged at the upper end of a data acquisition box body; the illumination system comprises a base, a lower rotating motor, a turntable, an upper seat plate, an upper rotating motor, a left screw rod, a right screw rod, a left sliding seat, a right sliding seat, a left push plate, a right push plate, a left photovoltaic mounting plate, a right photovoltaic mounting plate, a left photovoltaic plate and a right photovoltaic plate; the lower rotating motor is arranged in the base, the rotating end of the lower rotating motor extends out of the base and then is connected with the turntable, and the lower surface of the turntable is in contact with the upper surface of the base through a supporting ball; the turntable and the upper seat plate form a whole; the left screw rod and the right screw rod are respectively positioned at the upper part of the upper seat plate; the left sliding seat and the right sliding seat are respectively sleeved on the left screw rod and the right screw rod in a penetrating manner, the upper rotating motor is arranged on the lower surface of the upper seat plate, and the upper rotating motor drives the left screw rod and the right screw rod to rotate simultaneously; the lower ends of the left photovoltaic mounting plate and the right photovoltaic mounting plate are respectively connected with the edge of the upper seat plate; the left sliding seat and the right sliding seat are respectively connected with the corresponding left photovoltaic mounting plate and the right photovoltaic mounting plate through a left push plate and a right push plate; a left photovoltaic plate and a right photovoltaic plate are correspondingly fixed on the left photovoltaic mounting plate and the right photovoltaic mounting plate; wherein a group of illumination sensors are respectively arranged on the left photovoltaic mounting plate and the right photovoltaic mounting plate; the output ends of the left photovoltaic panel and the right photovoltaic panel are respectively connected with the power management module and the solar charging battery. In the invention, the acquisition terminal execution terminal system and the data acquisition monitoring host are both powered by solar rechargeable batteries; the solar charging battery can be charged through the illumination system, and the front-end monitoring terminal can control the lower rotating motor and the upper rotating motor through the detection information of the illumination sensor; meanwhile, the output ends of the left photovoltaic panel and the right photovoltaic panel are respectively connected with the power management module and the solar charging battery, so that the solar charging battery is charged.
Drawings
FIG. 1 is a block diagram of a data acquisition terminal monitoring platform of the present invention;
FIG. 2 is a schematic diagram of an implementation structure of a data acquisition terminal execution terminal system and a data acquisition monitoring host according to the present invention;
fig. 3 is an enlarged view of fig. 2A of the present invention.
Wherein: a data acquisition terminal execution terminal system 10, a front end monitoring terminal 11, a data monitoring acquisition module 12, a power management module 13, a solar rechargeable battery 14, a data acquisition monitoring host 20, a water quality data acquisition detector 21, a wind direction data acquisition device 22, an environmental temperature and humidity sensor 23, a monitoring camera 24, a light sensor 25, a data acquisition monitoring server 30, a monitoring display screen 31, a bracelet 40, a network server 50, a data acquisition box 60, a battery control cylinder 61, a top block 62, a soft layer 63, a power supply groove 64, a heat insulation layer 65, a buffer plate 66, a spring 67, a buffer rod 68, a butt buffer seat 69, a plug column 70, a base 81, a lower rotating motor 82, a turntable 83, an upper seat 84, an upper rotating motor 85, a left lead screw 86, a right lead screw 87, a left sliding seat 88, a right sliding seat 89, a left push plate 90, a right push plate 91, a left photovoltaic mounting plate 92, right photovoltaic mounting panel 93, left photovoltaic board 94, right photovoltaic board 95.
Detailed Description
The present invention will be described in detail with reference to fig. 1 to 3, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all 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.
