JP4008204B2 - Connection status presentation - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to connection status presentation in a system having a plurality of electrical components.
[0002]
[Prior art]
For example, in a vehicle, the system is complicated in order to improve engine control and brake control. In the brake control, an ABS that avoids brake lock and improves braking performance is introduced, and this ABS system includes a plurality of electrical components such as a brake actuator and a speed sensor for each wheel. There are various types of engine control, such as an exhaust gas circulation system, an anti-knocking system, and an idle speed control system.
[0003]
[Problems to be solved by the invention]
In each of these systems, the number of electrical components tends to be more complicated and the number of electrical components tends to increase in order to improve the system functions, and the number of wirings used to connect electrical components is also increasing. Further, when wiring, avoiding vehicle components (for example, engine, radiator, etc.), wiring is performed up to electrical components to be connected.
[0004]
By the way, during the maintenance and inspection of each system, it is necessary to examine the wiring status between electrical components. In this case, wiring of the system design circuit and various connectors for connecting the wiring to the electrical components are used. The rewritten circuit diagram is used. However, as described above, due to the complexity of the system and the increase in the number of electrical components, this rewritten circuit diagram is naturally complicated, and the circuit diagram is also a booklet that covers several pages for one system. . For this reason, when measuring the state of signal transmission between electrical components, locate the connector connected to the electrical component in the circuit diagram booklet, and find the connector for the electrical component connected to the electrical component in the booklet. It was necessary to specify each time while referring. Such work required sufficient attention and was complicated. In particular, the connection between one electrical component and another electrical component may be shown over a circuit diagram of several pages, which is more complicated. The vehicle has been described as an example, but the same applies to a ship, an aircraft, a machine tool, a factory facility, or the like.
[0005]
The present invention has been made to solve the above-described problems, and it is an object of the present invention to simplify the grasp of the system connection status.
[0006]
[Means for solving the problems and their functions and effects]
  In order to solve at least a part of the problem, the first connection status presentation device of the present invention is
  An apparatus for presenting a connection status in a system having a plurality of electrical components,
  In order to specify the connection part which the connection member which connects the said electrical component and mounting wiring has, the connection part data matched for every said connection part are set for every said connection memberAnd for each of the connecting portions of the connecting memberOne connection member and the other connection part that are memorized and connected via mounting wiringIn front of woodOne connectionBefore in the materialThe other connecting portion to be connected to the connecting portionBefore in the materialConnection data associated with each connection portion of the one connection member in order to identify the connection portionBeforeConnection data storage means for storing each connection portion of the one connection member;
  Image data storage means for storing, for each of the connection members, image data for drawing the image of the connection member including the image of the connection portion of the connection member;
  A connection part designating means for designating one of the connection parts of the connection member;
  The connection part data and the connection data associated with the designated connection part are extracted from the connection data storage means based on the designated connection part, and the extracted connection part data and the connection data are extracted.The designated connection part corresponding to the data is the connection part in the one connection member at the time of storing the connection data in the connection data storage means, and the connection object of the designated connection part and The connection portion in the other connection member is identified by comparing the extracted connection data with the storage data of the connection data storage means, and the connection member as the other connection member having the specified connection portion, The connection part data corresponding to the specified connection part is collated with the data stored in the connection data storage means.Connection target specifying means to be determined,
  Image data corresponding to the connecting member having the designated connecting portion and the connecting member having the specified connecting portion as a connection target is read from the image data storage unit based on the connecting member.In drawing and displaying both connecting members of the connecting member having the specified connecting portion and the connecting member having the specified connecting portion, the specified connecting portion and the specified connecting portion; The read image data is processed in a process for generating drawing data that is displayed separately from the other connection parts of the two connection members while being included and displayed in the images of the connection members, Drawing data is generated based on the read image data, and the generated drawing data is generated.Based on the data, the designated connection and the identified connectionBeforeIncluding and displaying in the connection member image,in frontDisplay means for displaying the designated connection portion and the specified connection portion separately from the other connection portions;
  It is characterized by providing.
[0007]
  In the 1st connection condition presentation apparatus of the present invention which has the above-mentioned composition, when at least one of connection parts is specified by a user etc., it will connect with the specified connection part by mounting wiring from the data of this specified connection part. Identify other connected parts. And this designated connection part and the other connection part specified are displayed.. When displaying both the connection parts, the connection part is displayed in the image of the connection member, and the two connection parts are displayed separately from the other connection parts of the connection member having the respective connection parts.As a result, the user simply designates a certain connection part, and connects this connection part and the other connection part to which it is connected.View with connecting member imageIt can be easily recognized through the senses. Therefore, it is possible to easily grasp the system connection status, and to reduce the labor of maintenance and inspection work.
[0008]
  The 1st connection condition presentation apparatus of the present invention which has the above-mentioned composition can also take the following modes.
  That is, the connection data storage means is also connected to the wiring connection member for the connection portion of the wiring connection member that connects the electrical components.And for each of the connecting portions of the wiring connecting memberAnd storing the connection data for each connection portion of the wiring connection member,
  The image data storage means stores the image data for drawing the wiring connection member including the connection portion in the image of the wiring connection member for each wiring connection member,
  The connection target specifying means is configured such that the connection portion to be connected to the specified connection portion based on the extracted connection portion data and the connection data corresponding to the specified connection portion is that of the wiring connection member. If so, the wire connection member shall be specified based on the extracted connection portion data and the connection data for the connection portion to be connected and the wire connection member having the connection portion,
  The display means reads image data corresponding to the wiring connection member having the connection portion specified as the connection target from the image data storage means based on the specified wiring connection member, and reads the read image data.The drawing data is generated by subjecting the data to the processing for generating the drawing data, and the generated drawing dataAnd displaying the connection portion in the image of the wiring connection member and distinguishing the identified connection portion from other connection portions of the wiring connection member.DoCan be.
  By doing so, in addition to the connection portion to be displayed, it is possible to display up to the wiring connection member having this, so that the labor of maintenance / inspection work can be further reduced.
[0009]
Further, the display means may clearly indicate the connection portion to be displayed separately from the other connection portions of the wiring connection member having the connection portion. By doing so, the user can visually recognize the relationship between the designated connecting portion and other connecting portions, which is more preferable in terms of labor reduction.
[0010]
  Also,The circuit diagram data for drawing the circuit diagram data representing the system circuit diagram representing the mounting state of the electrical component, the connection member, and the wiring included in the system is stored as data that can extract the circuit portion including the connection member. The circuit diagram data storage means for comparing the connection member having the designated connection portion with the circuit diagram data of the circuit diagram data storage means, and the connection member having the designated connection portion is included. Data for displaying a circuit diagram portion in a system circuit diagram is cut out from the circuit diagram data, and a circuit for displaying the circuit diagram portion in the system circuit diagram including the specified connecting member based on the cut-out circuit diagram data Has a display meansIf you doA circuit diagram portion in the system circuit diagram including the identified connecting memberCan also be visually recognized on the display, which is more preferable in terms of labor reduction.
[0011]
  Further, the positional information of the electrical component in the system.And storing layout drawing data for displaying a layout drawing image indicating the wiring layout of each electrical component and the mounting wiring between the connection member and each electrical component, reflecting the information and the connection position information of the connection member Layout drawing data storage means for storing the wiring layout in the layout drawing image and wiring data associated with each mounting wiring in order to specify the connection member;
The layout drawing image is displayed based on the layout drawing data, and the wiring data corresponding to the mounting wiring connected to the designated connection portion is read from the layout drawing data storage means, and the read wiring data Through the process of clearly distinguishing the wiring layout of the mounting wiring corresponding to the wiring layout connected to the other connecting member and the connecting member, the wiring layout in the layout image and the other connecting member A wiring layout connected to the connecting member;Distinguish and clarifySystem display meansIt can also be done.
  In this way, by comparing the actual system and the displayed layout drawing image, the wiring layout connected to the connection member having the connection portion specified by the user can be easily recognized in the actual system. For this reason, the labor of maintenance and inspection work can be further reduced.
