CN107507291B

CN107507291B - Visual inspection management method and device

Info

Publication number: CN107507291B
Application number: CN201710938990.7A
Authority: CN
Inventors: 李伟; 李彬; 郑涛
Original assignee: Enn China Gas Investment Co ltd
Current assignee: Enn China Gas Investment Co ltd
Priority date: 2017-09-30
Filing date: 2017-09-30
Publication date: 2021-06-29
Anticipated expiration: 2037-09-30
Also published as: CN107507291A

Abstract

The invention provides a visual inspection management method and a visual inspection management device, wherein the method comprises the following steps: determining object position information of at least one object to be inspected and an effective inspection area corresponding to each object to be inspected; displaying each object to be inspected in the display image according to the position information of each object; receiving patrol position information sent by at least one external patrol terminal; executing each piece of inspection position information, and determining whether the corresponding effective object to be inspected exists in the current inspection position information or not according to the position information of each object, the effective inspection area corresponding to each object to be inspected and the current inspection position information; if yes, displaying the effective object to be inspected in a display image in a differentiated mode; and carrying out visual inspection management according to the display image which is used for carrying out differential display on the effective object to be inspected. Therefore, the scheme provided by the invention can improve the controllability of the routing inspection process.

Description

Visual inspection management method and device

Technical Field

The invention relates to the technical field of computers, in particular to a visual inspection management method and device.

Background

With the rapid development of social economy, the number of lines and the number of devices in the industries such as electric power, chemical engineering, communication and the like are rapidly increased. In order to ensure that the lines and the equipment can work and operate normally, the lines and the equipment need to be regularly inspected. The inspection is to inspect equipment and lines for regular or random fluidity by inspection personnel so as to achieve the purposes of early sending and timely eliminating hidden dangers.

At present, the method of routing inspection is as follows: the enterprise issues routing inspection tasks for the routing inspection personnel according to the service requirements, and then the routing inspection personnel perform routing inspection on equipment and lines required by the routing inspection tasks according to the corresponding routing inspection tasks. And when the polling report time is up, the polling personnel reports the polled equipment and lines. However, the method for reporting by the inspection personnel cannot accurately know whether the inspection personnel really inspects the equipment and the line. Therefore, the existing mode has lower controllability on the routing inspection process.

Disclosure of Invention

The embodiment of the invention provides a visual inspection management method and device, which can improve the controllability of an inspection process.

In a first aspect, an embodiment of the present invention provides a visual inspection management method, where the method includes:

determining object position information of at least one object to be inspected and an effective inspection area corresponding to each object to be inspected;

displaying each object to be inspected in a display image according to the position information of each object;

receiving patrol position information sent by at least one external patrol terminal;

executing each piece of inspection position information, and determining whether the corresponding effective object to be inspected exists in the current inspection position information or not according to the object position information, the effective inspection area corresponding to each object to be inspected and the current inspection position information; if yes, the effective object to be inspected is displayed in a differentiated mode in the display image;

and carrying out visual inspection management according to the display image which displays the effective object to be inspected in a differentiated mode.

Preferably, the first and second electrodes are formed of a metal,

the at least one object to be inspected comprises point equipment and/or a connecting line for connecting at least two point equipment;

when the point equipment is electronic equipment, a connecting line for connecting at least two point equipment is a communication line;

when the point devices are mechanical devices, the connection lines for connecting at least two point devices are pipes.

Preferably, the first and second electrodes are formed of a metal,

the at least one object to be inspected comprises point equipment;

dividing an effective patrol area corresponding to each object to be patrolled by taking the current object to be patrolled as a center and a preset effective patrol distance as a radius;

the determining whether the current inspection position information has a corresponding effective object to be inspected according to the object position information, the effective inspection area corresponding to each object to be inspected and the current inspection position information includes:

executing aiming at each object position information, determining the interval distance between the point equipment corresponding to the current object position information and the inspection terminal corresponding to the current inspection position information according to the current object position information and the current inspection position information, and judging whether the interval distance is not greater than the effective inspection distance in the effective inspection area corresponding to the current object position information; if so, determining the point equipment corresponding to the current object position information as an effective object to be inspected corresponding to the current inspection position information.

Preferably, the first and second electrodes are formed of a metal,

the at least one object to be inspected comprises a connecting line for connecting at least two point devices;

the patrol position information sent by each patrol terminal comprises at least one patrol coordinate in a set time interval;

the effective inspection area corresponding to each object to be inspected comprises at least one coordinate interval;

determining object position information corresponding to the current routing inspection position information in each object position information;

determining a first coordinate interval comprising the at least one routing inspection coordinate in each coordinate interval corresponding to each determined object position information;

determining a part of connecting lines corresponding to the first coordinate interval;

and determining the area corresponding to the at least one inspection coordinate in the determined connecting line as an effective object to be inspected corresponding to the inspection position information.

Preferably, the first and second electrodes are formed of a metal,

the at least one object to be inspected comprises point equipment and/or a connecting line connected to at least two point equipment;

determining object position information corresponding to the current inspection position in each object position information;

determining a second coordinate interval corresponding to the current routing inspection position information in each coordinate interval corresponding to each determined object position information;

judging whether the number of the second coordinate intervals is one or not;

if so, determining the object to be inspected corresponding to the second coordinate interval as an effective object to be inspected corresponding to the current inspection position information;

if not, then,

determining the position information of the target object corresponding to each second coordinate interval;

calculating the idle distance between the inspection terminal corresponding to the current inspection position information and the object to be inspected corresponding to each target object position information;

and determining the object to be inspected with the minimum idle distance between the inspection terminals corresponding to the current inspection position information as an effective object to be inspected corresponding to the current inspection position information.

