JP2017081685A - Inspection guidance system - Google Patents

Abstract

An object of the present invention is to provide an inspection guide system capable of improving the work efficiency of an inspection work for a target facility. An inspection guidance system is a system that provides guidance related to inspection at an inspection terminal, and includes inspection item information for specifying an inspection item to be inspected and inspection targets for inspection items specified by the inspection item information. An inspection specification information DB 142 that stores installation location information that specifies the installation location of a certain target facility in association with each other, and a map information DB 141 that stores map information that specifies a map including the location where the target facility is installed. , A current position detecting unit 25 that detects the position of the inspection terminal 2, and a terminal-side guidance unit 271 that displays an inspection guidance screen and detailed information on the inspection items on the display 23 of the inspection terminal 2. [Selection diagram] FIG.

Description

  The present invention relates to an inspection guidance system.

  Various facilities including infrastructure facilities or factory facilities need to be inspected regularly in order to maintain and maintain the functions of these facilities. In order to appropriately perform the inspection work of these facilities, specialized knowledge about the structure of the facilities, inspection points, operation procedures, etc. is required. In view of this, a system has been proposed for assisting an operator in appropriately performing maintenance work on equipment.

  For example, an elevator technical support system for providing technical support to an operator who checks an elevator as equipment has been proposed (for example, see Patent Document 1). In this system, a central management device having a technical information file in which technical information of equipment used in an elevator is recorded is provided, and equipment used in the elevator is transferred from a portable terminal owned by an operator to the central management device via a communication line. When the information for identifying the device is transmitted, the technical support is performed by reading out the technical information regarding the equipment used by the elevator from the technical information file and returning it to the portable terminal based on the transmitted information.

JP 2002-205882 A

  Generally, in order to inspect equipment, it is necessary to go to the installation location of the target equipment to be inspected and then perform the work. However, in the conventional system as described above, since it is difficult to grasp the information on the installation location of the target equipment, in order to inspect the target equipment, the worker relies on, for example, a map of paper. I went to the place where the equipment was installed. However, when an operator with relatively little experience in inspection performs the inspection work, it takes time to identify the installation location of the target equipment based on the map on the paper, and it goes to the installation location of the target equipment. It takes a relatively long time, and the work efficiency of the inspection work may be reduced.

  This invention is made | formed in view of the above, Comprising: It aims at providing the inspection guidance system which can improve the work efficiency of the inspection operation | work about object equipment.

  In order to solve the above-described problems and achieve the object, the inspection guidance system according to claim 1 is an inspection guidance system that provides guidance on inspection at an inspection terminal, and specifies an inspection item to be inspected. Inspection information storage means for storing item information and installation location information for specifying the installation location of the target equipment that is the inspection target of the inspection item specified by the inspection item information, and the target equipment is installed. Map information storage means for storing map information for identifying a map including a location, detection means for detecting the position of the inspection terminal, the inspection item information stored in the inspection information storage means, and the inspection information The installation location information stored by the storage means, the inspection terminal position information for specifying the position detected by the detection means, the map information stored by the map information storage means, As inspection guidance information for guidance regarding inspection, and a guiding means for displaying on the display unit of the inspection terminal.

  The inspection guidance system according to claim 2 is the inspection guidance system according to claim 1, wherein the inspection item information stored by the inspection information storage means specifies a plurality of inspection items to be inspected, The inspection information storage means stores inspection order information for specifying an inspection order among a plurality of inspection items specified by the inspection item information in association with the inspection item information and the installation location information, The guide means displays the inspection guide information based on the inspection order information stored in the inspection information storage means.

  The inspection guidance system according to claim 3 is an inspection guidance system according to claim 1 or 2, wherein the inspection guidance system receives inspection results for inspection items corresponding to the installation location information displayed by the guiding means. A result receiving unit, and the inspection guide unit determines a display mode of the installation location information displayed on the inspection terminal based on whether the inspection result receiving unit has received the inspection result. The installation location information is displayed in the determined display mode.

  According to a fourth aspect of the present invention, in the inspection guidance system according to the third aspect, a past inspection result of the inspection item corresponding to the installation location information displayed by the guiding means is stored. Inspection result storage means, wherein the guide means receives the inspection results based on the inspection results received by the inspection result reception means and the past inspection results stored by the inspection result storage means. The preventive determination related to the prevention of the target equipment corresponding to the inspection result received by the means is performed, and the determination result information indicating the result of the prevention determination performed is displayed as the inspection guide information on the display means of the inspection terminal. To do.

  Further, the inspection guidance system according to claim 5 is the inspection guidance system according to any one of claims 1 to 4, wherein configuration information storage means for storing configuration information for specifying a configuration of the target facility; Status information receiving means for receiving status information of the target equipment, and the guide means uses the configuration information stored in the configuration information storage means as the inspection guide information, and the display means of the inspection terminal. The status information receiving means is different from the configuration of the target equipment specified by the configuration information displayed on the display means of the inspection terminal and the actual configuration of the target equipment. Difference state information indicating that the state information is received, and when the state information receiving unit receives the difference state information, the guiding unit stores the difference state information before the configuration information storage unit stores the difference state information. Instruction information for instructing to acquire the reflected information to reflect the actual configuration of the relevant equipment as the inspection guidance information to the configuration information, and displays on the display unit of the inspection terminal.

  The inspection guidance system according to claim 6 is the inspection guidance system according to claim 5, wherein the configuration information storage means stores the configuration information for a plurality of versions, and the guidance means The configuration information storage means is configured to display the configuration information of one version of the plurality of versions of the configuration information as the inspection guide information on the display means of the inspection terminal, and When the status receiving unit receives the difference status information, the guidance unit uses the configuration information of a version different from the version of the configuration information displayed on the display unit of the inspection terminal as the inspection guide information. And display on the display means of the inspection terminal.

  In addition, the inspection guidance system according to claim 7 is the inspection guidance system according to any one of claims 1 to 6, wherein the reorganization inspection item information for identifying the reinspected inspection item and the reconfiguration inspection item Reclassification inspection information storage means for storing the reconfiguration installation location information for specifying the installation location of the reconfiguration target equipment that is the inspection target of the reconfigured inspection item specified by the information, and the reconfiguration target The inspection of the inspection map corresponding to the installation location information displayed by the guidance map and the rearrangement map information storage means for storing the rearrangement map information for identifying the map including the place where the equipment is installed has been completed. Inspection end information receiving means for receiving inspection end information indicating the inspection end information, and when the inspection end information receiving means receives the inspection end information, the guide information is replaced with the inspection guide information displayed. The reassigned inspection item information stored in the reassigned inspection information storage means, the reconfigured installation location information stored in the reassigned inspection information storage means, the terminal position information for inspection, and the reassigned map information Recombination guidance means for displaying the rearranged map information stored in the storage means on the display means of the inspection terminal as the inspection guide information for performing guidance on the rearranged inspection.

  According to the inspection guidance system of claim 1, since inspection item information, installation location information, inspection terminal position information, and map information are displayed as inspection guidance information on the display means of the inspection terminal, For example, for the inspector carrying the inspection terminal, information necessary for inspection including information on the relative positional relationship between the target facility and the inspection terminal (that is, the inspector) is visually The inspection can be guided and the inspection can be guided, and the work efficiency of the inspection work can be improved.

  According to the inspection guidance system of the second aspect, since the inspection guidance information is displayed based on the inspection order information, for example, inspection can be guided along the inspection order, and thus, an artificial operation such as work leakage is caused. Mistakes can be prevented, and inspection work can be performed appropriately.

  According to the inspection guidance system according to claim 3, since the display mode of the installation location information displayed on the inspection terminal is determined based on whether or not the inspection result is received, for example, the inspection person is inspected. In order to be able to grasp the progress of the inspection, it is necessary to prevent unnecessary inspection work (for example, performing the work of the same inspection item multiple times) due to the misunderstanding of the inspector about the progress of the inspection It is possible to improve the work efficiency of the inspection work.

  According to the inspection guidance system according to claim 4, since the determination result information indicating the result of the prevention determination is displayed as the inspection guidance information, for example, a preventive measure (for example, a measure for preventing a failure of the target equipment) The necessity of maintenance of the target equipment, parts replacement, etc.) can be notified, and preventive measures can be taken at an appropriate timing.

  According to the inspection guidance system according to claim 5, when the difference state information is received, the instruction information for instructing to acquire the reflection information for reflecting the actual configuration of the target equipment is displayed. Since the reflected information can be acquired by the inspector, feedback is given to the configuration information storage means so that the configuration information stored by the configuration information storage means matches the actual configuration of the target equipment. Can do.

  According to the inspection guidance system of claim 6, when the difference state information is received, the configuration information of a version different from the version of the configuration information displayed on the display means of the inspection terminal is displayed. Since it is possible to display the configuration information of different versions, the configuration information of the appropriate version that matches the actual configuration of the target equipment can be displayed, and the work efficiency of the inspection work can be improved. it can.

  According to the inspection guidance system according to claim 7, the inspection terminal information is displayed as inspection inspection information including reconfiguration inspection item information, reconfiguration location information, inspection terminal position information, and relocation map information. For example, for inspection including information on the relative positional relationship between the equipment to be reclassified and the inspection terminal (that is, the inspector) for the inspector carrying the inspection terminal. Necessary information can be grasped visually to guide the inspection after the rearrangement, and the work efficiency of the inspection work after the rearrangement can be improved.

It is a block diagram which illustrates the inspection guidance system concerning an embodiment of the invention. It is the figure which illustrated inspection specific information. It is the figure which illustrated inspection plan information. It is the figure which illustrated inspection result information. It is a flowchart of an inspection guidance process. It is an example of a display of an inspection guidance screen. It is a display example of the inspection item detailed information when one of the target facility images in FIG. 6 is selected. It is a display example of the inspection item detailed information displayed next to the inspection item detailed information of FIG.

  Embodiments of an inspection guidance system according to the present invention will be described below in detail with reference to the accompanying drawings. However, the present invention is not limited to the embodiments.

  The inspection guidance system according to the present invention is a system that displays inspection guidance information on the display means of the inspection terminal in order to provide guidance regarding the inspection of the target equipment.