[0012]
  In order to solve at least a part of the above problem, the first program of the present invention is:
  A program that uses a computer to present a connection status in a system having a plurality of electrical components,
  In the computer,
  In order to specify the connection part which the connection member which connects the said electrical component and mounting wiring has, the connection part data matched for every said connection part are set for every said connection memberAnd for each of the connecting portions of the connecting memberOne connection member and the other connection part that are memorized and connected via mounting wiringIn front of woodOne connectionBefore in the materialThe other connecting portion to be connected to the connecting portionBefore in the materialConnection data associated with each connection portion of the one connection member in order to identify the connection portionBeforeConnection data storage means for storing each connection portion of the one connection member;
  Image data storage means for storing, for each of the connection members, image data for drawing the image of the connection member including the image of the connection portion of the connection member;
  A connection part designating means for designating one of the connection parts of the connection member;
  The connection data associated with the connection designated by the user and the connection data are extracted from the connection data storage means based on the designated connection, and the extracted connection data and the Termination dayThe designated connection part corresponding to the data is the connection part in the one connection member at the time of storing the connection data in the connection data storage means, and the connection object of the designated connection part and A contact in the other connecting memberContinuedThe connection data that is the other connection member having the specified connection portion corresponds to the specified connection portion. The connection data is compared with the data stored in the connection data storage means.Connection target specifying means to be determined,
  Image data corresponding to the connecting member having the designated connecting portion and the connecting member having the specified connecting portion as a connection target is read from the image data storage unit based on the connecting member.In drawing and displaying both connecting members of the connecting member having the specified connecting portion and the connecting member having the specified connecting portion, the specified connecting portion and the specified connecting portion; The read image data is processed in a process for generating drawing data that is displayed separately from the other connection parts of the two connection members while being included and displayed in the images of the connection members, Drawing data is generated based on the read image data, and the generated drawing data is generated.Based on the data, the specified connection and the identified connectionAndWhen displayed in the image of the connection memberBeforeA function as display means for displaying the designated connection portion and the specified connection portion separately from other connection portions of the connection member is realized.
[0013]
  In this case, when the computer is caused to function as the connection data storage means, the connection data of the wiring connection member included in the wiring connection member that connects the electrical components is also stored for each of the wiring connection members.And for each of the connecting portions of the wiring connecting memberStoring and realizing the function of storing the connection data for each connection portion of the wiring connection member;
  When the computer functions as the image data storage means, the wiring connection member also has a function of storing image data to be drawn for each wiring connection member including the connection portion in the image of the wiring connection member.
  When the computer functions as the connection target specifying unit, a connection unit that is a connection target of the specified connection unit based on the extracted connection data and the connection data corresponding to the specified connection unit is provided. In the case of the wiring connection member, the function of specifying the wiring connection member based on the extracted connection portion data and the connection data for the connection portion to be connected and the wiring connection member having the connection portion Realized,
  When the computer functions as the display unit, image data corresponding to the wiring connection member having the connection portion specified as the connection target is read from the image data storage unit based on the specified wiring connection member, Read image dataThe drawing data is generated by subjecting the data to the processing for generating the drawing data, and the generated drawing dataAnd displaying the connection portion in the image of the wiring connection member and distinguishing the identified connection portion from other connection portions of the wiring connection member.DoIt can also be a program for realizing the function. Further, the wiring data storage means for storing mounting wiring data for displaying an image of the mounting wiring for connecting the connecting member and the wiring connecting member to the computer, and the connecting member having the designated connecting portion; The mounting wiring data corresponding to the mounting wiring connecting the wiring connection member is read from the mounting wiring data storage means, the read mounting wiring data, the identified connection member, and the image data about the wiring connection member. And a function as a circuit display means for displaying the image of the mounting wiring based on the mounting wiring data together with the image of the connection member based on the image data and the image of the wiring connection member. Reflect the position information of the electrical components in the program and the system and the connection position information of the connection member, In order to store layout drawing data for displaying a layout drawing image indicating a wiring layout of the mounting wiring between the connection member and each electrical component, and to specify the wiring layout and the connection member in the layout drawing image Layout drawing data storage means for storing wiring data associated with each mounted wiring, and the layout drawing image displayed based on the layout drawing data, and the mounting connected to the designated connection unit The wiring data corresponding to the wiring is read from the layout drawing data storage means, and the wiring layout of the mounting wiring corresponding to the read wiring data is divided into another connection member and a wiring layout connected to the connection member. Through a separate process, the wiring layout is converted into the label. In the out-image can also be a program for realizing the functions of and the system display unit manifests as distinguished from the connected wiring layout to another connecting member and the connecting member.
  And it can also be set as the computer-readable recording medium which recorded such a program. In addition, it can also be set as the aspect of the data signal embodied in the conveyance path by including such a program. As another aspect, it is also possible to adopt an aspect as a program supply apparatus that supplies such a program via a communication path. In this aspect, the above-described connection status presentation can be realized by placing the program on a server or the like on a network, downloading a necessary program to a computer via a communication path, and executing the program.
[0014]
The first program and recording medium of the present invention having the above-described configuration can achieve the same operations and effects as the above-described connection status presentation device of the present invention, and can reduce the labor of maintenance and inspection work.
[0015]
  In order to solve at least a part of the problem, the second connection status presentation device of the present invention provides:
  An apparatus for presenting a connection status in a system having a plurality of electrical components,
  It has a server that can send and receive data to and from a computer that has a display device and is a user terminal,
  The server
  In order to specify the connection part which the wiring connection member which connects the said electrical component and mounting wiring has, the connection part data matched for every said connection part for every said wiring connection memberAnd for each of the connecting portions of the wiring connecting memberOne wiring connection member and the other wiring connection part memorized and connected via mounting wiringIn front of woodOne wiring connectionBefore in the materialThe other wiring connection part to be connected to the connection partBefore in the materialIn order to specify the connection part, the connection data associated with each connection part of the one wiring connection member is stored for each connection part of the one wiring connection member, and the wiring connection member is specified. Connection data storage means for storing specific data associated with each wiring connection member;
  Image data storage means for storing, for each of the wiring connection members, image data for drawing the image of the wiring connection member including the image of the connection portion of the wiring connection member;
  When the user inputs the specific data in the computer, the input specific data is received from the computer, and the received specific data is compared with the specific data stored in the connection data storage means and received. Receiving means for specifying the wiring connection member corresponding to the specific data;
  The drawing data of the wiring connection member corresponding to the received specific data is extracted from the image data storage means, and the connection portion of the wiring connection member based on the extracted drawing data is included in the wiring connection member. First transmission means for generating drawing data to be displayed on the display device of the computer as the first drawing image included, and transmitting the generated drawing data to the computer;
  When the user instructs the computer to connect one of the connections included in the first drawing image drawn on the display device based on the drawing data received by the computer, the instruction is sent from the computer. And receiving the input from the connection data storage means based on the designated connection section and receiving the connection data and the connection data associated with the designated connection section that has received the input. A connection target specifying means for extracting and specifying the connection part to be connected to the designated connection part and the wiring connection member having the connection part based on the extracted connection part data and the connection data;
  The drawing data of the specified wiring connection member is extracted from the image data storage means, and includes the connection portion that the wiring connection member has an image of the specified wiring connection member based on the extracted drawing data. Drawing data for displaying a drawing image and an image including the second drawing image and the first drawing image on the display device of the computer is the image data for the first drawing image and the second drawing image. And second transmission means for transmitting the generated image data to the computer.
  It is characterized by that.
[0016]
  In the second connection state presentation device of the present invention having the above-described configuration, the server receives the specific data input from the user by the computer of the user terminal, and displays a drawing image of the wiring connection member corresponding to the specific data. Drawing data to be displayed on the display device as the first drawing imageGenerateTo the computer.
[0017]
  Next, the connection of the specified wiring connection membersWhen the user instructs the computer to connect one of the parts,Server, its indicated its connectionThe connection data received from the computer is extracted from the connection data storage means based on the designated connection portion, and the extracted data is extracted from the connection data storage means associated with the designated connection portion. Based on the connection part data and the connection data, the connection part to be connected to the designated connection part and the connectionHave partArrangementWire connection memberSpecialDetermine. The newly drawn drawing image of the wiring connection member is used as the second drawing image including the connection portion of the wiring connection portion, and the image includes the second drawing image and the first drawing image.Is generated on the display device of the computer based on the image data for the first drawn image and the second drawn image, and the generated image data is copied.To the computer.
[0018]
As a result, it is possible to display a certain wiring connection member and connection portion for which the user wants to grasp the connection status together with a new wiring connection member to be connected to this connection portion and the connection portion. As a result, the user can easily recognize a new wiring connection member and a connection part, which are connection partners of the wiring connection member and the connection part, by visually identifying only a certain wiring connection member and the connection part included in the wiring connection member. be able to. Therefore, it is possible to easily grasp the system connection status, and to reduce the labor of maintenance and inspection work.
[0019]
As described above, in the second connection status presentation device of the present invention, the server performs the process of specifying the wiring connection member and storing / transmitting the drawing data in response to a request from the computer. On the side, an image based on drawing data or the like is displayed. Therefore, in this connection status presentation device, it is possible to perform distributed processing between the server and the user terminal computer.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
Next, an embodiment of presenting a connection situation according to the present invention will be described based on examples. FIG. 1 is a block diagram showing a schematic configuration of a connection display system 10 according to a first embodiment in which the present invention is applied to an apparatus for displaying a connection state between electrical components of a vehicle, and FIG. 2 uses the connection display system 10. It is a conceptual diagram.