Preferably, the first and second electrodes are formed of a metal,

after receiving the patrol location information sent by at least one external patrol terminal, the method further comprises the following steps:

and displaying the patrol inspection position information in the display image.

Preferably, the first and second electrodes are formed of a metal,

further comprising:

acquiring a patrol inspection work order corresponding to each patrol inspection terminal, wherein the patrol inspection work order comprises at least one object to be patrolled corresponding to the patrol inspection terminal;

before the displaying the effective object to be inspected in the display image in a differentiated manner, the method further comprises the following steps:

determining a current inspection terminal corresponding to the current inspection position information;

determining a current inspection work order corresponding to the inspection terminal in the inspection work orders corresponding to each inspection terminal;

and judging whether the effective object to be inspected is included in at least one object to be inspected in the current inspection work order, if so, executing differential display on the effective object to be inspected in the display image.

Preferably, the first and second electrodes are formed of a metal,

further comprising:

judging whether the current time reaches a preset routing inspection statistical sheet generation time point or not;

if yes, generating a patrol inspection statistical sheet corresponding to each patrol inspection terminal according to the patrol inspection work order corresponding to each patrol inspection terminal and the display image which is used for carrying out differential display on the effective object to be patrolled and inspected.

In a second aspect, an embodiment of the present invention provides a visual inspection management device, where the device includes:

the system comprises a determining unit, a judging unit and a judging unit, wherein the determining unit is used for determining the object position information of at least one object to be inspected and an effective inspection area corresponding to each object to be inspected;

the first display unit is used for displaying each object to be inspected in a display image according to the position information of each object determined by the determination unit;

the receiving unit is used for receiving the inspection position information sent by at least one external inspection terminal;

the processing unit is used for executing the routing inspection position information received by the receiving unit and determining whether the routing inspection position information has a corresponding effective object to be routed according to the object position information, an effective routing inspection area corresponding to each object to be routed and the current routing inspection position information; if yes, the effective object to be inspected is displayed in a differentiated mode in the display image;

and the second display unit is used for carrying out visual inspection management according to the display image which is used for carrying out differential display on the effective object to be inspected.

Preferably, the first and second electrodes are formed of a metal,

the at least one object to be inspected comprises point equipment;

the processing unit is used for executing the object position information, determining the interval distance between the point equipment corresponding to the current object position information and the inspection terminal corresponding to the current inspection position information according to the current object position information and the current inspection position information, and judging whether the interval distance is not greater than the effective inspection distance in the effective inspection area corresponding to the current object position information; if so, determining the point equipment corresponding to the current object position information as an effective object to be inspected corresponding to the current inspection position information.

Preferably, the first and second electrodes are formed of a metal,

the processing unit includes: the first coordinate interval determining subunit and the first effective object to be inspected determining subunit;

the first coordinate interval determining subunit is configured to determine, in each piece of object location information, object location information corresponding to the current inspection location information; determining a first coordinate interval comprising the at least one routing inspection coordinate in each coordinate interval corresponding to each determined object position information;

the first effective object to be inspected determining subunit is used for determining a part of connecting lines corresponding to the first coordinate interval; and determining the area corresponding to the at least one inspection coordinate in the determined connecting line as an effective object to be inspected corresponding to the inspection position information.

Preferably, the first and second electrodes are formed of a metal,

the processing unit includes: the second coordinate interval determining subunit, the judging subunit and the second effective object to be inspected determining subunit are arranged;

the second coordinate interval determining subunit is configured to determine, in each piece of object location information, object location information corresponding to the current inspection location; determining a second coordinate interval corresponding to the current routing inspection position information in each coordinate interval corresponding to each determined object position information;

the judging subunit is configured to judge whether the number of the second coordinate intervals is one; if so, determining the object to be inspected corresponding to the second coordinate interval as an effective object to be inspected corresponding to the current inspection position information; otherwise, triggering the second effective object to be inspected to determine a subunit;

the second effective object to be inspected determining subunit is configured to determine position information of the target object corresponding to each of the second coordinate intervals; calculating the idle distance between the inspection terminal corresponding to the current inspection position information and the object to be inspected corresponding to each target object position information; and determining the object to be inspected with the minimum idle distance between the inspection terminals corresponding to the current inspection position information as an effective object to be inspected corresponding to the current inspection position information.

Preferably, the first and second electrodes are formed of a metal,

further comprising: a patrol position information display unit;

and the inspection position information display unit is used for displaying the inspection position information in the display image.

Preferably, the first and second electrodes are formed of a metal,

further comprising: a first acquisition unit;

the first acquisition unit is used for acquiring the inspection work order corresponding to each inspection terminal, wherein the inspection work order comprises at least one object to be inspected corresponding to the inspection terminal;

the processing unit is further used for determining a current inspection terminal corresponding to the current inspection position information; determining a current inspection work order corresponding to the inspection terminal in the inspection work orders corresponding to each inspection terminal; and judging whether the effective object to be inspected is included in at least one object to be inspected in the current inspection work order, if so, executing differential display on the effective object to be inspected in the display image.

Preferably, the first and second electrodes are formed of a metal,

further comprising: a second acquisition unit and a generation unit;

the second obtaining unit is used for obtaining an inspection work order corresponding to each inspection terminal, wherein the inspection work order comprises at least one object to be inspected corresponding to the inspection terminal;

the generation unit is used for judging whether the current time reaches a preset routing inspection statistical sheet generation time point; if yes, generating a patrol inspection statistical sheet corresponding to each patrol inspection terminal according to the patrol inspection work order corresponding to each patrol inspection terminal and the display image for differentially displaying the effective object to be patrolled and inspected.

