CN210442835U - Intelligent management control system for instrument equipment - Google Patents

Abstract

An intelligent management control system of instrument equipment comprises a mobile phone end, an intelligent management control device and a remote server, wherein the intelligent management control device is electrically connected with the instrument equipment; the remote server is used for receiving information and data from the mobile phone terminal and the intelligent management control device, storing and managing the information and decrypting and encrypting the data, verifying user authority and instrument usability according to the data information stored by the remote server, and sending an instrument starting command to the intelligent management control device through the wireless communication module after the verification is successful; the intelligent management control device is used for directly controlling the switch of the instrument equipment according to the instruction of the remote server; the utility model discloses not only can carry out the intelligent orderly management of digitization to instrument equipment, can carry out backstage data statistics analysis and maintenance management to instrument equipment simultaneously.

Description

Intelligent management control system for instrument equipment

Technical Field

The utility model belongs to thing networking remote control management field, concretely relates to instrument and equipment intelligent management control system.

Background

As instruments and equipment such as scientific research institutions, higher institutions, companies and the like are various in types, the equipment price is often high, and various personnel or students for carrying out scientific experiments are available, the flow quantity is large, the management difficulty of scientific research experiment equipment is large, resources are wasted due to centralized use or bundling of idle instruments, the tracking of the instruments and equipment is difficult when the instruments and equipment are damaged, the working state of the instruments and equipment is difficult to detect in real time, the equipment is difficult to maintain in time at the first damage time, and various problems exist in the aspects of classroom (teacher class) management (power supply intelligent management of equipment such as computers, projectors, sound equipment, power amplifiers and the like in a classroom), student experiment management, conference management (power supply intelligent management of equipment such as conference room computers, projectors, sound equipment, power amplifiers and the like), for example, the teacher in class and the student experiments have the phenomena of late arrival and early retreat, and after the experiments/courses or the conferences are completed, the power supply of the instrument and equipment is not closed, the phenomenon of wasting electric energy generally exists, the artificial management cost is high, large-scale digital management cannot be carried out, and various problems such as artificial statistical errors exist. Therefore the intelligent background management of digital is future instrument and equipment management direction, and a lot of instruments are expensive, and the maintenance cost is big, but often there is the use amount few, is difficult to the recovery cost, or the repeated purchase of different departments, and it takes place when causing the wasting of resources scheduling problem, the utility model discloses a and the intelligent management controlling means who provides open the scheme based on long-range thing networking. Nearby instruments can be used, codes are scanned through the field two-dimensional codes, after the legality of the user is verified and the fee is paid (the student account is the virtual usable amount of money), the instrument equipment power supply is immediately switched on, and then the scientific research experiment can be started. And then, information such as the working state of the instrument and equipment, the current of the instrument and equipment, the voltage power and the like which are subjected to the experiment are collected in real time and managed in an early warning mode through a system background, and when the information exceeds a preset threshold value, the early warning is carried out through background management software, a mobile phone end and a voice module of the intelligent management control device, so that a user is reminded of checking the state of the instrument and equipment in time, and the damage of the instrument and equipment is avoided in.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a carry out intellectuality, digital management's control and state detection device to instrument equipment, the management that will solve instrument equipment in the laboratory of current colleges and universities is comparatively chaotic mostly, has not realized the digitization yet, low-cost effective management, can't obtain instrument equipment's operating condition in real time, can't carry out the hardware end to all instrument equipment, the early warning of cell-phone end and backstage server end, more can not carry out big data backstage analysis, supervision and emergency treatment to online all instrument equipment, consequently, the utility model discloses a section to above-mentioned problem and design is used for instrument equipment intelligent management control's system.

