CN114294778B - Air circulation disinfection and purification method and system for classroom lamp - Google Patents

Abstract

The application relates to an air circulation disinfection and purification method and system of classroom lamps, wherein the method comprises the steps of sending an instruction detection signal to a purification device in real time, and detecting whether the purification device receives a starting instruction or not; if the instruction feedback signals are not received within the preset time, respectively sending data detection signals to the air quality sensor, the operational amplifier and the processor to generate data detection results; judging whether the data detection result has fault data or not based on the data detection result, and generating fault type information if the fault data exists; and sending the fault type information to a user terminal, wherein the user terminal is used for binding and supervising staff for purifying the lamp. The application has the effect that the user can judge the fault information of the purifying device in time, and the air purifying function is not easy to be influenced.

Description

Air circulation disinfection and purification method and system for classroom lamp

Technical Field

The application relates to the technical field of lamps, in particular to an air circulation disinfection and purification method and system for classroom lamps.

Background

Along with the aggravation of air pollution, bacterial viruses are easy to spread in the air, which is a huge hidden trouble for indoor places with dense personnel, air purification machines are generally adopted at present for air evolution of the indoor places, but the occupied space of the air purification machines is large and is easy to be limited by places, and part of indoor places such as classrooms are difficult to place air purification equipment due to places, so that intelligent purification lamps combining lamps and air purification devices are generated.

Through offer air inlet and gas outlet at the casing surface of ceiling lamp, be used for making the gas circulation device of convection current at casing internally mounted, set up purifier on the gas convection current route, adopt air quality sensor real-time supervision pollutant concentration in the air to in with pollutant concentration input operational amplifier, when pollutant concentration is greater than standard value, the controller output starts instruction control purifier automatic start, in order to reach intelligent air purification's purpose.

But adopts the automatic detection mode, when the air quality sensor, the operational amplifier or the processor breaks down to enable the purification device to normally purify the air, the user is difficult to judge the fault information of the purification device in time, so that the maintenance of the purification device is delayed, and the air purification function is affected.

Disclosure of Invention

In order to judge the failure information of the purifying device in time when the purifying device fails and the air purifying function is not easy to be influenced, the application provides an air circulation disinfection purifying method and system for classroom lamps.

The first object of the present application is achieved by the following technical solutions:

an air circulation disinfection and purification method for classroom lamps comprises the following steps:

sending an instruction detection signal to the purifying device in real time, wherein the instruction detection signal is used for detecting whether the purifying device receives a starting instruction;

if the instruction feedback signals are not received within the preset time, respectively sending data detection signals to the air quality sensor, the operational amplifier and the processor to generate data detection results;

judging whether the data detection result has fault data or not based on the data detection result, and generating fault type information if the fault data exists;

and sending the fault type information to a user terminal, wherein the user terminal is used for binding and supervising staff for purifying the lamp.

By adopting the technical scheme, whether the starting instruction is received by the purification device is detected in real time, the purification device sends an instruction feedback signal if the starting instruction is started, and because the air pollution degree is not always in an out-of-standard state, the purification device also has an inoperative period, whether the instruction feedback signal is received in the period is judged once every a preset period by setting the preset period, if not, the data detection is carried out on the purification device, the air quality sensor, the operational amplifier and the processor, the data signal is output when the air quality sensor, the operational amplifier, the processor and the purification device normally work, the air quality sensor outputs pollution degree concentration data, the operational amplifier outputs the result data of comparing the pollutant concentration with a standard value, and the processor sends the starting instruction.

Under the condition that the air quality sensor, the operational amplifier or the processor fails, corresponding components and parts have no data output, corresponding data detection results are generated, failure positions are judged based on the detection results, failure type information is generated, the failure type information is sent to a supervision unit of the purifying lamp, and the processing, maintenance and processing are convenient to conduct in time.

The present application may be further configured in a preferred example to: based on the data detection result, judging whether the data detection result has fault data, and if so, generating fault type information, wherein the step comprises the following steps:

if only the air quality data and the operational amplifier data are obtained in the detection result, sending an analog operational amplifier signal to the microprocessor;

based on the analog operational amplifier signal, if a starting instruction sent by the processor is not received, processor fault information is generated as fault type information.

By adopting the technical scheme, the air quality data and the operational amplifier data are acquired in the data detection result, and the fault of the purifying device or the fault of the processor is still further determined at the moment, so that the processor is triggered to send a starting instruction by sending an analog operational amplifier signal, and the processor is determined to be faulty if the starting instruction is not detected; and judging the faults of the processor is realized.

