CN114167870A - Data processing method, system, device and storage medium for gas inspection device - Google Patents

Abstract

The application relates to a data processing method, a system, a device and a storage medium for a gas inspection device, relating to the technical field of gas detection devices, wherein the method comprises the steps of receiving an actual inspection position; inquiring a preset inspection position corresponding to the actual inspection position from a preset inspection database; if the actual inspection position is consistent with the preset inspection position, receiving actual gas information, wherein the actual gas information comprises an actual gas type and an actual gas concentration corresponding to the actual gas type; and generating and executing a data pushing instruction according to the actual gas information and the actual inspection position, wherein the data pushing instruction is used for pushing the actual gas information and the actual inspection position to the intelligent terminal of the user. The method and the device have the effect that the user can simply analyze and process various gas inspection data.

Description

Data processing method, system, device and storage medium for gas inspection device

Technical Field

The present application relates to the field of gas detection devices, and in particular, to a data processing method, system, device and storage medium for a gas inspection device.

Background

In public places such as chemical plants, mines, supermarkets and the like, the concentration of gas in the environment is often required to be detected in real time.

The related technology can refer to Chinese patent with publication number CN202150169U, which discloses a gas detecting device for automatically inspecting dangerous source, comprising a microprocessor circuit, a gas sensor, an alarm circuit, a power circuit, an automatic inspection walking device and an obstacle detecting device; the microprocessor circuit is connected with the gas sensor so as to collect and record gas concentration information in real time and judge whether a dangerous source exists according to the gas concentration information; the microprocessor circuit is connected with the alarm circuit; the microprocessor circuit is connected with the obstacle detection device so as to detect the obstacle information in the walking process of the automatic inspection walking device; the microprocessor circuit is connected with the automatic inspection walking device so as to control the inspection path of the automatic inspection walking device according to the barrier information.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: inspection device is at the in-process of continuing the walking, can detect the gas data in a plurality of spaces respectively, however, processing system is difficult to arrange gas detection data this moment in order, has each item to patrol and examine the comparatively mixed and disorderly defect of data presentation form.

Disclosure of Invention

In order to make the arrangement of various polling data clearer, the application provides a data processing method, a system, a device and a storage medium for a gas polling device.

In a first aspect, the present application provides a data processing method for a gas inspection device, which adopts the following technical scheme:

the data processing method for the gas inspection device comprises the following steps of:

receiving an actual inspection position;

inquiring a preset inspection position corresponding to the actual inspection position from a preset inspection database;

if the actual inspection position is consistent with the preset inspection position, actual gas information is received, wherein the actual gas information comprises an actual gas type and an actual gas concentration corresponding to the actual gas type;

and generating a data pushing instruction and executing according to the actual gas information and the actual inspection position, wherein the data pushing instruction is used for pushing the actual gas information and the actual inspection position to an intelligent terminal of a user.

Through adopting above-mentioned technical scheme, gaseous inspection device removes in the building, monitors respectively the multiple gas concentration of different positions department, and processing system obtains each gas type and the gas concentration that corresponds that gaseous inspection device measured at the current position, gathers the arrangement to each item gaseous measuring result according to the monitoring place to the result propelling movement to user's intelligent terminal that will gather. The arrangement of the polling data is clearer, and the user can conveniently analyze and process the polling data.

Optionally, before the step of generating and executing the data push instruction, the method further includes:

inquiring a preset gas type corresponding to the actual gas type from a preset inspection database;

calling a gas concentration threshold corresponding to the preset gas type according to the preset gas type;

if the actual gas concentration exceeds the gas concentration threshold, acquiring actual abnormal time;

generating a maintenance task work order according to the actual abnormal time, the actual gas type, the actual gas concentration and the actual inspection position;

and generating and executing an alarm instruction according to the maintenance task work order, wherein the alarm instruction is used for pushing the maintenance task work order to an intelligent terminal of a user.

By adopting the technical scheme, when the gas concentration of the measuring point is abnormal, the processing system generates the maintenance task work order according to the abnormal time, the gas type, the gas concentration and the inspection position, and pushes the maintenance task work order to the intelligent terminal of the user. The user can know the abnormal condition of the gas in the building in time, and the user can conveniently maintain and process the related problems of the abnormal place in time.

