JP2010252603A - Wiring processing method, wiring processing program and wiring processing device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To improve efficiency in a wiring operation to each electric component inside a switchboard. <P>SOLUTION: A wiring route which associates a route list constituted by successively connecting routes from start point terminals to end point terminals of the electric components in the switchboard, with electric characteristic information of wires wired along the route list, is stored in a wiring data storage 16 of a wiring processing device 1. A wire harness calculating unit 17 selects a plurality of routes from the wiring data storage 16 as route groups. When positions of those route groups are the same, and electric characteristic information of the wiring route to which the route belongs, are the same, data of the wire harness is created, by binding the wire group of the wiring route to which each of those route groups belongs, into one. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a technique for a wiring processing method, a wiring processing program, and a wiring processing apparatus.

  When manufacturing a switchboard, the function as a switchboard can be acquired by connecting the electronic components which comprise a switchboard with an electric wire mutually. The electric wires connecting the electronic components constituting the switchboard are placed in a wiring storage duct and fixed. Inside the switchboard, electronic components such as electrical components are three-dimensionally mounted and arranged, and the wiring to each terminal is divided into circuit divisions for each voltage and signal circuit type, so in a small space The wires are wired.

  Conventionally, wiring work to electronic parts such as each electric part inside the switchboard has been performed by wiring each electric wire one by one and then connecting it to the component terminal. Patent Document 1 discloses a three-dimensional wiring pattern creation device that supports wiring design in a switchboard. This creation device supports creation of a three-dimensional wiring pattern by searching for wiring duct patterns such as a straight line route, a one-time bending route, and a two-time bending route.

JP 2001-188811 A

  The wiring worker performs wiring work to each electrical component inside the switchboard according to the wiring route, and the efficiency of this work is required.

For example, a wiring worker uses a model wiring board to perform a simulated wiring work outside the switchboard. The model wiring board is a board that displays the wiring route and the wiring fixing position information by simulating the mounting arrangement of the appliance. Then, after the wiring model simulated on the model wiring board is removed from the model wiring board, it is housed in the switchboard and connected to each terminal. Thereby, a certain degree of efficiency can be realized as compared with the wiring work inside the narrow switchboard.
The wiring model created on the model wiring board is simulated wiring on a flat board, and the distance between terminals is the same as that of the distribution board to be manufactured, so there is no extra wiring length. . The wiring model on the model wiring board can be accurately manufactured and processed with a specified length by a wire length measuring and cutting machine installed in the wire processing system.

However, since a wiring model composed of a plurality of wiring groups is intertwined with each other in a complicated manner, it is necessary for a plurality of wiring workers to simultaneously store the wiring duct.
Furthermore, the wiring model created on a plane board called a model wiring board has no problems such as extra length and insufficient line length for the wiring route in the two-dimensional direction, but the wiring route in the depth direction (three-dimensional direction). Because it cannot be handled, there will be fewer switchboards applied.
In addition, manual work for matching the arrangement information of the electronic components on the switchboard and the arrangement information of the electric wires on the wiring model board is separately required. For example, once a distribution board is manufactured without a wiring model, the wiring route of each wiring is measured and the length of the wiring is measured from the completed distribution board, and the wiring route is sketched on a plane board based on the information. It is necessary to create a planar wiring model board. Since this manual operation occurs, the productivity of wiring workers is reduced.

  Accordingly, the main object of the present invention is to solve the above-described problems and to improve the efficiency of wiring work to each electrical component inside the switchboard.

In order to solve the above-mentioned problem, the present invention is a wiring processing method by a wiring processing device for creating data of a wire harness that bundles electric wires connecting electronic components in a switchboard,
The wiring processing device has a wiring data storage unit and a wire harness calculation unit, and is connected to an input device and a display device, respectively.
In the wiring data storage unit, a path list in which paths from the start terminal to the end terminal of the electronic components in the switchboard are sequentially connected and electrical characteristic information of electric wires wired along the path list are associated with each other. The wiring route is stored,
The wire harness calculation unit selects a plurality of routes as a route group from the wiring data storage unit, the positions of the route groups are the same, and the electrical characteristic information of the wiring route to which the route belongs is the same. Sometimes, the wire harness data is created by bundling together the wire group of the wiring route to which each of these route groups belongs,
The display device displays the data of the wire harness created by the wire harness calculation unit.
Other means will be described later.

