CN107767310A - Intelligent laboratory management system system - Google Patents

Abstract

The invention discloses a kind of intelligent laboratory management system system, including cloud server, communication unit, upper administrative unit and the next hardware cell, upper administrative unit to include：Login module, work attendance module, information exchange module, equipment control display module, the next hardware module include：Equipment fault detection module, timing module, device power control module, communication unit includes wireless the WIFI communication modules or GPRS communication modules on mobile communication terminal and the next hardware module, by setting equipment fault detection module, fault type, the position of experimental facilities can be automatically detected, and above-mentioned fault message is uploaded and is stored or sent at Lab Manager；By setting equipment to control display module, it is possible to achieve the unified management of laboratory equipment power supply, device power, power-off control, long-time is unattended, and equipment automatically powers off processing；By setting timing module, realize that laboratory equipment usage time records, recording equipment run time.

Description

Intelligent management system for laboratory

Technical Field

The invention relates to the technical field of information and equipment management, in particular to an intelligent management system for a laboratory.

Background

Experiments are an indispensable ring in the teaching process, the observation and practice practical ability of students is cultivated, the strict scientific attitude of the facts is formed, and the study interest of the students is stimulated to play a role in putting forward.

The management of the existing high-efficiency laboratory is mainly divided into personnel management and experimental equipment management, wherein the personnel management is mainly used for checking in students doing experiments and examining experimental effects and answering questions of some students; the management of the experimental equipment is relatively complex, whether the experimental equipment works normally or not needs to be detected in real time, the power on and power off time of each piece of equipment needs to be managed, the fault position needs to be quickly located when the experimental equipment breaks down, and a manufacturer of the experimental equipment needs to be contacted personally when some serious faults occur. All the above operations need the administrator of the laboratory to operate, the workload is large and cumbersome, and careless mistakes are easy to occur.

Disclosure of Invention

The invention aims to provide an intelligent management system for a laboratory, aiming at the problems that laboratory management affairs items are complex in actual application and careless mistakes are easy to occur in management work of an administrator.

The laboratory intelligent management system provided by the invention has the following specific scheme:

the utility model provides a laboratory intelligent management system, includes high in the clouds server, communication unit, upper management unit and lower hardware unit, upper management unit includes:

the login module is in communication connection with the cloud server, comprises a login instruction input box and a password verification module and is used for teachers and students to login the system;

the attendance module is in communication connection with the cloud server, receives attendance information of teachers or students, compares the attendance information with attendance data stored in the cloud server, is used for attendance check of the teachers and the students and outputs attendance information;

the information interaction module comprises a plurality of mobile communication terminals which are in communication connection with the cloud server and used for information communication between teachers and students, and the cloud server collects and records the communication information;

the equipment control display module is in communication connection with the lower hardware unit and is used for controlling and displaying the running state of the hardware equipment;

the lower hardware module comprises:

the equipment fault detection module is in communication connection with the equipment control display module and the cloud server and comprises a data processor and a plurality of sensors arranged in the equipment, the plurality of sensors acquire current, voltage and temperature signals of the equipment and output the current, voltage and temperature signals to the data processor, and if the current, voltage and temperature signals exceed preset values, fault signals are output;

the timing module is in communication connection with the cloud server, starts timing in response to a power-on signal and a reset signal of the equipment or a control signal of the equipment control display module, stops timing after the timing reaches a preset time, and outputs a timing signal and a timing completion signal;

the device power-on control module comprises at least one program-controlled power switch device and is controlled by a control signal of the device control display module or a timing completion signal to control the power-on or power-off of the device;

the communication unit comprises a wireless WIFI communication module or a GPRS communication module and/or an Internet network communication module which are arranged on the mobile communication terminal and the lower hardware module.

Through above-mentioned technical scheme, after teacher or student entered into the laboratory, can sign in through mobile communication terminal and log in, student's attendance statistics is very convenient to, the teacher only need through mobile communication terminal alright realize the control to experimental facilities, easy operation is convenient. Through setting up equipment failure detection module, can be real-timely carry out fault detection to equipment, after breaking down, fault information can be fast reacted to on teacher's mobile communication terminal, has reduced the work load that teacher's manual investigation, is favorable to the maintenance of laboratory paraphernalia. Through setting up the information interaction module for student and mr's interdynamic convenience more.