Optionally, after the step of generating and executing the alarm instruction, the method further includes:

receiving a maintenance request sent by a user, wherein the maintenance request carries maintenance information used for acquiring the condition of a maintenance point, and the maintenance information comprises a position to be maintained selected by the user;

determining the actual inspection position corresponding to the position to be maintained according to the position to be maintained;

and generating a maintenance state adjusting instruction according to the determined actual inspection position, and executing the maintenance state adjusting instruction, wherein the maintenance state adjusting instruction is used for enabling the actual inspection position to be in a maintenance state.

By adopting the technical scheme, a plurality of users simultaneously maintain the abnormal gas condition in the building, and the users select corresponding maintenance positions according to the responsible areas of the users, so that the current maintenance positions are in the state of being maintained, at the moment, other users can select other positions in the state of waiting to be maintained, so that the users can cooperatively maintain and conveniently maintain the abnormal gas condition in the building.

Optionally, after the step of generating and executing the alarm instruction, the method further includes:

acquiring a maintenance problem corresponding to the maintenance task work order according to the maintenance task work order;

and generating a maintenance record instruction and executing the maintenance record instruction according to the maintenance problem and the maintenance task work order, wherein the maintenance record instruction is used for summarizing and recording the maintenance problem and the maintenance task work order to a maintenance record.

By adopting the technical scheme, the processing system collects all maintenance problems in the building and sends the maintenance problems and the maintenance task work order to the maintenance record. The gas maintenance condition in the current building is analyzed according to the maintenance record by the user, the specific maintenance problem is known, and preventive measures are convenient to take.

Optionally, before the step of acquiring actual gas information, the method further includes:

acquiring a detector identifier;

acquiring patrol task information corresponding to the detector identifier according to the detector identifier, wherein the patrol task information comprises a patrol place and patrol time corresponding to the patrol place;

acquiring current detection information corresponding to the detector identifier according to the detector identifier, wherein the current detection information comprises a current detection place and current detection time corresponding to the current detection place;

calling the inspection place corresponding to the current detection place according to the current detection place;

determining the inspection time corresponding to the inspection place according to the called inspection place;

and if the current detection time is inconsistent with the inspection time, generating an inspection violation instruction and executing the inspection violation instruction, wherein the inspection violation instruction is used for sending an inspection violation signal to an intelligent terminal of a user.

Through adopting above-mentioned technical scheme, gaseous inspection device needs the fixed point regularly to carry out relevant gaseous testing process, and when gaseous inspection device breaks down, does not carry out the gaseous testing time measuring according to setting for the demand, processing system generates and patrols and examines the violation of rules and regulations, and the suggestion user gaseous inspection device's the process of patrolling and examining breaks down this moment, and the user of being convenient for in time maintains gaseous inspection device, and then guarantees the normal clear of gaseous inspection device inspection work.

Optionally, before the step of obtaining the inspection task information corresponding to the detector identifier, the method further includes:

receiving an inspection setting request sent by a user, wherein the inspection setting request carries inspection setting information used for setting an inspection mode, and the inspection setting information comprises an enterprise actual scene and building layout data corresponding to the enterprise actual scene;

inquiring patrol mode information corresponding to the actual scene of the enterprise from a preset patrol database, wherein the patrol mode information comprises patrol positions and patrol periods corresponding to the patrol positions;

and generating the inspection task information according to the inspection mode information and the detector identifier.

By adopting the technical scheme, when the processing system acts on different buildings, the corresponding inspection modes are different, the processing system receives an inspection setting request sent by a user, calls the corresponding preset inspection mode according to the actual scene of an enterprise and building layout data input by the user, generates inspection task information according to the current inspection mode information and the detector identification, and enables the gas inspection device to carry out standardized inspection operation according to the corresponding inspection task information so as to automatically plan the most suitable inspection mode for the user.

Optionally, the inspection setting information further includes a key monitoring position and a key inspection frequency corresponding to the key monitoring position;

generating a key inspection task according to the key monitoring position and the key inspection frequency, wherein the key inspection task comprises a key monitoring place and key monitoring time corresponding to the key monitoring place;

and generating and executing an inspection task adjusting instruction according to the key inspection task, wherein the inspection task adjusting instruction is used for updating the key inspection task to the inspection task information.

By adopting the technical scheme, the user can set the key inspection task according to the self requirement, the region which needs to be inspected in a distinguishing way is set, the processing system updates the key inspection task set by the user to the inspection task information, and the gas inspection device can well meet the requirements of the user on various inspection.

