JP2009104361A - Component display device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a device for legibly displaying a plane wiring diagram and a three-dimensional layout diagram by associating them with each other. <P>SOLUTION: A component display device includes: a first storage part for storing the image of a plane wiring diagram showing a plurality of components and wiring connecting those components; a second storage part for storing the three-dimensional layout diagram of a device in which the components and the wiring are integrated; a third storage part for storing the positions and shapes of the components on the plane wiring diagram and the three-dimensional positions and three-dimensional shapes of the components displayed on the three-dimensional layout diagram by associating them with each other; and a processor for displaying the image on a display device. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a component display device capable of displaying a correspondence relationship between a planar wiring diagram of an electric circuit and a three-dimensional layout diagram representing an arrangement of components and wirings in actual machines and devices by an image.

  The explanatory materials such as the automobile maintenance manual include a plane wiring diagram showing the electrical system and a three-dimensional layout drawing showing the layout of parts and wiring in the illustration of the automobile. Is done.

  In recent years, both the planar wiring diagram and the layout diagram have become very complicated, and the maintenance manual has been digitized and the maintenance manual has been referred to on the computer display screen. In such an electronic maintenance manual, for example, as shown in Patent Document 1, a display screen is divided and a wiring diagram and a circuit board to which electronic components are attached are displayed side by side. The position in the layout diagram corresponding to the selected position is displayed in different colors.

  However, while the planar wiring diagram represents the electrical relationship between each element in the electrical system, the three-dimensional layout diagram represents the relationship between the position of the component and the wiring. The form is quite different. It is not easy to observe such two drawings alternately by switching the line of sight and grasping the correspondence between them.

  In addition, a connector for wiring connection or an electrical component having a plurality of functions may be displayed in a plurality of locations in a plane wave diagram even if it is a single component, which is difficult to confirm. is there.

In addition, when similar parts are arranged in a concentrated manner, such as when a plurality of electronic control units (ECUs) are arranged in an overlapping manner, it is not easy to distinguish the parts themselves.
JP2005-4726

  Therefore, there is a need for an apparatus that can display a plane wiring diagram and a three-dimensional layout diagram in association with each other so that they can be easily viewed.

  In order to solve the above-described problem, a component display device according to the present invention incorporates a first storage unit that stores a plurality of components and an image of a planar wiring diagram representing wirings connecting the components, and the components and the wirings. A second storage unit that stores a three-dimensional layout diagram of the apparatus, a position and shape of a component on the planar wiring diagram, and a three-dimensional position and a three-dimensional shape of the component displayed on the three-dimensional layout diagram A third storage unit that stores the image data; and a processor that displays an image on the display device.

  The processor retrieves the planar wiring diagram from the first storage device according to the selection by the user and displays it on the display device. When the component is selected from the planar wiring diagram, the processor reads the component from the third storage device. A three-dimensional position and a three-dimensional shape are read out, and this component is displayed superimposed on the three-dimensional layout diagram.

  According to the present invention, since the three-dimensional shape is read from the part selected by the user from the planar wiring diagram and displayed superimposed on the three-dimensional layout diagram, the correspondence between the planar wiring diagram and the three-dimensional layout diagram is easy for the user. Can be recognized.

  In one embodiment of the present invention, the third storage device uses the part on the planar wiring diagram as the start image and the three-dimensional shape of the part to be inserted into the three-dimensional layout diagram as the end image, and moves from the start image to the end image. Store intermediate images.

  In yet another embodiment, in response to a part being selected from the planar wiring diagram, the processor displays changes until the part becomes a three-dimensional shape in the three-dimensional layout diagram using an intermediate image, Display on layout diagram.

  In another embodiment, in response to the selection of a plurality of parts from the planar wiring diagram, the processor causes the selected plurality of parts and the wiring between the plurality of parts to be three-dimensional in the three-dimensional layout diagram. Changes until the shape is obtained are continuously displayed using an intermediate image read from the third storage device, and are displayed in this three-dimensional layout diagram.

  According to these embodiments, the components on the planar wiring diagram and the wiring connected to the component are continuously displayed until the three-dimensional shape in the three-dimensional layout diagram is displayed. Can be easily recognized by the user.

  In one embodiment of the present invention, the intermediate image is generated by morphing.

