CN111556144A - Inspection task processing method and device - Google Patents

Abstract

The application discloses a method and a device for processing an inspection task, which are used for realizing remote monitoring of the inspection task in the execution process of the inspection task. The method comprises the following steps: acquiring polling positions of the booster station and polling items of the polling positions; determining a routing inspection route based on the routing inspection positions of the booster station and the routing inspection items of all routing inspection positions; generating a routing inspection task based on the routing inspection route, the routing inspection item and the designated information of the routing inspection person; sending the inspection task to a terminal corresponding to the inspector; receiving inspection information of each inspection position reported by a terminal; and when the terminal finishes reporting the inspection information of all positions to be inspected on the inspection route, determining that the inspection of the terminal is finished. By adopting the scheme disclosed by the application, the remote monitoring of the polling task can be realized in the terminal polling task execution process.

Description

Inspection task processing method and device

Technical Field

The present application relates to the field of communications, and in particular, to a method and an apparatus for processing a polling task.

Background

As is well known, safe production is an important part of power plant management, and the safety management of a booster station is more important to the safety management of a power plant. Therefore, the inspection system for the booster station equipment of the power plant is an extremely important safety production system of the power plant, the first-hand information of the running state of the booster station equipment can be obtained through inspection, and good inspection quality has extremely important significance for timely finding hidden dangers and defects of the booster station equipment. The inspection is also called a circuit inspection, and the circuit inspection is divided into three types of regular, irregular and special conditions. The regular itinerant inspection refers to the inspection of managed equipment and systems according to a specified time after the unit normally operates or stops operating. The irregular itinerant inspection refers to the inspection of managing equipment and systems which is correspondingly added beyond the originally specified time according to the problems of the equipment or the systems in the running or stopping process of the unit. The special condition inspection refers to the detailed inspection of the equipment, system and preventive measures under charge when the equipment is started and stopped, the system is put into operation and stopped, particularly when needed and in special weather (such as strong wind, heavy snow, thunderstorm, lightning, flood, dam break, high temperature and cold current).

In the prior art, an inspection system lacks effective monitoring and restriction, and after an inspection task is finished, an inspector cannot judge whether the inspection task is finished with quality and quantity guarantee or not or even cannot ensure whether the inspection task is executed or not, and once an accident occurs due to negligence of workers, a unit is shut down and a line is tripped, and power failure of the whole plant can be caused to endanger equipment, personnel and power grid safety. Therefore, it is necessary to add a remote monitoring mechanism in the process of executing the routing inspection task, and therefore, providing a routing inspection task processing method for implementing remote monitoring of the routing inspection task in the process of executing the routing inspection task is a technical problem to be solved urgently.

Disclosure of Invention

An object of the embodiments of the present application is to provide a method and an apparatus for processing an inspection task, so as to implement remote monitoring of the inspection task in an execution process of the inspection task.

In order to solve the technical problem, the embodiment of the application adopts the following technical scheme: a routing inspection task processing method is used for a control end and comprises the following steps:

acquiring polling positions of the booster station and polling items of the polling positions;

determining a routing inspection route based on the routing inspection positions of the booster station and the routing inspection items of all routing inspection positions;

generating a routing inspection task based on the routing inspection route, the routing inspection item and the designated information of the routing inspection person;

sending the inspection task to a terminal corresponding to the inspector;

receiving inspection information of each inspection position reported by a terminal;

and when the terminal finishes reporting the inspection information of all positions to be inspected on the inspection route, determining that the inspection of the terminal is finished.

The beneficial effect of this application lies in: and receiving the polling information of each polling position reported by the terminal, and determining that the polling of the terminal is finished when the polling information of all the positions to be polled on the polling route is reported by the terminal, so that the remote monitoring of the polling task is realized in the execution process of the polling task of the terminal.

In one embodiment, the determining a routing inspection route based on the inspection positions of the booster station and the inspection items of the inspection positions includes:

determining a routing inspection position meeting a preset condition;

and planning a routing inspection route based on the inspection position meeting the preset condition.