Further, the device failure detection module includes:

the current sensor is arranged at a power supply and an operation key in the experimental equipment, and is used for detecting the power-on running state of the experimental equipment and the key operation state of the student and outputting a current detection signal;

the voltage transformer is arranged at a power supply and an operation key in the experimental equipment, and is used for detecting the power-on running state of the experimental equipment and the key operation state of a student and outputting a voltage detection signal;

the temperature sensor is arranged at a heating circuit module in the experimental equipment and used for acquiring a temperature signal of the experimental equipment and outputting a temperature detection signal;

the data conversion module comprises a plurality of A/D conversion modules, receives the current detection signal, the voltage detection signal and the temperature detection signal, and converts analog signals in the current detection signal, the voltage detection signal and the temperature detection signal into digital signals;

the data processor is internally provided with a data storage module and a comparator, the data storage module stores the magnitudes of the current detection signal, the voltage detection signal and the temperature detection signal under the normal condition of the experimental equipment, the comparator receives the current detection signal, the voltage detection signal and the temperature detection signal and compares the current detection signal, the voltage detection signal and the temperature detection signal with a preset value in the data storage module, and when the magnitudes of all the detection signals exceed the preset values, the fault signal is output;

and the communication interface module is in data connection with the data processor and the cloud server and is used for transmitting the current detection signal, the voltage detection signal, the temperature detection signal and the fault signal to the cloud server.

Through above-mentioned technical scheme, can detect current, voltage and the temperature of key position among the experimental facilities in real time, can send alarm information in time when the square experimental facilities appears unusually. Through above-mentioned technical scheme, also can make things convenient for the automatic assessment in later stage to record student's operation step.

Further, the cloud server includes:

the system comprises a data storage, a data processing unit and a data processing unit, wherein the data storage is divided into a plurality of storage areas and a data bus for accessing the storage areas, and the storage areas are respectively used for storing basic information of teachers and students, equipment manufacturers and equipment information, attendance information, communication information, examination step information, examination result information and fault and use condition information of equipment;

the fault information comprises equipment number information and corresponding fault code information;

the service condition information comprises equipment number information, power-on and power-off time information and operation duration information.

Through the technical scheme, the experimental process of the students and the interactive information with the teachers can be comprehensively stored, and the evaluation and supervision of the experimental courses of the students are facilitated.

Further, the lower hardware unit further includes:

the examination time display module comprises a liquid crystal display screen assembly in signal connection with the timing module and is used for displaying the power-on state, the working time, the equipment number and the alarm frequency information of the experimental equipment;

and the power-on request module is in communication connection with the equipment control display module, comprises a key arranged on the experimental equipment or a selection key of the mobile communication terminal and is used for sending a power-on request signal to the equipment control display module.

Through setting up above-mentioned two hardware module, can make things convenient for the student to know the progress of experimental time and the basic condition of equipment at first, can initiatively remind the teacher to power on for equipment after the teacher does not power on for experimental facilities through mobile communication terminal.

Further, the lower hardware unit further includes:

and the automatic power-off module comprises a microprocessor, is in communication connection with the timing module and the equipment fault detection module, and outputs a power-off control signal to the equipment power-on control module to control the programmable power supply switching device to cut off the power supply of the experimental equipment when no operation or equipment fault occurs within a preset time after the experimental equipment is powered on.

Through the technical scheme, when equipment breaks down, the power-off processing can be automatically carried out, and major accidents are prevented.

Further, the upper management unit further includes:

and the experiment evaluation module is in signal connection with the cloud server and the equipment fault detection module, receives the key operation state information of the students, compares the key operation state information with the evaluation step information in the data storage, generates the evaluation result information and uploads the evaluation result information to the cloud server for storage.

Through the technical scheme, automatic evaluation of student experiment operation can be realized, and the workload of teachers is reduced.