[0023]
As shown in the figure, the connection display system 10 includes a CRT display 12 as a display device, a keyboard 14 as an input / output device, and a mouse 16. The connection display system 10 also includes a hard disk drive (hereinafter referred to as HDD) 18 for storing data and a CD drive 22 for reading the contents of the CD-ROM 20, and a CPU 24 as a central processing unit that performs overall control thereof. Are connected to the above-mentioned devices, the RAM 26 and the ROM 28 by a bus. Since the connection display system 10 has such a configuration, in the first embodiment, the connection display system 10 is configured by a computer alone, and is installed on a gantry (not shown) so as to be movable around the inspection vehicle. As shown in the figure, the computer 11 can be connected to the server 30 via a network (for example, the Internet), and the computer 11 and the server 30 can constitute a connection display system. Is added with a network control circuit 32. A connection display system using the server 30 will be described later as a second embodiment.
[0024]
The CPU 24 executes a connection status display program, which will be described later, stored in the HDD 18, and at that time, reads data from the HDD 18 and the CD drive 22, writes and reads data temporarily to the RAM 26, and displays on the CRT display 12. Control and so on. The CD-ROM 20 stores in advance a connection status program to be transferred to the HDD 18 and various data to be described later, and these program data are transferred to the HDD 18 via the CD drive 22. The connection status program and data are transferred from various portable recording media (portable recording media) such as an IC card in addition to a floppy disc and a magneto-optical disc in place of those stored in the CD-ROM 20. It can also be configured. Further, the computer 11 has a network control circuit 32, and the connection status program and data are transferred from an external server via the network control circuit 32 and a network (for example, the Internet, an intranet, etc.) to which the computer 11 is connected. It can also be configured. Such a transfer from the server is performed prior to the execution of the processing every time the connection status display is executed, or only when the connection status display is performed for the first time, and the program and data are stored in the HDD 18 at the time of the transfer. You can also.
[0025]
Next, data in the connection display system 10 will be described. 3 is an explanatory diagram for explaining the connection data used in this connection display system 10, FIG. 4 is an explanatory diagram for explaining the wire routing data included in this connection data, and FIG. 5 is also included in the connection data. FIG. 6 is an explanatory diagram showing a part of the system circuit diagram data included in the connection data, and FIG. 7 is an explanatory diagram showing a continuation of the circuit diagram data shown in FIG. FIG.
[0026]
As shown in FIG. 3, the connection data includes various actuators and their control devices, for example, an engine for each engine cylinder, a knocking sensor, an engine speed and the like, and an electronic control device for controlling them. Connector data relating to the connector for connecting the connector, system circuit diagram data indicating the wiring status using the connector, and wire routing data relating to the wiring connected to each connector.
[0027]
As shown in FIG. 5, the connector-related data includes image data for drawing the end face shape of each connector and pin numbers included in the connector, component list data for each connector, position information data for pin numbers, and wiring. Contains information data.
[0028]
The image data is image data for drawing the connector appearance (contour) and pin number on the CRT display 12 as shown in FIG. As shown in the figure, the image data is stored for each connector by associating code number data for specifying the connector with color data for specifying the color of the connector.
[0029]
The component list data is data indicating which component each connector is attached to, and is used as a key for a later-described search. For example, a connector (refer to FIG. 5) specified by code number data I8 is used for the injector of the third cylinder of a 6-cylinder engine, and this connector is given the name of injector # 3. Is a parts list name. The parts list data is constructed by associating the part list name (injector # 3) with the code number data (I8) of the connector.
[0030]
  The position information data of the pin number is the pin position that the connector has, for example, an I8 connector.IfThis data specifies the positions of the pins 1 and 2 (in this case, the left and right positions). The connection information data specifies information about each pin of the connector and the wiring connected to the pin (for example, the number and color data for distinguishing the wiring), the pin number of the connection destination via this wiring, and the connector having this pin. This is data in which the above-mentioned code number data for matching is associated with the parts list name of the connector. In this case, since the connector can be specified by the code number data and the parts list name (for example, the above-mentioned injector # 3), the data storage of either the code number data or the parts list name is performed when the connection information data is constructed. It can also be. Such connection information data can also be constructed by being included in system circuit diagram data described later.
[0031]
The system circuit diagram data is prepared for each system included in the vehicle, for example, an engine control system, an ABS system, a light control system, an indoor lighting system, and the like, and image data for drawing a system circuit diagram for each system. And title list data indicating the system title of the circuit diagram. The system circuit diagram data is based on design circuits of actuators, sensors, electronic control devices, and the like in each system, and represents the mounting state of wiring between these electrical components. For example, as shown in FIGS. 6 and 7, in the engine control system, injector # 3 to which the connector indicated by I8 is attached has one terminal connected to a power source, a fuse box, and an ignition switch. The other terminal is connected to the 30th pin of the engine control module. In this case, it is also shown that the 30th pin corresponds to the pin 1 of the connector specified by E15. Further, in order to cut out and display a circuit portion including such a connected device, position information of a connector serving as a tag for reading out the circuit portion is also included in the system circuit diagram data.
[0032]
The image data is image data for drawing a system circuit diagram as shown in FIGS. 6 and 7 on the CRT display 12. In the figure, the name of the electrical component in the circuit and the code number data, pin number, wiring color, etc. of the connector attached to this are shown together. However, since the connector is specified by the code number data, this code number Based on the data, the electrical component name, pin number, etc. may be displayed from the connector data. Even this image data is stored for each system. When displaying the system circuit diagram on the CRT display 12, a display method such as scroll display is adopted.
[0033]
The title list data is data indicating the name of each system, and can also be used as a key for a search described later.
[0034]
As shown in FIG. 4, the wire routing data includes image data for drawing an illustration of the wiring situation between the electrical components, reflecting the arrangement positions of the electrical components, and component list data of each connector. It is.
[0035]
  Wire routing data imageThe image data is image data for drawing an illustration image as shown in FIG. 4 on the CRT display 12, and is a code for identifying the component electrical equipment, mechanical parts, connector connection position, mounting wiring status, and connector of the corresponding system. Contains number data. This image data is stored for each system.. MaIn addition, in order to perform highlight display (for example, flash display or display in another color) of the corresponding connector, the wiring connected thereto, and the code number data of the connector in the drawing layout, these are read from the layout image. Position information that serves as a tag for this is also included in the wire routing data.
[0036]
The parts list data is data indicating the name of each system, and can also be used as a key for a search described later.
[0037]
Each of the above-mentioned data differs depending on the grade, option, engine type, etc. of the vehicle. Therefore, for each vehicle to be inspected, the CD-ROM 20 in which data is read from the CD-ROM 20 or recorded for each vehicle is stored. Use replacement. Alternatively, as will be described later, such data can be prepared in the server and read as needed, or only the result can be received from the server.
[0038]
Next, connection display processing performed by the connection display system 10 of the present embodiment will be described. 8 is a functional block diagram of connection search / display processing constructed by the connection display system 10, and FIG. 9 is a flowchart showing connection search / display processing.
[0039]
As shown in these drawings, the connection display system 10 includes a search screen display in which a computer 11 constituting the connection display system uses a CPU 24, a RAM 26, and the like to display a search base screen, various screens during search, and a result screen. A data processing unit 44, a data processing / display control unit 42 that performs processing for data processing for search and a drawing screen operation as a result thereof, and a data unit 44 that stores the various data described above. In this way, connection search / display processing is executed.
[0040]
As shown in FIG. 9, first, a search key input from the user (maintenance inspector) is waited (step S100). FIG. 10 is an explanatory diagram for explaining the state of the search key input standby screen, and FIG. 11 is an explanatory diagram for explaining another search key input standby screen and a display screen after the search key is input.
[0041]
When there is a predetermined operation (for example, operation of a connection search start key), an input standby screen shown in FIG. 10 or FIG. In this standby screen, a menu bar is displayed at the top thereof, and the process proceeds by selecting a tag in the menu bar.
[0042]
FIG. 10 shows a standby screen that is displayed when the connector list tag M1 on the menu bar is selected. By selecting the tag, all the search source connector names (connector attachment products) are sequentially displayed on the left side of the screen. A list is displayed (for example, in alphabetical order). The user selects a connector name as a search source from the list displayed by operating the mouse or the like. In addition, you may operate all the connector display buttons AB in a figure.
[0043]
In addition, the system circuit tag M2 can also be used. In this case, when the system circuit tag M2 is selected, a list of systems included in the vehicle to be inspected is displayed (for example, an engine control system, an air conditioner control system, etc.), and a system including the connector to be inspected is selected from the list display system. The connector name (connector type) included in the selection system is displayed as described above. Therefore, the search source connector is selected from this connector name list. In addition, an input field for inputting a connector name and a search button SB are prepared at the upper left of the drawing, and a connector can be selected as follows.
[0044]
As shown in FIG. 11, first, a part of the connector name is input and the search button SB is operated. Then, since the connector names including a part of the input connector name are listed (injector No. 1 to No. 6), the search source connector name is selected.
