CN112019600B - Information data point inspection processing system and method based on teaching equipment - Google Patents

Abstract

The invention belongs to the technical field of information processing, and discloses an information data spot inspection processing system and method based on teaching equipment, wherein the information data spot inspection processing system based on the teaching equipment comprises an acquisition label module, a unit counting module, a server and a mobile phone APP; the acquisition label module is used for acquiring the state of the instrument and meter equipment in real time by using an acquisition label; the unit statistic module is used for processing data by using the unit statistic processor and transmitting the processed and analyzed data to the server; the server is used for carrying out statistical analysis on whether the current equipment is legal or not, maintenance, regular inspection and other related data information according to the state data transmitted by the unit statistical module; the mobile phone APP is used for acquiring relevant data information of the equipment in real time. The invention can overcome the technical defect that the movement information of the instrument and meter equipment can not be acquired through manual point inspection in the prior art, can monitor the use state of the instrument and meter equipment in real time, and can be used for counting and managing the instrument and meter equipment in the current laboratory.

Description

Information data point inspection processing system and method based on teaching equipment

Technical Field

The invention belongs to the technical field of information processing, and particularly relates to an information data point inspection processing system and method based on teaching equipment.

Background

Currently, the closest prior art: the equipment check is an indispensable equipment management system in a factory, and is a method for maintaining and maintaining equipment, and specifically, it refers to the contents of inspection items, inspection methods, inspection cycles, determination standards, and the like specified in the equipment check reference book. The spot inspection is mainly completed by full-time personnel, and regular or irregular spot inspection measurement is carried out aiming at certain specific items of equipment, such as the precision of the equipment, a certain item or certain functional parameters and the like, so as to know the technical condition of the equipment and ensure the normal operation of the equipment.

At present, instruments and equipment of schools are checked by using manual operators, so that the efficiency is low, mistakes are easy to make, and the real-time instrument state is not reflected. The existing point inspection system and equipment aiming at school instruments and meters do not exist, but the point inspection aiming at industrial equipment exists, and the moving state of the instruments and meters cannot be solved.

In summary, the problems of the prior art are as follows:

(1) At present, the instrument and equipment of schools are checked by using the manual point checking of experimenters, so that the efficiency is low, mistakes are easy to make, and the real-time instrument state is not reflected.

(2) The existing checking method is to determine the equipment by the bar code attached to the equipment and manually recognizing the information on the bar code, so that the time is consumed, and the checking is difficult for some equipment which is not easy to check in the attaching position.

(3) The existing instruments and equipment are checked, and the registered equipment and equipment which are not in a specified laboratory are difficult to quickly analyze; it is common to manually inventory the devices on site and then check with a list of devices to determine which devices are not in the laboratory of registration.

(4) The function of automatically counting the existing equipment is lacked; the lack of automatic listing of functionality not in a given laboratory device.

(5) For the loss of the device, because there is no automatic detection method, the time interval from the loss of the device to the discovery of the loss of the device is generally longer, which is not beneficial to the search of the device.

(6) The existing point inspection system and equipment aiming at school instruments and meters do not exist, but the point inspection aiming at industrial equipment exists, and the moving state of the instruments and meters cannot be solved.

The difficulty of solving the technical problems is as follows: the equipment information records and marks comprise equipment names, purchase time manufacturers and prices; automatically activating the tag and identifying the device; communication of the identification system with the device registration system.

The significance of solving the technical problems is as follows: the time spent on equipment counting can be reduced; the inaccuracy caused by recognition error or fatigue due to manual counting equipment is reduced; the existing equipment in a specified laboratory can be automatically counted; the device which is originally in the laboratory but is not in the place can be automatically counted, and the missing problem of the device can be found early.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides an information data spot inspection processing system and method based on teaching equipment.

The invention is realized in such a way that the information data spot inspection processing system based on the teaching equipment comprises an acquisition label module, a unit statistic module, a server and a mobile phone APP;

a label collecting module: the unit statistical module is connected with the data acquisition module and is used for acquiring the state of the instrument and meter equipment in real time by using the acquisition label;

a unit counting module: the system is connected with the acquisition label module and the server; the system comprises a unit statistics processor, a server and a data processing and analyzing unit, wherein the unit statistics processor is used for processing data and transmitting the processed and analyzed data to the server;

a server: the device is connected with a unit statistic module and a mobile phone APP; the device is used for carrying out statistical analysis on the validity, maintenance, scheduled inspection and other related data information of the current equipment according to the state data transmitted by the unit statistical module;

a mobile phone APP: and the server is connected with the server and is used for acquiring the relevant data information of the equipment in real time.