  Here, “target equipment” is equipment to be inspected, and specifically, equipment that requires inspection, such as infrastructure equipment, factory equipment, or housing equipment. For example, as infrastructure equipment It is a concept including a factory building as a factory facility, a house as a housing facility, and the like. The “inspection terminal” is a device that guides inspection, and specifically, a device that is carried by an inspector who performs inspection, and that includes a display means for displaying inspection guidance information. For example, it is a concept that includes a dedicated terminal for inspection and a general-purpose terminal that is used not only for inspection but also for other general-purpose purposes (for example, telephone calls and the like). The “display means” is a means for displaying information, and specifically has a concept including a display and the like.

  Further, the “inspection guide information” is information for providing guidance regarding inspection, and specifically, information displayed on the display means of the inspection terminal. For example, inspection item information, installation location information, Examples include inspection terminal position information, map information, determination result information, configuration information, instruction information, reclassification inspection item information, reclassification installation location information, and reclassification map information. “Inspection item information” is information for specifying an inspection item to be inspected, for example, information on the name of the inspection item. The “installation location information” is information for specifying the installation location of the target equipment, for example, information on longitude and latitude coordinates. The “inspection terminal position information” is information for specifying the position of the inspection terminal, for example, information on longitude and latitude coordinates. The “map information” is information for identifying a map including a place where the target equipment is installed. For example, roads, road intersections, road structures, facilities, and equipment (for example, infrastructure equipment, factory, etc.) This is information necessary for specifying various positions including equipment or housing equipment. The “determination result information” is information for specifying the determination result of the prevention determination, and is, for example, image information, text information, or the like based on the determination result. Note that “prevention determination” is a determination regarding prevention, specifically, a determination for preventing the failure of the target equipment. For example, care, maintenance, maintenance, replacement of the target equipment. (Hereinafter referred to as preventive measures) is determined and determined. The “configuration information” is information for specifying the configuration of the target equipment, and is information having a plurality of versions, for example, information on the structure, shape, or dimensions of the target equipment. The “instruction information” is information for instructing acquisition of reflection information, and is, for example, image information and text information indicating instruction. “Reflection information” is information for reflecting the actual configuration of the target equipment to the configuration information, and is, for example, image information or text information indicating the actual state of the target equipment. Further, the “recombined inspection item information” is information for specifying the reconfigured inspection item, and specifically, is the same information as the “inspection item information”. The “recombined inspection item” is an inspection item included in the inspection plan after the change (that is, after the rearrangement) when the inspection plan is changed (that is, the inspection plan is rearranged). The “inspection plan” is an inspection plan, for example, a plan created by an inspection manager who manages the inspection. The “replacement installation location information” is information for specifying the installation location of the facility to be reconfigured, and specifically, is the same information as the “installation location information”. The “relocation target facility” is a target facility that is an inspection target of the reclassification inspection item specified by the reclassification inspection item information. The “recombined map information” is information for specifying a map including a place where the facility to be reclassified is installed, and specifically, is information similar to “map information”.

  In the embodiment, when “target equipment” is “electric poles and manholes as infrastructure equipment” and “inspection terminal” is “general-purpose terminal”, “inspection information” is “inspection item”. "Information", "Installation location information", "Inspection terminal location information", "Map information", "Judgment result information", and the case of displaying the latest version of "Configuration information" are explained. Will be described in a modification. Specifically, in the modified example, when “instruction information”, “instruction information”, “reclassification inspection item information”, “reclassification installation location information”, or “reclassification map information” is displayed, and “inspection information” A case where “configuration information” other than the latest version is displayed as “guidance information” will be described. In the following, regarding the “inspection terminal”, description of the configuration and operation for general purpose will be omitted, and only the configuration and operation for performing the inspection will be described.

(Constitution)
First, the inspection guidance system 100 according to the present embodiment will be described. The inspection guidance system 100 includes a server device 1 and an inspection terminal 2. FIG. 1 is a block diagram illustrating an inspection guidance system according to an embodiment of the present invention. Note that the inspection guidance system 100 actually includes a plurality of other inspection terminals having the same configuration as the inspection terminal 2 in addition to the inspection terminal 2. Terminal 2 ”will be described.

(Configuration-server device)
First, the configuration of the server device 1 will be described. The server device 1 is a management means for managing inspections, specifically, is a device provided in a management office that manages inspections. As shown in FIG. An input unit 12, a display 13, a data recording unit 14, and a control unit 15 are provided.

(Configuration-Server device-Communication unit)
The communication unit 11 is a communication unit that communicates with the inspection terminal 2 via a network, and in particular, is an inspection result receiving unit that receives information for specifying an inspection result described later. Although the specific kind and structure of this communication part 11 are arbitrary, a well-known mobile radio | wireless communication means can be used, for example.

(Configuration-Server device-Input unit)
The input unit 12 is an operation unit that receives various operation inputs from a user, and specifically, a known input device such as a mouse or a keyboard can be used.

(Configuration-Server device-Display)
The display 13 is a display unit that displays various images based on the control of the control unit 15 described later. The specific configuration of the display 13 is arbitrary. For example, a known flat panel display such as a liquid crystal display or an organic EL display can be used.

(Configuration-Server device-Data recording unit)
The data recording unit 14 is a recording unit that records a program necessary for the operation of the server device 1 and various data, and is configured by using, for example, a hard disk (not shown) as an external recording device. However, any other recording medium including a magnetic recording medium such as a magnetic disk or an optical recording medium such as a DVD or a Blu-ray disk can be used instead of or together with the hard disk (a data recording unit described later). 26 is the same).

  The data recording unit 14 includes a map information database 141 (hereinafter, the database is referred to as “DB”), an inspection identification information DB 142, an inspection plan information DB 143, and an inspection result history DB 144.

  The map information DB 141 is map information storage means for storing the above-described map information. The map information in the map information DB 141 is stored using an arbitrary method. Here, for example, the control unit 15 described later acquires map information from a map distribution center (not shown) and acquires the map. A description will be given below of information storage.

  The inspection specific information DB 142 is inspection specific information storage means for storing inspection specific information, in particular, inspection information storage means for storing inspection item information and installation location information, and a configuration information storage for storing configuration information Means. Here, the “inspection specifying information” stored in the inspection specifying information DB 142 is information for specifying inspection, and specifically, information for specifying matters necessary for performing inspection. FIG. 2 is a diagram illustrating inspection specific information. As shown in FIG. 2, the inspection specifying information includes an item “equipment ID”, an item “equipment type”, an item “location”, an item “configuration image”, an item “inspection item”, an item “inspection item ID”, and The item “inspection order” and information corresponding to each item are associated with each other. Here, the information corresponding to the item “facility ID” is target facility identification information for uniquely identifying the target facility (“F1”, “F2” in FIG. 2). Here, “F1” is the target facility identification information of the utility pole that is the target facility, and “F2” is the target facility identification information of the manhole that is the target facility. Further, the information corresponding to the item “equipment type” is information for specifying the type of the target equipment (“electric pole”, “manhole” in FIG. 2). The information corresponding to the item “location” is the above-described installation location information (in FIG. 2, the coordinates of longitude and latitude are “X1, Y1”, “X2, Y2”). Here, “X1, Y1” are the coordinates of the utility pole that is the target facility, and “X2, Y2” are the coordinates of the manhole that is the target facility. Further, the information corresponding to the item “configuration image” is the above-described configuration information (in FIG. 2, the image information of the drawing indicating the structure, shape, and dimensions of the target equipment is “M1”, “M2”). Here, “M1” is image information of the drawing of the utility pole that is the target equipment, and “M2” is image information of the drawing of the manhole that is the target equipment. The information corresponding to the item “inspection item” is the above-described inspection item information (in FIG. 2, “concrete peeling”, “bending”, “sounding sound”, “step difference of lid”, “deterioration (image)”. "). Here, “concrete peeling” is an inspection for confirming or measuring the presence / absence of peeling of concrete in the target facility, the peeled area and depth, and the like. Further, “bending” is an inspection for confirming whether or not the target equipment is bent. The “sounding sound” is an inspection for confirming whether the state of the target equipment is good or not based on the sound generated by hitting the target equipment. The “lid step” is an inspection for measuring a step between a manhole cover as a target facility and a road surface. Further, “deterioration (image)” is an inspection for confirming the degree of deterioration of the target equipment based on the captured image of the target equipment. As for this “degradation (image)” inspection, any method can be used as long as it is a method capable of confirming the degree of deterioration using a photographed image. For example, it is assumed that a method that can be confirmed with a degree of deterioration = “1” to “10”) is used, and the degree of deterioration = “1” is the least deteriorated state, and the degree of deterioration increases as the numerical value increases. In the following description, it is assumed that the degree of deterioration = “10” is the most deteriorated state. The information corresponding to the item “inspection item ID” is inspection item identification information for uniquely identifying the inspection item (“I1” to “I7” in FIG. 2). Here, “I1” to “I7” are inspection item identification information of inspection items indicated in the item “inspection item” (that is, “I1” is inspection item identification information of “concrete peeling”, for example). Suppose that The information corresponding to the item “inspection order” is inspection order information that specifies the inspection order among the plurality of inspection items specified by the item “inspection item”. As for the inspection order information, information of an arbitrary configuration can be used as long as the inspection order between a plurality of inspection items can be specified. Here, for example, the inspection item immediately after in each inspection item is specified. Thus, a case will be described in which the information for specifying the inspection order among the inspection items is used as a whole. Specifically, as shown in FIG. 2, the information corresponding to the item “inspection order” is “I2” to “I7” and the like, and the item “inspection order” = “I2” is “I1”. This indicates that the inspection item “I2” is to be carried out immediately after the inspection item, and in the same way, for each of the items “inspection order” = “I3” to “I7”, inspections “I2” to “I6” are performed. This indicates that inspection items “I3” to “I7” are performed immediately after the item. Therefore, based on the information corresponding to the item “inspection order” specifically shown in FIG. 2, as a whole, the inspection item “I1” is first performed, and the inspection item “I2” is inspected “I1”. It is possible to specify that the inspection items “I3” to “I7” are to be sequentially executed after the item. Such “inspection specific information” in the inspection specific information DB 142 can be generated and stored using any method as long as it meets the inspection needs. Here, for example, the communication unit of FIG. The following description will be made on the assumption that the data has been input in advance through 11 or the input unit 12 and stored.