  ADVANTAGE OF THE INVENTION According to this invention, the wiring operation | work to each electric component inside a switchboard can be made efficient.

It is a block diagram which shows the wiring processing apparatus regarding one Embodiment of this invention. It is a three-dimensional figure which shows the three-dimensional shape regarding the switchboard regarding one Embodiment of this invention. It is a top view which shows the arrangement information of each electronic component regarding one Embodiment of this invention. It is a top view which shows that the wire harness was added with respect to the top view shown in FIG. 3 regarding one Embodiment of this invention. It is a flowchart which shows the process of the wiring processing apparatus regarding one Embodiment of this invention.

  Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a configuration diagram showing a wiring processing apparatus 1.
The wiring processing device 1 includes a CPU 91 and a memory 92, and is configured as a computer connected to the input device 93 and the display device 94, respectively.
The CPU 91 reads and executes a program for configuring each processing unit stored in the memory 92. The memory 92 includes a program for configuring each processing unit and each data processed by each processing unit. Stored. Each processing unit includes a component arrangement editing unit 11, a wiring route editing unit 13, a wiring route calculation unit 15, and a wire harness calculation unit 17. Each data includes a component placement storage unit 12, a wiring condition storage unit 14, and a wiring data storage unit 16.
The input device 93 includes a keyboard, a mouse, and the like, and is used to input an editing operation for each editing unit.
The display device 94 is configured by a display or the like, and displays the processing result of each processing unit (such as the wire harness calculation unit 17).

The component arrangement editing unit 11 causes the user to edit the arrangement information of each electronic component, and stores the result in the component arrangement storage unit 12 (refer to FIG. 2A for details). The component arrangement editing unit 11 is realized by, for example, CAD (Computer Aided Design) that processes three-dimensional data.
The wiring route editing unit 13 causes the user to edit the wiring route for connecting the terminals of each electronic component based on the arrangement information of each electronic component stored in the component arrangement storage unit 12, and the result is wired. The data is stored in the data storage unit 16 (refer to FIG. 2B and Table 2 for details). The wiring route editing unit 13 is realized by, for example, the same plug-in on the three-dimensional CAD as the component arrangement editing unit 11.

  The wiring route calculation unit 15 calculates a wiring route for connecting terminals of each electronic component based on the arrangement information of each electronic component stored in the component arrangement storage unit 12, and stores the result as wiring data. Store in unit 16. The wiring route calculation method is realized, for example, by operating a linear programming method, which is a method for optimizing the target function while satisfying the constraint conditions. The constraint condition and the target function are respectively stored in the wiring condition storage unit 14 (see Table 1 for details).

  The wire harness calculation unit 17 creates data indicating the wire harness that is the shape of a three-dimensional electric wire by binding a plurality of wires into one for each wiring route stored in the wiring data storage unit 16. . And the wire harness calculation part 17 makes a wiring operator grasp | ascertain the detailed shape of a wire harness by displaying the data which show the produced wire harness on the display apparatus 94, or printing, and wire. Assist with harness creation. The wire harness is housed and installed in a switchboard by a wiring operator as a single component integrated with a wiring assembly.

  FIG. 2 is a three-dimensional view showing a three-dimensional shape related to the switchboard.

FIG. 2A shows the arrangement information in the switchboard of each electronic component stored in the component arrangement storage unit 12.
Each electronic component has a name (such as “A”) of the electronic component. And as shown below, a terminal is attached to the electronic component as a connection point of the electric wire when wiring to the electronic component.
The electronic component “F” has a terminal “f”.
The electronic component “G” has a terminal “g”.
The electronic component “I” has a terminal “i”.
The electronic component “J” has a terminal “j1” and a terminal “j2”.
The electronic component “O” has a terminal “o”.