The embodiment of the invention provides a visual inspection management method and a visual inspection management device. And then, displaying each object to be patrolled in the display image according to the position information of each object. And when the routing inspection position information sent by each routing inspection terminal is received, determining whether each routing inspection position information has a corresponding effective object to be routed according to the determined position information of each object, the effective routing inspection area corresponding to each object to be routed and the routing inspection position information. And performing differential display on each determined effective object to be inspected in the display image so that business personnel can visually check each effective object to be inspected through the display image. And finally, carrying out visual inspection management according to the display image which is used for carrying out differential display on the effective object to be inspected. According to the scheme, when the patrol inspection position information sent by the patrol inspection terminal is received, effective patrol inspection objects can be determined according to the patrol inspection position information, the object position information of each object to be patrolled and the effective patrol inspection area corresponding to each object to be patrolled, and the effective patrol inspection objects are displayed in a differentiation mode in the display image. The effective objects to be inspected are checked through the display images, and the inspection states of the objects to be inspected can be known. Therefore, the scheme provided by the embodiment of the invention can improve the controllability of the routing inspection process.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a flowchart of a visual inspection management method according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a display image according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a display image according to another embodiment of the present invention;

fig. 4 is a flowchart of a visual inspection management method according to another embodiment of the present invention;

fig. 5 is a hardware structure diagram of a device in which a visual inspection management apparatus according to an embodiment of the present invention is located;

fig. 6 is a schematic structural diagram of a visual inspection management device according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a visual inspection management device according to another embodiment of the invention;

fig. 8 is a schematic structural diagram of a visual inspection management device according to yet another embodiment of the invention;

fig. 9 is a schematic structural diagram of a visual inspection management device including an inspection position information display unit according to an embodiment of the present invention;

fig. 10 is a schematic structural diagram of a visual inspection management device including a first acquisition unit according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer and more complete, the technical solutions in the embodiments of the present invention will be described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention, and based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the scope of the present invention.

As shown in fig. 1, an embodiment of the present invention provides a visual inspection management method, which may include the following steps:

step 101: determining object position information of at least one object to be inspected and an effective inspection area corresponding to each object to be inspected;

step 102: displaying each object to be inspected in a display image according to the position information of each object;

step 103: receiving patrol position information sent by at least one external patrol terminal;

step 104: selecting one piece of inspection position information from the inspection position information in sequence as current inspection position information;

step 105: determining whether the current inspection position information has a corresponding effective object to be inspected according to the object position information, the effective inspection area corresponding to each object to be inspected and the current inspection position information; if yes, go to step 107; otherwise, go to step 106;

step 106: judging whether the current routing inspection position information is the last position information or not, if so, executing a step 108; otherwise, go to step 104;

step 107: the effective object to be inspected is displayed in a differentiated mode in the display image;

step 108: and carrying out visual inspection management according to the display image which displays the effective object to be inspected in a differentiated mode.

According to the embodiment shown in fig. 1, first, the object position information of each object to be inspected and the effective inspection area corresponding to each object to be inspected are determined. And then, displaying each object to be patrolled in the display image according to the position information of each object. And when the routing inspection position information sent by each routing inspection terminal is received, determining whether each routing inspection position information has a corresponding effective object to be routed according to the determined position information of each object, the effective routing inspection area corresponding to each object to be routed and the routing inspection position information. And performing differential display on each determined effective object to be inspected in the display image so that business personnel can visually check each effective object to be inspected through the display image. And finally, carrying out visual inspection management according to the display image which is used for carrying out differential display on the effective object to be inspected. According to the scheme, when the patrol inspection position information sent by the patrol inspection terminal is received, effective patrol inspection objects can be determined according to the patrol inspection position information, the object position information of each object to be patrolled and the effective patrol inspection area corresponding to each object to be patrolled, and the effective patrol inspection objects are displayed in a differentiation mode in the display image. The effective objects to be inspected are checked through the display images, and the inspection states of the objects to be inspected can be known. Therefore, the scheme provided by the embodiment of the invention can improve the controllability of the routing inspection process.

In an embodiment of the present invention, the object position information may include position coordinates of the object to be inspected and various parameters of the object to be inspected. For example, the location coordinates may be latitude and longitude coordinates. Each parameter may be name, function, date of application, etc.

Step 103 in the flowchart shown in fig. 1 may be to display each object to be inspected in a display image according to the position information of each object, where the displaying includes: identifying the position of each object to be patrolled in the display image according to the position coordinates included by the position information of each object; and adding various parameters included by the corresponding object position information to the position corresponding to each object to be inspected. The type of the presentation image can be determined according to the business requirements. For example, a topographical map may be used.

In an embodiment of the present invention, a specific implementation manner of the differentiated display related to step 107 in the flowchart shown in fig. 1 may be determined according to a service requirement. For example, the differentiated display may: and carrying out flash display on each effective object to be inspected in the display image. As another example, the differentiated display may be: and displaying the effective object to be inspected by using a display color different from that of the object to be inspected in the display image.

In an embodiment of the present invention, the at least one object to be inspected related in the flowchart shown in fig. 1 may include a point device, and/or a connection line for connecting at least two point devices;

In this embodiment, the object included in the at least one object to be inspected may be determined according to business requirements. The at least one object to be inspected may include a point device and/or a connection line for connecting at least two point devices, which is only a preferred mode. Other types of objects may also be selected based on specific business requirements.