  The inspection plan information DB 143 is inspection plan information storage means for storing inspection plan information. Here, the “inspection plan information” stored in the inspection plan information DB 143 is information for specifying the aforementioned inspection plan. FIG. 3 is a diagram illustrating the inspection plan information. As shown in FIG. 3, the inspection plan information is configured by associating an item “inspector ID”, an item “inspection item ID”, and information corresponding to each item. Here, the information corresponding to the item “inspector ID” is inspector identification information for uniquely identifying the inspector (“C1” in FIG. 3). Here, “C1” corresponds to an inspector who carries out the inspection by carrying the inspection terminal 2 of FIG. The information corresponding to the item “inspection item ID” is the same as the information corresponding to the item having the same name in FIG. Such “inspection plan information” in the inspection plan information DB 143 can be generated and stored using any method as long as it meets the inspection needs. Here, for example, in FIG. In the following description, it is assumed that the inspection items that have been input in advance and stored via the communication unit 11 or the input unit 12 in FIG. .

  The inspection result history DB 144 is inspection result storage means for storing a history of inspection result information. Here, the “inspection result information” stored in the inspection result history DB 144 is information for specifying the inspection result. FIG. 4 is a diagram illustrating the inspection result information. As shown in FIG. 4, the inspection result information includes an item “inspector ID”, an item “inspection item ID”, an item “date and time”, an item “result”, and information corresponding to each item. Configured in association. Here, the information corresponding to the item “inspector ID” and the item “inspection item ID” is the same as the information corresponding to the item having the same name in FIG. The information corresponding to the item “date and time” is inspection date and time information for specifying the date and time when the inspection was performed (in FIG. 4, the date and time when the inspection result was input to the inspection terminal 2 in FIG. The item “inspection item” = “deterioration (image)” in FIG. 2 is the date and time when the photographed image was photographed, as will be described later, such as “10/1 10:05”). Returning to FIG. 4, the information corresponding to the item “result” is information for specifying the inspection result (in FIG. 4, “OK”, “degradation degree =“ 1 ”, etc.). Here, “OK” indicates that the target equipment is normal and can be used as it is, and “degradation level =“ 1 ”” It is assumed that “Deterioration degree” is “1”. Although not shown in FIG. 4, “NG” may be stored as information corresponding to the item “result”, and this “NG” indicates that the target equipment is not normal (that is, it is not normal). Therefore, it shall indicate that re-inspection or repair is necessary. Then, such “inspection result information” in the inspection result history DB 144 is stored and accumulated by executing “inspection guidance processing” described later.

(Configuration-Server device-Control unit)
Returning to FIG. 1, the control unit 15 is a control unit that controls the server device 1. Specifically, the control unit 15 is a CPU, various programs that are interpreted and executed on the CPU (a basic control program such as an OS, an OS, And an internal memory such as a RAM for storing programs and various types of data. In particular, the inspection guide program according to the embodiment is substantially installed in the server device 1 via an arbitrary recording medium or network, thereby substantially configuring each unit of the control unit 15 (the same applies to the control unit 27 described later). To do).

  The control unit 15 includes a server side guide unit 151 in terms of functional concept. The server-side guide unit 151 is guide means for displaying the inspection guide information on the display 23 of the inspection terminal 2. In addition, the process performed by the server side guide part 151 of this control part 15 is mentioned later.

(Configuration-Inspection terminal)
Next, the configuration of the inspection terminal 2 will be described. As shown in FIG. 1, the inspection terminal 2 generally includes a communication unit 21, a touch pad 22, a display 23, a camera 24, a current position detection unit 25, a data recording unit 26, and a control unit 27. .

(Configuration-Inspection terminal-Communication section)
The communication unit 21 is a communication unit that performs communication with the server device 1 via a network. The specific configuration of the communication unit 21 is the same as that of the communication unit 11 of the server device 1.

(Configuration-Inspection terminal-Touchpad)
The touch pad 22 is an operation unit that receives various operation inputs from the user when pressed by a user's finger or the like. The touch pad 22 is formed to be transparent or translucent, and is provided on the front surface of the display 23 described later so as to overlap the display surface of the display 23, and is configured to function as a touch panel together with the display 23 described later. ing. As the touch pad 22, for example, a known touch pad provided with an operation position detecting means by a resistance film method or a capacitance method can be used.

(Configuration-Inspection terminal-Display)
The display 23 is a display unit that displays various images based on the control of the control unit 27 described later, and in particular, a display unit that displays inspection guide information. The specific configuration of the display 23 is arbitrary, and for example, a known flat panel display such as a liquid crystal display or an organic EL display can be used.

(Configuration-Inspection terminal-Camera)
The camera 24 is a photographing unit that photographs a subject and acquires a photographed image of the subject based on the control of the control unit 27 described later. As the camera 24, for example, a known camera device including an image sensor or the like can be used.

(Configuration-Inspection terminal-Current position detector)
The current position detection unit 25 is detection means for detecting the current position (current position) of the inspection terminal 2. The current position detection unit 25 includes a GPS or a geomagnetic sensor (both not shown), and detects the current position (for example, longitude and latitude coordinates) and direction of the inspection terminal 2 by a known method. .

(Configuration-Inspection terminal-Data recording part)
The data recording unit 26 is a recording unit that records a program and various data necessary for the operation of the inspection terminal 2. In the data recording unit 26, for example, device identification information for uniquely identifying the inspection terminal 2 (hereinafter, the device identification information of the inspection terminal 2 is referred to as “ID2”) is recorded.

(Configuration-Inspection terminal-Control unit)
The control unit 27 is a control unit that controls the inspection terminal 2. The control unit 27 includes a terminal side guide unit 271 in terms of functional concept. The terminal side guide unit 271 is a guide unit that displays inspection guide information on the display 23 of the inspection terminal 2. The processing performed by the terminal side guide unit 271 of the control unit 27 will be described later.

(processing)
Next, the inspection guidance process executed by the inspection guidance system 100 configured as described above will be described. FIG. 5 is a flowchart of the inspection guidance process (in the following description of each process, step is abbreviated as “S”). The “inspection guidance process” is a process for guiding the inspection, and specifically, a process for displaying the inspection guidance information on the display 23 of the inspection terminal 2 in FIG. The timing of executing the inspection guidance process is arbitrary, but for example, the process is assumed to be started and executed when the server device 1 and the inspection terminal 2 of the inspection guidance system 100 are turned on. I will explain from the start. When the inspection plan information of FIG. 3 is input and stored by the inspection manager, the inspector of the item “inspector ID” = “C1” illustrated in FIG. A case where inspection is performed using the service terminal 2 will be described.

  First, as shown in FIG. 5, in SA1, the terminal-side guide unit 271 transmits a server-side information request, which is a request for transmitting server-side information, via the communication unit 21 in FIG. Here, the “server side information” is information on the server device 1 side, specifically, information including information displayed as inspection guide information. Specifically, for SA1, first, device identification information recorded in the data recording unit 26 is acquired, and inspector identification information input via the touch pad 22 and authentication for authenticating the inspector are performed. Information (for example, a password for a character string having a predetermined number of digits) is acquired. Next, a server-side information request including the acquired device identification information, inspector identification information, and authentication information is generated, and the generated server-side information request is transmitted. Here, for example, device identification information = “ID2”, inspector identification information = “C1”, and authentication information = “password PWD” are acquired, and a server-side information request including these acquired information (hereinafter, illustrated) Server side information request) is generated and transmitted.

  Returning to FIG. 5, on the other hand, in SB1, the server-side guide 151 determines whether a server-side information request has been received. Specifically, the communication unit 11 is monitored and determined. If it is determined that the server-side information request has not been received (NO in SB1), SB1 is repeatedly executed until the server-side information request is received. If it is determined that the server-side information request has been received (YES in SB1), the process proceeds to SB2. Here, for example, if it is determined that the “exemplary server-side information request” has been received, the process proceeds to SB2.

  Next, in SB2, the server-side guide 151 performs authentication of the inspector. As an authentication method, any method can be used. Here, for example, the data recording unit 14 of the server device 1 in FIG. 1 has a combination of inspector identification information and a password as authentication information. The following description will be given on the assumption that a plurality of pieces of password information are recorded as appropriate combinations and authentication is performed using the password information. Here, for example, this password information will be described below assuming that a combination of “C1” and “password PWD” exists. Specifically, for SB2, “authentication information” and “inspector identification information” are acquired from the server-side information request received in SB1, and the combination matches the acquired combination of “authentication information” and “inspector identification information” Authenticate based on whether the password information is present. If a matching combination does not exist in the password information (NO in SB2), the process proceeds to SB1 as an unauthorized request. If a matching combination exists in the password information (YES in SB2), the process proceeds to SB3 as a valid request. Here, for example, since the combination of “C1” and “password PWD” exists in the password information, when the “exemplary server side information request” is received, the process proceeds to SB3.

  Next, in SB3, the server side guidance unit 151 acquires server side information. Specifically, “device identification information” is acquired as “server side information” from the server side information request received in SB1. Further, “inspector identification information” is acquired from the server-side information request received in SB1, and “inspection item identification information corresponding to the acquired“ inspector identification information ”is referred to with reference to the inspection plan information in FIG. Is specified. After the identification, the inspection identification information in FIG. 2 is referred to, and information corresponding to the identified “inspection item identification information” is referred to from the referenced inspection identification information (inspection item identification information (that is, in FIG. 2). All information including the item “inspection item ID”) is acquired as “server side information” in a state of being associated with each other. Further, the map information stored in the map information DB 141 of FIG. 1 is acquired as “server side information”. Here, for example, when “exemplary server side information request” is received in SB1 of FIG. 5, “ID2” is acquired as “server side information”. Further, in FIG. 3, “I1” to “I7” are specified as information of the item “inspection item ID” corresponding to the item “inspector ID” = “C1”. After this specification, as information corresponding to the item “inspection ID” = “I1” in FIG. 2, the item “equipment ID” = “F1”, the item “equipment type” = “electric pole”, the item “location” = “X1” , Y1 ”, item“ configuration image ”=“ M1 ”, item“ inspection item ”=“ concrete peeling ”, item“ inspection item ID ”=“ I1 ”and item“ inspection order ”=“ I2 ”are associated with each other. In the same manner, the information corresponding to each of “inspection ID” = “I2” to “I7” is also obtained as “server side information” in a state of being associated with each other. get. Further, the map information stored in the map information DB 141 of FIG. 1 is acquired as “server side information”.