The invention provides a data acquisition terminal monitoring platform through improvement, and the implementation mode is as follows; the system comprises a data acquisition terminal execution terminal system 10, a data acquisition terminal, a data storage terminal and a data processing terminal, wherein the data acquisition terminal execution terminal system is arranged outdoors and is used for acquiring outdoor environment data; the data acquisition monitoring host 20 is used for receiving the environmental data acquired by the data acquisition terminal execution terminal system 10, summarizing the corresponding data and uploading the summarized data to the data acquisition monitoring server 30; the system further comprises a bracelet 40, wherein the bracelet 40 is in data communication with the data acquisition monitoring host 20 and the data acquisition monitoring server 30 through a network server 50; the platform monitoring personnel receive the data abnormal message sent by the data acquisition monitoring host 20 and the data acquisition monitoring server 30 through the bracelet 40, and are convenient for going to verify and process. The data monitoring and collecting module 12 collects external corresponding water quality data, wind direction data, environmental temperature and humidity data, environmental camera data and ambient illumination data at intervals; the data information is transmitted to the front-end monitoring terminal 11, the front-end monitoring terminal 11 classifies the received data information, then the data information is transmitted to the data acquisition monitoring host 20 one by one, the data acquisition monitoring host 20 judges the received data one by one and a preset value in the system, if the value just obtained is within the preset value range, the environmental parameter is in a normal range, and the obtained data information is directly transmitted to the data acquisition monitoring server 30 to be stored; and if the numerical value just obtained is higher than the preset value, judging that the data is abnormal, sending a data abnormal message to a designated bracelet 40 of a monitoring person by the data acquisition monitoring host 20 through the network server 50, informing the person to go to a specific place for checking, sending the data information to the data acquisition monitoring server 30 for storage, confirming the grade of the abnormal data by the data acquisition monitoring server 30, and displaying the abnormal data through the monitoring display screen 31.
As shown in fig. 1, in the data acquisition terminal monitoring platform according to the present invention, the data acquisition terminal execution terminal system 10 includes a front end monitoring terminal 11, a data monitoring acquisition module 12, a power management module 13, and a solar rechargeable battery 14; the solar charging battery 14 is connected with the power management module 13, the output end of the power management module 13 is connected with the front-end monitoring terminal 11, and the data monitoring and collecting module 12 is connected with an external water quality data collecting and detecting instrument 21, a wind power and wind direction data collector 22, an environment temperature and humidity sensor 23, a monitoring camera 24 and an illumination sensor 25; collecting corresponding water quality data, wind direction data, environment temperature and humidity data, environment camera data and ambient illumination data; and transmitted to the front end monitoring terminal 11, processed by the front end monitoring terminal 11 and then transmitted to the data acquisition monitoring host 20; and then sent to the data collection monitoring server 30 by the data collection monitoring host 20. The platform can be used for simultaneously collecting and monitoring multiple environmental parameters such as collected corresponding water quality data, wind direction data, environmental temperature and humidity data, environmental camera data, ambient illumination data and the like, and is wide in application range.
As shown in fig. 2, in the data acquisition terminal monitoring platform according to the present invention, the data acquisition terminal execution terminal system 10 and the data acquisition monitoring host 20 are respectively disposed in a data acquisition box 60 located outdoors; the lower part in the data acquisition box body 60 is provided with a battery control cylinder 61, a top block 62, a soft layer 63, an electrifying groove 64, a heat insulation layer 65, a buffer plate 66, a spring 67, a buffer rod 68 and a butt joint buffer seat 69; in implementation, the solar rechargeable battery 14 is located in a lower cavity inside the data acquisition box 60 (the data acquisition box 60 itself can be opened), the cylinder 61 is connected with the battery part through the top block 62, and the battery controls the cylinder 61 to push the battery part through the top block 62 to realize position movement; the other side in the data acquisition box body 60 is provided with a power-on groove 64, and the side of the battery part is provided with a plug-in column 70 corresponding to the power-on groove 64; the top block 62 and the electrifying groove 64 are Y-shaped, and the tail end of the electrifying groove 64 is provided with a soft layer 63; a butt-joint buffer seat 69 is arranged in the middle of the electrifying groove 64, a buffer rod 68 is fixed on the butt-joint buffer seat 69, the buffer rod 68 is connected with a buffer plate 66, and a spring 67 is sleeved outside the part of the buffer rod 68 extending out of the butt-joint buffer seat 69; the thermal insulation layer 65 is arranged outside the butt buffer seat 69. When a thunderstorm occurs, monitoring personnel can transmit a power supply disconnection message to the data acquisition monitoring host 20 through the bracelet 40 or the data acquisition monitoring server 30, at the moment, the data acquisition monitoring host 20 sends a power supply disconnection instruction to the front-end monitoring terminal 11, the front-end monitoring terminal 11 controls the battery control cylinder 61 to act, the battery control cylinder 61 drives the solar rechargeable battery 14 to realize position movement through the top block 62, the plug-in post 70 is removed from the electrifying groove 64, and at the moment, the data acquisition terminal executes the power supply disconnection of the terminal system 10 and the data acquisition monitoring host 20; after the thunderstorm is over, the monitoring personnel go to the place to manually switch on the equipment (electrify).