In this embodiment, when the peer device is an electronic device, the specific type of the electronic device may be determined according to the service requirement. For example, a switch board, a transformer. The connection line for connecting at least two point devices is a communication line. The main operation of the inspection is as follows: and (4) inspecting whether each electronic device and the communication line operate normally, whether the communication line is damaged and the like.

In this embodiment, when the point device is a mechanical device, the specific type of the mechanical device may also be determined according to the service requirement. Such as a pump, a reservoir. The connection line for connecting at least two point devices is a pipe. The main operation of the inspection is as follows: and 4, inspecting each mechanical device, judging whether the pipeline runs normally, and judging whether the pipeline leaks and is damaged.

According to the embodiment, each object to be inspected can be determined to comprise at least one or two of the point equipment and the connecting line for connecting at least two point equipment according to the service requirement. Therefore, the service applicability is strong.

In an embodiment of the present invention, the determination method of the valid object to be inspected is related to the type of the object to be inspected, so the method for implementing step 105 in the above flowchart at least includes the following three methods:

the method comprises the following steps: in one embodiment of the invention, the at least one object to be inspected comprises point equipment; dividing an effective patrol area corresponding to each object to be patrolled by taking the current object to be patrolled as a center and a preset effective patrol distance as a radius;

then, the step 105 in the flowchart shown in fig. 1 determines whether there is a corresponding valid object to be inspected in the current inspection position information according to the position information of each object, the valid inspection area corresponding to each object to be inspected, and the current inspection position information, which may include:

executing aiming at each object position information, determining the interval distance between a point equipment center corresponding to the current object position information and an inspection terminal corresponding to the current inspection position information according to the current object position information and the current inspection position information, and judging whether the interval distance is not greater than the effective inspection distance in an effective inspection area corresponding to the current object position information; if so, determining the point equipment corresponding to the current object position information as an effective object to be inspected corresponding to the current inspection position information.

In this embodiment, at least two methods exist for determining the effective patrol distance:

the method comprises the following steps: and determining the most important element to be inspected in the point equipment, and determining the distance between the most important element to be inspected and the center of the point equipment as an effective inspection distance.

The second method comprises the following steps: and determining the element to be inspected which is farthest from the center of the point equipment in the point equipment, and determining the distance between the farthest element to be inspected and the center of the point equipment as the effective inspection distance.

In the present embodiment, as shown in fig. 2, fig. 2 is a display image, and fig. 2 includes: point device 201, point device 202, connection line 203, point device 204. The following takes 201 in fig. 2 as an example to describe the division of the effective patrol area: the object to be inspected (point device 201) in fig. 2. If the set effective patrol distance is R, an effective patrol area 2011 of the peer device 201 is divided by taking the center C of the peer device 201 as the center and the effective patrol distance R as the radius.

In this embodiment, the following description will be given by taking the reception of the patrol location information a sent by the patrol terminal a as an example: the distance between the inspection terminal a and the point device 201 is determined according to the object position information of the point device 201 and the inspection position information a. And then, judging whether the spacing distance is not greater than the effective patrol distance corresponding to the point device 201, and determining that the point device 201 is an effective object to be patrolled corresponding to the patrol position information a if the spacing distance is not greater than the effective patrol distance R corresponding to the point device 201. Similarly, it is determined that the point device 202, the connection line 203 and the point device 204 are not valid objects to be patrolled corresponding to the patrol location information a. The point device 201 of the effective object to be inspected is displayed in a display image in a differentiated manner, and as shown in fig. 3, the point device 201 is displayed in a shadow state.

The second method comprises the following steps: in one embodiment of the invention, the at least one object to be inspected comprises a connecting line for connecting at least two point devices;

determining a connecting line corresponding to the first coordinate interval;

In this embodiment, the connection lines have different arrangements in different regions, since the regions involved in the connection lines are relatively wide. Therefore, the active patrol area of the connection line needs to include at least one coordinate interval.

In this embodiment, the following description will be given by taking as an example that the patrol location information B sent by the patrol terminal B is received, where the patrol location information B includes 10 patrol coordinates within a set time interval of 5 minutes: as shown in fig. 2, among the respective object position information, the object position information of the object to which the patrol inspection position information B is determined is the object position information of the connection line 203. The effective patrol area corresponding to the object position information of the connection line 203 includes a coordinate interval a and a coordinate interval B. The area corresponding to the coordinate interval a in the figure is 2031, and the area corresponding to the coordinate interval B in the figure is 2032. And determining a coordinate interval comprising 10 routing inspection coordinates in the coordinate interval A and the coordinate interval B as a coordinate interval A. A part of the connection line corresponding to the coordinate interval a is determined in the connection line 203. And then determining regions corresponding to the 10 routing inspection coordinates in part of the connecting lines, and determining the regions corresponding to the 10 routing inspection coordinates as effective objects to be inspected. The effective object to be inspected is displayed in a display image in a differentiated manner, as shown in fig. 3, the part displayed by the shadow in the connection line 203 is the effective object to be inspected.