The present application may be further configured in a preferred example to: if the air quality data and the operational amplifier data are obtained from the detection result, the step of sending the analog operational amplifier signal to the microprocessor further comprises the steps of:

based on the analog operational amplifier signal, if a starting instruction sent by the processor is received and the purifying device is not started, a power supply test instruction is sent to the standby power supply;

based on the power supply test instruction, if the instruction feedback signal is not received, generating the fault information of the purifying device as fault type information.

By adopting the technical scheme, based on the analog operational amplifier signal, if the starting instruction sent by the processor is received, but the purifying device is still not started, the standby power supply is used for directly supplying power to the purifying device, and if the purifying device is still not started, the purifying device is judged to be faulty, so that the judgment on whether the purifying device is faulty or not is realized.

The present application may be further configured in a preferred example to: after the step of sending the fault type information to the user terminal, the method further comprises the steps of:

based on the fault type information, positioning information of the purifying lamp is obtained;

based on the positioning information, acquiring a plurality of maintenance terminals, arranging the maintenance terminals according to the priority of the distance, and generating a maintenance terminal list;

and sending the maintenance terminal list to the user terminal.

Through adopting above-mentioned technical scheme, when the inside air quality sensor of purification lamps and lanterns, operational amplifier, treater or purifier break down, the direct position that obtains purifier and locate of backstage server, user terminal's responsible person can find through maintenance terminal list and accept this maintenance task with this maintenance terminal that purifies lamps and lanterns distance is nearest, improves the efficiency that purifies lamps and lanterns maintenance.

The present application may be further configured in a preferred example to: after the step of sending the maintenance terminal list to the user terminal, the step of:

when a maintenance allocation request sent by a user terminal is received, fault type information and positioning information are acquired;

based on the fault type information, matching corresponding maintenance tool data packets;

and packaging and transmitting the fault type information, the maintenance tool data packet and the positioning information to the target maintenance terminal.

Through adopting above-mentioned technical scheme, user terminal selects the maintenance terminal who accepts this maintenance task in maintenance terminal list, when user terminal sent the selection request of allotment, the fault type information of this maintenance is obtained to the backstage server, and directly match corresponding maintenance tool in the backstage, send the maintenance terminal with the packing of the information of trouble and the maintenance tool information that needs to carry, maintenance personnel passes through the maintenance tool information that trouble information and supporting, maintenance personnel can assist maintenance personnel to make the preparation of maintenance fast, the suggestion of maintenance tool information is also more comprehensive, reduce the condition that the staff missed the area instrument after arriving the scene, maintenance efficiency, effect further obtain promotion.

The present application may be further configured in a preferred example to: based on the fault type information, the step of matching the corresponding maintenance tool data packet comprises the following steps:

acquiring various fault type information as a fault information training set, and generating a fault matching model, wherein the fault matching model comprises air quality sensor fault information, operational amplifier fault information, processor fault information and purifying device fault information;

acquiring a plurality of corresponding maintenance tool data based on the fault type information, packaging the plurality of maintenance tool data corresponding to the fault type information, and generating a maintenance tool data packet;

creating a link connects the service tool data packet with the corresponding fault type information.

Through adopting above-mentioned technical scheme, with air quality sensor trouble information, fortune put trouble information, treater trouble information and purifier trouble information as the training set, comparatively complete maintenance tool list and the packing that need when maintaining these four kinds of trouble information generate maintenance tool data package, establish the link and be connected maintenance tool data package and trouble type information, when the maintenance personal of maintenance terminal received trouble type information of being convenient for, can in time acquire corresponding maintenance tool data package, the acquisition of information is more convenient, and then has improved the efficiency of maintenance.

The present application may be further configured in a preferred example to: after the step of sending the fault type information, the maintenance tool data packet and the positioning information to the target maintenance terminal in a packaged manner, the method further comprises the steps of:

when the tool missing information sent by the target maintenance terminal is obtained, extracting missing tool data from the tool missing information, and generating an assistance data packet;

and sending the assistance data packet to the user terminal and other maintenance terminals.