The beneficial effect of this embodiment lies in: the inspection positions meeting the preset conditions are determined, and then the inspection route is planned based on the inspection positions meeting the preset conditions, so that the inspection positions needing to be inspected can be flexibly set through changing the preset conditions, the overall inspection of all the inspection positions in the booster station is not needed, and the inspection mode is more diversified.

In one embodiment, the routing inspection information includes at least one of:

the position information, the scanning information corresponding to the position information, the inspection result of the inspection item corresponding to the position information and the audio and video information.

In one embodiment, the method further comprises:

after the terminal finishes the inspection, verifying whether the corresponding relation between the position information and the scanning information is correct and whether the corresponding relation between the position information and the inspection item is correct;

and when the corresponding relation between the position information and the scanning information is correct and the corresponding relation between the position information and the inspection item is correct, determining that the inspection is effective.

The beneficial effect of this embodiment lies in: when the corresponding relation between the position information and the scanning information is correct and the corresponding relation between the position information and the inspection item is correct, the inspection is determined to be effective inspection, so that the consistency of the position information and the scanning information of the terminal and the consistency of the position information and the inspection item of the terminal are ensured, the remote monitoring strength is further improved, and the safety of the booster station is improved.

The application also provides a routing inspection task processing method, which is used for a terminal and comprises the following steps:

after receiving the routing inspection route, the routing inspection item and the appointed inspector information sent by the control end, sending out prompt information for receiving the routing inspection task;

identifying the input patrolling person information;

when the input patrolling person information is determined to be legal, opening the patrolling information input authority;

and when a preset trigger event is received, reporting the routing inspection information corresponding to the trigger event to the control terminal.

The beneficial effect of this application lies in: when the polling task is received, the entered information of the polling person is identified, and only when the entered information of the polling person is determined to be legal, the polling information entry authority is opened, so that the validity of the identity of the polling person is ensured, meanwhile, the polling information corresponding to the trigger events is reported to the control end based on various trigger events, and therefore when the terminal executes the polling task, the control end can realize remote monitoring on the terminal.

In an embodiment, the reporting, to the control terminal, the patrol information corresponding to the trigger event when the preset trigger event is received includes:

when receiving scanning operation on the graph coding information, scanning the graph coding information and determining the current routing inspection position;

and reporting the scanning result of the bar code information, the current inspection position and the current time to a control end.

In an embodiment, the reporting, to the control terminal, the patrol information corresponding to the trigger event when the preset trigger event is received includes:

when the input operation of the inspection result of the inspection item is received, determining the current inspection position;

reporting the current inspection position and the inspection result of the inspection item to a control terminal, wherein the inspection result of the inspection item comprises at least one of the following information:

temperature of the device, vibration amplitude information, and device defects.

In an embodiment, the reporting, to the control terminal, the patrol information corresponding to the trigger event when the preset trigger event is received includes:

when receiving an audio-video information input operation, determining the current routing inspection position;

and reporting the current routing inspection position and the audio and video information to a control end.

The application also provides a patrol and examine task processing apparatus for the control end, the device includes:

the acquisition module is used for acquiring the inspection positions of the booster station and the inspection items of the inspection positions;

the first determining module is used for determining a routing inspection route based on the routing inspection positions of the booster station and the routing inspection items of all the routing inspection positions;

the generating module is used for generating an inspection task based on the inspection route, the inspection item and the appointed inspector information;

the sending module is used for sending the inspection task to a terminal corresponding to the inspector;

the receiving module is used for receiving the polling information of each polling position reported by the terminal;

and the second determining module is used for determining that the terminal finishes the inspection when the terminal finishes the report of the inspection information of all positions to be inspected on the inspection route.