The third method comprises the following steps: in one embodiment of the invention, the at least one object to be inspected comprises point equipment and/or a connecting line connected to at least two point equipment;

judging whether the number of the second coordinate intervals is one or not;

if not, then,

In this embodiment, the following description will take the polling location information C sent by the polling terminal C as an example: as shown in fig. 2, among the respective pieces of object position information, it is specified that the object position information corresponding to the patrol position information C is the object position information of the point device 201 and the object position information of the point device 204. Two coordinate sections corresponding to the patrol location information C are determined from the object location information of the point device 201 and the object location information of the point device 204, and the coordinate sections are areas a in fig. 2. The vacant distance between the inspection terminal C and the point device 201 and the vacant distance between the inspection terminal C and the point device 204 are calculated, respectively. And determining that the effective object to be inspected corresponding to the inspection position information C is the point device 204 by judging that the idle distance between the inspection terminal C and the point device 204 is smaller. The effective object to be inspected is displayed in the display image in a differentiated manner, and as shown in fig. 3, the point device 204 is displayed in a shadow form.

According to the embodiment, according to different types of the objects to be inspected, different methods are used for determining whether the corresponding effective objects to be inspected exist in the current inspection position information or not according to the position information of each object, the effective inspection area corresponding to each object to be inspected and the current inspection position information. Therefore, the determined effective object to be patrolled and patrolled has higher matching degree with the patrolling position information.

In an embodiment of the present invention, after receiving, in step 103 in the flowchart shown in fig. 1, patrol location information sent by at least one external patrol terminal, the method may further include:

and displaying the patrol inspection position information in the display image.

In this embodiment, after receiving the patrol location information sent by the patrol terminal, the patrol location information is displayed in the display image according to the received patrol location information. So as to display the position of the inspection terminal corresponding to the inspection position information.

The following description takes the example of receiving the patrol location information a sent by the patrol terminal a as follows: as shown in fig. 2, 205 in fig. 2 is a position corresponding to the patrol position information a. The position of the inspection terminal A can be known in time through the position 205.

According to the embodiment, after the patrol inspection position information sent by each patrol inspection terminal is received, each patrol inspection position information is displayed in the display image. So as to know the position of each inspection terminal in real time through the display image.

In an embodiment of the present invention, the visual inspection management method may further include the following steps:

before the step 103 in the flowchart shown in fig. 1 displays the differentiation display of the effective object to be inspected in the image, the method may further include:

According to the embodiment, before the effective object to be patrolled is differentially displayed in the display image, only when the effective object to be patrolled is judged to be the object to be patrolled in the target patrol and examine work order, the effective object to be patrolled is differentially displayed in the display image so as to implement the patrol and examine work of each object to be patrolled to the corresponding patrol and examine terminal, thereby improving the quality of the patrol and examine work. The target inspection work order is an inspection work order corresponding to the inspection terminal which sends the inspection position information.

In this embodiment, when the current time reaches the generation time point of the inspection statistical sheet, the inspection work orders corresponding to each inspection terminal are executed, and in at least one object to be inspected included in the current inspection work order, each object to be inspected, in which a corresponding effective object to be inspected exists in the display image, is selected; determining each selected object to be inspected as the object to be inspected after inspection is finished; and determining each object to be inspected which is not selected as the object to be inspected which is not inspected completely. The generated patrol statistical sheet corresponding to the current patrol terminal comprises patrol information of the objects to be patrolled which are patrolled and not patrolled in the patrol work sheet and patrol information of the objects to be patrolled and not patrolled.

In this embodiment, the generation time point of the routing inspection statistical sheet may be determined according to the service requirement. For example, 18 points per day.

According to the embodiment, each inspection terminal respectively corresponds to the inspection work order comprising the object to be inspected. And when the time reaches the generation time point of the inspection statistical sheet, generating the inspection statistical sheet corresponding to each inspection terminal according to the inspection work sheet corresponding to each inspection terminal and the display image. And managing and controlling the inspection work of the service personnel corresponding to each inspection terminal according to the inspection statistical sheet.

In the following, fig. 2 is taken as an example. A visual inspection management method is expanded, and as shown in fig. 4, the visual inspection management method may include the following steps:

step 401: and determining the object position information of at least one object to be inspected and the effective inspection area corresponding to each object to be inspected.

In this step, the object position information of the point device 201, the point device 202, the connection line 203, and the point device 204 in fig. 2, and the effective patrol areas corresponding to the point device 201, the point device 202, the connection line 203, and the point device 204, respectively, are determined.

Step 402: and displaying each object to be patrolled in the display image according to the position information of each object.

Step 403: and receiving patrol position information sent by at least one external patrol terminal.

In this step, the patrol location information a sent by the patrol terminal a and the patrol location information B sent by the patrol terminal B are received.

Step 404: and acquiring a patrol inspection work order corresponding to each patrol inspection terminal, wherein the patrol inspection work order comprises at least one object to be patrolled corresponding to the patrol inspection terminal.

In this step, the inspection work order a corresponding to the inspection terminal a and the inspection work order B corresponding to the inspection terminal B are obtained. The inspection work order A comprises the object point equipment 201 to be inspected, and the inspection work order B comprises the object point equipment 203 to be inspected.

Step 405: and displaying the routing inspection position information in the display image.

In this step, as shown in fig. 2, the patrol coordinate information a is taken as an example for explanation, and 205 in fig. 2 is a position corresponding to the patrol position information a. The position of the inspection terminal A can be known in time through the position 205.

Step 406: and selecting one piece of inspection position information from the inspection position information in sequence as the current inspection position information.

Step 407: determining whether the object position information corresponding to the current routing inspection position information is the object position information of the point equipment, if so, executing step 408; otherwise, step 411 is executed.

In this step, when the patrol location information a is the current patrol location information, the corresponding object location information is the object location information of the point device 201, and step 408 is performed.

In this step, when the patrol location information B is the current patrol location information, the corresponding object location information is the object location information of the point device 203, and step 411 is executed.

