CN114252555A - Integrated gas intelligent detection method, system, device and storage medium - Google Patents

Abstract

The application relates to an integrated intelligent gas detection method, a system, a device and a storage medium, which relate to the field of gas detection, wherein the method comprises the steps of 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; inquiring a preset gas type corresponding to the actual gas type from a preset inspection database; according to the preset gas type, a gas concentration threshold corresponding to the preset gas type is adjusted; if the actual gas concentration exceeds the gas concentration threshold, acquiring a current gas state corresponding to the actual gas type; and generating and executing a maintenance prompting instruction according to the current gas state, wherein the maintenance prompting instruction is used for enabling the current gas state to be in a state to be maintained. The method and the device have the effect that when a user watches gas concentration measurement data, the user can intuitively know the abnormal condition of the gas at the detection position.

Description

Integrated gas intelligent detection method, system, device and storage medium

Technical Field

The present application relates to the field of gas detection, and in particular, to an integrated intelligent gas detection method, system, device, and storage medium.

Background

Monitoring the concentration of harmful gas in the working environment is an important measure for preventing fire, explosion and poisoning accidents. In the process of maintenance and repair of a production apparatus, it is sometimes necessary to perform a fire or a spark generating operation, and in such cases, it is more important to perform monitoring of harmful gases and monitoring of oxygen content.

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: when the gas abnormal condition exists at the detection position, a user is required to perform maintenance processing in time, however, at the moment, the user cannot intuitively and clearly know whether the gas abnormal condition exists at the detection position by checking the gas monitoring data at the detection position.

Disclosure of Invention

In order to enable a user to intuitively and clearly know the gas abnormal condition of a detection position, the application provides an integrated gas intelligent detection method, system, device and storage medium.

In a first aspect, the present application provides an integrated intelligent gas detection method, which adopts the following technical scheme:

an integrated intelligent gas detection method comprises the following steps:

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;

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 a current gas state corresponding to the actual gas type;

and generating a maintenance prompting instruction according to the current gas state and executing the maintenance prompting instruction, wherein the maintenance prompting instruction is used for enabling the current gas state to be in a state to be maintained.

By adopting the technical scheme, the gas detection device respectively detects the gas concentration of various gases in the space to obtain the current gas type and the corresponding actual gas concentration. The detection system receives actual gas information, and correspondingly judges whether the concentration of each gas in the current space is normal or not according to a gas concentration threshold preset by a user. When the detection system finds the abnormal gas concentration, the detection system generates a maintenance prompt instruction, so that the gas state with the abnormal concentration is placed in a state to be maintained, and a user can intuitively and clearly know the gas abnormal condition at the detection position when watching the gas concentration measurement data.

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

acquiring maintenance equipment information corresponding to the actual gas type according to the actual gas type, wherein the maintenance equipment information comprises a maintenance equipment number, a maintenance equipment name and a maintenance equipment type;

generating a maintenance equipment work order according to the maintenance equipment information;

and pushing the maintenance equipment work order to an intelligent terminal of a user.

By adopting the technical scheme, the detection system acquires the maintenance equipment information corresponding to the gas in the abnormal state and pushes the maintenance equipment information to the intelligent terminal of the user, so that the user can clearly know the equipment condition of making the gas in the abnormal state before maintenance, and the user can conveniently and pertinently maintain the equipment.

Optionally, before the step of pushing the maintenance equipment work order to the intelligent terminal of the user, the method further includes:

receiving maintenance scheme information, wherein the maintenance scheme information comprises an actual maintenance place and an actual fault photo corresponding to the actual maintenance place;

and generating and executing a maintenance work order perfecting instruction according to the maintenance scheme information, wherein the maintenance work order perfecting instruction is used for updating the maintenance scheme information to the maintenance equipment work order.

By adopting the technical scheme, the detection system acquires the specific environment of the gas abnormal place in advance and pushes the received maintenance scheme information to the intelligent terminal of the user, so that the user can know the specific fault condition of the place to be maintained in advance by browsing the maintenance scheme information, and the user can conveniently prepare the related maintenance work in the early stage.