Further, the status of the instrumentation device includes, but is not limited to, whether the device is present, whether the device is intact, whether the device is in use, and whether the device is moved.

Further, the collection tag specifically includes:

the acquisition tag consists of a mobile induction unit, a power-on induction unit, a key, a battery, an MCU and an RF 433;

a mobile sensing unit: the device is used for judging whether the device is moving or not through the acceleration sensor;

an energization sensing unit: the device is used for judging whether the device is in a power-on state or a use state;

and (3) key pressing: for equipment health and damage related marking adjustment;

a battery: the system is used for providing power support for the acquisition tag;

RF433: the unit statistical module is used for carrying out data interaction with the unit statistical module;

MCU: the device is used for processing and analyzing the data transmitted by the mobile sensing unit, the power-on sensing unit and the keys.

Further, the unit statistics engine specifically includes:

the unit statistics device comprises an RF433, a power supply, a WIFI | Ethernet and a CPU;

RF433: the label acquisition module is used for acquiring label data;

power supply: for providing power support for cell statistics;

WIFI and Ethernet: for communicating with a server;

a CPU: for processing data.

Further, the system for processing the information data spot inspection based on the teaching equipment further comprises:

the acquisition tag module is in interactive connection with the unit statistical module by adopting RF433 wireless;

and the unit counting module is in interactive connection with the server by adopting a network.

Another objective of the present invention is to provide a processing method for pointing and examining information data based on teaching equipment, which is applied to the processing system for pointing and examining information data based on teaching equipment, and the processing method for pointing and examining information data based on teaching equipment comprises:

step one, installing a collecting label on instrument equipment, acquiring relevant state information of the equipment in real time by using the collecting label, and judging whether the equipment is in motion, is in a use state, is intact and is damaged;

and the mobile sensing module collects the acceleration once every 1ms and transmits the acceleration to the MCU for processing. The MUC integrates the obtained acceleration with time to judge whether to move and the moving distance.

The power-on induction unit collects current values once every 5ms for the power supply part of the equipment through the Hall device, transmits the current values to the MCU, and the MCU judges whether the equipment runs or not through the current values.

And the key transmission unit is connected with the MCU for external interruption. When the equipment is damaged, the damaged key is manually pressed, and the MCU records the damaged state of the equipment through key triggering. When the equipment is repaired, the MCU updates the equipment state to be intact by manually pressing the intact key.

Step two, processing the acquired data information, and counting whether the analysis equipment is legal or not, whether maintenance is needed or not, whether regular inspection is needed or not and other related information;

the acquisition label is used for collecting data such as position movement, running state, equipment state and the like, packing the data once per second by using an internal protocol, and sending the data to the unit counter. The unit counter analyzes information such as states of different devices through an internal protocol. And acquiring historical information of corresponding equipment from the server, calculating data such as accumulated running time of the equipment and the like, and judging whether the equipment needs maintenance, regular inspection and the like.

And step three, transmitting the acquired, statistically analyzed relevant data information of various devices to a mobile phone APP for viewing.

The mobile phone APP accesses the server through the Ethernet to acquire historical data and current equipment information of the equipment recorded in a database on the server.

In summary, the advantages and positive effects of the invention are: the invention can monitor the use state of the instruments and meters in real time and can aim at the statistics and management of the instruments and meters in the current laboratory.

The invention can solve the technical defect that the movement information of the instrument and meter equipment can not be acquired through manual point inspection in the prior art, and the instrument and meter equipment can be inspected without experiment managers through installing the acquisition tags, and meanwhile, the equipment can be effectively maintained and maintained, and the equipment condition can be known in real time. Such as equipment lending, being moved, being stolen, etc., can be pushed to the administrator through the APP in real time.

Drawings

FIG. 1 is a schematic structural diagram of an information data spot inspection processing system based on teaching equipment according to an embodiment of the present invention;

in the figure: 1. collecting a label module; 2. a unit counting module; 3. a server; 4. provided is a mobile phone APP.