  Returning to FIG. 5, in SB4, the server-side guide 151 transmits the server-side information via the communication unit 11 of FIG. Specifically, the server side information acquired in SB3 is transmitted. Here, for example, when “exemplary server side information request” is received in SB1, “ID2”, all the information specifically shown in the inspection specifying information in FIG. 2, and the map information DB 141 in FIG. Server-side information (hereinafter, exemplary server-side information) including the stored map information is transmitted.

  Returning to FIG. 5, on the other hand, in SA2, the terminal side guide unit 271 receives and stores the server side information via the communication unit 21 of FIG. Specifically, the server-side information including its own device identification information (that is, “ID2”) among the server-side information transmitted in SB4 of FIG. 5 is received, and the received server-side information is The data is stored in the data recording unit 26 of FIG. Here, for example, “exemplary server side information” is received and stored.

  Returning to FIG. 5, the terminal side guide unit 271 in SA3 displays an inspection guide screen on the display 23 of FIG. Here, the “inspection guidance screen” is a screen for guiding the inspection, and specifically, inspection guidance information displayed on the display 23. Specifically, for SA3, the detection result of the current position detection unit 25 is acquired, and an inspection guide screen is generated based on the acquired detection result and the server side information stored in SA2 of FIG. A guidance screen is displayed on the display 23. The inspection guidance screen can be arbitrarily configured and displayed as long as the location of the target facility and the position of the inspector can be visually confirmed and the inspection can be guided according to the inspection order. For example, it demonstrates as what is comprised and displayed as shown below.

  FIG. 6 is a display example of the inspection guidance screen. The inspection guide screen of FIG. 6 includes, for example, a map display area A1. The map display area A1 is an area for displaying a map. For example, a road image 31, a building image 32, target facility images 41 and 42, and a current position specifying image 43 are displayed. Here, the “road image” 31 is map information, specifically, an image showing a road on the map. The “building image” 32 is map information, specifically, an image showing a building on the map. The “target facility images” 41 and 42 are installation location information, specifically, images displayed at positions corresponding to the installation locations of the target facilities. For example, the target facility image 41 is shown in FIG. The utility pole of the item “equipment ID” = “F1” is shown, and the target equipment image 42 in FIG. 6 shows the manhole of the item “equipment ID” = “F2” in FIG. Further, the “current position specifying image” 43 is inspection terminal position information, and specifically, a position corresponding to the current position of the inspection terminal 2 (that is, the inspector carrying the inspection terminal 2). It is an image displayed on the screen.

  Here, for example, based on the “exemplary server side information” stored in SA2 of FIG. 5, the road image 31, the building image 32, and the target facility images 41 and 42 of FIG. Based on the detection result of the detection unit 25, the current position specifying image 43 is generated and displayed.

  More specifically, the road image 31 and the building image 32 are generated and displayed based on the “map information” of the “exemplary server side information”.

  More specifically, after determining the display position and display mode of the target facility images 41 and 42, the target facility images 41 and 42 are generated and displayed according to the determination result. Specifically, first, based on “installation location information” (that is, information corresponding to the item “location” in FIG. 2) of “inspection specific information” in “exemplary server side information”, the target equipment on the map The installation location is identified, and the identified installation location is determined as the display position of the target facility images 41, 42. Here, for example, the position corresponding to “longitude and latitude coordinates” = “X1, Y1” is determined as the display position of the target equipment image 41, and “longitude and latitude coordinates” = “X2, Y2” is supported. The position to be determined is determined as the display position of the target facility image 42. Next, the inspection order of inspection items is determined based on the inspection order information stored in SA2 in FIG. 5 (that is, information corresponding to the item “inspection order” in FIG. 2) and the inspection result input described below. The display mode of the target facility images 41 and 42 is determined based on the specified inspection order. Specifically, with regard to the determination of the display mode of the target facility images 41 and 42, first, referring to the item “inspection item ID” and the item “inspection order” in FIG. A numerical value corresponding to the inspection order for the inspection items (here, “1” to “7”, a numerical value indicating that the smaller the value, the earlier the inspection is performed) (hereinafter referred to as the inspection order identification number) Based on the specified inspection order identification number and the input of the inspection results to be described later, the “most recent equipment” and the “uninspected equipment” are identified, and the identified “latest equipment” and “uninspected equipment” are identified. The display mode is determined. Here, “the latest equipment” is a target equipment that should be inspected immediately. Specifically, among the target equipment that has not been inspected, the value of the “inspection order identification number” mentioned above is the smallest. The target equipment. In addition, “inspection-unexecuted equipment” is target equipment other than the latest equipment that has not been inspected. Specifically, in order to distinguish the “latest equipment” and “uninspected equipment” from each other, the “latest equipment” and “uninspected equipment” display modes are identified. Are displayed in different display modes. Here, for example, for the item “inspection item ID” = “I1” in FIG. 2, “inspection order identification number” = “1” is attached, and for the item “inspection item ID” = “I2”, “Inspection order identification number” = “2” is added, and “Inspection order identification number” = “3” to “7” is similarly applied to the items “Inspection item ID” = “I3” to “I7”. Is attached. Then, the utility pole of the item “equipment ID” = “F1” corresponding to the attached “inspection order identification number” = “1” is identified as “nearest facility”, and the object of FIG. 6 corresponding to the identified “nearest facility” As the display mode of the equipment image 41, “blinking display in which red and background colors are alternately displayed” is determined, and the item “facility ID” in FIG. 2 is other than “F1” of “most recent equipment” (that is, FIG. 2). (F2)) manhole is identified as “uninspected facility”, and “red lighting display” is determined as the display mode of the target facility image 42 in FIG. 6 corresponding to the identified “uninspected facility”. . Then, the target facility images 41 and 42 are generated and displayed so as to be displayed in the determined display mode with respect to the determined display position.

  In more detail, the current position specifying image 43 specifies the current position of the inspection terminal 2 on the map based on the detection result of the current position detecting unit 25 in FIG. 1, and displays corresponding to the specified current position. The current position specifying image 43 is generated and displayed so as to be displayed at the position. It is assumed that the current position detector 25 in FIG. 1 detects the current position of the inspection terminal 2 every predetermined time (for example, every second) so that the latest current position can be displayed. Each time 25 detects the current position, the current position specifying image 43 is updated so that the latest current position is reflected. By configuring the inspection guidance screen in this way, the location of the inspector himself and the location of the target equipment to be inspected can be guided to the inspector. Therefore, the inspection can be surely performed and the inspection efficiency can be improved.

  Returning to FIG. 5, the terminal side guide unit 271 in SA4 determines whether or not the input of the inspection result has been accepted. The inspection result input method and the determination method as to whether or not the inspection result input has been accepted can be performed using any method, but here, description will be made assuming that the following methods are used.

  First, the inspection result input method is specifically a method of generating inspection item detailed information and displaying it on the display 23 of FIG. 1, and then receiving the inspection result input by a predetermined operation via the touch pad 22 of FIG. Shall be used. Here, the “inspection item detailed information” is detailed information about the inspection item, specifically, inspection guide information displayed on the display 23, for example, as “latest equipment” in FIG. 6. When the displayed target equipment image is selected by long-pressing (for example, 3 to 5 seconds) by a predetermined operation via the touch pad 22 in FIG. 1, check items corresponding to the selected target equipment image In accordance with the inspection order (that is, the value of the “inspection order identification number” so that the smaller the “inspection order identification number” value assigned in SA3 in FIG. 5 is displayed earlier). It is information displayed sequentially.

  FIG. 7 is a display example of detailed inspection item information when the target facility image 41 of FIG. 6 is selected. The inspection item detailed information in FIG. 7 is inspection item detailed information for the item “inspection item ID” = “I1” in FIG. 2, and the inspection item displayed first when the target facility image 41 in FIG. 6 is selected. Item information. The inspection item detailed information in FIG. 7 can be displayed in an arbitrary manner in consideration of the visibility by the inspector. Here, for example, the target facility image on the inspection guidance screen in FIG. The following description will be made assuming that the screen is displayed as a pop-up screen displayed around 41. As shown in FIG. 7, the inspection item detailed information includes an item “equipment ID”, an item “equipment type”, an item “configuration image”, an item “inspection order”, an item “inspection item ID”, and an item “inspection item”. The item “input result”, the item “advice”, and the area corresponding to each item are associated with each other. The area corresponding to the item “equipment ID”, the item “equipment type”, the item “inspection item ID”, and the item “inspection item” is an area in which information corresponding to the item having the same name in FIG. 2 is displayed. In addition, an area A21 corresponding to the item “configuration image” in FIG. 7 is an area selected for displaying configuration information, and specifically, can be selected by a predetermined operation via the touch pad 22 in FIG. When selected, configuration information (that is, image information of a drawing showing the structure, shape, and dimensions of the target equipment) is displayed so as to pop up next to the inspection item detailed information. . Further, the area corresponding to the item “inspection order” is an area in which information for specifying the inspection order is displayed. Specifically, the value of the “inspection order identification number” given in SA3 of FIG. Is the area where is displayed. Further, the area A31 corresponding to the item “input result” in FIG. 7 is an area selected for inputting the inspection result, and specifically, can be selected by a predetermined operation via the touch pad 22 in FIG. When selected, inspection results of inspection items corresponding to the selected area can be input. The area corresponding to the item “advice” in FIG. 7 is an area in which advice relating to the input inspection result is displayed. Specifically, an area in which “normal” or the like is displayed based on the result of preventive determination described later. It is.