As shown in fig. 2, in the data acquisition terminal monitoring platform according to the present invention, an illumination system is disposed at the upper end of a data acquisition box 60; the illumination system comprises a base 81, a lower rotating motor 82, a turntable 83, an upper seat plate 84, an upper rotating motor 85, a left screw rod 86, a right screw rod 87, a left sliding seat 88, a right sliding seat 89, a left push plate 90, a right push plate 91, a left photovoltaic mounting plate 92, a right photovoltaic mounting plate 93, a left photovoltaic plate 94 and a right photovoltaic plate 95; the lower rotating motor 82 is arranged in the base 81, the rotating end of the lower rotating motor 82 extends out of the base 81 and then is connected with the turntable 83, and the lower surface of the turntable 83 is in contact with the upper surface of the base 81 through a supporting ball 97; the turntable 83 and the upper seat plate 84 are formed as one body; the left screw rod 86 and the right screw rod 87 are respectively positioned at the upper part of the upper seat plate 84; the left sliding seat 88 and the right sliding seat 89 are respectively sleeved on the left screw rod 86 and the right screw rod 87 in a penetrating way, the upper rotating motor 85 is arranged on the lower surface of the upper seat plate 84, and the upper rotating motor 85 drives the left screw rod 86 and the right screw rod 87 to rotate simultaneously; the lower ends of the left photovoltaic mounting plate 92 and the right photovoltaic mounting plate 93 are respectively connected with the edge of the upper seat plate 84; the left sliding seat 88 and the right sliding seat 89 are respectively connected with a left photovoltaic mounting plate 92 and a right photovoltaic mounting plate 93 through a left push plate 90 and a right push plate 91; a left photovoltaic panel 94 and a right photovoltaic panel 95 are correspondingly fixed on the left photovoltaic mounting panel 92 and the right photovoltaic mounting panel 93; wherein, a group of illumination sensors 25 are respectively arranged on the left photovoltaic mounting plate 92 and the right photovoltaic mounting plate 93; the output ends of the left photovoltaic panel 94 and the right photovoltaic panel 95 are respectively connected with the power management module 13 and the solar rechargeable battery 14. In the invention, the acquisition terminal execution terminal system 10 and the data acquisition monitoring host 20 are both powered by the solar rechargeable battery 14; in addition, the solar charging battery 14 can be charged by the illumination system, and the front end monitoring terminal 11 can control the lower rotating motor 82 and the upper rotating motor 85 through the detection information of the illumination sensor 25; meanwhile, the output ends of the left photovoltaic panel 94 and the right photovoltaic panel 95 are respectively connected with the power management module 13 and the solar rechargeable battery 14, so as to charge the solar rechargeable battery 14.
In implementation, the data collection and monitoring server 30 is externally connected to the monitoring display screen 31.
The invention relates to a data acquisition terminal monitoring platform, which is implemented as follows;
a, when the platform runs, the data monitoring and collecting module 12 is connected with an external water quality data collecting and detecting instrument 21, a wind direction data collecting device 22, an environment temperature and humidity sensor 23, a monitoring camera 24 and an illumination sensor 25, and the data monitoring and collecting module 12 collects external corresponding water quality data, wind direction data, environment temperature and humidity data, environment camera shooting data and ambient illumination data at intervals; the data information is transmitted to the front-end monitoring terminal 11, the front-end monitoring terminal 11 classifies the received data information, then the data information is transmitted to the data acquisition monitoring host 20 one by one, the data acquisition monitoring host 20 judges the received data one by one and a preset value in the system, if the value just obtained is within the preset value range, the environmental parameter is in a normal range, and the obtained data information is directly transmitted to the data acquisition monitoring server 30 to be stored; and if the numerical value just obtained is higher than the preset value, judging that the data is abnormal, sending a data abnormal message to a designated bracelet 40 of a monitoring person by the data acquisition monitoring host 20 through the network server 50, informing the person to go to a specific place for checking, sending the data information to the data acquisition monitoring server 30 for storage, confirming the grade of the abnormal data by the data acquisition monitoring server 30, and displaying the abnormal data through the monitoring display screen 31.