Step 408: and determining the interval distance between the point equipment corresponding to the current object position information and the inspection terminal corresponding to the current inspection position information according to the current object position information and the current inspection position information.

In this step, the separation distance between the patrol terminal a and the point device 201 is determined from the object position information 1 of the point device 201 and the patrol position information a.

Step 409: judging whether the spacing distance is not greater than the effective patrol distance in the effective patrol area corresponding to the current object position information; if yes, go to step 410; otherwise, step 415 is performed.

In this step, the interval distance determined in the determination step 408 is not greater than the effective patrol distance R corresponding to the object position information 1, and step 410 is executed.

Step 410: and determining the point equipment corresponding to the current object position information as an effective object to be inspected corresponding to the current inspection position information. Step 415 is performed.

In this step, the point device 201 is determined as an effective object to be inspected corresponding to the inspection position information. Step 416 is performed.

Step 411: and determining object position information corresponding to the current routing inspection position information in each object position information.

Step 412: and determining a first coordinate interval comprising at least one routing inspection coordinate in each coordinate interval corresponding to each determined object position information.

In this step, the effective patrol area corresponding to the object position information of the connection line 203 includes a coordinate section a and a coordinate section B. The area corresponding to the coordinate interval a in the figure is 2031, and the area corresponding to the coordinate interval B in the figure is 2032. And determining a coordinate interval comprising 10 routing inspection coordinates in the coordinate interval A and the coordinate interval B as a coordinate interval A.

Step 413: and determining a part of connecting lines corresponding to the first coordinate interval.

Step 414: and determining the area corresponding to at least one routing inspection coordinate in the determined connection line as an effective object to be inspected corresponding to the current routing inspection position information, and executing the step 415.

In the step, areas corresponding to the 10 routing inspection coordinates are determined in part of the connecting lines, and the areas corresponding to the 10 routing inspection coordinates are determined as effective objects to be routed.

Step 415: and determining the current inspection terminal corresponding to the current inspection position information.

In this step, the current patrol location information is taken as patrol location information a as an example for explanation: and determining the inspection terminal A corresponding to the inspection position information A.

Step 416: and determining the current inspection work order corresponding to the current inspection terminal in the inspection work orders corresponding to each inspection terminal.

In the step, the inspection work order A corresponding to the inspection terminal A is determined.

Step 417: judging whether the effective object to be inspected is included in at least one object to be inspected in the current inspection work order, if so, executing step 418; otherwise, step 419 is performed.

In this step, the determination point device 201 is included in the inspection work order a.

Step 418: and displaying the effective object to be inspected in a differential mode in a display image.

Step 419: judging whether the current routing inspection position information is the last routing inspection position information, if so, executing a step 420; otherwise, step 406 is performed.

Step 420: and carrying out visual inspection management according to the display image which is used for carrying out differential display on the effective object to be inspected.

Step 421: judging whether the current time reaches a preset routing inspection statistical sheet generation time point or not; if so, go to step 422; otherwise, executing the step.

Step 422: and generating a patrol statistical sheet corresponding to each patrol terminal according to the patrol work order corresponding to each patrol terminal and the display image for differentially displaying the effective objects to be patrolled.

As shown in fig. 5 and 6, an embodiment of the present invention provides a visual inspection management device. The device embodiments may be implemented by software, or by hardware, or by a combination of hardware and software. In terms of hardware, as shown in fig. 5, a hardware structure diagram of a device in which the visual inspection management apparatus according to the embodiment of the present invention is located is shown, where in addition to the processor, the memory, the network interface, and the nonvolatile memory shown in fig. 5, the device in which the apparatus is located in the embodiment may also include other hardware, such as a forwarding chip responsible for processing a packet, and the like. Taking a software implementation as an example, as shown in fig. 6, as a logical apparatus, the apparatus is formed by reading, by a CPU of a device in which the apparatus is located, corresponding computer program instructions in a non-volatile memory into a memory for execution. The visual management device that patrols and examines that this embodiment provided includes:

a determining unit 601, configured to determine object position information of at least one object to be inspected and an effective inspection area corresponding to each object to be inspected;

the first display unit 602 is configured to display each object to be inspected in a display image according to the position information of each object determined by the determination unit 601;

a receiving unit 603, configured to receive inspection position information sent by at least one external inspection terminal;

a processing unit 604, configured to execute the inspection position information received by the receiving unit 603, and determine whether there is a corresponding valid object to be inspected in the inspection position information according to the object position information, a valid inspection area corresponding to each object to be inspected, and the current inspection position information; if yes, the effective object to be inspected is displayed in a differentiated mode in the display image;

and a second display unit 605, configured to perform visual inspection management according to the display image for performing differentiated display on the effective object to be inspected.

According to the embodiment shown in fig. 6, when the device receives the patrol inspection position information sent by the patrol inspection terminal, the device can determine the effective objects to be patrolled according to the patrol inspection position information, the object position information of each object to be patrolled and the effective patrol area corresponding to each object to be patrolled, and display the difference of each effective object to be patrolled in the display image. The effective objects to be inspected are checked through the display images, and the inspection states of the objects to be inspected can be known. Therefore, the scheme provided by the embodiment of the invention can improve the controllability of the routing inspection process.