The application also provides a patrol and examine task processing apparatus for the terminal, the device includes:

the prompting module is used for sending out prompting information of receiving the inspection task after receiving the inspection route, the inspection item and the appointed inspector information sent by the control end;

the identification module is used for identifying the input patrolling person information in an identity identification mode;

the authorization module is used for opening the inspection information input authority when the input inspection person information is determined to be legal;

and the reporting module is used for reporting the routing inspection information corresponding to the trigger event to the control terminal when the preset trigger event is received.

Drawings

Fig. 1 is a flowchart of a method for processing an inspection task in an embodiment of the present application, which is used for a control end;

fig. 2 is a flowchart of a polling task processing method in another embodiment of the present application, which is used for a control end;

fig. 3 is a flowchart of a method for processing an inspection task in an embodiment of the present application, which is used for a terminal;

fig. 4 is a flowchart of a polling task processing method in another embodiment of the present application, which is applied to a terminal;

fig. 5 is a flowchart of a polling task processing method in an embodiment of the present application, which is used for an interaction process between a control end and a terminal;

fig. 6 is a block diagram of an inspection task processing device in an embodiment of the present application, which is used for a control end;

fig. 7 is a block diagram of an inspection task processing device in an embodiment of the present application, which is used for a terminal.

Detailed Description

Various aspects and features of the present application are described herein with reference to the drawings.

It will be understood that various modifications may be made to the embodiments of the present application. Accordingly, the foregoing description should not be construed as limiting, but merely as exemplifications of embodiments. Those skilled in the art will envision other modifications within the scope and spirit of the application.

The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the application and, together with a general description of the application given above and the detailed description of the embodiments given below, serve to explain the principles of the application.

These and other characteristics of the present application will become apparent from the following description of preferred forms of embodiment, given as non-limiting examples, with reference to the attached drawings.

It should also be understood that, although the present application has been described with reference to some specific examples, a person of skill in the art shall certainly be able to achieve many other equivalent forms of application, having the characteristics as set forth in the claims and hence all coming within the field of protection defined thereby.

The above and other aspects, features and advantages of the present application will become more apparent in view of the following detailed description when taken in conjunction with the accompanying drawings.

Specific embodiments of the present application are described hereinafter with reference to the accompanying drawings; however, it is to be understood that the disclosed embodiments are merely exemplary of the application, which can be embodied in various forms. Well-known and/or repeated functions and constructions are not described in detail to avoid obscuring the application of unnecessary or unnecessary detail. Therefore, specific structural and functional details disclosed herein are not to be interpreted as limiting, but merely as a basis for the claims and as a representative basis for teaching one skilled in the art to variously employ the present application in virtually any appropriately detailed structure.

The specification may use the phrases "in one embodiment," "in another embodiment," "in yet another embodiment," or "in other embodiments," which may each refer to one or more of the same or different embodiments in accordance with the application.

Fig. 1 is a flowchart of an inspection task processing method according to an embodiment of the present application, where the inspection task processing method is applicable to a control end, and the method includes the following steps S11 to S16:

in step S11, acquiring patrol positions of the booster station and patrol items of the patrol positions;

in step S12, determining a routing inspection route based on the booster station routing inspection position and the routing inspection item of each routing inspection position;

in step S13, generating a patrol task based on the patrol route, the patrol item, and the designated patrol person information;

in step S14, the inspection task is sent to the terminal corresponding to the inspector;

in step S15, receiving patrol information of each patrol location reported by the terminal;

in step S16, when the terminal finishes reporting the inspection information of all positions to be inspected on the inspection route, it is determined that the inspection of the terminal is finished.

In the embodiment, the patrol positions of the booster station and patrol items of the patrol positions are obtained; determining a routing inspection route based on the routing inspection positions of the booster station and the routing inspection items of all the routing inspection positions; specifically, determining a routing inspection position meeting a preset condition; and planning a routing inspection route based on the inspection position meeting the preset condition. For example, the patrol position at which the time interval from the last patrol to the current time is greater than the preset time interval is determined as the patrol position meeting the preset condition, for example, the patrol position at which the device with the damage frequency higher than the preset frequency is located is determined as the patrol position meeting the preset condition, and for example, the patrol position marked as the important position is determined as the patrol position meeting the preset condition.