[0045]
When the connector name is selected as the search source part name by the user in this way, the data (search source part code) is passed to the data processing / display control unit 42, and the data processing / display control unit 42 receives the search source part code. Using the key as a key, the search source part is specified and processing necessary for displaying the part is performed (step S110). That is, the data processing / display control unit 42 collates the input search source part code with the component list data of the connector data in the data unit 44, and specifies the image data of the connector corresponding to the matching component list name. Then, an image based on the image data is displayed on the CRT display 12 by the search screen display unit 40.
[0046]
FIG. 12 is an explanatory diagram showing a drawn image of a connector input / specified as a search source. As shown in the figure, when the search source part is specified, an external view (outline drawing) of the part is displayed as an image together with pin numbers and numbers, and the part name (name of the part to be attached to the connector) is displayed in the name column. The code number is displayed in the code field, and the part number and connector color are displayed in text in each display field. In the figure, since the injector # 3 is selected (highlighted) in the left list, the external view, the part name (Injector No. 3), the code number (I8), and others of the connector I8 (see FIG. 5) corresponding to this The above text is displayed. The part number data is included in the connector data as data different from the parts list data or as part data of the parts list data.
[0047]
The screen shown in FIG. 12 becomes the next search key input standby screen, and the search key input from the user (maintenance inspector) is waited on this screen (step S120). The user inputs a search key (search source pin number) by selecting the pin number number displayed on this screen. When the search source pin number is input, first, the search screen display unit 40 or the data processing / display control unit 42 highlights the input pin number number (step S130). Various display methods can be adopted for the highlight display, and a display surrounded by a circle or a number can be flashed.
[0048]
Next, using the input search source pin number and the input search source part as a key, the pin connected to the pin of the input search source pin number of the search source part (connector) and the search destination part (connector) having the pin are searched and specified. (Step S140). That is, the data processing / display control unit 42 collates the input search source pin number for the specified search source connector as described above with the connection information data or the like of the data unit 44 and matches the matching connection destination pin number and this pin. A part list name of a connector having a connector (connection destination connector) is searched and specified, and image data of the corresponding connector is specified.
[0049]
Next, the data processing / display control unit 42 determines whether it is necessary to perform a continuous search (step S150). For example, when connecting and wiring a certain part to another part, the wiring may be branched or merged to simplify the circuit configuration. In such a case, branch connectors and relay connectors that are not directly attached to the electrical components are used, and these components are interposed in the wiring to connect the electrical components. When such a circuit configuration is adopted, the connection information data of the connector data includes the data of the wiring and the connector / pin to which the wiring is connected, so that the electrical component to be connected (that is, the electrical component mounting) Connector) cannot be specified. Therefore, when the connection destination part searched / identified in step S140 is such a branch connector or relay connector, a connector to be mounted on the electrical component to which these connectors are further connected is also searched. Therefore, if an affirmative determination is made in step S150, the processing in step S140 described above is repeated so as to search for and specify the connector that is the final connection destination. If the branch connector or relay connector is directly input during the search key input standby in step S100, the input connector and pin are drawn (step S110), and the search source pin number in step S120 In step S140, a plurality of connection destinations are searched and specified from the beginning.
[0050]
Following the continuous search in step S150, it is determined whether a plurality of connection destination connectors have been searched (step S160). This is for the case where a search source pin of one search source connector is connected to pins of a plurality of connectors when a branch connector is used.
[0051]
When an affirmative determination is made in step S160, that is, when there are a plurality of connection destination connectors, the connection destination connectors are specified as follows. That is, the parts information of each connector relating to the plurality of connection destination connectors searched is collected from the connection information data, parts list data, etc. of the connector data and displayed (step S170). FIG. 13 is an explanatory diagram for explaining a screen display when a branch connector (junction connector) is interposed between wirings or when this connector is input as a search source connector.
[0052]
As shown in the figure, in this case, an external view of the corresponding branch connector, a pin number and an input pin number (circled display) are drawn, and with this drawing, a plurality of connectors to be connected. Parts information is displayed in a list at the upper left of the screen. According to this screen, the pins with pin numbers 1, 6 and 7 of the branch connector are short-circuited within the connector, and the pin with the pin number 2 of the connector of the code number E5 and the code are connected via any of these pins. It can be seen that the ground contact terminal of the number ED is branched and connected to the pin of the pin number 3 of the connector of the code number I1.
[0053]
This screen becomes an input standby screen for selecting a plurality of connection destinations, and the screen waits for a code specific key input from the user (step S180). The user inputs the connection destination connector by selecting the code number displayed on this screen. When this connection destination connector is input, the search screen display unit 40 collates the input code number with the connector data connection information data, parts list data, etc. in the data unit 44, and uses the matching connector as the final connector. The connector and the connection destination pin number are specified, the image data of the corresponding connector is specified, and an image is displayed on the search screen display unit 40 based on the image data (step S190). FIG. 14 is an explanatory diagram for explaining a state of drawing in which a final connection destination connector is specified and displayed when there are a plurality of connection destinations.
[0054]
As shown in the figure, on this screen, the external view of the connector entered and specified by the user as the final connection destination is displayed along with the pin number and the pin number of the connection destination is highlighted. ing. Moreover, the connection destination connector is displayed side by side with the branch connector that is the source of the search or the branch connector that is the result of the search. In this case, the search source connector can be displayed together with the branch connector and the final connection destination connector.
[0055]
On the other hand, if a negative determination is made in step S160, that is, if there is only one connection destination connector, the connection destination connector has been specified in the previous step S140, and thus the above-described step S190 is displayed to display that connector. Migrate to FIG. 15 is an explanatory diagram for explaining a state of image display when there is one connection destination. In this case, as shown in the figure, the search source connector and the connection destination connector are displayed side by side, and the search source / connection destination pins are also highlighted.
[0056]
As shown in FIG. 15, the above-described connection search can be continued on the search result screen displaying the search source connector and the connection destination connector. That is, the screen shown in FIG. 15 is used as a search key input standby screen for selecting a pin number in step S120, and the input of the pin number (search source pin number) from the user (maintenance inspector) is awaited. And, if there is an input of a pin number other than the pin number (1 in this case) of the search results so far, among the 1 to 31 included in the connector (E15) on the left side in the figure, this input pin number number is updated. The processing after step S130 is executed as a search source pin number. As a result, the image of the new connection destination connector obtained based on the new search source pin number is displayed side by side with the connector (E15). In addition, the connection destination pin number in the new connection destination connector is also distinguished and displayed as described above. In this case, the new connection destination connector image is displayed instead of the previous search source connector image (I8).
[0057]
The above search continuation includes not only the input connector pin number input in the search result screen so far, but also the input of the search source connector pin number (pin number 2 in FIG. 15) on the screen. Also executed. That is, a continuous search is executed by inputting a new pin number for both the search source connector and the connection destination connector on the search result screen.
[0058]
Of the display images described above, the screen in which the search source connector and the connection destination connector shown in FIGS. 14 and 15 are drawn side by side is configured to be printed by a printer (not shown) connected to the computer 11 via a network. You can also.
[0059]
Next, other functions performed by the connection display system 10 will be described. When performing the above-described screen display, the connection display system 10 displays the system circuit display button HS and the wire routing display button HW on the screen by the search screen display unit 40 or through the data processing / display control unit 42. Display side by side in the figure. These are operable when the connector external view is displayed, and when the system circuit display button HS is operated, the system circuit is displayed as follows. FIG. 16 is an explanatory diagram for explaining a screen display when the system circuit display button HS of the injector # 3 is operated in the image shown in FIG. 15, and FIG. 17 is a case where the wire routing display button HW of the injector # 3 is also operated. It is explanatory drawing explaining the mode of a screen display.
[0060]
When the system circuit display button HS is operated, the search screen display unit 40 informs the data processing / display control unit 42 of the button operation. The data processing / display control unit 42 collates the code number data for the connector (injector # 3) to be operated with the system circuit diagram data of the data unit 44, and determines the circuit portion including this connector (injector # 3). The corresponding circuit portion is displayed by cutting out from the image data of the system circuit diagram (see FIG. 16). In this case, the position information about this connector (injector # 3) is used to specify the system circuit including the cutout circuit portion and the cutout portion. In such circuit display, information about the connected wiring, for example, the wiring color can be displayed in color or symbol. In the system circuit diagrams shown in FIG. 6 and FIG. 7, the connector (injector # 3) and the peripheral connector, for example, a portion including the same type of connectors (injectors # 1 to # 6) are cut out. It is also possible to highlight only the circuit portion related to ().
[0061]
When the wire routing display button HW is operated, the search screen display unit 40 notifies the data processing / display control unit 42 of the button operation. The data processing / display control unit 42 collates the code number data of the connector (injector # 3) to be operated with the wire routing data of the data unit 44, and illustrates the system including this connector (injector # 3). The image is displayed as shown in FIG. 17, and the wiring trace (layout) connected to the connector (injector # 3) is distinguished and highlighted. In this case, the position information about this connector (injector # 3) is used to specify the wire routing of the system including the search source connector (injector # 3) and the highlight display part.