In a second aspect, the present application provides a data processing system for a gas inspection device, which adopts the following technical scheme:

data processing system for gas inspection device includes:

the system comprises an actual gas information acquisition module, a data processing module and a data processing module, wherein the actual gas information acquisition module is used for acquiring actual gas information, and the actual gas information comprises an actual gas type and an actual gas concentration corresponding to the actual gas type;

the actual inspection position acquisition module is used for acquiring an actual inspection position corresponding to the actual gas information according to the actual gas information;

and the data pushing instruction generating module is used for generating a data pushing instruction and executing the data pushing instruction according to the actual gas information and the actual inspection position, wherein the data pushing instruction is used for pushing the actual gas information and the actual inspection position to the intelligent terminal of the user.

In a third aspect, the present application provides an intelligent terminal, which adopts the following technical scheme:

an intelligent terminal comprises a memory and a processor, wherein the memory is stored with a computer program which can be loaded by the processor and can execute the data processing method for the gas inspection device.

In a fourth aspect, the present application provides a computer-readable storage medium, which adopts the following technical solutions:

a computer readable storage medium storing a computer program that can be loaded by a processor and executed to perform any of the data processing methods for a gas inspection apparatus as described above.

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

the gas inspection device moves in the building, various gas concentrations at different positions are respectively monitored, the processing system acquires various gas types and corresponding gas concentrations measured by the gas inspection device at the current position, measurement results of various gases are collected and sorted according to monitoring places, and the collected results are pushed to the intelligent terminal of a user. The processing system automatically classifies and files the gas detection data, so that a user can simply analyze and process various gas inspection data.

When the gas concentration of the measuring point is abnormal, the processing system generates a maintenance task work order according to the abnormal time, the gas type, the gas concentration and the inspection position, and pushes the maintenance task work order to the intelligent terminal of the user. The user can know the abnormal condition of the gas in the building in time, and the user can conveniently maintain and process the related problems of the abnormal place in time.

When the processing system acts on different buildings, the corresponding inspection modes are different, the processing system receives an inspection setting request sent by a user, calls the corresponding preset inspection mode according to the actual scene of an enterprise and building layout data input by the user, generates inspection task information according to the current inspection mode information and the detector identification, and enables the gas inspection device to carry out standardized inspection operation according to the corresponding inspection task information so as to automatically plan the most suitable inspection mode for the user.

Drawings

Fig. 1 is a schematic flow chart of a data processing method for a gas inspection apparatus according to an embodiment of the present application.

FIG. 2 is a schematic flow chart illustrating the generation and execution of a service record command in an embodiment of the present application.

Fig. 3 is a schematic flowchart of generating and executing a maintenance state adjustment instruction in an embodiment of the present application.

Fig. 4 is a schematic flowchart of retrieving an inspection place corresponding to a current detection place in the embodiment of the present application.

Fig. 5 is a schematic flow chart of generating and executing an inspection task adjustment instruction in the embodiment of the present application.

Fig. 6 is a block diagram of a data processing system for a gas inspection device according to an embodiment of the present application.

Description of reference numerals: 1. an actual inspection position receiving module; 2. presetting a polling position query module; 3. an actual gas information receiving module; 4. and a data push instruction generation module.

Detailed Description

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

The embodiment of the application discloses a data processing method, a system and a device for a gas inspection device and a storage medium.

Referring to fig. 1, a data processing method for a gas inspection apparatus includes:

s101: and receiving the actual inspection position.

Specifically, the processing system locates the actual position of the gas inspection device through the positioner arranged in the gas inspection device, and then obtains the actual inspection position of the gas inspection device in the building.

S102: and inquiring a preset inspection position corresponding to the actual inspection position from a preset inspection database.

Specifically, the processing system queries a preset inspection position corresponding to the actual inspection position from a preset inspection database in the moving process of the gas inspection device, wherein the preset inspection position is a to-be-detected point position to be detected, and the processing system is convenient to analyze whether the gas inspection device moves to the position to be detected at the moment.

S103: and if the actual inspection position is consistent with the preset inspection position, receiving actual gas information.

Wherein the actual gas information includes an actual gas type and an actual gas concentration corresponding to the actual gas type. The gas inspection device moves in the building, and after the gas inspection device moves to a detection point position, the gas inspection device carries out related detection on actual gas information of the point, and further carries out related detection on gas concentrations of different positions in the building.