Generating a polling task based on the polling route, the polling item and the appointed polling person information; sending the inspection task to a terminal corresponding to an inspector; after the terminal receives the polling task, the terminal prompts the polling person to perform identity verification, for example, the polling person performs identity verification through iris recognition, after the verification is passed, the terminal successfully acquires the task and opens various operation authorities related to the polling task, for example, rights such as photographing, scanning, recording and the like, then the terminal reports polling information of each polling position to the control terminal, and when the terminal finishes reporting the polling information of all positions to be polled on the polling route, the terminal determines that the polling is finished. The inspection information may include current position information of the terminal, scanning information corresponding to the current position, inspection result of the inspection item corresponding to the current position, and audio/video information.

It should be noted that, when planning and configuring the routing inspection route, the control end may add relevant hazard source information (wells, pits, holes, etc. in the routing inspection route), when the routing inspection route information is pushed to the terminal, the hazard source information is also pushed synchronously, and then when the routing inspection person holds the terminal to perform routing inspection, if the terminal is close to the hazard source on the routing inspection route, the terminal may send a hazard warning.

In addition, the scanning information is a scanning result of the graphical coding information, specifically, each inspection position is provided with a graphical code, such as a two-dimensional code, a bar code and the like, when an inspector enters one inspection position, the graphical code of the inspection position can be scanned, then the terminal can locate the current position, the scanned graphical coding information of the inspection position and the current position information are sent to the control terminal, and the control terminal can inquire whether the graphical coding information sent by the terminal within a preset time interval (for example, within 10 seconds) is matched with the current position information through the corresponding relationship between the prestored position and the graphical coding information so as to judge whether the inspector is in the corresponding inspection area.

The beneficial effect of this application lies in: and receiving the polling information of each polling position reported by the terminal, and determining that the polling of the terminal is finished when the polling information of all the positions to be polled on the polling route is reported by the terminal, so that the remote monitoring of the polling task is realized in the execution process of the polling task of the terminal.

In one embodiment, as shown in FIG. 2, the above step S12 can be implemented as the following steps S21-S22:

in step S21, determining a patrol location meeting a preset condition;

in step S22, a patrol route is planned based on patrol locations meeting preset conditions.

In the embodiment, the inspection position meeting the preset condition is determined; and planning a routing inspection route based on the inspection position meeting the preset condition.

For example, the patrol position where the time interval from the last patrol to the current time is greater than the preset time interval is determined as the patrol position meeting the preset condition, for example, the patrol position where the equipment with the damage frequency higher than the preset frequency is located is determined as the patrol position meeting the preset condition, for example, the patrol position marked as the important position is determined as the patrol position meeting the preset condition, and the patrol route is planned based on the patrol position meeting the preset condition.

The beneficial effect of this embodiment lies in: confirm the position of patrolling and examining that accords with the preset condition, then plan the route of patrolling and examining based on the position of patrolling and examining that accords with the preset condition to can set up the position of patrolling and examining that needs to patrol and examine through changing the preset condition is nimble, and need not to patrol and examine all positions of patrolling and examining in the booster station and carry out the global and patrol and examine, make the mode of patrolling and.

In one embodiment, the routing inspection information includes at least one of:

the position information, the scanning information corresponding to the position information, the inspection result of the inspection item corresponding to the position information and the audio and video information.

In one embodiment, the method may also be implemented as steps A1-A2:

in step a1, after the terminal finishes the inspection, it is verified whether the corresponding relationship between the position information and the scanning information is correct, and whether the corresponding relationship between the position information and the inspection item is correct;

in step a2, when the corresponding relationship between the position information and the scanning information is correct, and the corresponding relationship between the position information and the polling item is correct, it is determined that the polling is effective.