In one embodiment of the invention, the at least one object to be inspected comprises point equipment and/or a connecting line for connecting at least two point equipment;

In one embodiment of the invention, the at least one object to be inspected comprises point equipment;

dividing an effective patrol area corresponding to each object to be patrolled by taking the object to be patrolled as a center and taking a preset effective patrol distance as a radius;

the processing unit 604 is configured to execute for each piece of object location information, determine, according to the current piece of object location information and the current piece of inspection location information, a separation distance between a point device center corresponding to the current piece of object location information and an inspection terminal corresponding to the current piece of inspection location information, and determine whether the separation distance is not greater than an effective inspection distance in an effective inspection area corresponding to the current piece of object location information; if so, determining the point equipment corresponding to the current object position information as an effective object to be inspected corresponding to the current inspection position information.

In an embodiment of the present invention, as shown in fig. 7, the at least one object to be inspected includes a connection line for connecting at least two point devices;

the processing unit 604 may include: a first coordinate interval determining subunit 701 and a first effective object to be inspected determining subunit 702;

the first coordinate interval determining subunit 701 is configured to determine, in each piece of object location information, object location information corresponding to the current inspection location information; determining a first coordinate interval comprising the at least one routing inspection coordinate in each coordinate interval corresponding to each determined object position information;

the first effective object to be inspected determining subunit 702 is configured to determine a connection line corresponding to the first coordinate interval; and determining the area corresponding to the at least one inspection coordinate in the determined connecting line as an effective object to be inspected corresponding to the inspection position information.

In an embodiment of the present invention, as shown in fig. 8, the at least one object to be inspected includes a point device and/or a connection line connected to at least two point devices;

the processing unit 604 may include: a second coordinate interval determination subunit 801, a judgment subunit 802, and a second effective object to be inspected determination subunit 803;

the second coordinate interval determining subunit 801 is configured to determine, in each piece of object location information, object location information corresponding to the current inspection location; determining a second coordinate interval corresponding to the current routing inspection position information in each coordinate interval corresponding to each determined object position information;

the determining subunit 802 is configured to determine whether the number of the second coordinate intervals is one; if so, determining the object to be inspected corresponding to the second coordinate interval as an effective object to be inspected corresponding to the current inspection position information; otherwise, triggering the second effective object to be inspected to determine a subunit;

the second effective object to be inspected determining subunit 803 is configured to determine the target object position information corresponding to each of the second coordinate intervals; calculating the idle distance between the inspection terminal corresponding to the current inspection position information and the object to be inspected corresponding to each target object position information; and determining the object to be inspected with the minimum idle distance between the inspection terminals corresponding to the current inspection position information as an effective object to be inspected corresponding to the current inspection position information.

In an embodiment of the present invention, as shown in fig. 9, the visual inspection management apparatus may further include: an inspection position information display unit 901;

the inspection position information display unit 901 is configured to display each inspection position information in the display image.

In an embodiment of the present invention, as shown in fig. 10, the visual inspection management apparatus may further include: a first acquisition unit 1001;

the first obtaining unit 1001 is configured to obtain an inspection work order corresponding to each inspection terminal, where the inspection work order includes at least one object to be inspected corresponding to the inspection terminal;

the processing unit 604 is further configured to determine a current inspection terminal corresponding to the current inspection position information; determining a current inspection work order corresponding to the inspection terminal in the inspection work orders corresponding to each inspection terminal; and judging whether the effective object to be inspected is included in at least one object to be inspected in the current inspection work order, if so, executing differential display on the effective object to be inspected in the display image.

In an embodiment of the present invention, the visual inspection management device may further include: a second acquisition unit and a generation unit;

The embodiment of the invention provides a visual inspection management system, which comprises:

at least one inspection terminal and any one of the visual inspection management devices;

each inspection terminal is used for sending inspection position information to the visual inspection management device.

Because the information interaction, execution process, and other contents between the units in the device are based on the same concept as the method embodiment of the present invention, specific contents may refer to the description in the method embodiment of the present invention, and are not described herein again.

In summary, the embodiments of the present invention can at least achieve the following beneficial effects:

1. in the embodiment of the invention, the object position information of each object to be inspected and the effective inspection area corresponding to each object to be inspected are determined firstly. And then, displaying each object to be patrolled in the display image according to the position information of each object. And when the routing inspection position information sent by each routing inspection terminal is received, determining whether each routing inspection position information has a corresponding effective object to be routed according to the determined position information of each object, the effective routing inspection area corresponding to each object to be routed and the routing inspection position information. And performing differential display on each determined effective object to be inspected in the display image so that business personnel can visually check each effective object to be inspected through the display image. And finally, carrying out visual inspection management according to the display image which is used for carrying out differential display on the effective object to be inspected. According to the scheme, when the patrol inspection position information sent by the patrol inspection terminal is received, effective patrol inspection objects can be determined according to the patrol inspection position information, the object position information of each object to be patrolled and the effective patrol inspection area corresponding to each object to be patrolled, and the effective patrol inspection objects are displayed in a differentiation mode in the display image. The effective objects to be inspected are checked through the display images, and the inspection states of the objects to be inspected can be known. Therefore, the scheme provided by the embodiment of the invention can improve the controllability of the routing inspection process.

2. In the embodiment of the invention, each object to be inspected can be determined to comprise at least one or two of point equipment and a connecting line for connecting at least two point equipment according to the service requirement. Therefore, the service applicability is strong.

3. In the embodiment of the invention, according to different types of the objects to be inspected, different methods are used for determining whether the current inspection position information has a corresponding effective object to be inspected according to the position information of each object, the effective inspection area corresponding to each object to be inspected and the current inspection position information. Therefore, the determined effective object to be patrolled and patrolled has higher matching degree with the patrolling position information.

4. In the embodiment of the invention, after the patrol position information sent by each patrol terminal is received, each patrol position information is displayed in the display image. So as to know the position of each inspection terminal in real time through the display image.