Optionally, after the step of pushing the maintenance equipment work order to the intelligent terminal of the user, the method further includes:

receiving a maintenance process updating request sent by a user, wherein the maintenance process updating request carries maintenance process updating information used for updating an equipment maintenance state, and the maintenance process updating information comprises an equipment maintenance state corresponding to the maintenance equipment number;

and generating and executing a flow updating instruction according to the equipment maintenance state and the current gas state, wherein the flow updating instruction is used for updating the current gas state according to the equipment maintenance state.

By adopting the technical scheme, each department user carries out targeted maintenance work, and each time the user finishes one maintenance process, the user sends a maintenance process updating request, so that the current gas state is updated in real time according to the actual maintenance process, and the user can conveniently and integrally master the actual maintenance process of the position to be maintained.

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

acquiring accumulated polling duration;

inquiring a maintenance accumulated period corresponding to the accumulated inspection time length from a preset inspection database;

if the accumulated routing inspection time length does not reach the maintenance accumulated period, acquiring maintenance fault information corresponding to the current maintenance process, wherein the maintenance fault information comprises a maintenance fault reason and fault maintenance time length;

and generating and executing a maintenance prompting instruction according to the maintenance fault information, wherein the maintenance prompting instruction is used for pushing the maintenance fault information to an intelligent terminal of a user.

By adopting the technical scheme, when a user maintains, the detection system acquires maintenance fault information at the moment and pushes the information to the intelligent terminal of the user. Other users can conveniently know the abnormal reason and the maintenance duration of the current position, and the information sharing process of the user maintenance process is realized.

Optionally, the method further includes:

if the accumulated patrol inspection time length reaches the maintenance accumulated period, generating an average maintenance time length according to the fault maintenance time length, wherein the average maintenance time length is the average value of the fault maintenance time lengths;

calculating and generating a fault reason proportion table according to the maintenance fault reason;

summarizing and generating a maintenance fault overview according to the average maintenance duration and the fault reason proportion table;

and pushing the maintenance fault overview to an intelligent terminal of a user.

By adopting the technical scheme, the detection system collects maintenance data on schedule, and collects and generates maintenance fault overview according to the average maintenance time and the fault reason proportion table in the current period, so that a user can clearly know the equipment fault condition and related maintenance condition in each working period.

Optionally, after the step of obtaining the accumulated patrol duration, the method further includes:

inquiring a preset maintenance period corresponding to the accumulated polling duration from a preset polling database;

and if the accumulated routing inspection time length reaches the preset maintenance period, generating a maintenance prompt instruction and executing, wherein the maintenance prompt instruction is used for sending a maintenance prompt signal to an intelligent terminal of a user.

By adopting the technical scheme, the detection system reminds the user of maintaining the related equipment on schedule, so that the user can maintain the related equipment periodically, and the service life of the related equipment is further prolonged.

In a second aspect, the present application provides an integrated intelligent gas detection system, which adopts the following technical scheme:

an integrated gas smart detection system comprising:

the actual gas information receiving module is used for receiving 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 preset gas type query module is used for querying a preset gas type corresponding to the actual gas type from a preset inspection database;

the gas concentration threshold value calling module is used for calling a gas concentration threshold value corresponding to the preset gas type according to the preset gas type;

a current gas state obtaining module, configured to obtain a current gas state corresponding to the actual gas type if the actual gas concentration exceeds the gas concentration threshold;

and the maintenance prompt instruction generating module is used for generating and executing a maintenance prompt instruction according to the current gas state, and the maintenance prompt instruction is used for enabling the current gas state to be in a state to be maintained.

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 any one of the integrated gas intelligent detection methods.

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 capable of being loaded by a processor and executing any one of the above-mentioned integrated gas intelligent detection methods.

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

1. the gas detection device respectively detects the gas concentration of multiple gases in the space to obtain the current gas type and the corresponding actual gas concentration. The detection system receives actual gas information, and correspondingly judges whether the concentration of each gas in the current space is normal or not according to a gas concentration threshold preset by a user. When the detection system finds the abnormal gas concentration, the detection system generates a maintenance prompt instruction, so that the gas state with the abnormal concentration is placed in a state to be maintained, and a user can intuitively and clearly know the gas abnormal condition at the detection position when watching the gas concentration measurement data.

2. The detection system acquires the maintenance equipment information corresponding to the gas in the abnormal state and pushes the maintenance equipment information to the intelligent terminal of the user, so that the user can clearly know the equipment condition of the gas in the abnormal state before maintenance, and the user can conveniently and pertinently maintain the equipment.