After the terminal finishes the inspection, verifying whether the corresponding relation between the position information and the scanning information is correct and whether the corresponding relation between the position information and the inspection item is correct; specifically, when an inspector enters an inspection position, the inspector can scan the graphic code of the inspection position, then the terminal can position the current position, the scanned graphic code information of the inspection position and the current position information are sent to the control terminal, the control terminal can inquire whether the graphic code information sent by the terminal within a preset time interval (for example, within 10 seconds) is matched with the current position information according to the corresponding relationship between the prestored position and the graphic code information, then the inspector can send the inspection items and the inspection results corresponding to each inspection item to the control terminal, the control terminal can judge whether the corresponding relationship between the position information and the inspection items is correct according to the corresponding relationship between the prestored inspection position and the inspection items, when the corresponding relationship between the position information and the scanning information is correct and the corresponding relationship between the position information and the inspection items is correct, and determining the polling as effective polling.

The beneficial effect of this embodiment lies in: when the corresponding relation between the position information and the scanning information is correct and the corresponding relation between the position information and the inspection item is correct, the inspection is determined to be effective inspection, so that the consistency of the position information and the scanning information of the terminal and the consistency of the position information and the inspection item of the terminal are ensured, the remote monitoring strength is further improved, and the safety of the booster station is improved.

Fig. 3 is a flowchart of an inspection task processing method according to an embodiment of the present application, where the inspection task processing method is applicable to a terminal, and the method includes the following steps S31-S34:

in step S31, after receiving the routing inspection route, the routing inspection item, and the designated inspector information sent by the control end, sending a prompt message for receiving the routing inspection task;

in step S32, the entered inspector information is identified;

in step S33, when it is determined that the entered inspector information is legitimate, opening an inspection information entry authority;

in step S34, when a preset trigger event is received, the polling information corresponding to the trigger event is reported to the control end.

In the embodiment, the patrolling person inputs patrolling person information, for example, inputs iris information of the patrolling person, the terminal identifies the identity of the patrolling person through the iris information, if the iris information corresponds to the designated patrolling person, the identity identification does not pass, and the terminal identifies the identity of the patrolling person again; if the iris information corresponds to the designated inspection person, the identification is passed, namely the inputted inspection person is determined to be legal, the terminal receives the inspection task and opens the inspection information input authority.

And when a preset trigger event is received, reporting the routing inspection information corresponding to the trigger event to the control terminal.

Specifically, the inspection person holding terminal moves along an inspection route, when the terminal reaches a first inspection position, the two-dimensional code scanning module is used for scanning the two-dimensional code label of the inspection position, and the inspection result of each inspection item under the inspection position is sent to the control end; if the equipment defect is found in the routing inspection, performing defect registration at the terminal, wherein the defect registration comprises scanning the two-dimensional code of the defective equipment by using a two-dimensional code scanning module to confirm the equipment and providing voice or image description information of the defect by using a sound recording and video shooting module; the terminal moves to the next inspection position along the inspection route, and the inspection step of the first inspection position is repeated; and analogizing until all the inspection positions finish the inspection.

It should be noted that, when the inspection is finished, the terminal can automatically generate an inspection summary, so that an inspector can query an inspection statistical analysis report at any time and any place, and the convenience of inspection work is improved.

The beneficial effect of this application lies in: when the polling task is received, the entered information of the polling person is identified, and only when the entered information of the polling person is determined to be legal, the polling information entry authority is opened, so that the validity of the identity of the polling person is ensured, meanwhile, the polling information corresponding to the trigger events is reported to the control end based on various trigger events, and therefore when the terminal executes the polling task, the control end can realize remote monitoring on the terminal.

In one embodiment, as shown in FIG. 4, the above step S34 can be implemented as the following steps S41-S42:

in step S41, when receiving a scanning operation on the graphic coding information, scanning the graphic coding information and determining a current inspection position;

in step S42, the scanning result of the barcode information, the current patrol position, and the current time are reported to the control end.