  First, regarding the generation and display of the detailed inspection item information in FIG. 7, the terminal side guide unit 271 specifies target facility identification information corresponding to the target facility image selected on the inspection guide screen in FIG. The information corresponding to the identified target equipment identification information is acquired from the inspection specifying information of FIG. 2 as the server side information stored in SA2 of FIG. 5, and the inspection item detailed information is generated and displayed based on the acquired information and the like To do. Here, for example, first, when the target equipment image 41 displayed as “the latest equipment” is selected, “F1” is specified as the target equipment identification information, and information corresponding to “F1” specified in FIG. In the inspection item for which the inspection result has not yet been inputted, information corresponding to the inspection item having the smallest value of the “inspection order identification number” given in SA3 in FIG. 5 is acquired. Specifically, in FIG. 2, the item “equipment type” = “electric pole” and the item “configuration image” = information corresponding to the identified “F1” and corresponding to “inspection order identification number” = “1”. “M1”, item “inspection item ID” = “I1”, and item “inspection item” = “concrete peeling” are acquired. Next, the specified “target equipment identification information” is specified as information to be displayed in the area of the item “equipment ID” in FIG. 7, and the information of the acquired item “equipment type” is the item “equipment type” in FIG. 7. The information of the item “configuration image” identified as the information to be displayed in the area of FIG. 7 and the area A21 of the item “configuration image” of FIG. 7 are linked to each other. 5, the minimum value of the “inspection order identification number” assigned in SA3 of FIG. 5 is specified as information to be displayed in the area of the item “inspection order” in FIG. 7, and the information of the acquired item “inspection item ID” is specified. The information to be displayed in the area of the item “inspection item ID” in FIG. 7 is specified, and the information of the acquired item “inspection item” is specified as the information to be displayed in the area of the item “inspection item” in FIG. Next, the inspection item detailed information screen (specifically, the item name and the boundary line of each region, etc.) of FIG. 7 is generated. Next, as shown in FIG. 7, the specified information is displayed in the areas of item “equipment ID”, item “equipment type”, item “inspection order”, item “inspection item ID”, and item “inspection item”. To do. Here, in the area A21 of the item “configuration image” in FIG. 7, a message such as “display” indicating that the linked information is displayed is displayed. In addition, in the area A31 of the item “input result” in FIG. 7, since information is displayed when an inspection result is received as described later, no information is displayed here. In addition, in the area of the item “advice” in FIG. 7, information based on the result of prevention determination described later is displayed, so information is not displayed here. In this way, the detailed inspection item information of FIG. 7 is generated and displayed.

  Next, regarding the reception of the inspection result, specifically, the terminal side guide unit 271 selects the area corresponding to the item “input result” in FIG. 7 (for example, the area A31) and inputs the inspection result. The input inspection result is received as the inspection result of the inspection item corresponding to the selected area. More specifically, the reception of the inspection result is configured to support the input of the inspection result according to the inspection item in order to increase the efficiency of the result input by the inspector. Specifically, for the item “inspection item ID” = “I1” in FIG. 2, “OK” or “NG” can be input by a predetermined operation via the touch pad 22 in FIG. To do. In addition, the item “inspection item ID” = “I2”, “I3”, “I5”, and “I6” in FIG. 2 is also set to “OK” in the same manner as the item “inspection item ID” = “I1”. ”Or“ NG ”can be input by a predetermined operation via the touch pad 22 of FIG. 1. For “inspection item ID” = “I4” and “I7” in FIG. 2, when the region corresponding to the item “input result” in FIG. 7 is selected, the camera 24 of the inspection terminal 2 in FIG. It is assumed that it is configured to be able to shoot and input a photographed image by triggering by a predetermined operation via the touch pad 22, for example. Here, for example, when the area A31 in FIG. 7 is selected and “OK” is input by a predetermined operation via the touch pad 22 in FIG. 1, the inspection result “inspection item ID” = “I1” in FIG. It is assumed that “OK” is received and “OK” which is the received inspection result is displayed in the area A31. As described above, when a captured image is received, a message such as “photographed” is displayed in the corresponding area.

  Further, the determination method of whether or not the input of the inspection result has been received is specifically determined by monitoring the touch pad 22 and the camera 24 in FIG. If it is determined that the inspection result is not input via the touch pad 22 and the camera 24 and it is determined that the inspection result is not input (NO in SA4), until the inspection result is determined to be received. , SA4 is executed. If the inspection result is input via the touch pad 22 or the camera 24 and it is determined that the inspection result is received (YES in SA4), the process proceeds to SA5.

  Returning to FIG. 5, the terminal side guide section 271 in SA5 stores the inspection result. Specifically, the inspection item identification information (that is, “I1” corresponding to “Area A31”) corresponding to the area (that is, area A31) of the item “input result” of FIG. 7 selected in SA4 is input. The data record in FIG. 1 is obtained by associating the inspection result (that is, “OK”, “NG”, or a photographed image) with the date and time measured by a timing unit (not shown) of the inspection terminal 2 when the inspection result is input. Stored in the unit 26. Here, for example, when region A31 is selected in FIG. 7 and “OK” is input as “11/1 9:05” as the inspection result, “I1” corresponding to “region A31” and “ “OK” and “11/1 9:05” are stored in association with each other.

  Returning to FIG. 5, in SA6, the terminal side guide unit 271 transmits the terminal side information via the communication unit 21 of FIG. Here, the “terminal side information” is information on the inspection terminal 2 side, specifically, information on the inspection result. Specifically, for SA6, terminal-side information including device identification information recorded in the data recording unit 26, inspector identification information input via the touch pad 22 in SA1, and information stored in SA5 in FIG. Is generated, and the generated terminal side information is transmitted. Here, for example, terminal-side information (hereinafter, exemplary terminal-side information) including “ID2”, “C1”, “I1”, “OK”, and “11/1 9:05” is generated and transmitted. .

  On the other hand, in SB5, the server side guidance unit 151 determines whether or not the terminal side information has been received. Specifically, the communication unit 11 is monitored and determined. If it is determined that the terminal side information has not been received (NO in SB5), SB5 is repeatedly executed until the terminal side information is received. Moreover, when it determines with having received terminal side information (YES of SB5), it transfers to SB6. Here, for example, when it is determined that the “exemplary terminal side information” has been received, the process proceeds to SB6.

  Next, in SB6, the server side guide 151 stores the inspection result information. Specifically, first, from the terminal side information received in SB5 (that is, device identification information, inspector identification information, inspection item identification information, date and time, and inspection result), inspector identification information, inspection item identification information, and The date and time is acquired, and the acquired “inspector identification information” = “information corresponding to the item“ inspector ID ”in FIG. 4”, the acquired “inspection item identification information” = “the item“ inspection item ID ”in FIG. And the acquired “date and time” = “information corresponding to the item“ date and time ”in FIG. 4” ”. In addition, when the inspection result is acquired from the terminal-side information received in SB5 and the acquired inspection result is “OK” or “NG”, the acquired “inspection result” = “item“ result ”in FIG. When the acquired inspection result is a photographed image, the degree of deterioration corresponding to the photographed image as the acquired inspection result (here, “1”) is used. To “10”), and the determined “deterioration degree” = “information corresponding to the item“ result ”in FIG. 4” is specified. And the inspection result information corresponding to each above-mentioned specific result is stored in inspection result history DB144 of FIG. Here, for example, when “exemplary terminal side information” is received, “C1”, “I1”, “11/1 9:05”, and “OK” are acquired, and the acquired “C1” = “figure” 4 item “information corresponding to“ inspector ID ””, acquired “I1” = “information corresponding to item“ inspection item ID ”in FIG. 4”, and acquired “11/1 9:05” = “FIG. 4”. And “result information” corresponding to the item “date and time” and the acquired “OK” = “information corresponding to the item“ result ”in FIG. 4” are stored.

  Returning to FIG. 5, in SB <b> 7, the server side guide unit 151 performs prevention determination. Specifically, the inspection result information stored in the latest SB 6 (hereinafter, the latest inspection result information) and the inspection result information stored in the inspection result history DB 144 of FIG. 1 (the inspection result stored in the latest SB 6) Prevention information based on inspection result information (hereinafter referred to as past inspection result information) corresponding to the same inspection item identification information as the inspection item identification information of "Recent inspection result information" in the past information excluding information) Make a decision. As for the determination method of the prevention determination, any method can be used as long as the failure of the target facility can be prevented. Here, for example, the inspection result of “OK” or “NG” is used. And the inspection result of the deterioration degree, and the determination is made as shown below.

  Regarding the determination of the inspection result of “OK” or “NG”, attention is paid to the presence or absence of “OK” or “NG”, and specifically, “Past inspection result information” for the most recent predetermined period ( (For example, 5-6 months corresponding to 5-6 inspections, etc.), and whether there is “NG” in the acquired “Past inspection result information” and “Recent inspection result information” If there is no “NG” (that is, if all are “OK”), it is determined that the target equipment is “normal” for the inspection items that have been performed, and “last inspection result information” ”=“ OK ”and“ NG ”in“ Past inspection result information ”, there is a possibility of“ OK ”this time due to repair of the target equipment, human error in this inspection, etc. In consideration of the nature, etc., it is determined that “it is necessary to pay attention”, and “the latest inspection result information” = “N "And when the" "NG" in the past of the inspection result information "is present, it determines that" there is a high possibility that require the target equipment repairs, etc. ". Here, for example, when “exemplary terminal side information” is received in SB5, if “NG” is not included in “past inspection result information”, “most recent inspection result information” = “OK”. Therefore, it is determined that “the target equipment is normal” for “concrete peeling” which is an inspection item that has been performed.

  In addition, the determination of the inspection result of the degree of deterioration focuses on the fact that the degree of deterioration changes abruptly before the failure. Specifically, the rate of change of the past degree of deterioration and the latest degree of deterioration are determined. The rate of change is calculated and determined based on the calculation result. Here, “the rate of change in the degree of past degradation” means “deterioration in the past predetermined period as the“ past inspection result information ”” (for example, 5-6 months corresponding to 5-6 inspections, etc.). For example, in a graph where “X axis” = “time” and “Y axis” = “deterioration degree” in the XY coordinate system, the deterioration degree of past inspection result information is plotted and plotted. This corresponds to the slope of a known approximate straight line obtained for the above. In addition, “the rate of change of the latest deterioration degree” is the inspection result information immediately before “the latest inspection result information” in “the past inspection result information” (hereinafter, the previous past inspection result information), The rate of change in the degree of deterioration to the "last inspection result information". For example, the amount of change in the degree of deterioration from "previous inspection result information" to "most recent inspection result information" is "dividend". This corresponds to the result of division in which the amount of time elapsed from “past inspection result information” to “recent inspection result information” is “divisor”. Specifically, the determination of the inspection result of the deterioration degree is calculated by calculating the “change rate of the past deterioration degree” and the “change rate of the latest deterioration degree” according to these definitions, and calculating the “deterioration degree of the latest deterioration degree”. When the “change rate” is a predetermined multiple (for example, 1.5 times) or more of the calculated “change rate of the past deterioration level”, it is determined that “there is a high possibility that the target equipment needs to be repaired”. If the calculated “change rate of the latest deterioration degree” is less than a predetermined multiple (for example, 1.5 times) of the calculated “change rate of the past deterioration degree”, “the target equipment is normal. It is determined that there is something.