The acquisition terminal execution terminal system 10 and the data acquisition monitoring host 20 are both powered by the solar rechargeable battery 14; the front end monitoring terminal 11 can control the lower rotating motor 82 and the upper rotating motor 85 through the detection information of the illumination sensor 25; meanwhile, the output ends of the left photovoltaic panel 94 and the right photovoltaic panel 95 are respectively connected with the power management module 13 and the solar rechargeable battery 14, so as to charge the solar rechargeable battery 14.
When a thunderstorm condition occurs, monitoring personnel can transmit a power supply disconnection message to the data acquisition monitoring host 20 through the bracelet 40 or the data acquisition monitoring server 30, at the moment, the data acquisition monitoring host 20 sends a power supply disconnection instruction to the front end monitoring terminal 11, then the front end monitoring terminal 11 controls the battery control cylinder 61 to act, the battery control cylinder 61 drives the solar charging battery 14 to realize position movement through the top block 62, the plug-in post 70 is removed from the electrifying groove 64, and at the moment, the data acquisition terminal executes the power supply disconnection of the terminal system 10 and the data acquisition monitoring host 20; after the thunderstorm is over, the monitoring personnel go to the place to manually switch on the equipment (electrify).
The invention has the following improvements and advantages;
the invention provides a data acquisition terminal monitoring platform through improvement, which comprises a data acquisition terminal execution terminal system 10, a data acquisition terminal execution terminal system and a data acquisition terminal execution terminal system, wherein the data acquisition terminal execution terminal system is arranged outdoors and is used for acquiring outdoor environment data; the data acquisition monitoring host 20 is used for receiving the environmental data acquired by the data acquisition terminal execution terminal system 10, summarizing the corresponding data and uploading the summarized data to the data acquisition monitoring server 30; the system further comprises a bracelet 40, wherein the bracelet 40 is in data communication with the data acquisition monitoring host 20 and the data acquisition monitoring server 30 through a network server 50; the platform monitoring personnel receive the data abnormal message sent by the data acquisition monitoring host 20 and the data acquisition monitoring server 30 through the bracelet 40, and are convenient for going to verify and process. The data monitoring and collecting module 12 collects external corresponding water quality data, wind direction data, environmental temperature and humidity data, environmental camera data and ambient illumination data at intervals; the data information is transmitted to the front-end monitoring terminal 11, the front-end monitoring terminal 11 classifies the received data information, then the data information is transmitted to the data acquisition monitoring host 20 one by one, the data acquisition monitoring host 20 judges the received data one by one and a preset value in the system, if the value just obtained is within the preset value range, the environmental parameter is in a normal range, and the obtained data information is directly transmitted to the data acquisition monitoring server 30 to be stored; and if the numerical value just obtained is higher than the preset value, judging that the data is abnormal, sending a data abnormal message to a designated bracelet 40 of a monitoring person by the data acquisition monitoring host 20 through the network server 50, informing the person to go to a specific place for checking, sending the data information to the data acquisition monitoring server 30 for storage, confirming the grade of the abnormal data by the data acquisition monitoring server 30, and displaying the abnormal data through the monitoring display screen 31. The platform has the advantages of wide acquisition and monitoring application range, low implementation cost, high acquisition efficiency and the like; and the operation flexibility of whole system is high through the control of accessible bracelet.
In the data acquisition terminal monitoring platform, the data acquisition terminal execution terminal system 10 is provided with a front-end monitoring terminal 11, a data monitoring acquisition module 12, a power management module 13 and a solar charging battery 14; the solar charging battery 14 is connected with the power management module 13, the output end of the power management module 13 is connected with the front-end monitoring terminal 11, and the data monitoring and collecting module 12 is connected with an external water quality data collecting and detecting instrument 21, a wind power and wind direction data collector 22, an environment temperature and humidity sensor 23, a monitoring camera 24 and an illumination sensor 25; collecting corresponding water quality data, wind direction data, environment temperature and humidity data, environment camera data and ambient illumination data; and transmitted to the front end monitoring terminal 11, processed by the front end monitoring terminal 11 and then transmitted to the data acquisition monitoring host 20; and then sent to the data collection monitoring server 30 by the data collection monitoring host 20. The platform can be used for simultaneously collecting and monitoring multiple environmental parameters such as collected corresponding water quality data, wind direction data, environmental temperature and humidity data, environmental camera data, ambient illumination data and the like, and is wide in application range.