  In one embodiment, as the intermediate image is continuously displayed, the processor gradually disappears the display of the planar wiring diagram and gradually causes the three-dimensional layout diagram of the device incorporating the components and wirings to appear.

  In another aspect of the present invention, the component display device includes a second storage unit that stores a three-dimensional layout diagram of the device incorporating the component and the wiring, a position and shape of the component on the planar wiring diagram, and a three-dimensional layout A third storage unit that stores a three-dimensional position and a three-dimensional shape of a component displayed on the drawing in association with each other, and a processor that displays an image on a display device.

  The processor takes out the three-dimensional layout diagram from the second storage device according to the selection by the user and displays it on the display device. When the component is selected from the three-dimensional layout diagram, the processor selects the component from the third storage device. The position and shape in the planar wiring diagram are read out, and this component is displayed at the corresponding position in the planar wiring diagram.

  According to this aspect of the invention, the part selected by the user from the three-dimensional layout diagram is displayed by being moved to the position and shape of the part on the planar wiring diagram, so that the correspondence between the three-dimensional layout diagram and the planar wiring diagram can be easily made by the user. Can be recognized.

  In one embodiment, the third storage device shifts from the start image to the end image using the part on the three-dimensional layout diagram and the wiring connected to the part as the start image and the corresponding part and wiring in the planar wiring diagram as the end image. Store the intermediate image of the process.

  In another embodiment, in response to a part being selected from the three-dimensional layout diagram, the processor displays the change until the part has a shape in the planar wiring diagram using an intermediate image, and in the planar wiring diagram, Display at the corresponding position.

  In yet another embodiment, in response to selecting a plurality of parts from the three-dimensional layout diagram, the processor until the plurality of selected parts and the wiring between the plurality of parts have a shape in the planar wiring diagram. Are continuously displayed using an intermediate image read from the third storage device, and displayed correspondingly in the planar wiring diagram.

  In one embodiment, the intermediate image is generated by morphing.

  Furthermore, in one embodiment, as the intermediate image is continuously displayed, the processor gradually disappears the display of the three-dimensional layout diagram and displays the planar wiring diagram so that it gradually appears.

  Next, an embodiment of the present invention will be described with reference to the drawings. The wiring display device of the present invention can be realized by installing a computer program created for the present invention in a general-purpose computer such as a personal computer. The computer provides a processor (CPU), a random access memory (RAM) for temporarily storing a program and data, giving a work area to the processor, a non-volatile storage device such as a disk device for storing the computer program and data, and the output of the computer. A display device such as a liquid crystal display and a CRT display for displaying, and an input device such as a keyboard and a mouse are basically configured.

  FIG. 1 is a block diagram showing the overall configuration of the wiring display device of the present invention. The disk storage device 10 stores an electronic manual 11 for automobile maintenance. The electronic manual 11 includes a menu screen data storage unit 11A of the electronic manual, a lower-level data storage unit 11B of the planar wiring diagram linked to the menu screen data part 11A, a planar layer data storage unit 11C for each connection, and the wiring shape is planar wiring Data storage unit 11D of the intermediate image in the process of changing from the shape in the figure to the three-dimensional shape in the three-dimensional layout diagram, and conversely the intermediate image in the process of changing from the three-dimensional shape in the three-dimensional layout diagram to the wiring of the planar wiring diagram, for each wiring Are stored in the data storage unit 11E of the three-dimensional layer and the lower drawing data storage unit 11F of the three-dimensional layout diagram.

  The processor 20 implements the wiring display function of the present invention in cooperation with the disk storage device 10, the display device 30, and the input device 40. When the user starts up the computer of the wiring display device and selects the electronic manual program, the processor 20 starts the electronic manual program (21), and the electronic manual menu is displayed on the display device 30 (23). Since the electronic manual itself is publicly known, detailed description is omitted. Using the input device 40 such as mouse and keyboard, the user selects the fuel injection system (PGM-FI), brake system (ABS), headlight system, etc. of the car according to the menu, and the page of the plane wiring diagram Is selected (25), the selected plane wiring diagram is read and displayed on the display device 30 (27).