Fig. 2 is a schematic diagram of an information data spot inspection processing system based on teaching equipment according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of an acquisition tag according to an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a cell system according to an embodiment of the present invention.

Fig. 5 is a flowchart of an information data spot inspection processing method based on teaching equipment according to an embodiment of the present invention.

Fig. 6 is a schematic diagram of an information data spot inspection processing system based on teaching equipment according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the following embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Aiming at the problems in the prior art, the invention provides an information data spot inspection processing system and method based on teaching equipment, and the invention is described in detail below with reference to the accompanying drawings.

As shown in fig. 1-2, the information data spot inspection processing system based on teaching equipment provided by the embodiment of the invention includes a collection label module 1, a unit statistics module 2, a server 3, and a mobile phone APP4.

The collection label module 1: and the unit statistical module 2 is connected with the data acquisition module and is used for acquiring the state of the instrument and meter equipment in real time by using the acquisition label.

Unit counting module 2: the system is connected with the acquisition label module and the server; for processing the data using the cell statistics processor and transmitting the processed and analyzed data to the server.

The server 3: the device is connected with the unit statistical module 2 and the mobile phone APP 4; used for counting and analyzing whether the current equipment is legal or not, maintenance, regular inspection and other related data information according to the state data transmitted by the unit counting module 2.

And (4) mobile phone APP: and is connected with the server 3 and used for acquiring the relevant data information of the equipment in real time.

The status of the instrumentation device provided by the embodiments of the present invention includes, but is not limited to, whether the device is present, whether the device is intact, whether the device is in use, and whether the device is moved.

As shown in fig. 3, the acquisition tag provided in the embodiment of the present invention specifically includes:

the collection tag is composed of a mobile induction unit, a power-on induction unit, a key, a battery, an MCU and an RF 433.

A mobile sensing unit: for determining whether the device is moving by means of an acceleration sensor.

An energization sensing unit: for determining whether the device is in a powered-on state or in a use state.

Pressing a key: for equipment sound and damage related mark adjustment.

A battery: the system is used for providing power support for the acquisition tag.

RF433: used for data interaction with the unit statistic module.

MCU: the device is used for processing and analyzing the data transmitted by the mobile sensing unit, the power-on sensing unit and the keys.

As shown in fig. 4, the unit statistics engine provided in the embodiment of the present invention specifically includes:

the unit statistics machine comprises an RF433, a power supply, a WIFI | Ethernet and a CPU.

RF433: the data transmission module is used for carrying out data transmission with the acquisition label module.

Power supply: for providing power support for cell statistics.

WIFI and Ethernet: for communicating with the server.

A CPU: for processing data.

The information data point inspection processing system based on the teaching equipment provided by the embodiment of the invention also comprises:

the collection tag module is in interactive connection with the unit statistical module through RF433 wireless.

And the unit counting module is in interactive connection with the server by adopting a network.

As shown in fig. 5, the information data spot inspection processing method based on teaching equipment according to the embodiment of the present invention includes:

s501, installing a collecting label on the instrument equipment, acquiring relevant state information of the equipment in real time by using the collecting label, and judging whether the equipment is in motion, is in a use state, is intact and is damaged.

S502, the acquired data information is processed, and whether the analysis equipment is legal or not, whether maintenance is needed or not, whether regular inspection is needed or not and other related information are counted.

And S503, transmitting the acquired and statistically analyzed data information related to various devices to the mobile phone APP for checking.

Step 501 further comprises:

and the mobile sensing module collects the acceleration once every 1ms and transmits the acceleration to the MCU for processing. The MUC integrates the obtained acceleration with time to judge whether to move and the moving distance.

The power-on induction unit collects current values once every 5ms for the power supply part of the equipment through the Hall device, transmits the current values to the MCU, and the MCU judges whether the equipment runs or not through the current values.

And the key transmission unit is connected with the MCU for external interruption. When the equipment is damaged, the damaged key is manually pressed, and the MCU records the damaged state of the equipment through key triggering. When the equipment is repaired, the MCU updates the equipment state to be intact by manually pressing the intact key.