  Returning to FIG. 5, in SB <b> 8, the server side guide unit 151 transmits the prevention determination information via the communication unit 21 of FIG. 1. Here, the “prevention determination information” is information including the determination result of the prevention determination of SB7. Specifically, for SB8, the device identification information is acquired from the terminal-side information received in SB5, the acquired device identification information and the prevention determination information including the determination result of SB7 are generated, and the generated prevention determination information is transmitted. To do. Here, for example, when “exemplary terminal side information” is received in SB5, prevention determination information including “device identification information” = “ID2” and “determination result” = “target equipment is normal” (hereinafter, referred to as “device identification information”). Example preventive determination information) is generated and transmitted.

  On the other hand, in SA7, the terminal side guide unit 271 determines whether or not the prevention determination information is received. Specifically, the communication unit 21 is monitored to determine whether or not prevention determination information including its own device identification information (that is, “ID2”) has been received. If it is determined that the preventive determination information including the device identification information of itself is not received (NO in SA7), SA7 is repeatedly executed until the preventive determination information is received. If it is determined that the preventive determination information including the device identification information of itself is received (YES in SA7), the process proceeds to SA8. Here, for example, when it is determined that “exemplary prevention determination information” has been received, the process proceeds to SA8.

  Next, in SA8, the terminal side guide unit 271 displays the prevention determination result information. Here, “prevention determination result information” is determination result information for specifying the result of prevention determination, and specifically, information for specifying the result of prevention determination (for example, text information, image information, etc.). . Specifically, for SA8, the determination result is acquired from the prevention determination information received in SA7, and the prevention determination result information corresponding to the acquired determination result is displayed on the display 23 of FIG. As for the preventive determination result information to be displayed, arbitrary information can be displayed in an arbitrary manner in consideration of visibility by an inspector. Here, for example, the item of detailed inspection item information in FIG. As information of the area corresponding to “advice”, text information (for example, “judgment result” = “normal” for “target equipment is normal”, “judgment result” = “careful” “Caution required” and “judgment result” = “requirement for repair of the target facility is high” is displayed, and “re-examination is necessary” is displayed. Here, for example, when “exemplary prevention determination information” is received in SA7 of FIG. 5, “normal” is displayed in the area corresponding to the item “advice” of FIG.

  Next, in SA9, the terminal side guide unit 271 determines whether or not inspections for all inspection items have been completed. Specifically, determination is made based on whether or not inspection results are input in SA4 of FIG. 5 for all inspection items of the item “inspection item ID” of the inspection identification information of FIG. 2 received in SA2. Then, if it is determined that the inspection result is input in SA4 of FIG. 5 for all the inspection items of the “inspection item ID” item of the inspection specific information of FIG. 2 received in SA2 (YES in SA9), all It is determined that the inspection for the inspection item is completed, and the inspection guidance process is terminated. Further, when it is determined that the inspection results are not input in SA4 of FIG. 5 for all the inspection items of the inspection identification information item “inspection item ID” of FIG. 2 received in SA2 (that is, in SA2) When it is determined that the inspection result is not input for at least some of the inspection items of the inspection item “inspection item ID” of the inspection specific information of FIG. 2 received (NO in SA9), all It is determined that the inspection of the inspection items is not completed (that is, it is determined that the inspection of at least some of the inspection items is not completed), and the process proceeds to SA3 and “YES in SA9”. Each process is repeatedly executed until

  Note that in SA3 after “NO in SA9”, inspection items for which the inspection result has not yet been input among the inspection results of the item “equipment ID” = “F1” in FIG. In some cases, without updating the guidance screen in FIG. 6, the process proceeds to SA4 in FIG. 5, and the inspection item detailed information is switched and displayed in accordance with the “inspection order identification number” given in SA3 in FIG. To do. FIG. 8 is a display example of inspection item detailed information displayed next to the inspection item detailed information of FIG. The inspection item detailed information in FIG. 8 is inspection item detailed information for the item “inspection item ID” = “I2” in FIG. Specifically, the inspection item detailed information is switched and displayed. From the inspection item detailed information in FIG. 7 corresponding to “inspection order identification number” = “1”, “inspection order identification number” = “2” After switching to the inspection item detailed information of FIG. 8 and displaying, each processing (FIG. 8) is performed in the same manner as the processing when the inspection item detailed information of FIG. 7 corresponding to “inspection order identification number” = “1” is displayed. 5 SA4 to SA6, SB5 to SB8, SA7 to SA9). Thereafter, in each process (SA3 to SA6, SB5 to SB8, SA7 to SA9 in FIG. 5) corresponding to “inspection order identification number” = “3”, “4”, the item “equipment ID” in FIG. When all of the inspection results of “F1” are input and then the process proceeds to SA3, the target equipment of this item “equipment ID” = “F1” is identified as “inspected equipment” that is the target equipment that has been inspected, As the display mode of the target facility image 41 of FIG. 6 corresponding to the identified “inspected facility”, “most recent facility” and “uninspected facility” are distinguished from “most recent facility” and “uninspected facility”. “Blue lighting display”, which is a display mode different from the above, is determined. Further, the manhole of the item “equipment ID” = “F2” in FIG. 2 corresponding to “inspection order identification number” = “5” is identified as “nearest facility” and corresponding to the identified “nearest facility” in FIG. As the display mode of the target facility image 42, “blinking display in which red and background colors are alternately displayed” is determined. Then, the display mode of the target facility images 41 and 42 is updated (changed) so as to be displayed in the determined display mode. When the target equipment image 42 of FIG. 6 is selected in SA4 of FIG. 5, the item “inspection item” of FIG. 2 with “inspection order identification number” = “5” is performed in the same manner as when the target equipment image 41 is selected. After generating and displaying the inspection item detailed information corresponding to “ID” = “I5”, each process is executed.

(Effect of embodiment)
As described above, according to the embodiment, the inspection guide screen of FIG. 6 and the inspection item detailed information of FIGS. 7 and 8 are displayed on the display 23 of the inspection terminal 2. Information required for inspection including information on the relative positional relationship between the target equipment and the inspection terminal 2 (that is, the inspector) is visually inspected and guided to the inspector It is possible to improve the work efficiency of the inspection work.

  In addition, since inspection guide information (for example, target facility images 41 and 42 on the inspection guide screen in FIG. 6 or information on each area in FIGS. 7 and 8) is displayed based on the inspection order information, Since the inspection can be guided along the line, it is possible to prevent human error such as work leakage, and to appropriately perform the inspection work.

  6 is displayed on the inspection terminal 2 based on whether or not the input of the inspection result has been accepted (that is, whether or not the server device 1 has received the terminal-side information in SB5 of FIG. 5). 41 and 42 are determined, for example, so that the inspector can grasp the progress of the inspection. For example, unnecessary inspection work (for example, the same) It is possible to prevent the inspection item from being performed a plurality of times, and the efficiency of the inspection operation can be improved.

  Moreover, since the prevention determination result information is displayed as inspection guidance information in SA8 of FIG. 5, for example, it is necessary to take preventive measures (for example, maintenance of the target equipment, replacement of parts, etc.) that are measures for preventing the target equipment from malfunctioning. The presence or absence of sex can be notified, and preventive measures can be taken at an appropriate timing.

[Modifications to Embodiment]
Although the embodiments of the present invention have been described above, the specific configuration and means of the present invention can be arbitrarily modified and improved within the scope of the technical idea of each invention described in the claims. Can do. Hereinafter, such a modification will be described.

(About problems to be solved and effects of the invention)
First, the problems to be solved by the invention and the effects of the invention are not limited to the above contents, and may vary depending on the implementation environment and details of the configuration of the invention. May be solved, or only some of the effects described above may be achieved. For example, even if the work efficiency of the inspection work guided by using the inspection guidance system according to the present invention is about the same as the conventional work, if the work efficiency is about the same as the conventional work due to the structure different from the conventional work The problem of the present invention has been solved.

(About distribution and integration)
Further, each of the electrical components described above is functionally conceptual and does not necessarily need to be physically configured as illustrated. In other words, the specific form of distribution / integration of each part is not limited to the one shown in the figure, and all or a part thereof may be functionally or physically distributed / integrated in arbitrary units according to various loads and usage conditions. Can be configured. The “system” in the present application is not limited to one configured by a plurality of devices, but includes one configured by a single device. In addition, the “apparatus” in the present application is not limited to one configured by a single apparatus, but includes one configured by a plurality of apparatuses. For example, the terminal side guide unit 271 may realize at least a part of the functions of the server side guide unit 151 of FIG. 1, or the server side guide unit 151 may at least partially execute the functions of the terminal side guide unit 271. It may be realized. Further, for example, the information stored in each DB of the data recording unit 14 in FIG. 1 may be arbitrarily configured as long as it can be used in the inspection guidance process of the embodiment.