[0062]
As described above, in the connection display system 10 according to the present embodiment, when the maintenance (inspection) is performed, the operator (user) simply designates the search source connector and its pin, and the maintenance / inspection is given to the user. It is possible to easily recognize the connection destination connector and the pin that are the objects of the work. Therefore, the work can be simplified and the efficiency can be improved, and the reliability of maintenance and inspection can be improved. Moreover, since both the search source and connection destination connectors are presented side by side for recognition, it is possible to effectively avoid the misidentification of both connectors to be worked.
[0063]
Further, when the connector pin image is presented, both the search source pin and the connection destination pin are highlighted, which is effective in improving visibility and avoiding misidentification.
[0064]
In addition, since the circuit part including both the search source and connection destination connectors is displayed according to the user's request, it is possible to easily grasp the wiring connection status to both connectors and pins in the circuit, reducing labor. Can contribute. At this time, the color information data of the mounted wiring is stored, and the wiring color and the color symbol are displayed based on this color information, so that the wiring status can be grasped more easily.
[0065]
In addition, as shown in FIG. 17, the electrical components to be attached to the connector, their connector positions, and the wiring mounting status are shown in a layout diagram including these positional relationships. In this drawing, the search source (or connection destination) Highlight connectors and mounting wiring. Therefore, it is possible to surely check the wiring situation that is more realistic and to further reduce the labor of maintenance / inspection work.
[0066]
Next, a second embodiment will be described. The second embodiment is characterized in that a connection display system is constituted by a client computer that is a user terminal and a server that is communicably connected to the computer. That is, in the second embodiment, as shown in FIG. 2, the computer 11 is provided as a client computer, and the computer 11 is connected to the server 30 via a network. In this case, the computer 11 has a network control circuit 32 as shown in FIG.
[0067]
FIG. 18 is a block diagram showing a schematic configuration of the connection display system 50 of the second embodiment. As shown in the figure, the server 30 includes a CRT display 32, a keyboard 34, a mouse 36, an HDD 38, a network control circuit 39, and a CD drive 40 for reading the contents of the CD-ROM 20, which are a RAM 42 and a ROM 44. In addition, the CPU 46 is connected to each other. The connection display system 50 has the server 30 and the computer 11 connected via a network such as the Internet, an intranet, or a local area network (LAN).
[0068]
As described above, the program data is transferred to the HDD 38 via the CD drive 22 as well as various portable recording media (portable type) such as a floppy disk, a magneto-optical disk, and an IC card. It can also be transferred from a recording medium.
[0069]
FIG. 19 is a functional block diagram of connection search / display processing constructed by the connection display system 50 having the server 30 and the computer 11. As shown in the figure, the connection display system 50 is configured so that the search / display processing performed by the first embodiment described above is distributed to the computer 11 and the server 30, and the computer 11 includes a web browser 11a, a display control unit 11b, and the like. Have Therefore, the computer 11 captures image information from the web browser 11a via the Internet, and displays an image based on the information on the CRT display 12 by the display control unit 11b.
[0070]
The server 30 includes an http server 30a and has a highly versatile server environment that does not depend on the OS of the connected computer. That is, the server 30 stores the Java servlet interface (Java Servlet Interface) 30b, the Java servlet execution environment 30c, the Java execution environment 30c, the search processing execution unit 30e, the connector data described in the first embodiment, and the like. Each of which has various information storage units 30f, executes a search process described later in response to a request from the web browser (computer 11), and stores the result as an html file in the web content 30g while requesting the web browser (computer 11). ). Although Java servlet is used to enhance the versatility of processing, if the client computer is fixed, an execution environment capable of distributed processing only with that computer can be used.
[0071]
Next, connection display processing performed in the connection display system 50 of the second embodiment will be described. FIG. 20 is a flowchart showing connection search / display processing in the connection display system 50.
[0072]
As shown in the figure, first, when the computer 11 is operated by the user and an instruction to start processing is given, the instruction is sent from the computer 11 to the http server 30a of the server 30 via the Internet. In response to this, the server 30 creates search key input standby screen content from the user by the search processing execution unit 30e and the like, and transmits this to the computer 11 (step S200). The computer 11 displays this standby screen as a browser screen on the CRT display 12, and waits for a search key input (step S300). FIG. 21 is an explanatory diagram for explaining the state of the search key input standby screen, and the display screen is as described in FIG.
[0073]
It is assumed that a part of the connector name is input in the connector name input field on the computer 11 in the screen display state of FIG. FIG. 22 is an explanatory diagram for explaining how the screen is displayed after the connector name is input. Then, as shown in the figure, the computer 11 displays the input characters, and lists and displays the connector names including the input connector names in part by the subsequent search button SB operation (injector No. 1 to No. 6). The user selects the listed connector name as a search source connector. The name list display on the computer 11 is performed by transferring the connector name list data from the server 30 to the HDD 18 of the computer 11 or reading the data on the computer 11 via the CD drive 22 at the start of the search process. Executed.
[0074]
When the connector list tag M1 and the system circuit tag M2 on the menu bar are operated on the standby screen shown in FIG. 21, the same display control as that in the first embodiment is executed on the computer 11 side. Even in this case, even if the system name or the connector name is displayed, the computer 11 can easily execute it by storing only the name data.
[0075]
In the screen of FIG. 22, when a connector name (for example, injector # 3) is input by the user as a search source part name, the computer 11 assigns a part code from the part name and transmits the code data to the server 30 ( Step S310). Upon receiving this data, the server 30 specifies the search source part by the search processing execution unit 30e using the search source part code as a key, and performs processing necessary for displaying the part (step S210). This search process is the same as the process in the first embodiment, and the server 30 creates a screen content of a search intermediate result that displays the appearance of the specified connector together with the pins, and transmits this to the computer 11 (step S210). ). The computer 11 displays this intermediate result screen on the CRT display 12, and waits for a search key (pin number) input (step S320). FIG. 23 is an explanatory diagram for explaining the state of the search intermediate result screen that displays the appearance of the specified connector together with the pins, and the display screen is as described in FIG.
[0076]
As shown in FIG. 12, the screen of FIG. 23 becomes an input standby screen for the next search source key (pin number). When the user inputs a pin number number as the search source pin number on this screen, the computer 11 The data (search source pin number) is transmitted to the server 30 (step S330). As the pin number is selected, the computer 11 highlights the selected pin number.
[0077]
Upon receiving this data, the server 30 uses the input search source pin number and the input search source part as keys, and the search destination part having the pin connected to the pin of the input search source pin number of the search source part (connector) and the pin. (Connected connector) is searched and specified (step S220). Next, processing necessary for displaying the connection destination connector is performed (step S230). This search / identification process is the same as the process in the first embodiment, and the server 30 creates a screen content of a search intermediate result that displays the appearance of the identified connection destination connector together with the pins. In this image content, the pin number of the pin connected to the search source pin is highlighted while displaying the external view of the connection destination connector and all the pin number numbers of the connector.
[0078]
Then, the server 30 transmits the result image content created for the identified connection destination connector to the computer 11 (step S230). As shown in FIG. 24, the result screen content includes a search source connector image including a search source pin number to be highlighted in the external view of the search source connector and a connection to be highlighted in the external view of the connection destination connector. The connection destination connector images including the destination pin numbers are arranged side by side. The computer 11 displays this result screen on the CRT display 12 (step S340). Thereby, the process ends.
[0079]
As described in the first embodiment, when it is necessary to perform a continuous search by wiring branching / merging, the processes from steps S150 to S180 in the first embodiment are repeated in the computer 11 and the server 30. Each time, screen content creation and screen display are shared. That is, as shown in FIG. 25, the server 30 first creates image content that displays the appearance and pin number of the relay connector and the like from information related to the search source connector and causes the computer 11 to display the image content. Further, the server 30 creates a list-format screen content CLW that prompts selection from a plurality of connection destinations, and causes the computer 11 to display the screen content CLW so as to overlap the relay connector appearance screen. Then, the computer 11 transmits the selected connector data to the server 30, and the server 30 displays the final connection destination connector specified based on the selected connector data and the search source connector side by side as shown in FIG. Contents are created and displayed on the computer 11.
[0080]
When the system circuit display button HS or the wire routing display button HW is operated on each screen of the computer 11 described above, the computer 11 transmits a display request signal to the server 30. In response to this, the server 30 creates image content for system circuit display and image content for wire routing display in the same manner as in the first embodiment, and transmits this to the computer 11. Therefore, the computer 11 displays the image shown in FIG. 16 or FIG.
[0081]
As described above, even in the connection display system 50 of the second embodiment, the user simply designates the search source connector and its pin on the computer 11 at hand, and the connection destination to be the object of maintenance / inspection work. Connectors and pins can be easily recognized (visually recognized). Therefore, the work can be simplified and the efficiency can be improved, and the same effects as those of the first embodiment can be obtained, such that the reliability of maintenance and inspection can be improved.