The utility model provides a technical scheme that its technical problem adopted is:

the intelligent management control system for the instrument equipment is characterized by comprising a mobile phone end, an intelligent management control device and a remote server, wherein the intelligent management control device is electrically connected with the instrument equipment; the remote server is used for receiving information and data from the mobile phone terminal and the intelligent management control device, storing and managing the information and decrypting and encrypting the data, verifying user authority and instrument usability according to the data information stored by the remote server, and sending an instrument starting command to the intelligent management control device through the wireless communication module after the verification is successful; the intelligent management control device is used for directly controlling the switch of the instrument equipment according to the instruction of the remote server;

the intelligent management control device comprises:

the wireless communication module is electrically connected with the MCU module and is used for realizing data transmission between the MCU module and the remote server;

the MCU module is used for decrypting and encrypting the transmission data, acquiring data from the relay/silicon controlled rectifier and the remote server, and controlling the relay/silicon controlled rectifier, the LED module and the voice module according to the analyzed data after analyzing the data;

the state detection module is electrically connected with the MCU module and is used for detecting the current, the voltage and the power supplied to the instrument equipment, processing the current, the voltage and the power data and then sending the processed data to the MCU module through the serial port/SPI/IIC interface for processing and storing;

the voice module is electrically connected with the MCU module and is used for sending out appointment reminding or warning information according to a control instruction of the MCU module;

a GPS module: the device is used for automatically acquiring longitude and latitude information of the current device before starting the device, and the longitude and latitude information is processed by the MCU module and then transmitted to the remote server through the wireless communication module;

the LED module is electrically connected with the MCU module and is used for displaying the working state of the intelligent management control device;

the power supply module is electrically connected with the MCU module and is used for converting 220V/380V alternating current voltage into 5V direct current voltage and converting the 5V direct current voltage into 3.3V and 1.8V direct current voltage so as to supply electric energy to the MCU and the peripheral circuit module;

relay/thyristor module: the device is used for controlling the on-off of L or N of 220V/380V alternating current, thereby controlling the on-off of the power supply of the instrument.

Further preferably, the mobile phone terminal is provided with an instrument device intelligent management APP for acquiring instrument device information through code scanning, or an application with a WeChat applet or a Paibao applet.

Further, the state detection module obtains current, voltage and power data through a current transformer/voltage transformer.

Further, the remote server verifies the validity and consistency of the mobile terminal user information and the instrument equipment information, and directly sends an instrument equipment starting command to the intelligent management control device through the wireless communication module after the verification is passed; after the service time of the instrument is expired, the remote server sends an instrument closing command to the wireless communication module, and the MCU module of the intelligent management control device immediately closes the power supply of the instrument by controlling the relay/silicon controlled module after receiving the closing command.

Furthermore, each intelligent management control device controls one path of switch of the power supply, one path of switch is connected with the input end of the socket, if a plurality of instruments are connected to the socket, one path of switch can be controlled by the intelligent management control device to turn on or turn off the power supply of all the instruments on the socket, and the input end of the socket is electrically connected with the output end of the intelligent management control device.

Furthermore, each intelligent management control device is connected with a power line of one instrument, the power line of the intelligent management control device is connected with a power access end of the instrument, and a power line electric energy output interface of the intelligent management control device and a power access port of the instrument are fixedly matched male and female interfaces.

Furthermore, the intelligent management control device also comprises a switch module, and the switch module is used for emergently turning off the power supply of the instrument equipment.

Further, the LED module is composed of a red light, a green light and a yellow light, the red light indicates that the intelligent management control device has a fault temporarily, the green light indicates that the intelligent management control device is in a normal management control state, and the yellow light indicates that the intelligent management control device is in a low-power-consumption standby state.

In addition, the wireless communication module realizes data transmission between the MCU module and the remote server through an Internet of things card or a GSM/GPRS/4G/5G multi-mode module.

More preferably, the intelligent management control device further comprises an RFID module, wherein the RFID module is used for reading an electronic tag ID number from a user, and analyzing the electronic tag ID number to the MCU module, the MCU module sends the analyzed information to the remote server through the wireless communication module for storage, the remote server verifies and checks user identity information and available instrument status information, and after the verification, the remote server sends a power command for turning on the instrument device to the wireless communication module, and then the MCU module controls the relay/scr module through the MCU module after receiving the command received by the wireless communication module, thereby controlling the instrument device to be turned on.