In the data acquisition terminal monitoring platform of the invention, the data acquisition terminal execution terminal system 10 and the data acquisition monitoring host 20 are respectively arranged in a data acquisition box body 60 located outdoors; the lower part in the data acquisition box body 60 is provided with a battery control cylinder 61, a top block 62, a soft layer 63, an electrifying groove 64, a heat insulation layer 65, a buffer plate 66, a spring 67, a buffer rod 68 and a butt joint buffer seat 69; in implementation, the solar rechargeable battery 14 is located in a lower cavity inside the data acquisition box 60 (the data acquisition box 60 itself can be opened), the cylinder 61 is connected with the battery part through the top block 62, and the battery controls the cylinder 61 to push the battery part through the top block 62 to realize position movement; the other side in the data acquisition box body 60 is provided with a power-on groove 64, and the side of the battery part is provided with a plug-in column 70 corresponding to the power-on groove 64; the top block 62 and the electrifying groove 64 are Y-shaped, and the tail end of the electrifying groove 64 is provided with a soft layer 63; a butt joint buffer seat 69 is arranged in the middle of the electrifying groove 64, a buffer rod 68 is fixed on the butt joint buffer seat 69, the buffer rod 68 is connected with a buffer plate 66, and a spring 67 is sleeved outside the part, extending out of the butt joint buffer seat 69, of the buffer rod 68; the thermal insulation layer 65 is arranged outside the butt buffer seat 69. When a thunderstorm occurs, monitoring personnel can transmit a power supply disconnection message to the data acquisition monitoring host 20 through the bracelet 40 or the data acquisition monitoring server 30, at the moment, the data acquisition monitoring host 20 sends a power supply disconnection instruction to the front-end monitoring terminal 11, the front-end monitoring terminal 11 controls the battery control cylinder 61 to act, the battery control cylinder 61 drives the solar rechargeable battery 14 to realize position movement through the top block 62, the plug-in post 70 is removed from the electrifying groove 64, and at the moment, the data acquisition terminal executes the power supply disconnection of the terminal system 10 and the data acquisition monitoring host 20; after the thunderstorm is over, the monitoring personnel go to the place to manually switch on the equipment (electrify).
In the data acquisition terminal monitoring platform, an illumination system is arranged at the upper end of a data acquisition box body 60; the illumination system comprises a base 81, a lower rotating motor 82, a turntable 83, an upper seat plate 84, an upper rotating motor 85, a left screw rod 86, a right screw rod 87, a left sliding seat 88, a right sliding seat 89, a left push plate 90, a right push plate 91, a left photovoltaic mounting plate 92, a right photovoltaic mounting plate 93, a left photovoltaic plate 94 and a right photovoltaic plate 95; the lower rotating motor 82 is arranged in the base 81, the rotating end of the lower rotating motor 82 extends out of the base 81 and then is connected with the turntable 83, and the lower surface of the turntable 83 is in contact with the upper surface of the base 81 through a supporting ball 97; the turntable 83 and the upper seat plate 84 are formed as one body; the left screw rod 86 and the right screw rod 87 are respectively positioned at the upper part of the upper seat plate 84; the left sliding seat 88 and the right sliding seat 89 are respectively sleeved on the left screw rod 86 and the right screw rod 87 in a penetrating way, the upper rotating motor 85 is arranged on the lower surface of the upper seat plate 84, and the upper rotating motor 85 drives the left screw rod 86 and the right screw rod 87 to rotate simultaneously; the lower ends of the left photovoltaic mounting plate 92 and the right photovoltaic mounting plate 93 are respectively connected with the edge of the upper seat plate 84; the left sliding seat 88 and the right sliding seat 89 are respectively connected with a left photovoltaic mounting plate 92 and a right photovoltaic mounting plate 93 through a left push plate 90 and a right push plate 91; a left photovoltaic panel 94 and a right photovoltaic panel 95 are correspondingly fixed on the left photovoltaic mounting panel 92 and the right photovoltaic mounting panel 93; wherein, a group of illumination sensors 25 are respectively arranged on the left photovoltaic mounting plate 92 and the right photovoltaic mounting plate 93; the output ends of the left photovoltaic panel 94 and the right photovoltaic panel 95 are respectively connected with the power management module 13 and the solar rechargeable battery 14. In the invention, the acquisition terminal execution terminal system 10 and the data acquisition monitoring host 20 are both powered by the solar rechargeable battery 14; in addition, the solar charging battery 14 can be charged by the illumination system, and the front end monitoring terminal 11 can control the lower rotating motor 82 and the upper rotating motor 85 through the detection information of the illumination sensor 25; meanwhile, the output ends of the left photovoltaic panel 94 and the right photovoltaic panel 95 are respectively connected with the power management module 13 and the solar rechargeable battery 14, so as to charge the solar rechargeable battery 14.