[0082]
Further, in the second embodiment, since the client computer may be configured to be able to browse the web, the computer 11 can be made lightweight and small specialized for web browsing and content display. Therefore, as shown in FIG. 27, it is assumed that the computer 11 can be worn by the body, the display device is a head-mounted type, and has a transmission type screen, and the operator performs the maintenance inspection work, The connection destination connector can also be made visible.
[0083]
Although the embodiments of the present invention have been described above, the present invention is not limited to the above-described embodiments and embodiments, and can of course be implemented in various modes without departing from the gist of the present invention. is there. For example, in the above-described embodiment, an example in which the present invention is applied to a vehicle has been described. However, the present invention can also be applied to maintenance inspection of an aircraft, a ship, a train, a machine tool, and the like.
[0084]
In the above-described embodiment, a system circuit diagram including a search source connector is prepared for each system. However, instead of this, it is also possible to use transmission / distribution diagram data as shown in FIGS. This total wiring diagram data is based on the design circuit of actuators, sensors, electronic control devices, etc., similar to the system circuit diagram data described above, and represents the wiring state between these electrical components. It includes image data for drawing, the name of the electrical component to be attached to the connector, and connector position information for reading out the circuit portion.
[0085]
Further, the second connection state presentation device of the present invention described above can take the following form. First, when the server receives the specific data from the computer, the wiring connecting member can be specified by inputting the specific data by the user in the computer of the user terminal. The computer that has received the drawing data from the server can display the user-specified wiring connection member on the display device as including the connection portion of the wiring connection member by using the drawing data. At this time, drawing data for displaying the drawing image can be two-dimensionally drawn and three-dimensionally drawn, so that the drawing image on the display device, or the wiring connection member display specified by the user can be displayed. Visibility can be improved.
[0086]
Next, when instructing the server from the computer of the user terminal to the connection part of the specified wiring connection member, the user's operation on the computer of the user terminal, for example, clicking on the connection part in the drawn image, key input of the connection part, etc. The computer can instruct the server of the result. Thereafter, the computer inputs drawing data including the first and second drawing images described above from the server, and displays the wiring connection member and the connection portion on the display device based on the drawing data. Even in this case, by making the drawing data for displaying the drawing image two-dimensional drawing and three-dimensional drawing possible, the visibility of the new wiring connection member display in the display device is improved. be able to.
[0087]
As described above, in the second connection status presentation device of the present invention, the processing load on the user computer can be reduced by performing distributed processing between the server and the user terminal computer. Therefore, this user computer can be a lightweight, low-throughput machine, or a specialized computer (for example, the computer body can be mounted on the user's belt or pocket, and the display device can be mounted in front of the eye as a transmission type. Wearable computer). In this way, actual maintenance / inspection work can be performed while viewing the display result of the connection status, and work efficiency can be improved.
[0088]
In this connection status presentation device, an input image into which specific data can be input can be displayed on a display device on the computer based on display data sent from the server to the computer. That is, at the beginning of the process, the input screen can be displayed on the computer by transmitting data from the server.
[0089]
And it can also be set as the program which makes a server or a computer implement | achieve a function as each means as already stated by the 2nd, 3rd connection status presentation apparatus, and the computer-readable recording medium which recorded such a program. In addition, it can also be set as the aspect of the data signal embodied in the conveyance path by including such a program. As another aspect, it is also possible to adopt an aspect as a program supply apparatus that supplies such a program via a communication path. In this aspect, the above-described connection status presentation can be realized by placing the program on a server or the like on a network, downloading a necessary program to a computer via a communication path, and executing the program.
[0090]
Even with such a program and recording medium, it is possible to achieve the same operations and effects as the above-described connection state presentation device of the present invention, and to reduce the labor of maintenance and inspection work.
[0091]
Other aspects of the invention
In addition, the present invention can be realized in other modes as follows.
That is, an apparatus for presenting a connection status in a system having a plurality of electrical components,
Mounting data storage means for storing mounting wiring data of wiring mounted between the electrical components based on the design circuit of the system;
Connection portion data relating to a wiring connection member used for mounting wiring on the electrical component and having a connection portion for connecting the connection terminal of the electrical component and the mounting wiring, the connection portion and the mounting wiring Connection data storage means for storing, for each of the wiring connection members, the connection part data having connection status data, drawing data of the wiring connection member including the connection part, and specifying data for specifying the wiring connection member; ,
When the specific data is input to the user, the drawing data of the wiring connection member corresponding to the input specific data is extracted from the connection data storage unit, and the wiring connection member based on the extracted drawing data is extracted. First display means for displaying a drawn image on a display device as a first drawn image including the connecting portion;
When a certain connection part is specified by the user among the displayed connection parts, the mounting wiring connected to the specified connection part is specified from the connection status data, and another connection destination of the specified mounting wiring is determined. The wiring connection member having the connection portion for identifying the electrical component that is the mounting data from the mounting data storage means and connecting the identified electrical component and the identified mounting wiring, the connection status A connection target identifying means for identifying based on the data;
Second display means for displaying a drawing image of the specified wiring connection member on the display device together with the connection portion based on the drawing data of the specified wiring connection member;
It is characterized by providing.
[0092]
In the connection state presentation device according to another aspect of the present invention having the above-described configuration, when a wiring connection member is specified through input of specific data by a user, a drawing image of the wiring connection member corresponding to the specific data is displayed on the wiring. It is displayed on the display device as including the connecting portion of the connecting member. At this time, drawing data for displaying the drawing image can be two-dimensionally drawn and three-dimensionally drawn, so that the drawing image on the display device, or the wiring connection member display specified by the user can be displayed. Visibility can be improved.
[0093]
Next, when the connection portion of the specified wiring connection members is specified by the user, for example, when the connection portion is clicked in the drawing image, the key input of the connection portion is performed, the mounting wiring connected to the connection portion Is identified from the connection status data, and an electrical component that is another connection destination of the identified mounting wiring is specified from the mounting wiring data. Then, another wiring connection member having a connection portion for connecting the specified electrical component and the specified mounting wiring is newly specified based on the connection status data. A drawing image of the newly specified wiring connection member is displayed on the display device together with the connection portion of the wiring connection member. Even in this case, by making the drawing data for displaying the drawing image two-dimensional drawing and three-dimensional drawing possible, the visibility of the new wiring connection member display in the display device is improved. be able to.
[0094]
Such a user can display a certain wiring connection member and connection part for which the connection status is required, a new wiring connection member to be connected to this connection part, and the connection part, and present the image to the user by display. . As a result, the user can easily recognize a new wiring connection member and a connection part, which are connection partners of the wiring connection member and the connection part, by visually identifying only a certain wiring connection member and the connection part included in the wiring connection member. be able to. Therefore, it is possible to easily grasp the system connection status, and to reduce the labor of maintenance and inspection work.
[0095]
The connection status presentation device of the above aspect can also be performed as follows.
That is, among the connection units displayed by the first display unit, a third display unit that clearly displays that the connection unit specified by the user has been specified and displays on the display device;
Among the connection portions displayed by the second display means, there may be provided a fourth display means for distinguishing and displaying the connection portion to which the specified mounting wiring is connected on the display device.
This has the following advantages.
[0096]
As described above, when the connection portion of the specified wiring connection members is specified by the user through a click operation or the like, the connection portion is clearly displayed on the display device to be specified by the user. . Thereby, the user can easily visually recognize the connection part specified by himself / herself.
[0097]
Further, when displaying the newly specified wiring connecting member and its connecting portion, the connecting portion to which the specified mounting wiring is connected is distinguished and displayed on the display device. Accordingly, the drawing image of the wiring connection member specified by the user and the drawing image of the new wiring connection member connected to the connection member via the mounting wiring can be simultaneously presented to the user on the display device. Moreover, while clearly indicating the connection part specified by the user, it is possible to distinguish and display a new connection part directly connected to the connection part via the mounting wiring, and the correspondence between the two connection parts can be displayed on the display device to the user. Can present. In this case, it is preferable that the wiring connection member specified by the user and the new wiring connection member are displayed side by side or vertically.
[0098]
As a result, the user can easily recognize a new wiring connection member and connection part, which is a connection partner of the wiring connection member and the connection part, by visually identifying a wiring connection member and the connection part included in the connection part. can do. Therefore, it is possible to easily grasp the system connection status, and to reduce the labor of maintenance and inspection work.
[0099]
Moreover, the following aspects can also be taken.
That is, the connection part specified by the user or a new connection part can be displayed in the drawn image of the wiring connection member in the display device.
If it carries out like this, the positional relationship of the connection part in a wiring connection member can be recognized easily, and the labor reduction of maintenance and inspection work can be promoted more.
[0100]
Further, the mounting wiring circuit including the wiring connection member displayed on the display device is displayed on the display device based on the mounting wiring data so as to include the wiring connection member symbolized and the mounting wiring connected thereto. You can also
This is preferable because the wiring status can be confirmed on the circuit.