Through adopting above-mentioned technical scheme, maintenance terminal can be through the circumstances synchronous to other maintenance terminals and the user terminal of server with missing instrument, and after other maintenance terminals received the assistance data package, according to the content of missing instrument in the assistance data package, selectively helped the maintenance terminal of this missing instrument, simultaneously, user terminal and other maintenance terminals can be according to the distance of assistance side to the person of being assisted, judge whether change maintenance terminal or transport the maintenance terminal of sending the assistance data package with missing instrument.

An air circulation disinfection and purification system for classroom lighting, comprising:

the instruction detection module is used for sending an instruction detection signal to the purification device in real time and detecting whether the purification device receives a starting instruction or not;

the instruction feedback module is used for respectively sending data detection signals to the air quality sensor, the operational amplifier and the processor to generate a data detection result if the instruction feedback signals are not received within the preset time length;

the fault type module is used for judging whether fault data exist in the data detection result based on the data detection result, and generating fault type information if the fault data exist;

the user terminal module is used for sending the fault type information to the user terminal, and the user terminal is used for binding and supervising the staff of the purifying lamp.

By adopting the technical scheme, whether the starting instruction is received by the purification device is detected in real time, the purification device sends an instruction feedback signal if the starting instruction is started, and because the air pollution degree is not always in an out-of-standard state, the purification device also has an inoperative period, whether the instruction feedback signal is received in the period is judged once every a preset period by setting the preset period, if not, the data detection is carried out on the purification device, the air quality sensor, the operational amplifier and the processor, the data signal is output when the air quality sensor, the operational amplifier, the processor and the purification device normally work, the air quality sensor outputs pollution degree concentration data, the operational amplifier outputs the result data of comparing the pollutant concentration with a standard value, and the processor sends the starting instruction.

Under the condition that the air quality sensor, the operational amplifier or the processor fails, corresponding components and parts have no data output, corresponding data detection results are generated, failure positions are judged based on the detection results, failure type information is generated, the failure type information is sent to a supervision unit of the purifying lamp, and the processing, maintenance and processing are convenient to conduct in time.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the purpose of judging fault information is achieved through data detection of each signal output point of the air quality sensor, the operational amplifier or the processor, the maintenance efficiency is accelerated through remote sending of the fault information to the user terminal, and then the air purification function is not easily affected;

2. when the air quality data and the operational amplifier data are obtained from the data detection result, the fault of the purifying device or the fault of the processor is still further determined, so that the processor is triggered to send out a starting instruction by sending an analog operational amplifier signal, and the processor is determined to be faulty if the starting instruction is not detected; judging the faults of the processor;

3. the background server directly acquires the position of the purifying device, and a responsible person of the user terminal can find a maintenance terminal closest to the purifying lamp through a maintenance terminal list to accept the maintenance task, so that the maintenance efficiency of the purifying lamp is improved;

4. maintenance personnel can assist maintenance personnel to quickly prepare for maintenance through fault information and matched maintenance tool information, the prompt of the maintenance tool information is more comprehensive, the condition that workers leak a tool after arriving at the site is reduced, and the maintenance efficiency and effect are further improved.

Drawings

FIG. 1 is a flow chart of an embodiment of a method for sterilizing and purifying air circulation in a classroom light fixture in accordance with the present application;

FIG. 2 is a flowchart showing an implementation of step S30 in an embodiment of a method for sterilizing and purifying air circulation of a classroom lamp according to the present application;

FIG. 3 is a flowchart showing an implementation of the method for sterilizing and purifying air circulation of a classroom lamp according to an embodiment of the present application after step S40;

FIG. 4 is a flowchart of an implementation of the air circulation disinfection and purification method of a classroom lamp according to an embodiment of the present application after step S43;

FIG. 5 is a flowchart of an implementation of the method for sterilizing and purifying air circulation of a classroom lamp according to an embodiment of the present application before step S45;

fig. 6 is a schematic block diagram of an air circulation disinfection and purification system for classroom lighting according to the present application.

Detailed Description

The application is described in further detail below with reference to fig. 1-6.

In an embodiment, as shown in fig. 1, the application discloses an air circulation disinfection and purification method of a classroom lamp, which specifically comprises the following steps:

s10: sending an instruction detection signal to the purifying device in real time, wherein the instruction detection signal is used for detecting whether the purifying device receives a starting instruction;

in this embodiment, the instruction detection signal refers to a current detection signal for detecting whether the purification device is started, and in other embodiments, may be voltage detection;

specifically, a current detection signal is sent to the purification device in real time and used for detecting whether the purification device is powered on normally or not.