Implement the utility model discloses following beneficial effect can be reached:

the utility model can not only carry out digital and intelligent orderly management to the instrument and equipment, but also carry out background data statistical analysis to the information of the instrument and equipment and early warning of a mobile phone end, a background and a hardware end under emergency; the utility model adopts wireless non-wired LAN control technology to transmit data, which is not limited by places and environments; the utility model can be applied to laboratory instruments, conference rooms, multimedia classrooms, teacher class administration, student experiment administration and other various requirements and various application scenes; the utility model discloses can carry out real-time detection and early warning to instrument and equipment's state, break down or appear when unusual at instrument and equipment, remote server, cell-phone end and intelligent management controlling means three-party early warning remind user and administrator in time to inspect the instrument, remind the user in time to inspect, avoid causing instrument and equipment's damage.

Drawings

Fig. 1 is the structure block diagram of the intelligent management control system for instrument and equipment of the present invention.

Detailed Description

In order to clearly understand the technical features, objects, and effects of the present invention, embodiments of the present invention will be described in detail with reference to the accompanying drawings. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

An intelligent management control system for instrument equipment is shown in fig. 1 and comprises a mobile phone end 1, an intelligent management control device electrically connected with the instrument equipment and a remote server 3, wherein the mobile phone end 1 is used for sending a user ID number and a signal for requesting to start the device to the remote server 3, and a user can directly input the user ID number on the mobile phone or can obtain the user ID number by scanning a two-dimensional code on the intelligent management control device; the remote server 3 is used for receiving information and data from the mobile phone terminal 1 and the intelligent management control device, storing, analyzing, judging and intelligently managing the information and decrypting and encrypting the data, the remote server 3 verifies the user authority and the current availability of the instrument according to the stored data information, and sends an instrument starting command to the intelligent management control device after the verification is successful; after the intelligent management control device receives an instrument and equipment starting command received by the wireless communication module, the relay/silicon controlled module is controlled by the MCU, so that the power output end of the intelligent management device is controlled to be powered on, the instrument and equipment are powered on, and the remote server 3 is a background computer intelligent management system capable of directly sending the instrument and equipment starting command to the intelligent management control device;

the intelligent management control device comprises:

the wireless communication module 13 is electrically connected with the MCU module and is used for realizing data transmission between the MCU module and the remote server, and the wireless communication module realizes the data transmission between the MCU module and the remote server through an Internet of things card or a GSM/GPRS/4G/5G multi-system module;

the MCU module 2 is used for decrypting and encrypting transmission data, acquiring data from the relay/silicon controlled rectifier and the remote server, and controlling the relay/silicon controlled rectifier, the LED module and the voice module according to the analyzed data after analyzing the data;

the state detection module 4 is electrically connected with the MCU module and is used for detecting the current, the voltage and the power supplied to the instrument equipment, processing the current, the voltage and the power data and then sending the processed data to the MCU module through a serial port/SPI/IIC interface for processing and storing, and acquiring the current, the voltage and the power data through a current transformer/a voltage transformer;

the voice module 5 is electrically connected with the MCU module and is used for sending out appointment reminding or warning information according to a control instruction of the MCU module;

and the GPS module 6: the device is used for automatically acquiring longitude and latitude information of the current device before starting the device, and the longitude and latitude information is processed by the MCU module and then transmitted to the remote server through the wireless communication module;

the LED module 7 is electrically connected with the MCU module and used for displaying the working state of the intelligent management control device, the LED module consists of red, green and yellow lamps, the red lamp indicates that the intelligent management control device has a temporary fault, the green lamp indicates that the intelligent management control device is in a normal management control state, and the yellow lamp indicates that the intelligent management control device is in a low-power consumption standby state;

the power module 8 is electrically connected with the MCU module and is used for converting 220V/380V alternating current voltage into 5V direct current voltage and converting the 5V direct current voltage into 3.3V and 1.8V direct current voltage so as to supply electric energy to the MCU and the peripheral circuit module;

relay/thyristor module 9: the device is used for controlling the on-off of L or N of 220V/380V alternating current so as to control the on-off of the power supply of the instrument;

the intelligent management control device also comprises a switch module 10 for emergency shutdown of the power supply of the equipment, and if necessary, a memory 12, wherein the memory 12 is used for storing information received by the intelligent management control device and generated by the intelligent management control device.