For example, after the gas inspection device moves to the detection point a, the gas inspection device performs a detection step, and according to the user's requirements, the various gas concentrations at the detection point a are respectively monitored, and the processing system obtains each actual gas type and corresponding actual gas concentration measured at the detection point a by the gas inspection device.

S104: and generating a data push instruction and executing.

Specifically, the processing system generates and executes a data pushing instruction according to the actual gas information and the actual inspection position, and the data pushing instruction is used for pushing the actual gas information and the actual inspection position to the intelligent terminal of the user. For example, after the gas inspection device completes the gas detection operation at the detection point a, the measurement results of each item of gas at the detection point a of the processing system are collected and sorted, and the gas detection data are automatically classified and filed, so that a user can simply analyze and process each item of gas inspection data.

Referring to fig. 2, before S103, a maintenance work order is generated according to the actual gas concentration, which specifically includes the following steps:

s201: and inquiring a preset gas type corresponding to the actual gas type from a preset inspection database.

Specifically, after the processing system finishes data normalization operation, the gas state of the current position is identified and judged, the processing system inquires a preset gas type corresponding to the actual gas type from a preset inspection database, and the concentration indexes of various gases are conveniently and respectively judged subsequently.

S202: and calling a gas concentration threshold corresponding to the preset gas type.

Specifically, the processing system calls a gas concentration threshold corresponding to a preset gas type according to the preset gas type. The gas concentration threshold is generated by presetting according to actual requirements of a user in the current environment, and is used for representing the maximum concentration value of the corresponding preset gas type in the current environment in a normal state.

S203: and if the actual gas concentration exceeds the gas concentration threshold, acquiring actual abnormal time.

Specifically, when the processing system finds that the concentration of a certain gas in a certain place exceeds the standard, the processing system acquires actual abnormal time, and the actual abnormal time is used for indicating the occurrence time of the abnormal condition, so that a user can conveniently analyze and process the related condition.

S204: and generating a maintenance task work order.

Specifically, the processing system generates a maintenance task work order according to the actual abnormal time, the actual gas type, the actual gas concentration and the actual inspection position. The processing system collects the fault information, so that the maintenance task work order records the related gas condition information of the fault place, the user can roughly know the basic condition, and the user can conveniently carry out subsequent maintenance detection.

S205: and generating an alarm instruction and executing.

Specifically, the processing system generates and executes an alarm instruction according to the maintenance task work order, and the alarm instruction is used for pushing the maintenance task work order to the intelligent terminal of the user. When the gas concentration of the measuring point is abnormal, the processing system generates a maintenance task work order according to the abnormal time, the gas type, the gas concentration and the inspection position, and pushes the maintenance task work order to the intelligent terminal of the user. The user can know the abnormal condition of the gas in the building in time, and the user can conveniently maintain and process the related problems of the abnormal place in time.

Referring to fig. 2, further, after S205, as an implementation manner, the embodiment of the present application may further include:

s206: and acquiring a maintenance problem corresponding to the maintenance task work order.

Specifically, the processing system acquires the maintenance problem corresponding to the maintenance task work order according to the maintenance task work order. When the user carries out maintenance processing on the fault point, the user analyzes and obtains the fault problem corresponding to the fault point, and carries out related records, so that the processing system obtains the maintenance problem corresponding to the maintenance task work order.

S207: and generating and executing a maintenance record instruction.

Specifically, the processing system generates and executes a maintenance record instruction according to the maintenance problems and the maintenance task work order, and the maintenance record instruction is used for summarizing and recording the maintenance problems and the maintenance task work order into the maintenance record. The processing system aggregates the maintenance issues at various locations within the building and puts the maintenance issues and maintenance task work orders into a maintenance record. The gas maintenance condition in the current building is analyzed according to the maintenance record by the user, the specific maintenance problem is known, and preventive measures are convenient to take.

Referring to fig. 3, after S205, a maintenance state adjustment instruction is further generated according to the maintenance request, which specifically includes the following steps:

s301: and receiving a maintenance request sent by a user.

The maintenance request carries maintenance information used for obtaining the condition of a maintenance point, and the maintenance information comprises a position to be maintained selected by a user. After the processing system generates the maintenance task work order, the maintenance task work order comprises the relevant information of all places needing maintenance processing currently in the building, and at the moment, a user can select any place to be maintained to further perform subsequent maintenance operation.

S302: and determining an actual inspection position corresponding to the position to be maintained.