S20: if the instruction feedback signals are not received within the preset time, respectively sending data detection signals to the air quality sensor, the operational amplifier and the processor to generate data detection results;

in this embodiment, the preset duration is set by a timer, the duration is set to 3 days, and since the air pollution level is not always in an out-of-standard state, the purification device does not need to detect whether the feedback command signal is received in real time, and further by setting the preset duration, whether the command feedback signal is received within 3 days is determined once every 3 days, and in other embodiments, the preset duration can be set according to the specific environmental pollution level where the purification lamp is located. The instruction feedback signal is the feedback of the starting of the purifying device.

The air quality sensor sends air quality detection data to the operational amplifier, the operational amplifier compares the air quality detection data with a standard value in the operational amplifier, the operational amplifier outputs operational amplifier data after comparing the air quality detection data with the standard value, the operational amplifier data comprises the condition that the air quality detection data is larger than the standard value and the condition that the air quality detection data is smaller than or equal to the standard value, and when the processor receives the operational amplifier data of the condition that the air quality detection data is larger than the standard value, the processor sends a starting instruction. The data detection signal is used for detecting whether the air quality sensor sends out air quality detection data, whether the operational amplifier outputs operational amplifier data or not, and whether the processor sends out a starting signal or not.

The data detection result comprises air quality detection data, operational amplifier data and a starting instruction which are not received; air quality detection data are received but operational amplifier data and a starting instruction are not received; air quality detection data and operational amplifier data are received, but no starting instruction is received.

Specifically, if the instruction feedback signal is not received within the preset time period of the timer, data detection signals are respectively sent to the air quality sensor, the operational amplifier and the processor to detect whether the air quality detection data, the operational amplifier data and the pneumatic instruction are received or not, and a data detection result is generated based on the air quality detection data, the operational amplifier data and the receiving condition of the pneumatic instruction.

Further, if the instruction feedback signal is received within the preset time period of the timer, resetting the preset time period from when the instruction feedback signal is received.

S30: judging whether the data detection result has fault data or not based on the data detection result, and generating fault type information if the fault data exists;

in this embodiment, the fault data includes a case where the air quality sensor does not emit air quality detection data or the operational amplifier does not emit operational amplifier data or the processor does not emit a start instruction, and the fault type information includes an air quality sensor fault, an operational amplifier fault, and a processor fault.

Specifically, based on the detection result, whether the air detection data, the operational amplifier data and the starting instruction are received or not is judged, the components which are received the data are judged, and the fault conditions of the components which are not received the data are integrated into fault type information.

S40: and sending the fault type information to a user terminal, wherein the user terminal is used for binding and supervising staff for purifying the lamp.

In this embodiment, the user terminal is a PC terminal of all the purification lamps in the supervision area.

Specifically, the fault type information is sent to a PC (personal computer) end operated by a worker for supervising the purifying lamp, and the fault type information is sent to a supervising unit for supervising the purifying lamp, so that the purifying lamp is convenient to process, maintain and process in time.

In another embodiment, referring to fig. 2, step S30 further includes the steps of:

s31: if only the air quality data and the operational amplifier data are obtained in the detection result, sending an analog operational amplifier signal to the microprocessor;

s32: based on the analog operational amplifier signal, if a starting instruction sent by the processor is not received, processor fault information is generated as fault type information.

In this embodiment, the analog op-amp signal refers to an analog signal in which the input air quality detection data is greater than a standard value. The processor failure information is information of a case where the processor does not issue a startup instruction.

Specifically, if the air quality data and the operational amplifier data are obtained from the data detection result, the purification device and the processor still need to be further detected at the moment, and then the fault of the processor can be determined; and then, through inputting the analog signal that the air quality detection data is greater than the standard value, the processor is prompted to output a starting instruction, and if the starting instruction is not received at the moment, the processor is judged to be in fault.

In another embodiment, after step S31, the method further includes the steps of:

s33: based on the analog operational amplifier signal, if a starting instruction sent by the processor is received and the purifying device is not started, a power supply test instruction is sent to the standby power supply;

s34: based on the power supply test instruction, if the instruction feedback signal is not received, generating the fault information of the purifying device as fault type information.

In this embodiment, the power supply test command controls the command to turn on the power supply circuit between the preparation power supply and the purification device.