The detection system acquires the specific environment of the gas abnormal place in advance, and pushes the received maintenance scheme information to the intelligent terminal of the user, so that the user can know the specific fault condition of the place to be maintained in advance by browsing the maintenance scheme information, and the user can prepare the related maintenance work in an early stage.

Drawings

Fig. 1 is a schematic flow chart of an integrated intelligent gas detection method according to an embodiment of the present application.

Fig. 2 is a schematic flow chart of acquiring information of the maintenance equipment corresponding to an actual gas type in the embodiment of the present application.

Fig. 3 is a schematic flow chart illustrating a process of receiving a maintenance schedule update request sent by a user in an embodiment of the present application.

Fig. 4 is a schematic flow chart illustrating the process of determining whether the accumulated patrol duration reaches the maintenance accumulated period in the embodiment of the present application.

Fig. 5 is a schematic flow chart illustrating the process of querying the preset maintenance period corresponding to the accumulated patrol duration from the preset patrol database in the embodiment of the present application.

Fig. 6 is a block diagram of an integrated gas intelligent detection system according to an embodiment of the present application.

Detailed Description

In order to better understand the technical solution of the present invention, the following detailed description is made with reference to the accompanying drawings 1-6:

the embodiment of the application discloses an integrated intelligent gas detection method, system, device and storage medium.

Referring to fig. 1, an integrated intelligent gas detection method includes:

s101: actual gas information is received.

Wherein the actual gas information includes an actual gas type and an actual gas concentration corresponding to the actual gas type. When gas detection operation is carried out, the gas detection device respectively carries out gas concentration detection on multiple gases in the current space, and then the type of the gases in the current space and the corresponding actual gas concentration are obtained. The detection system receives the relevant gas data obtained by the gas detection device, and the detection system can conveniently perform subsequent analysis processing on the gas data.

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

Specifically, after receiving actual gas information corresponding to the current space, the detection system queries a preset gas type corresponding to the actual gas type from a preset routing inspection database, and compares the detected multiple actual gas types with the preset gas types respectively to realize the determination process of the gas types.

S103: and calling a gas concentration threshold corresponding to the preset gas type.

Specifically, the detection system calls a gas concentration threshold corresponding to a preset gas type according to the preset gas type. After the detection system determines a preset gas type corresponding to the actual gas type, a gas concentration threshold corresponding to the current preset gas type is further acquired, wherein the gas concentration threshold is preset and generated by a user and is used for reflecting the maximum allowable gas concentration value of the current gas in a normal state.

S104: and if the actual gas concentration exceeds the gas concentration threshold, acquiring the current gas state corresponding to the actual gas type.

Specifically, when the actual gas concentration exceeds the gas concentration threshold, it is indicated that the actual concentration of the current gas is too high and exceeds the normal standard, and there is a potential safety hazard.

S105: and generating and executing a maintenance prompt instruction.

Specifically, the detection system receives actual gas information, and correspondingly judges whether the concentration of each gas in the current space is normal or not according to a gas concentration threshold preset by a user. When the detection system finds the concentration of the abnormal gas, the detection system generates and executes a maintenance prompting instruction according to the current gas state, wherein the maintenance prompting instruction is used for enabling the current gas state to be in a state to be maintained. When a user watches the gas concentration measurement data, the gas abnormal condition at the detection position can be intuitively and clearly known.

Referring to fig. 2, after S105, a maintenance equipment work order is generated according to the maintenance equipment information, which specifically includes the following steps:

s201: and acquiring maintenance equipment information corresponding to the actual gas type.

Specifically, the detection system acquires maintenance equipment information corresponding to the actual gas type according to the actual gas type, wherein the maintenance equipment information includes a maintenance equipment number, a maintenance equipment name and a maintenance equipment type. If the detection system identifies that the concentration of a certain gas exceeds the standard, the control system indicates that the equipment related to the current gas has a fault, and a user needs to correspondingly maintain the equipment.

For example, when natural gas leaks, the carbon monoxide concentration exceeds the standard. Therefore, when the detection system identifies that the concentration of the carbon monoxide in the current space exceeds the standard, the natural gas is indicated to have a use fault, and at the moment, the detection system acquires the information of the maintenance equipment in the current space and knows the specific natural gas number with the fault.