Specifically, the processing system determines an actual inspection position corresponding to the position to be maintained according to the position to be maintained. And the processing system corresponds the position to be maintained with the actual inspection position, and further determines the position of a maintenance point to be maintained by the current user.

S303: and generating and executing a maintenance state adjusting instruction.

Specifically, the processing system generates and executes a maintenance state adjustment instruction according to the determined actual inspection position, wherein the maintenance state adjustment instruction is used for enabling the actual inspection position to be in a maintenance state. For example, when a user selects the detection point a, which indicates that the current user is about to perform a maintenance operation on the detection point a, the processing system sets the state adjustment corresponding to the detection point a in a maintenance state.

When a plurality of users maintain the abnormal gas condition in the building at the same time, the users select corresponding maintenance positions according to the responsible areas of the users to enable the current maintenance positions to be in the state of maintenance, at the moment, other users can select other positions in the state of waiting to be maintained, the users can cooperatively maintain, and the abnormal gas condition in the building can be conveniently maintained.

Referring to fig. 4, before S101, a patrol violation instruction is further generated according to the detector identifier, which specifically includes the following steps:

s401: a detector identification is obtained.

Specifically, when the gas inspection device is movably arranged in a certain place and relevant gas detection work is carried out, the appearance data of the gas inspection device is shot and acquired by the camera arranged in the building, and then the processing system acquires the corresponding identifier of the current detector.

S402: and acquiring patrol task information corresponding to the detector identifier.

Specifically, the processing system acquires inspection task information corresponding to the detector identifier according to the detector identifier, wherein the inspection task information comprises an inspection place and inspection time corresponding to the inspection place. Different gas inspection devices correspond to different inspection areas, and the gas inspection devices are required to perform related gas detection work on each position in the areas on time.

S403: and acquiring current detection information corresponding to the detector identifier.

Specifically, the processing system obtains current detection information corresponding to the detector identifier according to the detector identifier, wherein the current detection information includes a current detection place and current detection time corresponding to the current detection place. The current detection place and the current detection time are standards for the current gas inspection device to execute inspection tasks according to the current gas inspection device.

S404: and calling the inspection place corresponding to the current detection place.

Specifically, the processing system calls the inspection place corresponding to the current detection place according to the current detection place. Because the current gas inspection device needs a plurality of inspection places, the processing system corresponds the current detection place to the inspection place, and the subsequent inspection flow judgment work is convenient to carry out.

S405: and determining the inspection time corresponding to the inspection place.

Specifically, the processing system determines the polling time corresponding to the polling place according to the called polling place. Wherein, the inspection time is the standard time that the gas inspection device should carry out gas inspection to the current position.

S406: and if the current detection time is inconsistent with the inspection time, generating an inspection violation instruction and executing.

Specifically, the gas inspection device needs to perform related gas detection processes at fixed points and fixed time, when the gas inspection device has an operation fault and does not perform gas detection according to a set requirement, the processing system generates an inspection violation instruction, wherein the inspection violation instruction is used for sending an inspection violation signal to an intelligent terminal of a user. The user is prompted that the routing inspection process of the gas routing inspection device breaks down, the user can conveniently and timely maintain the gas routing inspection device, and then the normal operation of the routing inspection work of the gas routing inspection device is guaranteed.

Referring to fig. 5, before S403, tour inspection task information is also generated according to the tour inspection setting request, which specifically includes the following steps:

s501: and receiving a routing inspection setting request sent by a user.

The patrol inspection setting request carries patrol inspection setting information used for setting a patrol inspection mode, and the patrol inspection setting information comprises an enterprise actual scene and building layout data corresponding to the enterprise actual scene. The patrol inspection setting information further comprises a key monitoring position and a key patrol inspection frequency corresponding to the key monitoring position. The routing inspection setting information is generated by inputting and setting according to the requirements of the user.

S502: and inquiring patrol mode information corresponding to the actual scene of the enterprise from a preset patrol database.

The inspection mode information comprises an inspection position and an inspection period corresponding to the inspection position. After acquiring the actual scene of the enterprise and the building layout data input by the user, the processing system automatically matches the inspection mode information corresponding to the actual scene of the enterprise, so that intelligent mode setting is conveniently carried out on the gas inspection device.

S503: and generating polling task information.

Specifically, the processing system generates polling task information according to the polling mode information and the detector identifier. When the processing system acts on different buildings, the corresponding inspection modes are different, the processing system receives an inspection setting request sent by a user, calls the corresponding preset inspection mode according to the actual scene of an enterprise and building layout data input by the user, generates inspection task information according to the current inspection mode information and the detector identification, enables the gas inspection device to carry out standardized inspection operation according to the corresponding inspection task information, and automatically plans a more proper inspection mode for the user.