The intelligent management control device further comprises an RFID module 11, the RFID module is used for reading an electronic tag ID number from a user, the electronic tag ID number is analyzed by the MCU module, the MCU module sends analyzed information to the remote server through the wireless communication module for storage, and the remote server controls the relay/silicon controlled module through the MCU module so as to control the on-off of the instrument and equipment.

When the mobile phone terminal is specifically implemented, the mobile phone terminal is provided with an APP for acquiring instrument and equipment information through code scanning, and the APP comprises a WeChat application and a Paibao application.

Preferably, the wireless communication module electrically connected to the MCU module is an internet of things remote communication haisi NB75V2 chip, or a BC35-95 chip, or a conventional 2G, 3G, 4G or future 5G communication module.

Preferably, the MCU is an STM32F103, STM32F104 chip, a Nordic52832 chip suitable for wearable and portable devices and embedded with a low power consumption bluetooth module, or an STM32L or APOLLO256 chip.

Preferably, the state monitoring module adopts a WCS1800 Hall current sensor/direct current alternating current detection module, and is in data connection with the MCU through a serial port.

Preferably, the voice module adopts a science news flight XFS5152 chip or an SN6288 chip, converts TTS characters into voice synthesis, amplifies the voice synthesis by a self-contained amplifier, and outputs the voice through a loudspeaker.

Preferably, the GPS module adopts a UBLOX-NEO-M8T module. The module adopts a civil GPS L1 frequency band module to provide original measurement data, and receives a GPS/QZSS, GLONASS and Beidou two-out-of-two mode, and the time service precision can reach 15 ns.

Preferably, the bluetooth module is preferably a DA14580 module of TI corporation, and may also be a Nordic52832 chip embedded in MCU.

Preferably, the power module adopts 220V alternating current or 380V phase voltage, and is subjected to voltage reduction and rectification by a switching power supply or a traditional linear power supply to obtain 5V voltage, and then the voltage is reduced and stabilized by an LDO chip to obtain 3.3V and 1.8V direct current voltage, so that electric energy is supplied to the MCU and the peripheral circuit module;

the relay module can adopt an MOC3041 optical coupler device for isolation, adopt BTAQ6035L silicon controlled rectifier to realize the silent opening and closing of power supply, and also can adopt a mechanical or solid 5V relay to match with a field effect transistor and a triode to realize the opening and closing of power supply.

Preferably, the RFID module is a PN532 or MFRC-522 radio frequency IC induction chip.

Preferably, the memory module adopts a P25Q64 module.

Each intelligent management control device controls a plurality of instrument devices, the instrument devices are connected to the same socket, and the input end of the socket is electrically connected with the output end of the intelligent management control device; each intelligent management control device controls one instrument, and the output end of each intelligent management control device is electrically connected with the common voltage input end of the instrument.

The existing method mainly has the following defects: the local area network technology is usually managed by adopting a common website, and the operability and the flexibility are firstly; a few management systems with hardware are often limited to a certain college, a certain department or a certain school, and most of the management systems adopt wired networks for transmission, are limited by geographic space conditions, are expensive and are not easy to popularize and apply in large quantities; often adopt RFID to verify, rarely exist and sweep management and control that the sign indicating number realized instrument equipment based on the two-dimensional code, current method often adopts wired or wireless LAN control technique or adopts instrument equipment management website to realize instrument equipment's reservation and management, can't obtain instrument equipment's detection information in real time, the state information of management device itself, and the utility model discloses the device comes the voltage at real-time detection instrument equipment both ends and the electric current that flows through instrument equipment through sensors such as current/voltage transformer to and current instrument equipment power isoparametric, just the utility model discloses the device adopts long-range internet communication technique, controls and manages the telecommunication module of appointed ID number through the backstage, carries out analysis, storage and intelligent management service to intelligent management device through backend server simultaneously. Still send return information such as open or failure for cell-phone end APP/applet end through remote server simultaneously, and the utility model discloses a two-dimensional code scanning realizes opening of experimental apparatus equipment, and the method is simple, and has the RFID module, and a plurality of methods verify the user legitimacy, and is convenient nimble.