S202: and generating a maintenance equipment work order.

Specifically, the detection system generates a maintenance equipment work order according to the maintenance equipment information. The detection system automatically integrates the acquired maintenance equipment information, and directly generates a corresponding maintenance equipment work order, so that a user can know basic information of the equipment needing maintenance at a glance by browsing the maintenance equipment work order.

S203: and receiving maintenance scheme information.

The maintenance scheme information comprises an actual maintenance place and an actual fault photo corresponding to the actual maintenance place. The detection system positions the current position of the gas detection device through a positioner arranged on the gas detection device, and then obtains an actual maintenance place. Meanwhile, the detection system shoots and acquires the specific environment of the gas abnormal place in advance through a camera arranged on the gas detection device, and then grasps the actual environment condition of the maintenance place in advance.

S204: and generating and executing a repair work order perfecting instruction.

Specifically, the detection system generates and executes a maintenance work order perfecting instruction according to the maintenance scheme information, and the maintenance work order perfecting instruction is used for updating the maintenance scheme information to the maintenance equipment work order. The user can know the specific fault condition of the place to be maintained in advance through the maintenance scheme information, and the user can prepare for related maintenance work in an early stage conveniently.

S205: and pushing the maintenance equipment work order to an intelligent terminal of a user.

Specifically, the detection system acquires the gas in the abnormal state, corresponding maintenance equipment information and maintenance scheme information, and pushes the related information to the intelligent terminal of the user, so that the user can clearly know the equipment condition of making the gas in the abnormal state before maintenance, and the user can conveniently and pertinently maintain the equipment.

As an implementation manner, S203 to S204 in the embodiment of the present application are optional.

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

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

The maintenance progress updating request carries maintenance progress updating information used for updating the equipment maintenance state, and the maintenance progress updating information comprises the equipment maintenance state corresponding to the maintenance equipment number. The maintenance state information includes a dispatch state, a repair state, and an acceptance state.

For example, when an equipment failure occurs, a plurality of work departments need to perform cooperative processing, at this time, each department user performs maintenance work in a targeted manner in sequence according to a maintenance flow, and after the relevant user completes a maintenance task, a maintenance process update request is sent to update a corresponding maintenance node of a maintenance site.

S302: and generating a flow updating instruction and executing.

Specifically, the detection system generates and executes a flow updating instruction according to the equipment maintenance state and the current gas state, wherein the flow updating instruction is used for updating the current gas state according to the equipment maintenance state. The detection system enables the current gas state to be updated in real time according to the actual maintenance process, and is convenient for users of all departments to integrally master the actual maintenance process of the position to be maintained.

Referring to fig. 4, after S105, a maintenance prompt instruction is generated according to the accumulated patrol duration, which specifically includes the following steps:

s401: and acquiring the accumulated polling duration.

Specifically, the detection system accumulates the polling duration in the current space by a timer, and then obtains the accumulated polling duration in the current space.

S402: and inquiring a maintenance accumulated period corresponding to the accumulated inspection time length from a preset inspection database.

Specifically, the detection system inquires a maintenance accumulation period corresponding to the accumulated inspection duration from a preset inspection database, wherein the maintenance accumulation period is preset and generated for a user, and the detection system periodically records the working condition of the equipment in the current space according to the maintenance accumulation period.

S403: and judging whether the accumulated polling duration reaches the maintenance accumulated period.

If not, executing S404 to S405;

if yes, S406 to S409 are executed.

S404: and obtaining maintenance fault information.

Specifically, if the accumulated patrol inspection time length does not reach the maintenance accumulated period, it indicates that the detection system needs to continue to collect the relevant maintenance fault information in the current maintenance process, where the maintenance fault information includes the maintenance fault reason and the fault maintenance time length.

Before a user maintains the equipment, careful diagnosis work needs to be carried out on the fault equipment, and maintenance fault reasons are input to the detection system through the intelligent terminal of the user, wherein the maintenance fault reasons comprise the problems of equipment maintenance failure, equipment natural damage, equipment illegal operation and equipment instruction.

S405: and generating and executing a maintenance prompt instruction.