  FIG. 2 is a diagram for explaining how the display changes from the planar wiring diagram to the three-dimensional layout diagram on the display device 30. Block 41 shows an example of a planar wiring diagram displayed on the display device 30. The planar wiring diagram is formed by superimposing the components and wiring layers read from the planar layer data storage unit 11C on the lower diagram of the entire wiring read from the planar lower diagram data storage unit 11B of FIG. For example, if the number of parts and wirings is 30, a planar wiring diagram is displayed on the display device 30 as a superposition of 31 layers obtained by adding the layers shown below.

  When the user selects part B by placing the cursor on part B in this plane wiring diagram and clicking the mouse, or by inputting the part number of part B from input device 40 (29), the entire wiring With only the layer of the selected part B overlapped with the figure below, the layer of part B is highlighted with a thick line or color. Next, when the confirmation button displayed on the screen of the display device 30 is operated by clicking with the mouse or the like, the part B gradually changes into a three-dimensional shape by the intermediate image 7 and is stored in the three-dimensional lower drawing data storage unit 11F. The three-dimensional layout to be read is displayed in the form of a block 46 superimposed on the lower figure.

  The speed of the display change can also be adjusted by sliding the button of the task bar 49.

  FIG. 3 shows the display change in an exploded manner. First, the planar wiring diagram 41 selected by the user is read from the lower plane data storage unit 11B, and the plurality of wiring layers read from the planar layer data storage unit 11C are superimposed on the display device 30. Is displayed. When the user selects the component B from the wiring diagram as described above, the layer 43 of the component B is highlighted by a color or a thick line and displayed superimposed on the image 41 of the planar wiring diagram. Next, the intermediate image of the layer 43 is read from the intermediate image data storage unit 11D, and the change to the corresponding layer 44 in the three-dimensional layout diagram is displayed (33).

  In parallel with this, the lower diagram of the planar wiring diagram gradually disappears from the display screen and becomes a blank image 42 (31). In parallel with this, an image 46 in which the lower diagram of the automobile three-dimensional layout read from the lower-dimensional map data storage unit 11F and the layer 44 of the part B are superimposed gradually appears on the display screen (35). Then, a plurality of layers of the three-dimensional wiring diagram included in the lower diagram read out from the three-dimensional layer data storage unit 11E are superimposed on the lower diagram, and the three-dimensional layout diagram image 46 with the component B highlighted is completed ( 35).

  Each component and wiring layer is linked to the lower figure by a part number, and is superimposed on the lower figure so as to occupy an appropriate position in the lower figure.

  The intermediate image used here is created using a morphing technique. The morphing technique is a technique for converting moving images from a still image to another still image and is used in the animation field. Morphing creation software is commercially available. The image can use various file formats such as GIF, JPEG, TIFF, and PNG.

  In one embodiment, a case where the component B and the wiring A connected to the component B are selected is shown. When component B and wire A are selected, layer 47 of wire A connected to wire B is highlighted in addition to layer 43 of component B, and this wire A changes to a three-dimensional layer 48 Is displayed using an intermediate image. This intermediate image is also created using a morphing technique. The three-dimensional layer 48 of the wiring A is also superimposed on the lower diagram of the three-dimensional layout diagram of the automobile to form a three-dimensional layout diagram 46. In this way, the component A and the wiring A connected thereto are displayed in a state of being superimposed on the three-dimensional layout diagram.

  FIG. 5 shows an embodiment as an application example of the present invention. In the plan wiring diagram, for the sake of convenience, the same connector, the same unit, the same pin, etc. may be divided and displayed for easy viewing of the circuit diagram. In FIG. 5, the same connector C is divided into a connector C1 and a connector C2 in the plan wiring diagram (A). Since the connectors C1 and C2 are actually one component, they are displayed as one connector in the three-dimensional layout diagram. In this case, when the user selects the connector C1 from the planar wiring diagram (A), the connector C1 is highlighted and the connector C2 is also highlighted, and the planar circuit is displayed by the moving image display using the morphing technique described in relation to FIG. A change from the diagram (A) to the three-dimensional layout diagram (B) is displayed on the display device 30. The connectors C1 and C2 on the planar wiring diagram (A) are displayed in the three-dimensional layout diagram (B) as the connector C which is one component.