Step 502 also includes:

the acquisition label is used for collecting data such as position movement, running state, equipment state and the like, packing the data once per second by using an internal protocol, and sending the data to the unit counter. The unit counter analyzes information such as states of different devices through an internal protocol. And acquiring historical information of corresponding equipment from the server, calculating data such as accumulated running time of the equipment and the like, and judging whether the equipment needs maintenance, regular inspection and the like.

Step 503 further includes:

the mobile phone APP accesses the server through the Ethernet to acquire historical data and current equipment information of the equipment recorded in a database on the server.

The technical solution of the present invention is further illustrated by the following specific examples.

Example 1:

the system comprises a collecting tag, a unit counter, a server background and a mobile phone APP. The collecting tag interacts with the unit counter in a Radio Frequency (RF) 433 wireless mode to obtain the states of the instruments and meters (including whether the equipment exists, whether the equipment is intact, whether the equipment is in use and whether the equipment is moved) in real time; the unit counter and the server adopt network interaction, and the server counts and analyzes whether the current equipment is legal or not, maintains, checks and the like according to the uploaded state.

1. Collecting labels: the label consists of a mobile induction part, a power-on induction part, a key, a battery, an MCU (microprogrammed control unit) and an RF (radio frequency) 433, wherein the mobile induction part judges whether the equipment is moving or not through an acceleration sensor; judging whether the equipment is in a power-on state (use state) or not by using an inductor; the key is mainly used for marking adjustment of intact equipment, damaged equipment and the like; the battery is the power supply of the label; RF433 is responsible for interacting data with cell statistics; the MCU is a core processor of the tag and is responsible for processing and analyzing data transmitted by the mobile induction, the power-on induction and the keys and then transmitting the data through the RF 433.

2. A unit statistics machine: the statistics device is composed of an RF433, a power supply, a WIFI | Ethernet and a CPU. Wherein the RF433 is responsible for communicating with the acquisition tag; the power supply provides power for the statistics device; the WIFI and the Ethernet are communicated with the server; the CPU is responsible for processing data.

3. Server

4. Mobile phone APP

Example 2

The information data spot inspection processing method based on the teaching equipment provided by the embodiment of the invention comprises the following steps:

the collecting label is installed on a teaching computer, and information such as the serial number, the installation date, the installation place and the like of the computer is input on a server.

When the teaching computer is started, the acquisition label detects that the computer is started, and the operation time is calculated.

The running state of the teaching computer can be seen to be normal on the mobile phone APP, and the accumulated running time of the computer can be seen.

When the computer fails, the user presses the damaged button of the acquisition label.

And after receiving the damage information, the server informs the operation and maintenance personnel that the xx computer at the xx site needs to be maintained.

At the moment, the mobile phone APP can also see that the computer is damaged to be maintained.

After the operation and maintenance personnel maintain the computer, the normal button for collecting the label is pressed. At this time, the state of the computer on the mobile phone APP also becomes normal.

When the accumulated running time of the computer reaches 6 months, the server informs a maintainer of checking and maintaining the computer.

It should be noted that the embodiments of the present invention can be realized by hardware, software, or a combination of software and hardware. The hardware portion may be implemented using dedicated logic; the software portions may be stored in a memory and executed by a suitable instruction execution system, such as a microprocessor or specially designed hardware. Those skilled in the art will appreciate that the apparatus and methods described above may be implemented using computer executable instructions and/or embodied in processor control code, such code being provided on a carrier medium such as a disk, CD-or DVD-ROM, programmable memory such as read only memory (firmware), or a data carrier such as an optical or electronic signal carrier, for example. The apparatus and its modules of the present invention may be implemented by hardware circuits such as very large scale integrated circuits or gate arrays, semiconductors such as logic chips, transistors, or programmable hardware devices such as field programmable gate arrays, programmable logic devices, etc., or by software executed by various types of processors, or by a combination of hardware circuits and software, e.g., firmware.