(About communication)
In the above embodiment, the case has been described in which the server apparatus 1 and the inspection terminal 2 in FIG. 1 communicate with each other (that is, online) to guide the inspection, but the present invention is not limited to this. For example, in consideration of inspection in an environment where communication between the server device 1 and the inspection terminal 2 cannot be performed, communication between the server device 1 and the inspection terminal 2 is not performed (that is, offline). ) You may guide the inspection. Specifically, before inspection, the server apparatus 1 after downloading the inspection guide screen of FIG. 6 and information for displaying the inspection item detailed information of FIGS. 7 and 8 to the inspection terminal 2 of FIG. The inspection terminal 2 may guide the inspection based on the downloaded information without performing communication with. In this case, the inspection terminal 2 repeatedly executes the process (for example, SA2 to SA5, SA9) that does not require communication among SA1 to SA9 in FIG. The information stored in SA5 that has been repeatedly executed may be collectively transmitted to the server apparatus 1 in an environment where communication with the server device 1 is possible. Further, in the case of guiding the inspection online, the processing (for example, SA2 to SA5, SA9) that does not require communication among the SA1 to SA9 in FIG. 5 corresponds to a predetermined unit (for example, target facility unit). SA6 to SA9 may be executed for each predetermined unit described above after being repeatedly executed.

(About the inspection guide screen)
In addition, information other than the information (image) described in the embodiment may be displayed on the inspection guidance screen of FIG. Specifically, the importance is set in stages for the information of the item “inspection item” in FIG. 2 (that is, the inspection item). As for the important inspection item, information (for example, for causing the inspector to recognize the “important inspection item” around the target facility image (for example, the target facility image 41) corresponding to the “important inspection item” in FIG. 6). , Text information, etc.) may be displayed.

(About inspection procedure)
Further, the inspection procedure may be displayed as inspection guide information. Specifically, an area corresponding to the item “inspection item” of the inspection item detailed information (for example, an area displayed as “concrete peeling” in FIG. 7) is selected by a predetermined operation via the touch pad 22 in FIG. When configured to be possible, when selected, a specific procedure for performing the selected inspection item may be displayed.

(About information input)
Also, in the inspection guidance process, when information is input via the touchpad 22 in FIG. 1 (for example, SA4 in FIG. 5), information (for example, character information) can be freely input from the viewpoint of recording notes. The information may be recorded by inputting the information.

(About hammering test)
Further, when the target equipment is inspected based on “sound” (for example, the item “inspection item” = “sound” in FIG. 2), the sound from the target equipment is recorded as the inspection result in SA4 of FIG. You may comprise as follows. Specifically, after the sound collecting means such as a microphone is provided for the inspection terminal 2, the sound obtained through the sound collecting means may be recorded.

(About processing related to configuration information)
Further, the inspection terminal 2 of FIG. 1 may be configured such that “status information” can be input via the touch pad 22. Here, the “state information” is information for specifying the state of the target equipment. Specifically, the information (configuration information) of the item “configuration image” in FIG. 2 (that is, the structure, shape, And whether the configuration of the target facility (hereinafter referred to as the target facility record configuration) specified by the image information of the drawings showing the dimensions and the dimensions is identical or different from the actual configuration of the target facility (hereinafter referred to as the target facility actual configuration). For example, information corresponding to match state information or difference state information. The "matching status information" is information for specifying that the target facility record configuration and the target facility actual configuration match, and the "difference status information" is the target facility recording configuration and the target facility actual configuration. Is information that identifies the difference. And about the terminal side guidance part 271 of the terminal 2 for inspection, when "status information" is input, it is comprised so that the input "status information" may be transmitted to the server apparatus 1, and also the server apparatus 1 For the server-side guide 151, the communication unit 11 in FIG. 1 receives the transmitted "status information", and performs the following feedback processing or version change processing based on the received "status information". It may be configured to do. The function of receiving “status information” in the communication unit 11 of the server device 1 corresponds to “status information receiving means”.

(About processing related to configuration information-feedback)
Specifically, regarding the feedback-related processing performed by the server-side guide 151, when the difference state information is received, the above-described “instruction information” is transmitted to the inspection terminal 2. Here, for example, “displayed configuration image needs to be updated as“ instruction information ”instructing acquisition of an image of the actual configuration of the target facility as“ reflection information ”. Send a message such as “Shoot and send the status using the camera”. Thereafter, the terminal side guide unit 271 of the inspection terminal 2 receives the transmitted “instruction information” and displays the received “instruction information” on the display 23 as inspection guidance information. Here, for example, the aforementioned message is displayed. This configuration makes it possible to provide feedback so that the “target equipment record configuration” matches the “target equipment actual configuration”. In the subsequent inspections, the “target equipment record configuration” and the “target equipment record configuration” Occurrence of work mistakes or work delays due to the difference between “equipment actual configuration” can be prevented, and work efficiency and work accuracy for inspection can be improved.

  In addition, specifically regarding the feedback-related processing performed by the server-side guidance unit 151, when the matching state information is received, for example, the “target facility record configuration” is “target facility actual configuration” without transmitting “instruction information”. "Is recorded in association with the information of the item" component image "in the inspection specifying information of FIG. With this configuration, it is possible to grasp the reliability of the information of the item “configuration image” (that is, configuration information).

(About processing related to configuration information-version change)
Further, regarding the process related to version change performed by the server-side guidance unit 151, specifically, when the different state information is received, the “configuration” of the version different from the “configuration information” version displayed by the guidance terminal 2 of FIG. Information ”is transmitted to the inspection terminal 2. Thereafter, the terminal-side guide unit 271 of the inspection terminal 2 receives the transmitted “configuration information” and displays the received “configuration information” on the display 23. By configuring in this way, for example, based on the refurbishment plan, the “target equipment record configuration” (that is, the information of the item “configuration image” in FIG. 2, the structure, shape, and dimensions of the target equipment 1) Compared to the latest version when the image information) is updated to the state after the repair, but the actual repair has not yet been performed and the “target equipment actual configuration” remains in the state before the repair. By displaying the “configuration information” of the previous version, the displayed “target equipment record configuration” and “target equipment actual configuration” can be matched, and “target equipment record configuration” and “target equipment actual configuration” ”Can be prevented from being generated due to a difference in work or work delay, and the work efficiency and work accuracy for inspection can be improved. In order to realize the function of this modified example, the inspection guidance system 100 in FIG. 1 may be arbitrarily configured. For example, the “server side information” acquired by the server device 1 in SB3 in FIG. The version of “configuration information” included in the information may be regarded as the version of “configuration information” displayed on the inspection terminal 2, and the above-described processing may be performed. When transmitting the “status information”, the server apparatus 1 is configured to transmit the version information specifying the version of the “configuration information” together with the inspection terminal 2 based on the transmitted version information. The displayed version of the “configuration information” may be specified to perform the above-described processing.

(Recombination of inspection items)
In addition, the inspection manager carries the inspection terminal 2 based on the progress of the inspection work by an inspector other than the inspector carrying the inspection terminal 2 shown in FIG. 1 (hereinafter referred to as another inspector). The inspection items of the inspectors who are present may be rearranged. Specifically, in consideration of a delay in the inspection work by the “other inspector”, the inspector carrying the inspection terminal 2 (that is, the item “inspector ID” in FIG. 3). = "C1" inspector) before the inspection based on the inspection guidance process shown in FIG. 5 is completed, the inspection manager sets “inspector ID” = “C1” in FIG. The inspection items of the inspector carrying the inspection terminal 2 may be rearranged by newly assigning items corresponding to the unfinished inspection items of “other inspectors”. More specifically, the terminal-side guide unit 271 in FIG. 1 is configured to transmit inspection end information indicating that the inspection is completed to the server device 1 when SA9 in FIG. 5 is “YES”. If the server-side guide 151 receives the inspection end information via the communication unit 11 (inspection end information receiving means) and receives the inspection end information, whether or not there is an inspection item newly assigned to the inspection plan of FIG. It is configured to determine whether or not. Furthermore, only when the server-side guide 151 determines that there is a newly assigned inspection item, an execution message, which is a message for inspecting the newly assigned inspection item, is sent to the inspection terminal 2. To be displayed on the inspection terminal 2. In this case, the inspector carrying the inspection terminal 2 performs the inspection of the newly assigned inspection item. Specifically, the inspection guidance process of FIG. 5 is performed again. become. For the re-implementation of the inspection guidance process of FIG. 5, “inspection item information”, “installation location information”, and “map information” are appropriately replaced with “recombination inspection item information”, “reassignment installation location information”, And “recombined map information”. By comprising in this way, with respect to the inspector carrying the inspection terminal 2, the inspection including information on the relative positional relationship between the equipment to be reclassified and the inspection terminal 2 (that is, the inspector) Therefore, it is possible to visually grasp necessary information to guide the inspection after the rearrangement, and it is possible to improve the work efficiency of the inspection work after the rearrangement. The “inspection information storage means”, the “map information storage means”, and the “guidance means” in the embodiment when the inspection guidance process in FIG. 5 is performed again are “recombinant inspection information storage means”, It corresponds to “rearranged map information storage means” and “rearrangement guide means”.

(About inspection result report)
Moreover, based on the information stored in each step of the inspection guidance process of FIG. 5, an inspection result report that specifies the inspection result of the target equipment may be automatically generated and output.

(About steps)
Further, depending on the inspection needs, some steps may be deleted or items described in the modification may be added as new steps in the inspection guidance process of FIG.

(Appendix)
The inspection guidance system of Supplementary Note 1 is an inspection guidance system that provides inspection-related guidance at an inspection terminal, and includes inspection item information that specifies inspection items to be inspected and inspection items that are specified by the inspection item information. Inspection information storage means for storing the installation location information for specifying the installation location of a certain target equipment in association with each other, and map information storage for storing map information for specifying a map including the location where the target equipment is installed Means for detecting the position of the inspection terminal; the inspection item information stored in the inspection information storage means; the installation location information stored in the inspection information storage means; and the detection means detecting The inspection terminal position information for specifying the position, and the map information stored in the map information storage means, as inspection guide information for providing guidance related to inspection, And a guide means to be displayed on the display means of the serial inspection terminal.

  Further, the inspection guide system according to appendix 2 is the inspection guide system according to appendix 1, wherein the inspection item information stored by the inspection information storage means specifies a plurality of inspection items to be inspected, and stores the inspection information. The means stores inspection order information for specifying an inspection order among a plurality of inspection items specified by the inspection item information in association with the inspection item information and the installation location information, and the guiding means The inspection guide information is displayed based on the inspection order information stored in the inspection information storage means.

  Further, the inspection guidance system according to supplementary note 3 is the inspection guidance system according to supplementary note 1 or 2, wherein the inspection result receiving means receives the inspection result for the inspection item corresponding to the installation location information displayed by the guidance means, The inspection guide means determines the display mode of the installation location information displayed on the inspection terminal based on whether the inspection result receiving means has received the inspection result, and the determined determination The installation location information is displayed in a display mode.