S504: and generating a key inspection task.

Specifically, the processing system generates a key inspection task according to the key monitoring position and the key inspection frequency, wherein the key inspection task comprises a key monitoring place and key monitoring time corresponding to the key monitoring place. The user sets the place that needs key monitoring and the corresponding frequency of patrolling and examining according to self demand correspondence, is convenient for adjust the corresponding mode of patrolling and examining of gaseous inspection device according to the user demand.

S505: and generating and executing an inspection task adjusting instruction.

Specifically, the processing system generates and executes an inspection task adjusting instruction according to the key inspection task, and the inspection task adjusting instruction is used for updating the key inspection task into the inspection task information. The user can set the key inspection task according to the self requirement, the region which needs to be distinguished and inspected is set, the processing system updates the key inspection task set by the user to the inspection task information, and the gas inspection device can well meet the different inspection requirements of the user.

As an implementation manner, S504 to S505 in the embodiments of the present application are optional.

The implementation principle of the data processing method for the gas inspection device in the embodiment of the application is as follows: the gas inspection device moves in the building, various gas concentrations at different positions are respectively monitored, the processing system acquires various gas types and corresponding gas concentrations measured by the gas inspection device at the current position, measurement results of various gases are collected and sorted according to monitoring places, and the collected results are pushed to the intelligent terminal of a user. When the gas concentration is abnormal, the processing system generates a maintenance task work order according to actual abnormal time, actual gas type, actual gas concentration and actual inspection position, and pushes the maintenance task work order to the intelligent terminal of the user. The user can know the gas concentration condition in the building in time.

Based on the method, the embodiment of the application also discloses a data processing system for the gas inspection device. Referring to fig. 6, the data processing system for a gas inspection apparatus includes:

the actual inspection position receiving module 1 is used for receiving the actual inspection position, and the actual inspection position receiving module 1 is used for receiving the actual inspection position.

And the preset inspection position query module 2 is used for querying a preset inspection position corresponding to the actual inspection position from a preset inspection database.

Actual gas information receiving module 3, actual gas information receiving module 3 are used for if the position is patrolled and examined in the reality with it is unanimous to predetermine the position of patrolling and examining, then receives actual gas information, actual gas information include actual gas type and with the corresponding actual gas concentration of actual gas type.

Data propelling movement instruction generation module 4, data propelling movement instruction generation module 4 are used for according to actual gas information and the position is patrolled and examined in reality, generate data propelling movement instruction and carry out, data propelling movement instruction is used for the propelling movement actual gas information and the position is patrolled and examined to user's intelligent terminal in reality.

The embodiment of the application also discloses an intelligent terminal which comprises a memory and a processor, wherein the memory is stored with a computer program which can be loaded by the processor and can execute the data processing method for the gas inspection device.

The embodiment of the application also discloses a computer readable storage medium. The computer-readable storage medium, in which a computer program capable of being loaded by a processor and executing the data processing method for a gas inspection apparatus as described above is stored, includes, for example: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

The above examples are only used to illustrate the technical solutions of the present invention, and do not limit the scope of the present invention. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from these embodiments without making any inventive step, fall within the scope of the present invention. Although the present invention has been described in detail with reference to the above embodiments, those skilled in the art may still make various combinations, additions, deletions or other modifications of the features of the embodiments of the present invention according to the situation without conflict, so as to obtain different technical solutions without substantially departing from the spirit of the present invention, and these technical solutions also fall within the protection scope of the present invention.

Claims (10)

1. The data processing method for the gas inspection device is characterized by comprising the following steps of:

receiving an actual inspection position;

inquiring a preset inspection position corresponding to the actual inspection position from a preset inspection database;

if the actual inspection position is consistent with the preset inspection position, actual gas information is received, wherein the actual gas information comprises an actual gas type and an actual gas concentration corresponding to the actual gas type;

and generating a data pushing instruction and executing according to the actual gas information and the actual inspection position, wherein the data pushing instruction is used for pushing the actual gas information and the actual inspection position to an intelligent terminal of a user.