Specifically, when the processor sends out a starting instruction, the processor has no fault, if the fault of the purifying lamp is further judged at this moment, the standby power supply is adopted to supply power to the purifying device, if the purifying device is still not started under the condition of supplying power by the standby power supply at this moment, namely, an instruction feedback signal is not sent out, the inside of the purifying device is judged to have the fault, and the judgment on the fault of the purifying device is realized.

In another embodiment, referring to fig. 3, after step S40, the steps further include:

s41: based on the fault type information, positioning information of the purifying lamp is obtained;

s42: based on the positioning information, acquiring a plurality of maintenance terminals, arranging the maintenance terminals according to the priority of the distance, and generating a maintenance terminal list;

s43: and sending the maintenance terminal list to the user terminal.

In this embodiment, the positioning information is the position information of the purifying lamp, the maintenance terminal is a mobile terminal of a worker responsible for maintaining the purifying lamp, the maintenance terminal list is a maintenance terminal arrangement table with the purifying device sending out fault type information as the center, and the distances between each maintenance terminal and the purifying lamp are marked.

Specifically, after receiving the fault type information based on the user terminal, the background server acquires the specific position information of the fault purifying lamp, innovates a maintenance terminal list by taking the purifying lamp as a center, marks the distance between each maintenance terminal and the fault purifying lamp on the list, and sends the list to a responsible person PC (personal computer) end of the user terminal.

Further, the user terminal can select the maintenance terminal with the nearest dispatch distance to accept the maintenance work according to the distance between the maintenance terminal and the fault purifying lamp on the list.

Furthermore, the positioning information and the maintenance terminal can be displayed on the user terminal in the form of a map, so that the picture is more visual.

In another embodiment, referring to fig. 4, after step S43, the method further includes the steps of:

s44: when a maintenance allocation request sent by a user terminal is received, fault type information and positioning information are acquired;

s45: based on the fault type information, matching corresponding maintenance tool data packets;

s46: and packaging and transmitting the fault type information, the maintenance tool data packet and the positioning information to the target maintenance terminal.

In this embodiment, the maintenance allocation request is a request sent by the user terminal to allocate the maintenance terminal to accept the fault maintenance of the purifying lamp. The maintenance tool data packet refers to the more complete tool name data used for matching the fault type information, for example, when the air quality sensor fails, then the maintenance tool data packet is the tool for maintaining the air quality sensor and maintaining some circuits.

The target maintenance terminal refers to a maintenance terminal selected by the user terminal to accept maintenance tasks.

Specifically, when a deployment request for maintaining the purifying lamp sent by the user terminal is received, maintenance tool name data for processing the fault is obtained from the fault type information, and the fault type information, the positioning information and the maintenance tool name data corresponding to the fault are sent to the maintenance terminal.

Further, the target maintenance terminal simultaneously displays the received fault type information, the maintenance tool data packet and the positioning information. And a picture of the purifying luminaire can be viewed from the fault type information. And the maintenance tool signals bound with the purification lamp correspond to the model of the purification lamp based on the different models of the purification lamp.

Further, by clicking the maintenance tool name of the maintenance tool data packet, the user jumps to the picture display picture of the corresponding tool.

In another embodiment, referring to fig. 5, before step S45, the method further includes the steps of:

s451: acquiring various fault type information as a fault information training set, and generating a fault matching model, wherein the fault matching model comprises air quality sensor fault information, operational amplifier fault information, processor fault information and purifying device fault information;

s452: acquiring a plurality of corresponding maintenance tool data based on the fault type information, packaging the plurality of maintenance tool data corresponding to the fault type information, and generating a maintenance tool data packet;

s453: creating a link connects the service tool data packet with the corresponding fault type information.

In this embodiment, the fault information training set includes information such as an air quality sensor fault, an operational amplifier fault, a processor fault, and a purification apparatus fault; the maintenance tool data is the name data of the maintenance tool, and the fault type information is connected with the maintenance tool data packet through a link connection.

Specifically, the fault information such as the air quality sensor fault, the operational amplifier fault, the processor fault, the purifying device fault and the like is obtained as a training set, and when the corresponding fault type information is input, the corresponding maintenance tool data packet can be automatically matched.

Further, the maintenance terminal may manually input the fault type information to selectively view the corresponding maintenance tool data package.

In another embodiment, after step S46, the method further includes the steps of:

s47: when the tool missing information sent by the target maintenance terminal is obtained, extracting missing tool data from the tool missing information, and generating an assistance data packet;

s48: and sending the assistance data packet to the user terminal and other maintenance terminals.