[0101]
Furthermore, the electrical component, the wiring connection member and the mounting wiring in the system are included in the layout drawing image reflecting the arrangement position of the electrical component and displayed on the display device, and the wiring connection member which has been displayed on the display device (In other words, the user-specified wiring connection member and the corresponding wiring connection member) can be clearly distinguished from other wiring connection members in the layout drawing image.
In this way, by comparing the actual system and the displayed layout drawing image, the user-specific wiring connection member and the corresponding wiring connection member can be easily recognized in the actual system. For this reason, the labor of maintenance and inspection work can be further reduced.
[0102]
The program according to another aspect of the present invention is
A program for displaying the connection status in a system having a plurality of electrical components using a computer,
The computer
Storing mounting wiring data of wiring mounted between the electrical components based on the design circuit of the system;
Connection portion data relating to a wiring connection member used for mounting wiring on the electrical component and having a connection portion for connecting the connection terminal of the electrical component and the mounting wiring, the connection portion and the mounting wiring Storing the connection part data having connection state data, drawing data of a wiring connection member including the connection part, and specifying data for specifying the wiring connection member for each wiring connection member;
In the computer,
When the specific data is input to the user, the drawing data of the wiring connection member corresponding to the input specific data is extracted from the connection data storage unit, and the wiring connection member based on the extracted drawing data is extracted. First display means for displaying a drawn image on a display device as a first drawn image including the connecting portion;
When a certain connection part is specified by the user among the displayed connection parts, a second display means for clearly displaying that the specified connection part has been specified and displaying on the display device;
The mounting wiring connected to the specified connecting portion is specified from the connection status data, and the electrical component that is another connection destination of the specified mounting wiring is specified from the mounting wiring data of the mounting data storage means Then, the connection target specifying means for specifying the wiring connection member having the connection portion for connecting the specified electrical component and the specified mounting wiring based on the connection status data;
Third display means for displaying a drawing image of the specified wiring connection member on the display device together with the connection portion based on the drawing data of the specified wiring connection member;
Among the displayed connection parts, a function as fourth display means for distinguishing and displaying the connection part to which the specified mounting wiring is connected to the display device is realized.
[0103]
In this case, when the computer functions as the second display unit or the fourth display unit, the specified connection unit or the new connection unit is displayed on the wiring connection member displayed by the first display unit or the third display unit. It can also be set as a program for realizing a function to display in a drawn image.
Moreover, it can also be set as the computer-readable recording medium which recorded the program. In addition, it can also be set as the aspect of the data signal embodied in the conveyance path by including such a program. As another aspect, it is also possible to adopt an aspect as a program supply apparatus that supplies such a program via a communication path. In this aspect, the above-described connection status presentation can be realized by placing the program on a server or the like on a network, downloading a necessary program to a computer via a communication path, and executing the program.
[0104]
Even with the program and recording medium having the above-described configuration, it is possible to achieve the same operations and effects as the above-described connection status presentation device of the present invention, and to reduce the labor of maintenance and inspection work.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a schematic configuration of a connection display system 10 of a first embodiment in which the present invention is applied to an apparatus for displaying a connection state between electrical components of a vehicle.
FIG. 2 is a conceptual diagram using this connection display system 10;
FIG. 3 is an explanatory diagram for explaining connection data used in the connection display system 10;
FIG. 4 is an explanatory diagram for explaining wire routing data included in the connection data.
FIG. 5 is an explanatory diagram for explaining connector drawing data included in the connection data.
FIG. 6 is an explanatory diagram showing a part of the system circuit diagram data included in the connection data.
7 is an explanatory diagram showing a continuation of the circuit diagram data shown in FIG. 6; FIG.
FIG. 8 is a functional block diagram of connection search / display processing constructed by the connection display system 10;
FIG. 9 is a flowchart showing connection search / display processing;
FIG. 10 is an explanatory diagram for explaining a state of a search key input standby screen.
FIG. 11 is an explanatory diagram for explaining another search key input standby screen and a display screen after the search key is input.
FIG. 12 is an explanatory diagram showing a drawn image of a connector input / specified as a search source;
FIG. 13 is an explanatory diagram for explaining a screen display when a branch connector (junction connector) is interposed between wires or when this connector is input as a search source connector;
FIG. 14 is an explanatory diagram for explaining a state of drawing in which a final connection destination connector is specified and displayed when there are a plurality of connection destinations.
FIG. 15 is an explanatory diagram for explaining a state of image display when there is one connection destination;
FIG. 16 is an explanatory diagram for explaining a screen display when the system circuit display button HS of the injector # 3 is operated in the image shown in FIG. 15;
FIG. 17 is an explanatory diagram for explaining a screen display when the wire routing display button HW of the injector # 3 is operated.
FIG. 18 is a block diagram showing a schematic configuration of a connection display system 50 of a second embodiment.
FIG. 19 is a functional block diagram of connection search / display processing constructed by a connection display system 50 having a server 30 and a computer 11;
20 is a flowchart showing connection search / display processing in the connection display system 50. FIG.
FIG. 21 is an explanatory diagram for explaining a state of a search key input standby screen.
FIG. 22 is an explanatory diagram for explaining a screen display after a connector name is input.
FIG. 23 is an explanatory diagram for explaining a state of a search intermediate result screen that displays the appearance of a specified connector together with pins.
FIG. 24 is an explanatory diagram illustrating a screen display state corresponding to FIG. 15 of the first embodiment.
FIG. 25 is an explanatory diagram for explaining a screen display corresponding to FIG. 13 of the first embodiment;
FIG. 26 is an explanatory diagram for explaining a screen display corresponding to FIG. 14 of the first embodiment;
FIG. 27 is a conceptual diagram when the computer 11 can be worn by the body and the display device is a head-mounted type and has a transmissive screen.
FIG. 28 is an explanatory diagram showing a part of transmission / distribution diagram data instead of system circuit diagram data.
FIG. 29 is an explanatory diagram showing the other part of this transmission / distribution drawing data.
[Explanation of symbols]
10. Connection display system
11 ... Computer
11a ... Web browser
11b: Display control unit
12 ... CRT display
14 ... Keyboard
16 ... Mouse
18. Hard disk drive (HDD)
20 ... CD-ROM
22 ... CD drive
30 ... Server
32. Network control circuit
34 ... Keyboard
36 ... Mouse
39 ... Network control circuit
40 ... Search screen display section
42. Data processing / display control unit
44: Data section
50 ... Connection display system
AB ... All connectors display button
M1 ... Connector list tag
M2 ... System circuit tag
SB ... Search button
HS ... System circuit display button
HW ... Wire routing display button

Claims (10)

An apparatus for presenting a connection status in a system having a plurality of electrical components,
In order to specify the connection part which the connection member which connects the said electrical component and mounting wiring has, the connection part data matched for every said connection part for every said connection member and every said connection part which the said connection member has stores, before in the other connecting member to be connected before Symbol connecting portion before Symbol one connecting member of the other hand is connected via a mounting wiring of the connecting member and the other connecting member a connection data storing means for serial wire connection data associated with each connection portion of the one connecting member in order to identify the connection portion is stored in each of the connecting portions of the front SL one connection member,
Image data storage means for storing, for each of the connection members, image data for drawing the image of the connection member including the image of the connection portion of the connection member;
A connection part designating means for designating one of the connection parts of the connection member;
The connection part data and the connection data associated with the designated connection part are extracted from the connection data storage means based on the designated connection part, and the extracted connection part data and the connection data are extracted. The designated connection part corresponding to the data is the connection part in the one connection member at the time of storing the connection data in the connection data storage means, and the connection object of the designated connection part and The connection portion in the other connection member is identified by comparing the extracted connection data with the storage data of the connection data storage means, and the connection member as the other connection member having the specified connection portion, a connection object specifying unit that particular the connection portion data corresponding to the identified connection unit against the stored data of the connection data memory means,
Image data corresponding to the connection member having the designated connection portion and the connection member having the specified connection portion as a connection target is read from the image data storage unit based on the connection member, and is designated. In drawing and displaying both connecting members of the connecting member having the connecting portion and the connecting member having the specified connecting portion, the specified connecting portion and the specified connecting portion are respectively The drawing image data is processed by processing the read image data in a process for generating drawing data that is displayed while being included in an image of the connecting member and displayed separately from the other connecting portions of the two connecting members. generated based on the image data read out said, the based on the generated data for drawing, wherein the identified connection portion with specified connection portion and a front Symbol connecting portion And displays be included in the image, connection status presentation apparatus comprising: a display means for displaying a front Symbol wherein the specified connection part is identified connecting portion in distinction from the other connecting portion . The wire connection status presentation device according to claim 1,
The connection data storage means stores the connection part data for each of the wiring connection members and the connection parts of the wiring connection member for the connection parts of the wiring connection member that connects the electrical components. Connection data is stored for each connection portion of the wiring connection member,
The image data storage means stores image data to be drawn for each wiring connection member including the connection portion in the image of the wiring connection member for the wiring connection member.