The existing method mainly comprises the steps of carrying out local management on a single college or a single school through a local area network, wherein among departments or colleges, among research and development departments of companies, there is a lack of contact among laboratory instruments and equipment of the colleges, sharing of equipment of different colleges is rarely carried out, most laboratories are disordered in management, the instruments and equipment are damaged, time and a damaged person cannot be located and tracked, subsequent experimenters cannot get rid of faults under the unknown condition, the experiment purpose cannot be achieved, and therefore the large amount of time-consuming and labor-consuming conditions occur. In addition, different teachers in the same college have own small laboratories, instruments in each small laboratory are often careless to manage and rarely shared, so that different teachers purchase a large amount of same or similar instrument equipment in different laboratories, and the equipment in the laboratories of the teachers is mostly in an idle state at ordinary times, thereby causing the waste of a large amount of resources, and the teachers in the small laboratories worry that the borrowing process of the instruments of the teachers is damaged, so that the instruments of other teachers or students except the subject group are often not borrowed, thereby further aggravating the instrument sharing process. In addition, the same teacher often has a plurality of students in each lab, and the damage of instrument equipment is difficult to track among the students, and the teacher is also difficult to manage to student's experimental progress. Moreover, many laboratories are messy in managing small devices, or perform simple local management of instruments and devices between certain colleges or departments through a simple reservation website.

The utility model discloses aim at solving above-mentioned problem and proposing, for the operating condition who traces instrument equipment, the in service behavior, the damage condition carries out backstage data analysis to service behavior such as the monthly year of laboratory instrument equipment simultaneously to the follow-up purchase of instrument equipment provides intelligent supplementary guidance.

In addition, manage meeting room computer, projecting apparatus, power amplifier, stereo set for the realization, to the classroom computer, projecting apparatus, power amplifier, stereo set are managed, to laboratory computer lab student with the computer, the laboratory bench unifies intelligent management service, the utility model discloses the device is still suitable for, and its method is as follows: for example to computer, projecting apparatus, power amplifier, stereo set in classroom or meeting room intelligent management in-process, put the power of parts such as computer, projecting apparatus, power amplifier, stereo set on same socket, come the power break-make of control socket through this intelligent management controlling means to the realization is managed classroom (teacher's condition of going to class), meeting condition management, laboratory computer room computer management, student's laboratory bench management.

In the existing class administration of teachers, security personnel often check the class according to a school timetable at random, and manually fill in class administration conditions of the teachers, and the situation of early retreat is delayed. For another example, at the computer of going on the computer to laboratory student, student's laboratory bench carries out the management in-process, often 1 teacher will tutor dozens of students, is difficult to know every student's the condition of operating the computer at all, the early or early condition of moving back, and through the utility model discloses this problem of solution that the device can be fine, the student sweeps on a machine/platform or next door two-dimensional code through cell-phone APP end or applet, can open the power that corresponds instrument and equipment through validity and uniformity verification back to can realize operating the computer to the student, the intelligent management of digitization of student's experiment etc. teacher's accessible backstage arrives each classmate later, moves back earlier, and the effective intelligent management and analysis are carried out to the computer/experimental condition, still can easily obtain every student monthly or the study report form of every school period.

The specific implementation process comprises the following steps:

scanning a two-dimensional code on the intelligent management control device or (near the intelligent management control device) through a mobile phone terminal APP, or inputting an ID number of the intelligent management control device through the mobile phone terminal, obtaining information of the ID number, the position and the like of the intelligent management control device, then sending a user ID number and a signal for requesting to start the device to a remote server through the mobile phone terminal, sending an instrument power supply start command to the intelligent management control device through a background management cloud platform server of the remote server after a cloud management platform of the remote server verifies the user authority and the equipment feasibility and the verification is successful, then receiving the instrument power supply start command by a wireless communication module of the intelligent management control device, analyzing the instrument power supply start command through an MCU of the intelligent management control device, controlling a relay/a silicon controlled rectifier to be connected with an L line or an N line of the instrument management device through the MCU of the intelligent management control device, thereby switch on the power of instrument and equipment, this moment, the power of the experimental instrument and equipment managed will be put through, experiment operating personnel can use this instrument and equipment to carry out scientific experiment, and simultaneously, through the operating condition of this intelligent management controlling means to instrument and equipment, for example, voltage, the electric current, the power consumption condition, information such as power parameter gathers in real time, when electric current or voltage that detect are too high or too big, send the early warning notice through MCU module control voice module, remind the user to pay attention to equipment safety, the user can close the on-state of equipment through the cell-phone end is long-range, thereby remind inspection instrument and equipment, avoid instrument and equipment 'S damage, the user also can pass through switch module simultaneously, press 3S for a long time and promptly close instrument and equipment' S power.