  The inspection guide system according to supplementary note 4 is the inspection guidance system according to supplementary note 3, wherein the inspection result storage means stores past inspection results for inspection items corresponding to the installation location information displayed by the guidance means. The guide means receives the inspection result receiving means based on the inspection result received by the inspection result receiving means and the past inspection result stored in the inspection result storage means. The prevention determination regarding the prevention of the target equipment corresponding to the inspection result is performed, and determination result information indicating the result of the prevention determination performed is displayed on the display unit of the inspection terminal as the inspection guide information.

  Further, the inspection guidance system according to supplementary note 5 is the inspection guidance system according to any one of supplementary notes 1 to 4, wherein configuration information storing means for storing configuration information for specifying a configuration of the target facility, and a state of the target facility Status information receiving means for receiving information, and the guide means displays the configuration information stored in the configuration information storage means as the inspection guide information on the display means of the inspection terminal, The status information receiving means indicates that the configuration of the target equipment specified by the configuration information displayed on the display means of the inspection terminal is different from the actual configuration of the target equipment. The difference state information is received as the state information, and the guide unit stores the configuration information stored in the configuration information storage unit when the state information reception unit receives the difference state information. As the inspection guidance information instruction information indicative of an instruction to acquire the reflected information to reflect the actual configuration of the relevant equipment for, displayed on the display means of the inspection terminal.

  The inspection guide system according to appendix 6 is the inspection guide system according to appendix 5, wherein the configuration information storage means stores the configuration information for a plurality of versions, and the guide means includes the configuration information storage means. Is configured to display the configuration information of one version of the plurality of versions of the configuration information stored on the display means of the inspection terminal as the inspection guide information, and the guide means includes: When the status receiving means receives the difference status information, the configuration information of a version different from the version of the configuration information displayed on the display means of the inspection terminal is used as the inspection guide information, and the inspection information is used. Display on the display means of the terminal.

  Further, the inspection guidance system according to supplementary note 7 is the inspection guidance system according to any one of supplementary notes 1 to 6, wherein the reorganization inspection item information that identifies the reconfigured inspection item and the recombination inspection item information are identified. Reconfiguration inspection information storage means for storing the reconfiguration installation location information for identifying the installation location of the reconfiguration target facility that is the inspection target of the reconfigured inspection item, and the reconfiguration target facility is installed. Inspection map indicating that the inspection for the inspection item corresponding to the installation location information displayed by the guidance means and the inspection map corresponding to the installation location information displayed by the guidance means is completed. Inspection end information receiving means for receiving information, and when the inspection end information receiving means receives the inspection end information, the inspection information is displayed instead of the inspection guide information displayed by the guide information. The reassigned inspection item information stored in the inspection information storage means, the reconfigured installation location information stored in the reassigned inspection information storage means, the inspection terminal position information, and the reassigned map information storage means Recombination guidance means for displaying the rearranged map information to be displayed on the display means of the inspection terminal as the inspection guide information for performing guidance on the rearranged inspection.

(Additional effects)
According to the inspection guidance system described in Appendix 1, the inspection item information, the installation location information, the inspection terminal position information, and the map information are displayed as inspection guidance information on the display means of the inspection terminal. Visually grasp information necessary for inspection including information on relative positional relationship between target equipment and inspection terminal (ie, inspector) for inspector carrying inspection terminal Thus, the inspection can be guided and the work efficiency of the inspection work can be improved.

  According to the inspection guidance system described in Appendix 2, inspection guidance information is displayed based on the inspection order information. For example, since inspection can be guided along the inspection order, human error such as work leakage Can be prevented, and inspection work can be performed appropriately.

  According to the inspection guidance system described in Appendix 3, the display mode of the installation location information displayed on the inspection terminal is determined based on whether or not the inspection result is received. In order to be able to grasp the progress status, it is possible to prevent unnecessary inspection work (for example, performing the same inspection item multiple times) due to the inspector's misconception about the progress of the inspection. It is possible to improve the work efficiency of the inspection work.

  According to the inspection guidance system described in Supplementary Note 4, since the determination result information indicating the result of the prevention determination is displayed as inspection guidance information, for example, a preventive measure (for example, a target for preventing a failure of the target equipment) The need for maintenance of equipment, replacement of parts, etc.) can be notified, and preventive measures can be taken at an appropriate timing.

  According to the inspection guidance system described in Supplementary Note 5, when the difference state information is received, the instruction information instructing to acquire the reflection information for reflecting the actual configuration of the target facility is displayed. Since reflection information can be acquired by the inspector, feedback can be given to the configuration information storage means so that the configuration information stored by the configuration information storage means matches the actual configuration of the target equipment. it can.

  According to the inspection guidance system described in appendix 6, when the difference state information is received, the configuration information of a version different from the version of the configuration information displayed on the display means of the inspection terminal is displayed. Since it is possible to try to display different versions of the configuration information, it is possible to display the configuration information of an appropriate version that matches the actual configuration of the target equipment, and to improve the work efficiency of the inspection work. .

  According to the inspection guidance system according to attachment 7, the inspection terminal display means includes the inspection information, the relocation setting location information, the inspection terminal position information, and the relocation map information. For example, for the inspector who carries the inspection terminal, it is necessary for inspection including information on the relative positional relationship between the equipment to be reclassified and the inspection terminal (that is, the inspector). Therefore, it is possible to visually grasp the information and guide the inspection after the rearrangement, thereby improving the work efficiency of the inspection work after the rearrangement.

DESCRIPTION OF SYMBOLS 1 Server apparatus 2 Inspection terminal 11 Communication part 12 Input part 13 Display 14 Data recording part 15 Control part 21 Communication part 22 Touch pad 23 Display 24 Camera 25 Current position detection part 26 Data recording part 27 Control part 31 Road image 32 Building image 41 Target equipment image 42 Target equipment image 43 Current position specifying image 100 Inspection guidance system 141 Map information DB
142 Inspection specific information DB
143 Inspection plan information DB
144 Check result history DB
151 Server side guide part 271 Terminal side guide part A1 Map display area A21 area A31 area

Claims (7)

An inspection guidance system for providing inspection-related guidance at an inspection terminal,
Inspection information storage for storing inspection item information for specifying inspection items to be inspected and installation location information for specifying the installation location of the target equipment to be inspected by the inspection items specified by the inspection item information in association with each other Means,
Map information storage means for storing map information for identifying a map including a place where the target equipment is installed;
Detecting means for detecting a position of the inspection terminal;
The inspection item information stored by the inspection information storage means, the installation location information stored by the inspection information storage means, inspection terminal position information for specifying the position detected by the detection means, and the map information storage means The map information stored in the display means as inspection guide information for performing inspection-related guidance information displayed on the display means of the inspection terminal;
Inspection guidance system with The inspection item information stored by the inspection information storage means specifies a plurality of inspection items to be inspected,
The inspection information storage means stores inspection order information for specifying an inspection order among a plurality of inspection items specified by the inspection item information in association with the inspection item information and the installation location information,
The guide means displays the inspection guide information based on the inspection order information stored in the inspection information storage means.
The inspection guidance system according to claim 1. Inspection result receiving means for receiving inspection results for inspection items corresponding to the installation location information displayed by the guide means,
The inspection guidance means determines a display mode of the installation location information displayed on the inspection terminal based on whether or not the inspection result receiving unit has received the inspection result, and the determined display mode Display the installation location information,
The inspection guidance system according to claim 1 or 2. Inspection result storage means for storing past inspection results for inspection items corresponding to the installation location information displayed by the guide means,
The guide means adds the inspection result received by the inspection result receiving means to the inspection result received by the inspection result receiving means based on the inspection result received by the inspection result receiving means and the past inspection result stored by the inspection result storage means. Performing preventive determination related to prevention of the corresponding target equipment, and displaying determination result information indicating a result of the performed preventive determination as the inspection guide information on the display unit of the inspection terminal,
The inspection guidance system according to claim 3. Configuration information storage means for storing configuration information for specifying the configuration of the target facility;
Status information receiving means for receiving status information of the target equipment,
The guide means displays the configuration information stored in the configuration information storage means as the inspection guide information on the display means of the inspection terminal,
The status information receiving means indicates that the configuration of the target equipment specified by the configuration information displayed on the display means of the inspection terminal is different from the actual configuration of the target equipment. Receiving the difference state information as the state information,
When the state information receiving unit receives the difference state information, the guide unit obtains reflection information for reflecting the actual configuration of the target facility with respect to the configuration information stored by the configuration information storage unit. Instruction information for instructing to be displayed as the inspection guide information on the display means of the inspection terminal;
The inspection guidance system according to any one of claims 1 to 4. The configuration information storage means stores the configuration information for a plurality of versions,
The guide means displays the configuration information of one version of the plurality of versions of the configuration information stored in the configuration information storage means as the inspection guide information on the display means of the inspection terminal. Configured,
When the state receiving unit receives the difference state information, the guide unit displays the configuration information of a version different from the version of the configuration information displayed on the display unit of the inspection terminal. As displayed on the display means of the inspection terminal,
The inspection guidance system according to claim 5. Reclassification inspection item information that identifies the reclassified inspection item, Reclassification installation location information that identifies the installation location of the facility to be reclassified that is the inspection target of the reclassified inspection item that the reclassification inspection item information identifies Recombination inspection information storage means for storing them in association with each other;
Recombination map information storage means for storing recombination map information for specifying a map including a place where the relocation target equipment is installed;
Inspection completion information receiving means for receiving inspection completion information indicating that inspection has been completed for the inspection item corresponding to the installation location information displayed by the guidance means;
When the inspection end information receiving means receives the inspection end information, the replacement inspection item information stored in the replacement inspection information storage means instead of the inspection guide information displayed by the guidance information; and The relocation inspection information storing means stores the reconfigured installation location information, the inspection terminal position information, and the reassigned map information stored in the reassigned map information storage means. Recombination guidance means for displaying on the display means of the terminal for inspection as the inspection guidance information for performing,
The inspection guidance system according to any one of claims 1 to 6.

Images