Specifically, the detection system generates and executes a maintenance prompting instruction according to the maintenance fault information, and the maintenance prompting instruction is used for pushing the maintenance fault information to the intelligent terminal of the user. When a user in charge of equipment maintenance maintains, the detection system acquires maintenance fault information at the moment and pushes the maintenance fault information to the intelligent terminals of all users. Other users can conveniently know the abnormal reason and the maintenance duration of the current position, and the information sharing process of the user maintenance process is realized.

S406: an average repair time period is generated.

Specifically, if the accumulated patrol inspection time length reaches the maintenance accumulated period, it indicates that the detection system needs to summarize maintenance fault information correspondingly according to the accumulated maintenance fault information in the current time period. The detection system generates an average maintenance time length according to the fault maintenance time length, wherein the average maintenance time length is an average value of a plurality of fault maintenance time lengths in the current time period.

S407: and calculating and generating a fault reason ratio table.

Specifically, the detection system calculates and generates a fault reason ratio table according to the maintenance fault reason. The detection system calculates the proportion of different maintenance fault reasons to the total maintenance fault reason, so that a user can conveniently know the maintenance fault reason with high occurrence frequency, and the user can conveniently perform corresponding subsequent planning according to the fault condition.

S408: the summaries generate a maintenance fault overview.

Specifically, the detection system generates a maintenance fault overview according to the average maintenance time and the fault reason proportion table in a summary mode, wherein the maintenance fault overview is used for reflecting the maintenance condition of the relevant equipment in the current period.

S409: and pushing the maintenance fault overview to an intelligent terminal of a user.

Specifically, the detection system summarizes maintenance data on a scheduled basis, and summarizes and generates a maintenance fault overview according to the average maintenance time and the fault reason proportion table in the current period, so that a user can clearly know the equipment fault condition and the related maintenance condition in each working period.

Referring to fig. 5, after S401, a maintenance prompting instruction is generated according to a preset maintenance cycle, which specifically includes the following steps:

s501: and inquiring a preset maintenance period corresponding to the accumulated polling duration from a preset polling database.

Specifically, the detection system queries a preset maintenance period corresponding to the accumulated inspection time length from a preset inspection database, wherein the preset maintenance period is generated by presetting the user according to the equipment maintenance requirement, and the preset maintenance period is used for indicating the regular maintenance time length of the equipment.

S502: and if the accumulated polling duration reaches the preset maintenance period, generating a maintenance prompt instruction and executing.

The maintenance prompting instruction is used for sending a maintenance prompting signal to an intelligent terminal of a user. The detection system reminds the user to maintain the related equipment on schedule, so that the user can maintain the related equipment periodically, forgetting conditions are effectively avoided, and the service life of the related equipment is further prolonged.

The implementation principle of the integrated intelligent gas detection method in the embodiment of the application is as follows: the detection system receives actual gas information, and correspondingly judges whether the concentration of each gas in the current space is normal or not according to a gas concentration threshold preset by a user. When the detection system finds the abnormal gas concentration, the detection system generates a maintenance prompt instruction, so that the gas state with the abnormal concentration is placed in a state to be maintained. At the moment, a plurality of working departments perform collaborative maintenance, all department users perform maintenance work in a targeted manner according to the maintenance flow, and after the related users complete the self maintenance tasks, the related users send maintenance process updating requests to update the corresponding maintenance nodes of the maintenance sites.

Based on the method, the embodiment of the application also discloses an integrated intelligent gas detection system. Referring to fig. 6, an integrated gas intelligent detection system includes:

the gas concentration measuring device comprises an actual gas information receiving module 1, wherein the actual gas information receiving module 1 is used for receiving actual gas information, and the actual gas information comprises an actual gas type and an actual gas concentration corresponding to the actual gas type.

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

And the gas concentration threshold value calling module 3 is used for calling a gas concentration threshold value corresponding to a preset gas type according to the preset gas type.

A current gas state obtaining module 4, where the current gas state obtaining module 4 is configured to obtain a current gas state corresponding to an actual gas type if the actual gas concentration exceeds a gas concentration threshold.

And the maintenance prompting instruction generating module 5 is used for generating and executing a maintenance prompting instruction according to the current gas state, and the maintenance prompting instruction is used for enabling the current gas state to be in a state to be maintained.

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 integrated intelligent gas detection method.

The embodiment of the application also discloses a computer readable storage medium. A computer program capable of being loaded by a processor and executing an integrated intelligent gas detection method as described above is stored in a computer readable storage medium, which 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.