2. The data processing method for a gas inspection apparatus according to claim 1, further comprising, before the step of generating and executing a data push instruction:

inquiring a preset gas type corresponding to the actual gas type from a preset inspection database;

calling a gas concentration threshold corresponding to the preset gas type according to the preset gas type;

if the actual gas concentration exceeds the gas concentration threshold, acquiring actual abnormal time;

generating a maintenance task work order according to the actual abnormal time, the actual gas type, the actual gas concentration and the actual inspection position;

and generating and executing an alarm instruction according to the maintenance task work order, wherein the alarm instruction is used for pushing the maintenance task work order to an intelligent terminal of a user.

3. The data processing method for a gas inspection apparatus according to claim 2, further comprising, after the step of generating and executing an alarm instruction:

receiving a maintenance request sent by a user, wherein the maintenance request carries maintenance information used for acquiring the condition of a maintenance point, and the maintenance information comprises a position to be maintained selected by the user;

determining the actual inspection position corresponding to the position to be maintained according to the position to be maintained;

and generating a maintenance state adjusting instruction according to the determined actual inspection position, and executing the maintenance state adjusting instruction, wherein the maintenance state adjusting instruction is used for enabling the actual inspection position to be in a maintenance state.

4. The data processing method for a gas inspection apparatus according to claim 2, further comprising, after the step of generating and executing an alarm instruction:

acquiring a maintenance problem corresponding to the maintenance task work order according to the maintenance task work order;

and generating a maintenance record instruction and executing the maintenance record instruction according to the maintenance problem and the maintenance task work order, wherein the maintenance record instruction is used for summarizing and recording the maintenance problem and the maintenance task work order to a maintenance record.

5. The data processing method for a gas inspection apparatus according to claim 1, further comprising, before the step of acquiring actual gas information:

acquiring a detector identifier;

acquiring patrol task information corresponding to the detector identifier according to the detector identifier, wherein the patrol task information comprises a patrol place and patrol time corresponding to the patrol place;

acquiring current detection information corresponding to the detector identifier according to the detector identifier, wherein the current detection information comprises a current detection place and current detection time corresponding to the current detection place;

calling the inspection place corresponding to the current detection place according to the current detection place;

determining the inspection time corresponding to the inspection place according to the called inspection place;

and if the current detection time is inconsistent with the inspection time, generating an inspection violation instruction and executing the inspection violation instruction, wherein the inspection violation instruction is used for sending an inspection violation signal to an intelligent terminal of a user.

6. The data processing method for gas inspection apparatuses according to claim 5, further comprising, before the step of obtaining inspection task information corresponding to the probe identification:

receiving an inspection setting request sent by a user, wherein the inspection setting request carries inspection setting information used for setting an inspection mode, and the inspection setting information comprises an enterprise actual scene and building layout data corresponding to the enterprise actual scene;

inquiring patrol mode information corresponding to the actual scene of the enterprise from a preset patrol database, wherein the patrol mode information comprises patrol positions and patrol periods corresponding to the patrol positions;

and generating the inspection task information according to the inspection mode information and the detector identifier.

7. The data processing method for the gas inspection device according to claim 6, wherein the inspection setting information further includes a key monitoring location and a key inspection frequency corresponding to the key monitoring location;

generating a key inspection task according to the key monitoring position and the key inspection frequency, wherein the key inspection task comprises a key monitoring place and key monitoring time corresponding to the key monitoring place;

and generating and executing an inspection task adjusting instruction according to the key inspection task, wherein the inspection task adjusting instruction is used for updating the key inspection task to the inspection task information.

8. Data processing system for gas inspection device, its characterized in that includes:

the actual inspection position receiving module (1) is used for receiving the actual inspection position;

the preset inspection position query module (2) is used for querying a preset inspection position corresponding to the actual inspection position from a preset inspection database;

the actual gas information receiving module (3) is used for receiving actual gas information if the actual inspection position is consistent with the preset inspection position, and the actual gas information comprises an actual gas type and an actual gas concentration corresponding to the actual gas type;

and the data pushing instruction generating module (4) is used for generating a data pushing instruction and executing according to the actual gas information and the actual inspection position, wherein the data pushing instruction is used for pushing the actual gas information and the actual inspection position to the intelligent terminal of the user.

9. The utility model provides an intelligent terminal which characterized in that: comprising a memory and a processor, said memory having stored thereon a computer program which can be loaded by the processor and which performs the method of any of claims 1 to 7.

10. A computer-readable storage medium characterized by: a computer program which can be loaded by a processor and which performs the method according to any one of claims 1 to 7.

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