In the embodiment, when the scanning operation of the graphic coding information is received, the graphic coding information is scanned, and the current inspection position is determined; and reporting the scanning result of the bar code information, the current patrol position and the current time to the control terminal.

Specifically, the inspection person holds the terminal to move along an inspection route, when the terminal reaches an inspection position, the graphic code scanning module is used for scanning the graphic code of the inspection position, then the current inspection position is determined based on the positioning module, and the scanning result of the bar code information, the current inspection position and the current time are reported to the control terminal.

It should be noted that the terminal may also report the positioning signal to the control end in real time, so that the control end monitors the position of the terminal in real time.

In addition, the graphic coding information in the present application may be graphic coding information that changes according to a preset time, for example, the graphic coding information is displayed on an electronic display screen and changes according to a preset rule according to a preset time interval, and the preset rule may be any rule that can change a current graphic code, for example, current time information is added to the coding information and the current time information is substituted into a preset algorithm to obtain new graphic coding information. Therefore, the two-dimensional code identification of each inspection position can be prevented from being shot by an inspection person in advance, and the inspection person is prevented from being confused by the shot two-dimensional code in the scanning mobile phone under the condition that the inspection designated area is not available.

In one embodiment, the above step S34 can be implemented as the following steps B1-B2:

in step B1, when the entry operation of the inspection result of the inspection item is received, the current inspection position is determined;

in step B2, the current inspection position and the inspection result of the inspection item are reported to the control end, where the inspection result of the inspection item includes at least one of the following information:

temperature of the device, vibration amplitude information, and device defects.

In the embodiment, when the input operation of the inspection result of the inspection item is received, the current inspection position is determined; the current inspection position and the inspection result of the inspection item are reported to the control terminal, wherein the inspection result of the inspection item comprises at least one of the following information: temperature of the device, vibration amplitude information, and device defects.

For example, in the process of polling, if the polling person finds the defect of the equipment, the polling person registers the defect at the terminal, including scanning the two-dimensional code of the defective equipment by using the two-dimensional code scanning module to confirm the equipment, and providing voice or image description information of the defect by using the sound recording and video shooting module.

In addition, the mobile terminal further comprises a temperature and vibration measuring module, the temperature and vibration measuring module can be in signal connection with the control terminal through the wireless signal transceiving module, and the temperature and vibration measuring module is used for measuring the temperature and vibration amplitude information of the equipment, namely the temperature and vibration amplitude information of the equipment is also included in the inspection result of the inspection item.

In one embodiment, the above step S34 can be implemented as the following steps C1-C2:

in step C1, when the audio-video information entry operation is received, the current patrol position is determined;

in step C2, the current inspection position and the audio/video information are reported to the control end.

In the embodiment, when the audio-video information input operation is received, the current routing inspection position is determined; and reporting the current routing inspection position and the audio and video information to the control end. The audio-visual information may include visual information of equipment defects or a description of the situation in the form of speech.

In addition to the above mentioned advantages, there are also many advantages in the present application, specifically as follows:

the utility model discloses a scheme for towards the inspection of patrolling in the regional operation work of power generation enterprise booster station, regard as the position sign of patrolling and examining with the two-dimensional code, regard as inspection device with intelligent terminal, position at the control end, time monitoring down, patrol and examine according to booster station circuit inspection route, can solve traditional manual operation, the human factor that exists is many in working methods such as manual paper record, inefficiency, the administrative cost is high, defects such as personnel's unable location, promote the work efficiency of removal operation management, make the work of patrolling and examining more standardized, intellectuality, the security.

In addition, the control end can store the position and time of the terminal in the inspection process and information sent to the control end for future reference. The standard requirements of 'substep, template fixing, supervision and traceability' of operation work are met.