The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (5)

1. A data acquisition terminal monitoring platform is characterized in that; comprises the following steps of; the data acquisition terminal execution terminal system (10) is arranged outdoors and is used for acquiring outdoor environment data; the system also comprises a data acquisition monitoring host (20) which receives the environmental data acquired by the data acquisition terminal execution terminal system (10), summarizes and processes the corresponding data and uploads the data to the data acquisition monitoring server (30); the hand ring (40) is communicated with the data acquisition monitoring host (20) and the data acquisition monitoring server (30) through the network server (50); a platform monitoring person receives a data abnormal message sent by the data acquisition monitoring host (20) and the data acquisition monitoring server (30) through the bracelet (40), and the data abnormal message is convenient to go to verify and process;
the data acquisition terminal execution terminal system (10) and the data acquisition monitoring host (20) are respectively arranged in a data acquisition box body (60) located outdoors;
the lower part in the data acquisition box body (60) is provided with a battery control cylinder (61), a top block (62), a soft layer (63), a current-conducting groove (64), a heat insulation layer (65), a buffer plate (66), a spring (67), a buffer rod (68) and a butt-joint buffer seat (69);
the solar charging battery (14) is positioned in a lower cavity inside the data acquisition box body (60), the cylinder (61) is connected with the battery part through the top block (62), and the battery controls the cylinder (61) to push the battery part through the top block (62) to realize position movement; a power-on groove (64) is arranged on the other side in the data acquisition box body (60), and a plug-in column (70) corresponding to the power-on groove (64) is arranged on the side surface of the battery part; the top block (62) and the electrifying groove (64) are Y-shaped, and the tail end of the electrifying groove (64) is provided with a soft layer (63); a butt joint buffer seat (69) is arranged in the middle of the electrifying groove (64), a buffer rod (68) is fixed on the butt joint buffer seat (69), the buffer rod (68) is connected with a buffer plate (66), and a spring (67) is sleeved on the part, extending out of the butt joint buffer seat (69), of the buffer rod (68); the outer side of the butt joint buffer seat (69) is provided with a heat insulation layer (65).
2. The data acquisition terminal monitoring platform according to claim 1, wherein; the data acquisition terminal execution terminal system (10) is provided with a front-end monitoring terminal (11), a data monitoring acquisition module (12), a power management module (13) and a solar charging battery (14); the solar charging battery (14) is connected with the power supply management module (13), the output end of the power supply management module (13) is connected with the front-end monitoring terminal (11), and the data monitoring acquisition module (12) is connected with an external water quality data acquisition detector (21), a wind power and wind direction data acquisition device (22), an environment temperature and humidity sensor (23), a monitoring camera (24) and an illumination sensor (25); collecting corresponding water quality data, wind direction data, environment temperature and humidity data, environment camera data and ambient illumination data; the data are transmitted to the front-end monitoring terminal (11), processed by the front-end monitoring terminal (11) and then transmitted to the data acquisition monitoring host (20); and then the data is sent to a data acquisition monitoring server (30) by a data acquisition monitoring host (20).