It should be understood by those skilled in the art that the above embodiments are only for illustrating the present invention and are not to be used as a limitation of the present invention, and that changes and modifications to the above described embodiments are within the scope of the claims of the present invention as long as they are within the spirit and scope of the present invention.

Claims (10)

1. An integrated intelligent gas detection method is characterized by comprising the following steps:

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;

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 a current gas state corresponding to the actual gas type;

and generating a maintenance prompting instruction according to the current gas state and executing the maintenance prompting instruction, wherein the maintenance prompting instruction is used for enabling the current gas state to be in a state to be maintained.

2. The integrated intelligent gas detection method according to claim 1, further comprising, after the step of generating and executing a maintenance prompt instruction:

acquiring maintenance equipment information corresponding to the actual gas type according to the actual gas type, wherein the maintenance equipment information comprises a maintenance equipment number, a maintenance equipment name and a maintenance equipment type;

generating a maintenance equipment work order according to the maintenance equipment information;

and pushing the maintenance equipment work order to an intelligent terminal of a user.

3. The integrated intelligent gas detection method according to claim 2, further comprising, before the step of pushing the service equipment work order to a smart terminal of a user:

receiving maintenance scheme information, wherein the maintenance scheme information comprises an actual maintenance place and an actual fault photo corresponding to the actual maintenance place;

and generating and executing a maintenance work order perfecting instruction according to the maintenance scheme information, wherein the maintenance work order perfecting instruction is used for updating the maintenance scheme information to the maintenance equipment work order.

4. The integrated intelligent gas detection method according to claim 2, further comprising, after the step of pushing the service equipment work order to the intelligent terminal of the user:

receiving a maintenance process updating request sent by a user, wherein the maintenance process updating request carries maintenance process updating information used for updating an equipment maintenance state, and the maintenance process updating information comprises an equipment maintenance state corresponding to the maintenance equipment number;

and generating and executing a flow updating instruction according to the equipment maintenance state and the current gas state, wherein the flow updating instruction is used for updating the current gas state according to the equipment maintenance state.

5. The integrated intelligent gas detection method according to claim 1, further comprising, after the step of generating and executing a maintenance prompt instruction:

acquiring accumulated polling duration;

inquiring a maintenance accumulated period corresponding to the accumulated inspection time length from a preset inspection database;

if the accumulated routing inspection time length does not reach the maintenance accumulated period, acquiring maintenance fault information corresponding to the current maintenance process, wherein the maintenance fault information comprises a maintenance fault reason and fault maintenance time length;

and generating and executing a maintenance prompting instruction according to the maintenance fault information, wherein the maintenance prompting instruction is used for pushing the maintenance fault information to an intelligent terminal of a user.

6. The integrated intelligent gas detection method according to claim 5, further comprising:

if the accumulated patrol inspection time length reaches the maintenance accumulated period, generating an average maintenance time length according to the fault maintenance time length, wherein the average maintenance time length is the average value of the fault maintenance time lengths;

calculating and generating a fault reason proportion table according to the maintenance fault reason;

summarizing and generating a maintenance fault overview according to the average maintenance duration and the fault reason proportion table;

and pushing the maintenance fault overview to an intelligent terminal of a user.

7. The integrated intelligent gas detection method according to claim 5, further comprising, after the step of obtaining the accumulated patrol duration:

inquiring a preset maintenance period corresponding to the accumulated polling duration from a preset polling database;

and if the accumulated routing inspection time length reaches the preset maintenance period, generating a maintenance prompt instruction and executing, wherein the maintenance prompt instruction is used for sending a maintenance prompt signal to an intelligent terminal of a user.

8. An integrated intelligent gas detection system, comprising:

the system comprises an actual gas information receiving module (1) for 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;

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

the gas concentration threshold value calling module (3) is used for calling a gas concentration threshold value corresponding to the preset gas type according to the preset gas type;

a current gas state obtaining module (4) for obtaining a current gas state corresponding to the actual gas type if the actual gas concentration exceeds the gas concentration threshold;

and the maintenance prompt instruction generating module (5) is used for generating and executing a maintenance prompt instruction according to the current gas state, and the maintenance prompt instruction is used for enabling the current gas state to be in a state to be maintained.

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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