Meanwhile, in the method, the identity verification is carried out on the inspection personnel by adopting the iris recognition technology so as to ensure that the correct personnel and the corresponding personnel carry out corresponding working operation, and the iris recognition becomes a personnel identity verification mode recommended to be used in the system due to the characteristics of high accuracy, convenience, safety, uniqueness, stability, non-replicability and the like. And tracking and managing the track of the patrol personnel of the power station in real time by combining the Beidou positioning signals of the terminal. The problems that the positions of personnel cannot be acquired in real time and the trajectories of the personnel cannot be tracked in time in the traditional power plant inspection work are solved.

Finally, the terminal that this application adopted is the handheld terminal of intelligence, and the handheld terminal of intelligence has installed iris collection and identification module, temperature measurement vibration measuring module and big dipper orientation module's industrial grade smart mobile phone additional. A plurality of special functions and tools required for routing inspection are integrated on the intelligent handheld terminal, the advantages of mobile routing inspection are fully exerted, a new routing inspection working mode and a new management and control mode are further formed, and convenience, safety, controllability and high efficiency of routing inspection work are improved.

Fig. 5 is a flowchart of an inspection task processing method according to an embodiment of the present application, where the inspection task processing method is used in an interaction process between a control end and a terminal, and the method includes the following steps S501 to S511:

in step S501, the control end obtains patrol positions of the booster station and patrol items of the patrol positions;

in step S502, the control end determines a patrol position meeting a preset condition;

in step S503, the control end plans a routing inspection route based on the routing inspection position meeting the preset condition;

in step S504, the control end generates a routing inspection task based on the routing inspection route, the routing inspection item and the appointed information of the routing inspection person;

in step S505, the control end sends the inspection task to the terminal corresponding to the inspector;

in step S506, after receiving the routing inspection route, the routing inspection item, and the designated inspector information sent by the control terminal, the terminal sends a prompt message of receiving the routing inspection task;

in step S507, the terminal identifies the entered inspector information;

in step S508, when it is determined that the inputted inspector information is legal, the terminal opens the inspection information input authority;

in step S509, when receiving a preset trigger event, the terminal reports routing inspection information corresponding to the trigger event to the control end;

in step S510, the control end receives the polling information of each polling position reported by the terminal;

in step S511, when the terminal finishes reporting the inspection information of all the positions to be inspected on the inspection route, it is determined that the inspection of the terminal is finished.

Fig. 6 is a block diagram of an inspection task processing device according to an embodiment of the present application, where the inspection task processing device is applicable to a control end, and the inspection task processing device includes:

the acquisition module 61 is used for acquiring the inspection positions of the booster station and the inspection items of the inspection positions;

the first determining module 62 is used for determining a routing inspection route based on the routing inspection positions of the booster station and the routing inspection items of the routing inspection positions;

the generating module 63 is used for generating an inspection task based on the inspection route, the inspection item and the appointed inspector information;

the sending module 64 is used for sending the inspection task to a terminal corresponding to the inspector;

the receiving module 65 is used for receiving the polling information of each polling position reported by the terminal;

and the second determining module 66 is configured to determine that the terminal finishes polling when the terminal finishes reporting the polling information of all the positions to be polled on the polling route.

Fig. 7 is a block diagram of an inspection task processing device according to an embodiment of the present application, where the inspection task processing device is applicable to a terminal, and the inspection task processing device includes:

the prompting module 71 is used for sending out a prompting message of receiving the inspection task after receiving the inspection route, the inspection item and the appointed inspector information sent by the control terminal;

the identification module 72 is used for identifying the entered patrol inspector information in an identity identification mode;

the authorization module 73 is used for opening the inspection information input authority when the input inspection person information is determined to be legal;

and a reporting module 74, configured to report, when a preset trigger event is received, the polling information corresponding to the trigger event to the control terminal.

The above embodiments are only exemplary embodiments of the present application, and are not intended to limit the present application, and the protection scope of the present application is defined by the claims. Various modifications and equivalents may be made by those skilled in the art within the spirit and scope of the present application and such modifications and equivalents should also be considered to be within the scope of the present application.