When the intelligent management control device is connected with the power supply of the instrument and equipment, the current or voltage information of the equipment is obtained through a Hall coil and other current or voltage transformers and other sensors of the intelligent management control device, the detected state information of the experimental instrument is sent to a background appointed IP address server for storage and background analysis through a wireless communication module, the state information of a relay/a controllable silicon is sent to a remote server by the intelligent management control device and stored in a remote database, the state information of the instrument and equipment at different moments stored in the server and the relay state information of the intelligent management control device can be analyzed through remote background management software, the working state, the energy consumption and the like of the experimental instrument and equipment are managed, when certain parameters of the instrument and equipment exceed a set critical threshold value (for example, the power is overhigh), backstage early warning and cell-phone end carry out pronunciation vibrations suggestion early warning through backstage management software, send early warning information for intelligent management controlling means through the wireless communication module simultaneously, send out the early warning notice through MCU module control voice module and LED lamp red light scintillation afterwards, remind the user to pay attention to equipment safety.

In addition, the intelligent management control device matched with the experimental equipment with the specified ID number can be manually or remotely turned on or turned off at regular time through background management software of a mobile phone end or a computer end (remote server), big data cloud analysis can be carried out on data stored in a database through the background server management software (remote server), the working state of the experimental equipment can be automatically judged and recognized, and then the power supply of the experimental equipment can be intelligently turned on and turned off, so that the aim of remote intelligent management of the experimental equipment is fulfilled, a user can also use a long-time switch module to turn off the power supply of the experimental equipment in an emergency mode over 3S, or the experimental equipment used after scanning can be turned on and turned off through an APP of the mobile phone end, and therefore more portable management service of the experimental equipment is achieved.

The intelligent management device comprises a wireless communication module, an MCU module, a memory module, a relay/silicon controlled module, a power module (220V/380V alternating current is converted into 5V direct current, and 5V is converted into 3.3V direct current), a state detection module (current, voltage, power, relay/silicon controlled module state and the like), a switch module, an LED module, an RFID module, a GPS module, a voice module and an intelligent hardware part, wherein the block diagram is shown as the following figure. Reading the ID number of the intelligent management device by scanning the code through the two-dimensional code of the camera; the server storage and back-end management mainly comprises a background management part, a database, a remote server and the like, and intelligent management is carried out on the model of the instrument equipment, the service time and the like through a mobile phone end, a WEB end and the background end in the process of setting or applying the authority by an administrator or an equipment application user. The utility model discloses a constitute the schematic diagram as shown in the following figure, each component function is as follows:

a wireless communication module: and the data transmission between the MCU and the remote server is realized by adopting an Internet of things card or a GSM/GPRS/4G/5G multi-system module.

The MCU module: the intelligent management device is used for obtaining the state of a relay/silicon controlled rectifier and information such as current, voltage and power flowing through the equipment, simply analyzing and processing various data, receiving a remote server control command, turning on or turning off the power supply of the equipment for the relay/silicon controlled rectifier module, sending warning information to a voice module to remind a user when warning occurs, reading a user electronic tag ID number inquired by an RFID module by an MCU (microprogrammed control unit) in a classroom and other use scenes, storing and processing the user ID information, and uploading the state of the equipment, the state of an intelligent management device, GPS (global position system) position information of experimental equipment, the user electronic tag ID number and the like to a server end of a remote specified IP address through a wireless communication module for storage and further analysis and processing. The MCU is also used for the encryption and decryption parsing process of the transmission data.

A state detection module: the device is mainly used for detecting parameters such as current, voltage and power supplied to instrument equipment, wherein the current/voltage detection is usually obtained through a current transformer/voltage transformer, and then the current/voltage detection is processed by a state detection module and then is sent to an MCU (micro control unit) through a serial port/SPI/IIC interface for processing and storing.