In this embodiment, the tool missing information refers to the fact that the staff of the maintenance terminal currently lacks information of the maintenance tool; missing tool data refers to name data of a missing repair tool; the assistance data packet is a data packet including name data of a maintenance terminal that sent the tool missing information, position data, and missing maintenance tool name data.

Specifically, when the maintenance terminal receiving the allocation task sends out the information of the tool lack for maintaining the fault purifying device, the real tool data in the information and the name and position data of the allocated maintenance terminal are acquired, and the assistance data packet is synchronized to the user terminal and the rest maintenance terminals.

Further, if the other maintenance terminals have the missing maintenance tool, the maintenance terminals can apply for receiving maintenance tasks or conveying the maintenance tool to the missing maintenance tool;

further, after receiving the assistance data packet, the user terminal can selectively replace the maintenance terminal to accept the maintenance service or designate to dispatch the remaining maintenance terminals to deliver the missing tool based on the positions of other maintenance terminals in the maintenance terminal data list.

It should be understood that the sequence number of each step in the foregoing embodiment does not mean that the execution sequence of each process should be determined by the function and the internal logic, and should not limit the implementation process of the embodiment of the present application.

In one embodiment, an air circulation disinfection and purification system for a classroom lamp is provided, and the air circulation disinfection and purification system for a classroom lamp is the same as that of the above embodiment. An air circulation disinfection and purification system of classroom lamps corresponds to each other one by one. As shown in fig. 6, the air circulation sterilizing and purifying system of the classroom lamp includes:

the instruction detection module is used for sending an instruction detection signal to the purification device in real time and detecting whether the purification device receives a starting instruction or not;

the instruction feedback module is used for respectively sending data detection signals to the air quality sensor, the operational amplifier and the processor to generate a data detection result if the instruction feedback signals are not received within the preset time length;

the fault type module is used for judging whether fault data exist in the data detection result based on the data detection result, and generating fault type information if the fault data exist;

the user terminal module is used for sending the fault type information to the user terminal, and the user terminal is used for binding and supervising the staff of the purifying lamp.

Optionally, the fault type module further includes:

the analog operational amplifier sub-module is used for sending an analog operational amplifier signal to the microprocessor if only the air quality data and the operational amplifier data are obtained in the detection result;

and the processor failure sub-module is used for generating processor failure information as failure type information based on the analog operational amplifier signal if a starting instruction sent by the processor is not received.

Optionally, the fault type module further includes:

the power supply test module is used for sending a power supply test instruction to the standby power supply if a starting instruction sent by the processor is received and the purifying device is not started based on the analog operational amplifier signal;

and the purifying device fault module is used for generating purifying device fault information as fault type information if the instruction feedback signal is not received based on the power supply test instruction.

Optionally, the air circulation disinfection and purification system of the classroom lamp further comprises:

the positioning acquisition module is used for acquiring positioning information of the purifying lamp based on the fault type information;

the list generation module is used for acquiring a plurality of maintenance terminals based on the positioning information, arranging the maintenance terminals according to the priority of the distance, and generating a maintenance terminal list;

and the list sending module is used for sending the maintenance terminal list to the user terminal.

Optionally, the air circulation disinfection and purification system of the classroom lamp further comprises:

the allocation request module is used for acquiring fault type information and positioning information when a maintenance allocation request sent by the user terminal is received;

the tool matching module is used for matching corresponding maintenance tool data packets based on the fault type information;

and the maintenance information sending module is used for packaging and sending the fault type information, the maintenance tool data packet and the positioning information to the target maintenance terminal.

Optionally, the air circulation disinfection and purification system of the classroom lamp further comprises:

the fault matching module is used for acquiring various fault type information as a fault information training set and generating a fault matching model, wherein the fault matching model comprises air quality sensor fault information, operational amplifier fault information, processor fault information and purifying device fault information;

the maintenance tool packaging module is used for acquiring a plurality of corresponding maintenance tool data based on the fault type information, packaging a plurality of pieces of maintenance tool data corresponding to the fault type information and generating a maintenance tool data packet;

and the link creation module is used for creating a link to connect the maintenance tool data packet with the corresponding fault type information.