The above description is intended to be illustrative of the preferred embodiment of the present invention and should not be taken as limiting the invention, but rather, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Claims (8)

1. The information data spot inspection processing system based on teaching equipment is characterized by comprising the following components:

a label collecting module: the unit statistical module is connected with the data acquisition module and is used for acquiring the state of the instrument and meter equipment in real time by using the acquisition label;

a unit counting module: the system is connected with the acquisition label module and the server; the system comprises a unit statistics processor, a server and a data processing and analyzing unit, wherein the unit statistics processor is used for processing data and transmitting the processed and analyzed data to the server;

a server: the device is connected with a unit statistic module and a mobile phone APP; the device is used for carrying out statistical analysis on the validity, maintenance, scheduled inspection and other related data information of the current equipment according to the state data transmitted by the unit statistical module;

a mobile phone APP: the server is connected with the server and is used for acquiring relevant data information of the equipment in real time;

the status of the instrumentation device includes, but is not limited to, whether the device is present, whether the device is intact, whether the device is in use, and whether the device is moved;

the collection tag specifically comprises:

the acquisition tag consists of a mobile induction unit, a power-on induction unit, a key, a battery, an MCU and an RF 433;

a mobile induction unit: the device is used for judging whether the device is moving or not through the acceleration sensor;

an energization sensing unit: the device is used for judging whether the device is in a power-on state or a use state;

pressing a key: the method is used for adjusting the mark related to the sound and damage of the equipment;

a battery: the system is used for providing power support for the acquisition tag;

RF433: the unit statistical module is used for carrying out data interaction with the unit statistical module;

MCU: the device is used for processing and analyzing the data transmitted by the mobile sensing unit, the power-on sensing unit and the keys.

2. The instructional device-based information data spot check processing system of claim 1, wherein the unit statistics engine specifically comprises:

the unit statistics device comprises an RF433, a power supply, a WIFI | Ethernet and a CPU;

RF433: the label acquisition module is used for carrying out data transmission with the label acquisition module;

power supply: for providing power support for cell statistics;

WIFI and Ethernet: for communicating with a server;

a CPU: for processing data.

3. The educational apparatus-based information data spot check processing system of claim 1, further comprising:

the acquisition tag module is in interactive connection with the unit statistical module by adopting RF433 wireless;

and the unit counting module is in interactive connection with the server by adopting a network.

4. A processing method for checking the information data based on teaching equipment, which implements the processing system for checking the information data based on teaching equipment according to claim 1, wherein the processing method for checking the information data based on teaching equipment comprises:

step one, installing a collecting label on instrument equipment, acquiring relevant state information of the equipment in real time by using the collecting label, and judging whether the equipment is in motion, is in a use state, is intact and is damaged;

step two, processing the acquired data information, and counting whether the analysis equipment is legal or not, whether maintenance is needed or not, whether regular inspection is needed or not and other related information;

and step three, transmitting the acquired and statistically analyzed data information related to various devices to a mobile phone APP for checking.

5. The instructional device-based information data spot inspection processing method according to claim 4, wherein the first step further comprises:

the motion sensing module acquires acceleration once every 1ms, transmits the acceleration to the MCU for processing, and the MUC judges whether the vehicle moves and the moving distance according to the integral of the obtained acceleration to time;

the power-on sensing unit is used for collecting a current value once every 5ms for the power supply part of the equipment through the Hall device and transmitting the current value to the MCU, and the MCU judges whether the equipment runs or not according to the current value;

the key transmission unit is connected with the external interrupt of the MCU; when the equipment is damaged, manually pressing a damaged key, and recording the damaged state of the equipment by the MCU through key triggering; and when the equipment is repaired, manually pressing a sound key, and updating the equipment state to be sound by the MCU.

6. The instructional device-based information data spot inspection processing method according to claim 4, wherein the second step further comprises:

the acquisition label transmits the acquired position movement, operation state and equipment state data to the unit counter by using an internal protocol for packaging once per second; the unit counter analyzes the state information of different equipment through an internal protocol; acquiring historical information of corresponding equipment from a server, and calculating accumulated running time data of the equipment to judge whether the equipment needs maintenance and scheduled inspection information;

the third step further comprises: the mobile phone APP accesses the server through the Ethernet to acquire historical data and current equipment information of the equipment recorded in a database on the server.

7. An information data processing terminal for realizing the information data spot inspection processing method based on teaching equipment as claimed in claim 4.

8. A computer-readable storage medium comprising instructions which, when executed on a computer, cause the computer to perform the instructional apparatus-based information data spot check processing method according to claim 4.

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