The connection target specifying unit includes a connection unit to be connected to the specified connection unit and the connection unit based on the extracted connection unit data and the connection data corresponding to the specified connection unit. Identify the wiring connection member;
The display means, the readout from the line connecting the image data storage means on the basis of the wiring connecting member image data and the identified corresponding to a member having a connecting portion which is identified as a connection target, the image data read out said The drawing data is generated by performing the processing for generating the drawing data, and based on the generated drawing data , the image of the wiring connection member is included and displayed. The connection status presentation device that displays the identified connection portion separately from other connection portions of the wiring connection member. The wire connection status presentation device according to claim 1,
The circuit diagram data for drawing the circuit diagram data representing the system circuit diagram representing the mounting state of the electrical component, the connection member, and the wiring included in the system is stored as data that can extract the circuit portion including the connection member. Circuit diagram data storage means for
The connection member having the designated connection portion is collated with the circuit diagram data of the circuit diagram data storage means, and a circuit diagram portion in the system circuit diagram including the connection member having the designated connection portion is displayed. Connection state presentation having circuit display means for cutting out data to be displayed from the circuit diagram data and displaying a circuit diagram portion in the system circuit diagram including the identified connecting member based on the cut-out circuit diagram data apparatus. The connection status presentation device according to any one of claims 1 to 3,
The layout drawing data for displaying the layout drawing image indicating the wiring layout of each electrical component, the connection member, and the mounting wiring is reflected by reflecting the position information of the electrical component and the connection position information of the connection member in the system. Layout drawing data storage means;
The layout drawing image is displayed based on the layout drawing data, and the connection member having the designated connection portion is collated with the layout drawing data of the layout drawing data storage means, and the designated connection portion is displayed. In the layout image, the wiring layout for the connection member having the designated connection part is processed in the layout image through a process of clearly distinguishing the wiring layout for the connection member from the wiring layout for the other connection members. A connection status presentation device having system display means for clearly distinguishing from the wiring layout of the other connection members. A program that uses a computer to present a connection status in a system having a plurality of electrical components,
In the computer,
In order to specify the connection part which the connection member which connects the said electrical component and mounting wiring has, the connection part data matched for every said connection part for every said connection member and every said connection part which the said connection member has stores, before in the other connecting member to be connected before Symbol connecting portion before Symbol one connecting member of the other hand is connected via a mounting wiring of the connecting member and the other connecting member a connection data storing means for serial wire connection data associated with each connection portion of the one connecting member in order to identify the connection portion is stored in each of the connecting portions of the front SL one connection member,
Image data storage means for storing, for each of the connection members, image data for drawing the image of the connection member including the image of the connection portion of the connection member;
A connection part designating means for designating one of the connection parts of the connection member;
The connection data associated with the connection designated by the user and the connection data are extracted from the connection data storage means based on the designated connection, and the extracted connection data and the connection data as the connection data is the connecting portion of the one connecting member during storage of the connection data at the specified connection portion corresponding said connection data memory means, connected to said specified connection portion The connection portion of the other connection member that is the target is identified by comparing the extracted connection data with the storage data of the connection data storage means, and the connection member that is the other connection member having the identified connection portion and a connection target specifying means for particular the connecting part data corresponding to the identified connection unit against the stored data of the connection data memory means,
Image data corresponding to the connecting member having the specified connecting portion and the connecting member having the specified connecting portion as a connection target is read from the image data storage unit based on the connecting member, and the specified In drawing and displaying both connecting members of the connecting member having the connecting portion and the connecting member having the specified connecting portion, the designated connecting portion and the specified connecting portion are The drawing data is processed by processing the read image data in a process of generating drawing data that is displayed while being included in the image of the connecting member and displayed separately from the other connecting portions of both the connecting members. generated based on the image data read out said, the based on the generated data for drawing, wherein the identified connection portion with specified connection portion and a front Symbol connecting portion Co Viewing be included in the image, the program for realizing the function of the said specific connection portions before and Symbol specified connection portion as a display means for displaying in distinction from the other connection portion. A program according to claim 5, wherein
When the computer functions as the connection data storage unit, the connection data of the wiring connection member for connecting the electrical components is also provided for each of the wiring connection members and for each of the connection portions of the wiring connection member. And realizing the function of storing the connection data for each connection portion of the wiring connection member,
When the computer functions as the image data storage means, the wiring connection member also has a function of storing image data to be drawn for each wiring connection member including the connection portion in the image of the wiring connection member.
When the computer functions as the connection target specifying unit, a connection unit that is a connection target of the specified connection unit based on the extracted connection unit data and the connection data corresponding to the specified connection unit And realizing the function of specifying the wiring connection member having the connection portion,
When the computer functions as the display unit, image data corresponding to the wiring connection member having the connection portion specified as the connection target is read from the image data storage unit based on the specified wiring connection member, the drawing data to generate the image data read out by processing in the process of generating the data for the drawing, on the basis of the drawing data thus generated, the connecting portion to the image of the wire connection member included not with displaying a program for realizing the function of displaying a connection portion which is pre-Symbol identified separately from the other connection portion. A program according to claim 5, wherein
In the computer,
The circuit diagram data for drawing the circuit diagram data representing the system circuit diagram representing the mounting state of the electrical component, the connection member, and the wiring included in the system is stored as data that can extract the circuit portion including the connection member. Circuit diagram data storage means for
The connection member having the designated connection portion is collated with the circuit diagram data of the circuit diagram data storage means, and a circuit diagram portion in the system circuit diagram including the connection member having the designated connection portion is displayed. Data to be displayed is cut out from the circuit diagram data, and based on the cut-out circuit diagram data, a function as a circuit display means for displaying a circuit diagram portion in the system circuit diagram including the identified connecting member is realized. Program for. A program according to any one of claims 5 to 7,
In the computer,
The layout drawing data for displaying the layout drawing image indicating the wiring layout of each electrical component, the connection member, and the mounting wiring is reflected by reflecting the position information of the electrical component and the connection position information of the connection member in the system. Layout drawing data storage means;
The layout drawing image is displayed based on the layout drawing data, and the connection member having the designated connection portion is collated with the layout drawing data of the layout drawing data storage means, and the designated connection portion is displayed. In the layout image, the wiring layout for the connecting member having the designated connecting portion is subjected to a process of clearly distinguishing the wiring layout for the connecting member from the wiring layout for another connecting member. A program for realizing a function as a system display unit that clearly distinguishes the other connection members from the wiring layout.   A computer-readable storage medium storing the program according to claim 5. An apparatus for presenting a connection status in a system having a plurality of electrical components,
It has a server that can send and receive data to and from a computer that has a display device and is a user terminal,
The server
In order to identify a connection portion included in a wiring connection member that connects the electrical component and the mounting wiring, connection data associated with each connection portion is specified for each wiring connection member and the connection included in the wiring connection member. and stored for each section, of the other to be connected before Symbol connecting portion before SL one of the wiring connection member of one of the wiring connecting member and the other connected through a mounting wiring of the wiring connecting member storing connection data associated with each connection portion of said one wiring connecting members to identify the pre-Symbol connecting portion of the wiring connecting member for each of the connecting portions of the one wire connecting member, the wiring connection Connection data storage means for storing specific data associated with each wiring connection member in order to specify the member;
Image data storage means for storing, for each of the wiring connection members, image data for drawing the image of the wiring connection member including the image of the connection portion of the wiring connection member;
When the user inputs the specific data in the computer, the input specific data is received from the computer, and the received specific data is compared with the specific data stored in the connection data storage means and received. Receiving means for specifying the wiring connection member corresponding to the specific data;
The drawing data of the wiring connection member corresponding to the received specific data is extracted from the image data storage means, and the connection portion of the wiring connection member based on the extracted drawing data is included in the wiring connection member. First transmission means for generating drawing data to be displayed on a display device of the computer as the first drawing image included, and transmitting the generated drawing data to the computer;
When the user instructs the computer to connect one of the connections included in the first drawing image drawn on the display device based on the drawing data received by the computer, the instruction is sent from the computer. And receiving the input from the connection data storage means based on the designated connection section and receiving the connection data and the connection data associated with the designated connection section that has received the input. A connection target specifying means for extracting and specifying the connection part to be connected to the designated connection part and the wiring connection member having the connection part based on the extracted connection part data and the connection data;
The drawing data of the specified wiring connection member is extracted from the image data storage means, and includes the connection portion of the wiring connection member having the image of the specified wiring connection member based on the extracted drawing data. Drawing data for displaying a drawing image and an image including the second drawing image and the first drawing image on the display device of the computer is the image data for the first drawing image and the second drawing image. And a second transmission unit configured to transmit the generated image data to the computer.

Images