Specific limitations regarding an air circulation sterilizing and purifying system for a classroom lamp can be found in the above description of a method for sterilizing and purifying air circulation for a classroom lamp, and will not be described herein. The modules in the air circulation disinfection and purification system of the classroom lamp can be realized in whole or in part by software, hardware and the combination thereof. The above modules may be embedded in hardware or may be independent of a processor in the computer device, or may be stored in software in a memory in the computer device, so that the processor may call and execute operations corresponding to the above modules.

The above embodiments are only for illustrating the technical solution of the present application, and not for limiting the same; although the application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present application, and are intended to be included in the scope of the present application.

Claims (6)

1. An air circulation disinfection and purification method for classroom lamps is characterized in that: the method comprises the following steps: sending an instruction detection signal to the purifying device in real time, wherein the instruction detection signal is used for detecting whether the purifying device receives a starting instruction; if the instruction feedback signals are not received within the preset time, respectively sending data detection signals to the air quality sensor, the operational amplifier and the processor to generate data detection results; judging whether the data detection result has fault data or not based on the data detection result, and generating fault type information if the fault data exists; the fault type information is sent to a user terminal, and the user terminal is used for binding and supervising staff for purifying the lamp;

based on the data detection result, judging whether the data detection result has fault data, and if so, generating fault type information, wherein the step comprises the following steps: if only the air quality data and the operational amplifier data are obtained in the detection result, sending an analog operational amplifier signal to the microprocessor; based on the analog operational amplifier signal, if a starting instruction sent by the processor is not received, generating processor fault information as fault type information;

if the air quality data and the operational amplifier data are obtained from the detection result, the step of sending the analog operational amplifier signal to the microprocessor further comprises the steps of: based on the analog operational amplifier signal, if a starting instruction sent by the processor is received and the purifying device is not started, a power supply test instruction is sent to the standby power supply; based on the power supply test instruction, if the instruction feedback signal is not received, generating the fault information of the purifying device as fault type information.

2. The method for air circulation disinfection and purification of classroom lighting according to claim 1, wherein: after the step of sending the fault type information to the user terminal, the method further comprises the steps of: based on the fault type information, positioning information of the purifying lamp is obtained; based on the positioning information, acquiring a plurality of maintenance terminals, arranging the maintenance terminals according to the priority of the distance, and generating a maintenance terminal list; and sending the maintenance terminal list to the user terminal.

3. The method for air circulation disinfection and purification of classroom lighting according to claim 2, wherein: after the step of sending the maintenance terminal list to the user terminal, the step of: when a maintenance allocation request sent by a user terminal is received, fault type information and positioning information are acquired; based on the fault type information, matching corresponding maintenance tool data packets; and packaging and transmitting the fault type information, the maintenance tool data packet and the positioning information to the target maintenance terminal.

4. A method of circulating, disinfecting and purifying air for a classroom light fixture as recited in claim 3, wherein: based on the fault type information, the step of matching the corresponding maintenance tool data packet comprises the following steps: acquiring various fault type information as a fault information training set, and generating a fault matching model, wherein the fault matching model comprises air quality sensor fault information, operational amplifier fault information, processor fault information and purifying device fault information; acquiring a plurality of corresponding maintenance tool data based on the fault type information, packaging the plurality of maintenance tool data corresponding to the fault type information, and generating a maintenance tool data packet; creating a link connects the service tool data packet with the corresponding fault type information.

5. A method of circulating, disinfecting and purifying air for a classroom light fixture as recited in claim 3, wherein: after the step of sending the fault type information, the maintenance tool data packet and the positioning information to the target maintenance terminal in a packaged manner, the method further comprises the steps of: when the tool missing information sent by the target maintenance terminal is obtained, extracting missing tool data from the tool missing information, and generating an assistance data packet; and sending the assistance data packet to the user terminal and other maintenance terminals.

6. A system employing the method of air circulation disinfection and purification of classroom lighting as defined in any one of claims 1-5, characterized in that: the instruction detection module is used for sending an instruction detection signal to the purification device in real time and detecting whether the purification device receives a starting instruction or not; the instruction feedback module is used for respectively sending data detection signals to the air quality sensor, the operational amplifier and the processor to generate a data detection result if the instruction feedback signals are not received within the preset time length; the fault type module is used for judging whether fault data exist in the data detection result based on the data detection result, and generating fault type information if the fault data exist; the user terminal module is used for sending the fault type information to the user terminal, and the user terminal is used for binding and supervising the staff of the purifying lamp.