5. In the embodiment of the invention, before the effective objects to be inspected are displayed in a differential manner in the display image, only when the effective objects to be inspected are judged to be the objects to be inspected in the target inspection work order, the effective objects to be inspected are displayed in the differential manner in the display image, so that the inspection work of each object to be inspected is implemented to the corresponding inspection terminal, and the quality of the inspection work is improved. The target inspection work order is an inspection work order corresponding to the inspection terminal which sends the inspection position information.

6. In the embodiment of the invention, each inspection terminal respectively corresponds to an inspection work order comprising an object to be inspected. And when the time reaches the generation time point of the inspection statistical sheet, generating the inspection statistical sheet corresponding to each inspection terminal according to the inspection work sheet corresponding to each inspection terminal and the display image. And managing and controlling the inspection work of the service personnel corresponding to each inspection terminal according to the inspection statistical sheet.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising a" does not exclude the presence of other similar elements in a process, method, article, or apparatus that comprises the element.

Those of ordinary skill in the art will understand that: all or part of the steps for realizing the method embodiments can be completed by hardware related to program instructions, the program can be stored in a computer readable storage medium, and the program executes the steps comprising the method embodiments when executed; and the aforementioned storage medium includes: various media that can store program codes, such as ROM, RAM, magnetic or optical disks.

Finally, it is to be noted that: the above description is only a preferred embodiment of the present invention, and is only used to illustrate the technical solutions of the present invention, and not to limit the protection scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.

Claims

1. A visual inspection management method is characterized by comprising the following steps:

displaying each object to be inspected in a display image according to the position information of each object; receiving patrol position information sent by at least one external patrol terminal;

performing visual inspection management according to the display image which is used for performing differential display on the effective object to be inspected;

when the point equipment is mechanical equipment, a connecting line for connecting at least two point equipment is a pipeline;

when the at least one object to be inspected includes a connection line for connecting at least two point devices,

determining a region corresponding to the at least one inspection coordinate in the determined part of connecting lines as an effective object to be inspected corresponding to the inspection position information;

when the at least one object to be inspected includes a point device,

executing aiming at each object position information, determining the interval distance between the point equipment corresponding to the current object position information and the inspection terminal corresponding to the current inspection position information according to the current object position information and the current inspection position information, and judging whether the interval distance is not greater than the effective inspection distance in the effective inspection area corresponding to the current object position information; if so, determining the point equipment corresponding to the current object position information as an effective object to be inspected corresponding to the current inspection position information;

the effective patrol distance is determined as follows:

determining the most important element to be inspected in the point equipment, and determining the distance between the most important element to be inspected and the center of the point equipment as an effective inspection distance;

or the like, or, alternatively,

and determining the element to be inspected which is farthest from the center of the point equipment in the point equipment, and determining the distance between the farthest element to be inspected and the center of the point equipment as the effective inspection distance.

2. The method of claim 1,

judging whether the number of the second coordinate intervals is one or not;

if not, then,

3. The method according to any one of claims 1 to 2,

displaying the patrol inspection position information in the display image;

and/or the presence of a gas in the gas,

further comprising:

judging whether the effective object to be inspected is included in at least one object to be inspected in the current inspection work order, if so, performing differential display on the effective object to be inspected in the display image;

and/or the presence of a gas in the gas,

further comprising:

4. The utility model provides a visual management device that patrols and examines which characterized in that includes:

the second display unit is used for carrying out visual inspection management according to the display image which is used for carrying out differential display on the effective object to be inspected;

the first effective object to be inspected determining subunit is used for determining a part of connecting lines corresponding to the first coordinate interval; determining a region corresponding to the at least one inspection coordinate in the determined part of connecting lines as an effective object to be inspected corresponding to the inspection position information;

when the at least one object to be inspected includes a point device,

the processing unit is used for executing the object position information, determining the interval distance between the point equipment corresponding to the current object position information and the inspection terminal corresponding to the current inspection position information according to the current object position information and the current inspection position information, and judging whether the interval distance is not greater than the effective inspection distance in the effective inspection area corresponding to the current object position information; if so, determining the point equipment corresponding to the current object position information as an effective object to be inspected corresponding to the current inspection position information;

the effective patrol distance is determined as follows:

or the like, or, alternatively,

5. The apparatus of claim 4,

the second coordinate interval determining subunit is configured to determine, in each piece of the object location information, object location information corresponding to the current inspection location information; determining a second coordinate interval corresponding to the current routing inspection position information in each coordinate interval corresponding to each determined object position information;

6. The apparatus according to claim 4 or 5,

further comprising: a patrol position information display unit;

the inspection position information display unit is used for displaying the inspection position information in the display image;

and/or the presence of a gas in the gas,

further comprising: a first acquisition unit;

the processing unit is further used for determining a current inspection terminal corresponding to the current inspection position information; determining a current inspection work order corresponding to the inspection terminal in the inspection work orders corresponding to each inspection terminal; judging whether the effective object to be inspected is included in at least one object to be inspected in the current inspection work order, if so, performing differential display on the effective object to be inspected in the display image;

and/or the presence of a gas in the gas,

further comprising: a second acquisition unit and a generation unit;

the generation unit is used for judging whether the current time reaches a preset routing inspection statistical sheet generation time point; if yes, generating a patrol inspection statistical sheet corresponding to each patrol inspection terminal according to the patrol inspection work order corresponding to each patrol inspection terminal and the display image which is used for carrying out differential display on the effective object to be patrolled and inspected.