A voice module: the voice module is used for decoding the coded signal and outputting the appointment reminding or warning information through the voice module so as to remind a user.

A GPS module: the method comprises the steps of automatically acquiring longitude and latitude information of current equipment before starting the equipment each time, uploading position information of the experimental equipment to a remote server for storage, analysis and management, mainly tracking the position information of the movable experimental equipment, and timely informing a background to carry out intelligent management service.

An RFID module: the intelligent electronic tag is mainly used for classrooms, scenes such as meeting rooms and the like, a user forgets to carry a mobile phone, or an old teacher can not operate a mobile phone terminal APP or a small program, the user electronic tag is used as a user electronic tag through a school campus card or a teacher card, after user information is read through an RFID card reader, the user electronic tag ID number is immediately sent to an MCU to analyze the user, the user electronic tag is then sent to a remote server through the MCU to be stored, the validity and the consistency of the electronic tag are judged through the remote server, and after the user electronic tag passes through the RFID card reader, the power of an instrument is immediately switched on through an MCU control relay/. As an alternative identification method, the RFID is usually used to read the user ID through a campus card or a teacher card only when the user forgets to carry the smart phone or the smart phone is damaged.

A switch module: the experimental instrument user can press 3S for the long time through the switch module to turn off the power supply of the instrument equipment emergently, and the working state of the management device can be tested by combining the LED lamp.

An LED module: the LED lamp module mainly comprises one or more red, green and yellow tricolor lamps and is used for indicating the current working state of equipment, when the LED is a red lamp, the device is indicated to have a fault temporarily and cannot be used, the green lamp reminding device is in a normal management control state, the yellow lamp indicates that the equipment is in a low-power consumption standby state, the instrument equipment can be started by scanning a code through a two-dimensional code or inputting an ID (identity) number of equipment on the two-dimensional code through a mobile phone end at the moment, and then scientific experiments are carried out.

A power supply module: the power supply module is used for converting 220V/380V alternating current voltage into 5V direct current voltage, and converting the 5V direct current voltage into 3.3V and 1.8V direct current voltage, so that electric energy is supplied to the MCU and the peripheral circuit module.

Relay/thyristor module: the system is used for controlling the on-off of L or N of 220V/380V alternating current so as to control the on-off of the power supply of the management instrument device.

Remarking: can accomplish the laboratory when needs a plurality of instrument and equipment collaborative work, be connected to same socket through a plurality of instrument and equipment that will need collaborative work on, and insert this socket input the utility model discloses install the output, if only when carrying out intelligent management to single instrument and equipment, directly insert 220V 380V with this intelligent management controlling means's input, pull out instrument and equipment's power cord, with intelligent management controlling means's output direct access instrument and equipment general or with the supporting customization voltage input of instrument and equipment.

The intelligent management device can realize the intelligent management service of the instrument equipment by matching with the APP or the small program of the mobile phone terminal, the storage of the server and the rear-end management system.

While the embodiments of the present invention have been described with reference to the accompanying drawings, the present invention is not limited to the above-described embodiments, which are merely illustrative and not restrictive, and many modifications may be made by one skilled in the art without departing from the spirit and scope of the present invention as defined in the appended claims.

Claims (10)

1. The intelligent management control system for the instrument equipment is characterized by comprising a mobile phone end, an intelligent management control device and a remote server, wherein the intelligent management control device is electrically connected with the instrument equipment; the remote server is used for receiving information and data from the mobile phone terminal and the intelligent management control device, storing and managing the information and decrypting and encrypting the data, verifying user authority and instrument usability according to the data information stored by the remote server, and sending an instrument starting command to the intelligent management control device through the wireless communication module after the verification is successful; the intelligent management control device is used for directly controlling the switch of the instrument equipment according to the instruction of the remote server;

the intelligent management control device comprises:

the wireless communication module is electrically connected with the MCU module and is used for realizing data transmission between the MCU module and the remote server;

the MCU module is used for decrypting and encrypting the transmission data, acquiring data from the relay/silicon controlled rectifier and the remote server, and controlling the relay/silicon controlled rectifier, the LED module and the voice module according to the analyzed data after analyzing the data;