Further, the upper management unit further includes:

the experiment summary input module is in communication connection with the cloud server and comprises a character input module used for inputting the experiment hearts and summaries of students and uploading the results to the cloud server.

By the technical scheme, students can finish the heart summary of the experiment through the mobile communication terminal after completing the experiment, and upload the result to the cloud server, and teachers only need to download the information for examination in the later stage.

Further, the mobile communication terminal comprises a smart phone or a tablet computer.

The invention has the following beneficial effects:

(1) by arranging the equipment fault detection module, the fault type and the position of the experimental equipment can be automatically detected, and the fault information is uploaded, stored or sent to a laboratory administrator;

(2) by arranging the equipment control display module, the unified management of the power supply of the laboratory equipment, the power-on and power-off control of the equipment and the automatic power-off processing of the unmanned equipment for a long time can be realized;

(3) by arranging the timing module, the use time of the laboratory equipment is recorded, the power-on operation of the equipment is detected, and the operation time of the equipment is recorded;

(4) the automatic evaluation of the experimental equipment can be realized by arranging the experimental evaluation module, and the power can be automatically cut off after the evaluation time is up by combining the timing module, so that a teacher can check the result;

(5) through setting up high in the clouds server, number and the running state information upload the storage with experimental facilities, equipment manufacturer also can read or receive the running state information of equipment from high in the clouds server, makes things convenient for later maintenance.

Drawings

Fig. 1 is an overall schematic diagram of the intelligent management system of the laboratory.

The reference symbols: 1. a cloud server; 2. a communication unit; 3. an upper management unit; 4. a lower hardware unit; 31. a login module; 32. an attendance module; 33. an information interaction module; 34. a device control display module; 41. an equipment fault detection module; 42. a timing module; 43. an on-device electrical control module; 21. an Internet network communication module; 411. a current sensor; 412. a voltage transformer; 413. a temperature sensor; 414. a data conversion module; 415. a data processor; 416. a communication interface module; 11. a data storage; 44. an assessment time display module; 45. a power-on request module; 46. an automatic power-off module; 35. an experiment evaluation module; 36. an experiment summary input module; 37. a mobile communication terminal.

Detailed Description

The invention aims to provide the intelligent management system for the laboratory, which can effectively reduce the workload of laboratory managers and improve the management efficiency of the laboratory.

The present invention will be described in further detail with reference to examples and drawings, but the present invention is not limited to these examples.

As shown in fig. 1, an intelligent management system for a laboratory mainly includes a hardware device portion and a software control port device, and specifically includes a cloud server 1, a communication unit 2, an upper management unit 3, and a lower hardware unit 4. Wherein,

the upper management unit 3 includes: the system comprises a login module 31, an attendance module 32, an information interaction module 33 and an equipment control display module 34.

The login module 31 is in communication connection with the cloud server 1, and comprises a login instruction input box and a password verification module, and is used for a teacher and students to login the system. The login module is arranged on a teacher or student mobile communication terminal 37, functions in an APP mode, and after entering a laboratory, the teacher and the student all adopt a mobile phone APP to login a couplable management system in the laboratory.

The attendance module 32 is in communication connection with the cloud server 1, receives attendance information of teachers or students, compares the attendance information with attendance data stored in the cloud server 1, is used for attendance check of the teachers and the students, and outputs attendance information. In the above scheme, the student information and the teacher information to be tested are firstly input and stored in the database of the cloud server 1, and the student information and the teacher information are only required to be checked in according to the information input by the students or the teachers. The input information includes name, login password, class, and the identification of the student identity can be accomplished by using a mobile communication terminal 37, such as a fingerprint identification system on a mobile phone or a tablet computer.

Above-mentioned technical scheme, after teacher or student entered into the laboratory, can sign in through mobile communication terminal 37 and log in, student's attendance statistics is very convenient.

The information interaction module 33 comprises a plurality of mobile communication terminals 37 in communication connection with the cloud server 1, and is used for information communication between teachers and students, and the cloud server 1 collects and records the communication information. In the information interaction module 33, the teacher has the highest authority, and can pull the students into an exchange group similar to a chat group, so that the communication between the students in the laboratory and the teacher is facilitated, and the communication process is recorded by the cloud server 1, so that the comprehensive evaluation of the experimental scores of the students in the later period is facilitated.