Claims (10)

1. A routing inspection task processing method is used for a control end and is characterized by comprising the following steps:

acquiring polling positions of the booster station and polling items of the polling positions;

determining a routing inspection route based on the routing inspection positions of the booster station and the routing inspection items of all routing inspection positions;

generating a routing inspection task based on the routing inspection route, the routing inspection item and the designated information of the routing inspection person;

sending the inspection task to a terminal corresponding to the inspector;

receiving inspection information of each inspection position reported by a terminal;

and when the terminal finishes reporting the inspection information of all positions to be inspected on the inspection route, determining that the inspection of the terminal is finished.

2. The method of claim 1, wherein determining the routing inspection route based on the booster station routing inspection locations and the routing inspection items of each routing inspection location comprises:

determining a routing inspection position meeting a preset condition;

and planning a routing inspection route based on the inspection position meeting the preset condition.

3. The method of claim 1, wherein the routing inspection information includes at least one of:

the position information, the scanning information corresponding to the position information, the inspection result of the inspection item corresponding to the position information and the audio and video information.

4. The method of claim 3, wherein the method further comprises:

after the terminal finishes the inspection, verifying whether the corresponding relation between the position information and the scanning information is correct and whether the corresponding relation between the position information and the inspection item is correct;

and when the corresponding relation between the position information and the scanning information is correct and the corresponding relation between the position information and the inspection item is correct, determining that the inspection is effective.

5. A method for processing a polling task is used for a terminal, and is characterized in that the method comprises the following steps:

after receiving the routing inspection route, the routing inspection item and the appointed inspector information sent by the control end, sending out prompt information for receiving the routing inspection task;

identifying the input patrolling person information;

when the input patrolling person information is determined to be legal, opening the patrolling information input authority;

and when a preset trigger event is received, reporting the routing inspection information corresponding to the trigger event to the control terminal.

6. The method of claim 5, wherein reporting the patrol information corresponding to the trigger event to the control terminal when the preset trigger event is received comprises:

when receiving scanning operation on the graph coding information, scanning the graph coding information and determining the current routing inspection position;

and reporting the scanning result of the bar code information, the current inspection position and the current time to a control end.

7. The method of claim 5, wherein reporting the patrol information corresponding to the trigger event to the control terminal when the preset trigger event is received comprises:

when the input operation of the inspection result of the inspection item is received, determining the current inspection position;

reporting the current inspection position and the inspection result of the inspection item to a control terminal, wherein the inspection result of the inspection item comprises at least one of the following information:

temperature of the device, vibration amplitude information, and device defects.

8. The method of claim 5, wherein reporting the patrol information corresponding to the trigger event to the control terminal when the preset trigger event is received comprises:

when receiving an audio-video information input operation, determining the current routing inspection position;

and reporting the current routing inspection position and the audio and video information to a control end.

9. The utility model provides a patrol and examine task processing apparatus for the control end, its characterized in that, the device includes:

the acquisition module is used for acquiring the inspection positions of the booster station and the inspection items of the inspection positions;

the first determining module is used for determining a routing inspection route based on the routing inspection positions of the booster station and the routing inspection items of all the routing inspection positions;

the generating module is used for generating an inspection task based on the inspection route, the inspection item and the appointed inspector information;

the sending module is used for sending the inspection task to a terminal corresponding to the inspector;

the receiving module is used for receiving the polling information of each polling position reported by the terminal;

and the second determining module is used for determining that the terminal finishes the inspection when the terminal finishes the report of the inspection information of all positions to be inspected on the inspection route.

10. The utility model provides a patrol and examine task processing apparatus for the terminal, its characterized in that, the device includes:

the prompting module is used for sending out prompting information of receiving the inspection task after receiving the inspection route, the inspection item and the appointed inspector information sent by the control end;

the identification module is used for identifying the input patrolling person information in an identity identification mode;

the authorization module is used for opening the inspection information input authority when the input inspection person information is determined to be legal;

and the reporting module is used for reporting the routing inspection information corresponding to the trigger event to the control terminal when the preset trigger event is received.

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