the state detection module is electrically connected with the MCU module and is used for detecting the current, the voltage and the power supplied to the instrument equipment, processing the current, the voltage and the power data and then sending the processed data to the MCU module through the serial port/SPI/IIC interface for processing and storing;

the voice module is electrically connected with the MCU module and is used for sending out appointment reminding or warning information according to a control instruction of the MCU module;

a GPS module: the device is used for automatically acquiring longitude and latitude information of the current device before starting the device, and the longitude and latitude information is processed by the MCU module and then transmitted to the remote server through the wireless communication module;

the LED module is electrically connected with the MCU module and is used for displaying the working state of the intelligent management control device;

the power supply module is electrically connected with the MCU module and is used for converting 220V/380V alternating current voltage into 5V direct current voltage and converting the 5V direct current voltage into 3.3V and 1.8V direct current voltage so as to supply electric energy to the MCU and the peripheral circuit module;

relay/thyristor module: the device is used for controlling the on-off of L or N of 220V/380V alternating current, thereby controlling the on-off of the power supply of the instrument.

2. The intelligent management and control system for instrument and equipment as claimed in claim 1, wherein: the mobile phone terminal is provided with an intelligent management APP (application) for acquiring information of the instrument device through code scanning, or an application with a WeChat applet or a Paibao applet.

3. The intelligent management and control system for instrument and equipment as claimed in claim 1, wherein: the state detection module obtains current, voltage and power data through a current transformer/a voltage transformer.

4. The intelligent management and control system for instrument and equipment as claimed in claim 1, wherein: the remote server verifies the validity and consistency of the mobile terminal user information and the instrument equipment information, and directly sends an instrument equipment starting command to the intelligent management control device through the wireless communication module after the verification is passed; after the service time of the instrument is expired, the remote server sends an instrument closing command to the wireless communication module, and the MCU module of the intelligent management control device immediately closes the power supply of the instrument by controlling the relay/silicon controlled module after receiving the closing command.

5. The intelligent management and control system for instrument and equipment as claimed in claim 1, wherein: each intelligent management control device controls one path of switch of the power supply, one path of switch is connected with the input end of the socket, if a plurality of instrument devices are connected to the socket, one path of switch can be controlled by the intelligent management control device to turn on or turn off the power supply of all the instrument devices on the socket, and the input end of the socket is electrically connected with the output end of the intelligent management control device.

6. The intelligent management and control system for instrument and equipment as claimed in claim 1, wherein: each intelligent management control device is connected with a power line of instrument equipment and is connected with a power access end of the instrument equipment through the power line of the intelligent management control device, and the power line electric energy output interface of the intelligent management control device and the power access end of the instrument equipment are fixedly matched male and female interfaces.

7. The intelligent management and control system for instrument and equipment as claimed in claim 1, wherein: the intelligent management control device also comprises a switch module, and the switch module is used for emergently closing the power supply of the instrument equipment.

8. The intelligent management and control system for instrument and equipment as claimed in claim 1, wherein: the LED module is composed of red, green and yellow lights, the red light indicates that the intelligent management control device is in a temporary fault state, the green light indicates that the intelligent management control device is in a normal management control state, and the yellow light indicates that the intelligent management control device is in a low-power-consumption standby state.

9. The intelligent management and control system for instrument and equipment as claimed in claim 1, wherein: the wireless communication module realizes data transmission between the MCU module and the remote server through an Internet of things card or a GSM/GPRS/4G/5G multi-system module.

10. The intelligent management and control system for the instrument and equipment according to any one of claims 1 to 9, wherein: the intelligent management control device also comprises an RFID module, wherein the RFID module is used for reading an electronic tag ID number from a user and analyzing the electronic tag ID number for the MCU module, the MCU module sends the analyzed information to the remote server through the wireless communication module for storage, the remote server verifies and checks user identity information and available instrument state information, after the verification is passed, a power supply command for connecting instrument equipment is sent to the wireless communication module through the remote server, and after the MCU module receives the command received by the wireless communication module, the relay/silicon controlled module is controlled through the MCU module, so that the instrument equipment is controlled to be started.

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