The device control display module 34 is communicatively connected to the lower hardware unit 4, and is used for controlling and displaying the operating status of the hardware device. The device control display module 34 is mainly used for communication and control between the upper management unit 3 and the lower hardware unit 4 by using the mobile communication terminal 37 of the teacher as a carrier.

In the above scheme, the teacher can control the experimental equipment only by the mobile communication terminal 37, and the operation is simple and convenient.

The lower hardware module comprises: the device fault detection module 41, the timing module 42 and the on-device electric control module 43.

The device failure detection module 41 is in communication connection with the device control display module 34 and the cloud server 1, and includes a data processor 415 and a plurality of sensors disposed in the device, where the plurality of sensors collect current, voltage and temperature signals of the device and output the signals to the data processor 415, and if the signals exceed a preset value, a failure signal is output.

The timing module 42 is in communication connection with the cloud server 1, starts timing in response to a power-on signal, a reset signal, or a control signal of the device control display module 34, stops timing after a predetermined time, and outputs a timing signal and a timing completion signal.

The device power-on control module 43, which includes at least one programmable power switch device, is controlled by a control signal of the device control display module 34 or controls power on or power off of the device in response to a timing completion signal.

The communication unit 2 of the present invention includes a WIFI communication module or a GPRS communication module and/or an Internet communication module 21 disposed on the mobile communication terminal 37 and the lower hardware module.

Through setting up equipment failure detection module 41, can real-timely carry out fault detection to equipment, after breaking down, fault information can be reacted fast on teacher's mobile communication terminal 37, has reduced the work load that the teacher checked manually, is favorable to the maintenance of laboratory equipment. Through setting up information interaction module 33 for student and mr's interaction is more convenient.

Further, the device failure detection module 41 includes:

the current sensor 411 is arranged at a power supply and an operation key in the experimental equipment, and is used for detecting the power-on running state of the experimental equipment and the key operation state of the student and outputting a current detection signal;

the voltage transformer 412 is arranged at a power supply and an operation key in the experimental equipment, and is used for detecting the power-on running state of the experimental equipment and the key operation state of the student and outputting a voltage detection signal;

the temperature sensor 413 is arranged at a heating circuit module in the experimental equipment and used for acquiring a temperature signal of the experimental equipment and outputting a temperature detection signal;

a data conversion module 414, including a plurality of a/D conversion modules, for receiving the current detection signal, the voltage detection signal, and the temperature detection signal, and converting analog signals thereof into digital signals;

the data processor 415 is internally provided with a data storage module and a comparator, the data storage module stores the magnitudes of the current detection signal, the voltage detection signal and the temperature detection signal under the normal condition of the experimental equipment, the comparator receives the current detection signal, the voltage detection signal and the temperature detection signal and compares the current detection signal, the voltage detection signal and the temperature detection signal with the preset value in the data storage module, and when the magnitudes of the detection signals exceed the preset value, a fault signal is output.

The communication interface module 416 is in data connection with the data processor 415 and the cloud server 1, and is configured to transmit the current detection signal, the voltage detection signal, the temperature detection signal, and the fault signal to the cloud server 1.

The communication interface module 416, the data memory 11 and the comparator in the above scheme are all implemented by a single chip or an ARM external memory chip.

Above-mentioned technical scheme can detect current, voltage and the temperature of key position among the experimental facilities in real time, can send alarm information in time when the square experimental facilities appears unusually. Through above-mentioned technical scheme, also can make things convenient for the automatic assessment in later stage to record student's operation step.

For the cloud server 1, the method includes:

and the data access processing unit provides a data access or input interface and processes some simple data operation requests.

The data storage 11 is divided into a plurality of storage areas and a data bus accessing the plurality of storage areas, and the plurality of storage areas are respectively used for storing basic information of teachers and students, equipment manufacturers and equipment information, attendance information, communication information, assessment step information, assessment result information and fault and use condition information of equipment. The equipment manufacturer and the equipment information comprise a maintenance telephone of the equipment manufacturer, contact information and label information of the equipment, and maintenance personnel can lock the position of the equipment and use schools according to equipment numbers because the number information of each piece of equipment is different, so that later maintenance is facilitated.