  In the second embodiment of the present invention, changes until a part selected from the three-dimensional layout diagram is displayed on the planar wiring diagram are continuously displayed. Referring to FIG. 1 again, when the user starts the electronic manual program (21) and selects, for example, the three-dimensional layout diagram 46 shown in FIG. 2 from the menu of the electronic manual (23), the three-dimensional lower drawing data storage unit 11F The corresponding lower figure is read out, and the corresponding three-dimensional layers of parts and wiring are read from the three-dimensional layer storage unit 11E, and the three-dimensional layout diagram 46 is displayed as an overlay of the lower figure layer and the plurality of three-dimensional layers. Displayed at 30 (27). When the user selects part B by placing the cursor on part B in the 3D layout diagram 46 and clicking the mouse, or by entering the part number of wiring A from the input device 40, the following figure is selected The layer of the part B is highlighted with a color or a thick line in a state where only the layer of the part B is overlapped.

  Next, when a confirmation button (not shown) displayed on the screen of the display device 30 is operated by a method such as clicking with a mouse, the lower diagram of the planar wiring diagram including the component B is read from the lower diagram data storage unit 11B. At the same time, a plurality of parts and wiring layers included in the lower diagram are read from the planar layer data storage unit 11C, and an image 41 of the planar wiring diagram is gradually displayed on the display device 30 as an overlay of the lower diagram layers and layers. appear. Changes until the intermediate image of the layer of the component B in the three-dimensional layout diagram 46 is read from the intermediate image data storage unit 11D and becomes a shape in the planar wiring diagram are continuously displayed by the intermediate image 7. Overlay in the figure below to reach image 41.

  In this way, an image 41 of the planar wiring diagram in which the component B is highlighted is displayed on the display device 30. In parallel with this, the three-dimensional layout image 46 gradually fades out and fades out.

  The speed at which the image 46 changes to the image 41 can also be adjusted by sliding the button of the scroll bar 49 displayed on the screen of the display device 30.

  FIG. 4 shows the change in display in an exploded manner. Conceptually, the flow is opposite to that in the case of FIG. First, a three-dimensional layout diagram 46 selected by the user from the menu screen is displayed on the display device 30. This three-dimensional layout diagram is composed of a lower diagram read from the three-dimensional lower diagram data storage unit 11F and an overlay of a plurality of layers of components and wiring included in the lower diagram, which are read from the layer data storage unit 11C.

  When the user selects the part B from the three-dimensional layout diagram as described above, the layer 44 of the part B is highlighted with a color or a thick line. The intermediate image of the layer 44 is read from the intermediate image data storage unit 11D, and the change up to the layer 43 of the planar wiring diagram is continuously displayed (33). Thus, the shape of the part B of the layer 44 gradually changes to the layer 43 of the shape in the planar wiring diagram with time. In parallel with this, the lower layer of the three-dimensional layout diagram gradually disappears from the display screen and becomes a blank image 45 (31). In parallel with this, the lower diagram of the plan wiring diagram including the component B is read from the plan lower diagram data storage unit 11B and displayed so as to gradually appear on the display screen (35). Finally, at the same time, the other wiring and component layers included in the lower diagram are read from the planar layer data storage unit 11C and displayed in the lower diagram.

  4 shows a case where the component B and the wiring A connected to the component B are selected as in FIG. Further, in FIG. 5, an example has been described in which the planar wiring diagram (A) is displayed as one component in the connector C three-dimensional layout diagram (B) divided and displayed as the connector C1 and the connector C2. As an operation in the ball direction, it is also possible to select the connector C in the three-dimensional layout diagram (B) and divide and display it on the planar wiring diagram (A) connectors C1 and C2.

  Next, referring to FIG. 6, the user selects a three-dimensional layout diagram, for example, the drawing of FIG. 6A from the electronic manual (25) and displays it on the display device 30. When the mouse is clicked on the harness (wiring bundle) E seen in this drawing and the mouse is clicked (29), the processor 20 continuously displays the change from this harness to the planar wiring diagram using an intermediate image. . In this case, changes to the planar wiring diagram are sequentially displayed for a plurality of wirings included in the harness. In the example of FIG. 6B, planar wiring diagrams of the wirings 1, 2, and 3 are displayed on the display device.