3. The data acquisition terminal monitoring platform according to claim 1, wherein; an illumination system is arranged at the upper end of the data acquisition box body (60); the illumination system comprises a base (81), a lower rotating motor (82), a turntable (83), an upper seat plate (84), an upper rotating motor (85), a left screw rod (86), a right screw rod (87), a left sliding seat (88), a right sliding seat (89), a left push plate (90), a right push plate (91), a left photovoltaic mounting plate (92), a right photovoltaic mounting plate (93), a left photovoltaic plate (94) and a right photovoltaic plate (95); the lower rotating motor (82) is arranged in the base (81), the rotating end of the lower rotating motor (82) extends out of the base (81) and then is connected with the turntable (83), and the lower surface of the turntable (83) is in contact with the upper surface of the base (81) through a supporting ball (97); the rotary disc (83) and the upper seat plate (84) form a whole; the left screw rod (86) and the right screw rod (87) are respectively positioned at the upper part of the upper seat plate (84); a left sliding seat (88) and a right sliding seat (89) are respectively sleeved on the left screw rod (86) and the right screw rod (87) in a penetrating way, an upper rotating motor (85) is arranged on the lower surface of the upper seat plate (84), and the upper rotating motor (85) drives the left screw rod (86) and the right screw rod (87) to rotate simultaneously; the lower ends of the left photovoltaic mounting plate (92) and the right photovoltaic mounting plate (93) are respectively connected with the edge of the upper seat plate (84); the left sliding seat (88) and the right sliding seat (89) are respectively connected with a left photovoltaic mounting plate (92) and a right photovoltaic mounting plate (93) through a left push plate (90) and a right push plate (91); a left photovoltaic panel (94) and a right photovoltaic panel (95) are correspondingly fixed on the left photovoltaic mounting panel (92) and the right photovoltaic mounting panel (93); wherein a group of illumination sensors (25) are respectively arranged on the left photovoltaic mounting plate (92) and the right photovoltaic mounting plate (93); the output ends of the left photovoltaic panel (94) and the right photovoltaic panel (95) are respectively connected with the power management module (13) and the solar rechargeable battery (14).
4. The data acquisition terminal monitoring platform according to claim 1, wherein; the data acquisition monitoring server (30) is externally connected with a monitoring display screen (31).
5. The data acquisition terminal monitoring platform according to claim 1, wherein; the platform is implemented as follows;
a, when a platform operates, a data monitoring and collecting module (12) is connected with an external water quality data collecting and detecting instrument (21), a wind power and wind direction data collector (22), an environmental temperature and humidity sensor (23), a monitoring camera (24) and an illumination sensor (25), and the data monitoring and collecting module (12) collects external corresponding water quality data, wind power and wind direction data, environmental temperature and humidity data, environmental camera data and ambient illumination data at intervals; the data information is transmitted to a front-end monitoring terminal (11), the front-end monitoring terminal (11) classifies the received data information, then the data information is transmitted to a data acquisition monitoring host (20) one by one, the data acquisition monitoring host (20) judges the received data one by one and a preset value in the system, if the numerical value just obtained is within the range of the preset value, the environmental parameter is in a normal range, and the obtained data information is directly transmitted to a data acquisition monitoring server (30) to be stored; if the numerical value just obtained is higher than the preset value, the data is judged to be abnormal, at the moment, the data acquisition monitoring host (20) sends a data abnormal message to a designated bracelet (40) of a monitoring person through a network server (50), informs the person to go to a specific place for checking, then sends the data information to the data acquisition monitoring server (30) for storage, and the data acquisition monitoring server (30) confirms the grade of the abnormal data and displays the abnormal data through a monitoring display screen (31);
the acquisition terminal execution terminal system (10) and the data acquisition monitoring host (20) are both powered by a solar charging battery (14); the front end monitoring terminal (11) can control the lower rotating motor (82) and the upper rotating motor (85) through the detection information of the illumination sensor (25); meanwhile, the output ends of the left photovoltaic panel (94) and the right photovoltaic panel (95) are respectively connected with the power management module (13) and the solar rechargeable battery (14), so that the solar rechargeable battery (14) is charged;
c, when a thunderstorm condition occurs, monitoring personnel can transmit a power supply disconnection message to the data acquisition monitoring host (20) through the bracelet (40) or the data acquisition monitoring server (30), the data acquisition monitoring host (20) sends a power supply disconnection instruction to the front end monitoring terminal (11), the front end monitoring terminal (11) controls the battery control cylinder (61) to act, the battery control cylinder (61) drives the solar charging battery (14) to realize position movement through the top block (62), the plug-in column (70) is moved away from the power-on slot (64), and the data acquisition terminal execution terminal system (10) and the data acquisition monitoring host (20) are powered off at the moment; after the thunderstorm is over, the monitoring personnel go to the place and manually switch on the equipment.
CN202011139733.5A 2020-10-22 2020-10-22 Data acquisition terminal monitoring platform Active CN112903004B (en)

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CN209560371U (en) * 2019-04-02 2019-10-29 乐山航大星光太阳能热水器制造有限公司 A kind of solar energy is with day rotating mechanism
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CN204423089U (en) * 2015-02-05 2015-06-24 克拉玛依市建业有限责任公司 A kind of remote monitoring center of workover platform
KR20170105208A (en) * 2016-03-09 2017-09-19 엘에스산전 주식회사 Apparatys for data processing
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