The fault information includes equipment number information and corresponding fault code information.

The service condition information comprises equipment number information, power-on and power-off time information and operation duration information, and the experimental process of students can be comprehensively recorded by recording the information, so that the evaluation in the later period is facilitated.

Further preferably, the lower hardware unit 4 further includes:

in order to facilitate students to know the remaining time of the experiment and the condition of the experimental equipment, the experimental equipment is provided with an examination time display module 44, which comprises a liquid crystal display screen assembly in signal connection with the timing module 42 and is used for displaying the power-on state, the working time, the equipment number and the alarm frequency information of the experimental equipment.

In order to realize the function of actively reminding a teacher of powering on the device after the teacher does not power on the experimental device through the mobile communication terminal 37, the experimental device power-on request module 45 is in communication connection with the device control display module 34, and includes a key arranged on the experimental device or a selection key of the mobile communication terminal 37, and is used for sending a power-on request signal to the device control display module 34.

In order to automatically perform power-off processing when the equipment fails and prevent major accidents, the experimental equipment is further provided with an automatic power-off module 46 which comprises a microprocessor and is in communication connection with the timing module 42 and the equipment failure detection module 41, and when the experimental equipment is powered on and does not operate within a preset time or has equipment failure, a power-off control signal is output to the equipment power-on control module 43 to control the programmable power supply switching device to cut off the power supply of the experimental equipment. The microprocessor can be multiplexed with a single chip microcomputer or an ARM in the device fault detection module 41 to save hardware cost.

For the upper management unit 3, it is optimized to further include:

and an experiment evaluation module 35. The main investigation object of the electromechanical experiment is the operation of the experiment equipment by the student, so the operation accuracy can be realized by the button selection of the student, the experiment evaluation module 35 is in signal connection with the cloud server 1 and the equipment fault detection module 41, receives the button operation state information of the student and compares the button operation state information with the examination step information in the data storage 11 to generate examination result information and uploads the examination result information to the cloud server 1 for storage.

The experiment summary input module 36 is in communication connection with the cloud server 1, and includes a text input module for inputting the experiment results and summary of students and uploading the results to the cloud server 1. By the aid of the technical scheme, students can finish the experiment through the mobile communication terminal 37 after the experiment is finished, the experiment is uploaded to the cloud server 1, and teachers only need to download the information for examination in the later stage.

The above is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above-mentioned embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims (8)

1. An intelligent management system for a laboratory comprises a cloud server (1), a communication unit (2), an upper management unit (3) and a lower hardware unit (4), and is characterized in that,

the upper management unit (3) includes:

the login module (31) is in communication connection with the cloud server (1), comprises a login instruction input box and a password verification module, and is used for teachers and students to login the system;

the attendance module (32) is in communication connection with the cloud server (1), receives attendance information of teachers or students, compares the attendance information with attendance data stored in the cloud server (1), is used for attendance check of the teachers and the students, and outputs attendance information;

the information interaction module (33) comprises a plurality of mobile communication terminals (37) which are in communication connection with the cloud server (1) and are used for information communication between teachers and students, and the cloud server (1) collects and records the communication information;

the equipment control display module (34) is in communication connection with the lower hardware unit (4) and is used for controlling and displaying the running state of the hardware equipment;

the lower hardware module comprises:

the equipment fault detection module (41) is in communication connection with the equipment control display module (34) and the cloud server (1), and comprises a data processor (415) and a plurality of sensors arranged in the equipment, wherein the plurality of sensors acquire current, voltage and temperature signals of the equipment and output the current, voltage and temperature signals to the data processor (415), and if the current, voltage and temperature signals exceed preset values, fault signals are output;

the timing module (42) is in communication connection with the cloud server (1), starts timing in response to a power-on signal and a reset signal of the equipment or a control signal of the equipment control display module (34), stops timing after the timing reaches a preset time, and outputs a timing signal and a timing completion signal;

the device power-on control module (43) comprises at least one programmable power switch device and is controlled by a control signal of the device control display module (34) or responds to a timing completion signal to control the power-on or power-off of the device;

the communication unit (2) comprises a wireless WIFI communication module or a GPRS communication module and/or an Internet network communication module (21) which are arranged on the mobile communication terminal (37) and the lower hardware module.