  In one embodiment, when harness E is selected in FIG. 6 (A), the type of wiring included in this harness, for example, fuel injection system, headlight system, etc., is displayed in text, and the user can select from this type. For the selected item, the change to the planar wiring diagram is continuously displayed, and the other wirings are not continuously displayed unless they are selected. By doing so, it is possible to easily display the functional parts that need to be confirmed on one screen, and it is possible to greatly reduce the amount of intermediate image data. In this case, the combination of the part numbers of each connection portion in the planar wiring diagram is associated with the harness.

  Although the present invention has been described with respect to specific embodiments, the present invention is not limited to such embodiments.

1 is a block diagram illustrating an overall configuration of a wiring display device according to the present invention. The figure showing the mode of a change between a plane wiring diagram and a three-dimensional layout figure. The figure which decomposes | disassembles and shows the mechanism which changes from a planar wiring diagram to a three-dimensional layout figure. The figure which decomposes | disassembles and shows the mechanism which changes from a three-dimensional layout figure to a plane wiring diagram. The figure showing the mode of a change between a planar wiring diagram and a three-dimensional layout figure in case one component is divided and displayed in two in a planar wiring diagram. The figure which shows an example of a response | compatibility with the three-dimensional layout figure of a harness containing several wiring, and a planar wiring diagram.

Explanation of symbols

10 disk storage device 20 processor 30 display device 40 input device

Claims (10)

A first storage unit for storing a plurality of components and an image of a planar wiring diagram representing wiring connecting the components;
A second storage unit for storing a three-dimensional layout diagram of the device incorporating the component and wiring;
A third storage unit that associates and stores the position and shape of the component on the planar wiring diagram and the three-dimensional position and three-dimensional shape of the component displayed on the three-dimensional layout diagram;
A processor for displaying an image on a display device,
The processor retrieves the planar wiring diagram from the first storage device according to the selection by the user and displays it on the display device, and the third component in response to selection of the component from the planar wiring diagram. A component display device that reads a three-dimensional position and a three-dimensional shape of the component from the storage device and displays the component superimposed on the three-dimensional layout diagram.   The third storage device stores an intermediate image in the process of moving from the start image to the end image, with the part on the planar wiring diagram as the start image and the three-dimensional shape of the part inserted into the three-dimensional layout diagram as the end image. The component display device according to claim 1.   In response to selection of a plurality of components from the planar wiring diagram, the processor stores changes until the selected components and wiring between the components become a three-dimensional shape in the three-dimensional layout diagram. The component display device according to claim 2, wherein the component display device continuously displays the intermediate images read from the device and displays the images at corresponding positions in the three-dimensional layout diagram.   The component display device according to claim 2, wherein the intermediate image is generated by morphing.   The processor gradually disappears the display of the planar wiring diagram as the intermediate image is continuously displayed, and gradually appears a three-dimensional layout diagram of the device incorporating the component and the wiring. 5. The component display device according to any one of 4 above. A first storage unit for storing a plurality of components and an image of a planar wiring diagram representing wiring connecting the components;
A second storage unit for storing a three-dimensional layout diagram of the device incorporating the component and wiring;
A third storage unit that associates and stores the position and shape of the component on the planar wiring diagram and the three-dimensional position and three-dimensional shape of the component displayed on the three-dimensional layout diagram;
A processor for displaying an image on a display device,
The processor retrieves the three-dimensional layout diagram from the second storage device in accordance with a selection by a user and displays it on the display device, and in response to selection of a component from the three-dimensional layout diagram, the third layout diagram A component display device that reads a position and a shape of a component in a planar wiring diagram from a storage device and displays the component at a corresponding position in the planar wiring diagram.   The third storage device stores an intermediate image in the process of moving from the start image to the end image, with a part on the three-dimensional layout diagram as a start image and a corresponding part in the planar wiring diagram as a end image. The component display device described in 1.   In response to selection of a plurality of components from the three-dimensional layout diagram, the processor changes changes from the third storage device until the selected components and the wiring between the components become shapes in the planar wiring diagram. The component display device according to claim 7, wherein the component display device continuously displays the intermediate images that are read out and displays the images at corresponding positions in the planar wiring diagram.   The component display device according to claim 6, wherein the intermediate image is generated by morphing.   10. The processor according to claim 6, wherein the processor gradually disappears the display of the three-dimensional layout diagram and displays the planar wiring diagram so as to gradually appear as the intermediate images are continuously displayed. The component display device described in 1.