2. Laboratory intelligent management system according to claim 1, characterized in that said equipment failure detection module (41) comprises:

the current sensor (411) is arranged at a power supply and an operation key in the experimental equipment, and is used for detecting the power-on running state of the experimental equipment and the key operation state of a student and outputting a current detection signal;

the voltage transformer (412) is arranged at a power supply and an operation key in the experimental equipment, and is used for detecting the power-on running state of the experimental equipment and the key operation state of the student and outputting a voltage detection signal;

the temperature sensor (413) is arranged at a heating circuit module in the experimental equipment and used for acquiring a temperature signal of the experimental equipment and outputting a temperature detection signal;

the data conversion module (414) comprises a plurality of A/D conversion modules, receives the current detection signal, the voltage detection signal and the temperature detection signal, and converts analog signals thereof into digital signals;

the data processor (415) is internally provided with a data storage module and a comparator, the data storage module stores the magnitudes of the current detection signal, the voltage detection signal and the temperature detection signal under the normal condition of the experimental equipment, the comparator receives the current detection signal, the voltage detection signal and the temperature detection signal and compares the current detection signal, the voltage detection signal and the temperature detection signal with a preset value in the data storage module, and when the magnitudes of all the detection signals exceed the preset values, the fault signal is output;

the communication interface module (416) is in data connection with the data processor (415) and the cloud server (1) and is used for transmitting the current detection signal, the voltage detection signal, the temperature detection signal and the fault signal to the cloud server (1).

3. Laboratory intelligent management system according to claim 2, characterized in that said cloud server (1) comprises:

the data storage device (11) is divided into a plurality of storage areas and a data bus for accessing the storage areas, and the storage areas are respectively used for storing basic information of teachers and students, equipment manufacturers and equipment information, attendance information, communication information, assessment step information, assessment result information and fault and use condition information of equipment;

the fault information comprises equipment number information and corresponding fault code information;

the service condition information comprises equipment number information, power-on and power-off time information and operation duration information.

4. Laboratory intelligent management system according to claim 1, characterized in that said lower hardware unit (4) further comprises:

the examination time display module (44) comprises a liquid crystal display screen component in signal connection with the timing module (42) and is used for displaying the power-on state, the working time, the equipment number and the alarm frequency information of the experimental equipment;

and the power-on request module (45) is in communication connection with the equipment control display module (34), comprises a key arranged on the experimental equipment or a selection key of the mobile communication terminal (37), and is used for sending a power-on request signal to the equipment control display module (34).

5. Laboratory intelligent management system according to claim 1, characterized in that said lower hardware unit (4) further comprises:

and the automatic power-off module (46) comprises a microprocessor, is in communication connection with the timing module (42) and the equipment fault detection module (41), and outputs a power-off control signal to the equipment power-on control module (43) to control the programmable power supply switching device to cut off the power supply of the experimental equipment when no operation or equipment fault occurs within a preset time after the experimental equipment is powered on.

6. Laboratory intelligent management system according to claim 3, characterized in that said superordinate management unit (3) further comprises:

and the experiment evaluation module (35) is in signal connection with the cloud server (1) and the equipment fault detection module (41), receives the key operation state information of the students, compares the key operation state information with the examination step information in the data storage (11), generates the examination result information and uploads the examination result information to the cloud server (1) for storage.

7. The intelligent management system for laboratories according to claim 1, characterized in that said superordinate management unit (3) further comprises:

the experiment summary input module (36) is in communication connection with the cloud server (1) and comprises a character input module used for inputting the experiment hearts and summaries of students and uploading the results to the cloud server (1).

8. Laboratory intelligent management system according to claim 1, characterized in that said mobile communication terminal (37) comprises a smartphone or a tablet.