FIG. 2B shows a display result of the wire harness attached to the switchboard, which is a calculation result of the wire harness calculation unit 17.
The wiring route “1” is configured as a route from the starting terminal “o” to the landing terminal “i” in order to perform wiring from the electronic component “O” to the electronic component “I”.
The wiring route “2” is configured as a route from the starting terminal “f” to the landing terminal “j1” in order to perform wiring from the electronic component “F” to the electronic component “J”.
The wiring route “3” is configured as a route from the starting terminal “g” to the landing terminal “j2” in order to perform wiring from the electronic component “F” to the electronic component “J”.

3 is obtained by converting the arrangement information of each electronic component shown in FIG. 2A into a plan view. The top view of FIG. 3A and the front view of FIG. A three-dimensional view of a) is shown.
4 is a plan view showing that the wire harness shown in FIG. 2B is added to the plan view shown in FIG. The paths R1 to R3 in FIG. 4 are used for the description in the wiring data storage unit 16 in Table 2 to be described later.

The wiring condition storage unit 14 shown in Table 1 stores wiring conditions that are parameters necessary for the calculation when the wiring route calculation unit 15 calculates the linear programming method. The wiring condition storage unit 14 stores the priority of the wiring condition, the outline of the wiring condition, and a specific example of the wiring condition in association with each other.
The constraint condition of the linear programming method is an equation or an inequality indicating a specific example of a wiring condition whose priority is “O mandatory”.
The objective function of the linear programming method is a linear function indicating a specific example of the wiring condition having a priority “Δtarget”.

The wiring data storage unit 16 shown in Table 2 shows the way of the electric wire for connecting two end points (starting point and end point). The wiring data storage unit 16 stores a wiring route ID, a wire diameter, a starting point terminal, an end terminal, a wiring route, a wiring route length, a circuit classification, and a binding list in association with each other.
The wiring route ID is an ID for specifying the wiring route.
A wire diameter shows the diameter of the electric wire wired.
The starting point terminal indicates one end point of the wire to be wired.
The end point terminal indicates the other end point of the wire to be wired.
The wiring route is configured as a route list in which routes are connected in order. A route is a narrow path that forms part of a wiring route.
The wiring route length indicates the length of the wire to be wired. The wiring route length can be obtained, for example, by adding the line length calculation processing executed by the three-dimensional CAD of the wiring route editing unit 13 only for the route.
The circuit section indicates the electrical characteristics of the wired wires.

The binding list indicates a route that is common to both wires when the wires to be wired and other wires are bound as a wire harness.
For example, the first binding list of the wiring route ID “1” is described as “R1 (2)”. This description indicates that the route “R1” constituting the wiring route with the wiring route ID “1” can be bundled with the route “R1” with the wiring route ID “2”.
Similarly, the second binding list of the wiring route ID “1” is described as “R2 (2, 3)”. In this description, the route “R2” constituting the wiring route of the wiring route ID “1” can be bundled with the route “R2” of each of the wiring route ID “2” and the wiring route ID “3” (in other words, 3 wires can be combined into one bundle).

  FIG. 5 is a flowchart showing the processing of the wiring processing apparatus 1.

In step S <b> 101, the component arrangement editing unit 11 causes the user to edit the arrangement of electronic components via the input device 93, and stores the result in the component arrangement storage unit 12.
In S <b> 102, the wiring processing apparatus 1 causes the input device 93 to select whether to calculate (edit) a wiring route. If Yes in S102, the process proceeds to S103, and if No, the process proceeds to S104.
In S <b> 103, the wiring route calculation unit 15 refers to the component placement storage unit 12 and the wiring condition storage unit 14, calculates a wiring route, and stores the result in the wiring data storage unit 16.
In S <b> 104, the wiring route editing unit 13 causes the user to edit the wiring route via the input device 93 and stores the result in the wiring data storage unit 16. Note that the editing operation in S104 may be performed in parallel on the same screen as the editing operation in S101.

In S111, the wire harness calculation unit 17 refers to the wiring data storage unit 16 and starts a loop for sequentially selecting the first route from the wiring route.
In S112, the wire harness calculation unit 17 refers to the wiring data storage unit 16 and starts a loop for sequentially selecting the second route from a wiring route different from the first route.
In S113, the wire harness calculation unit 17 determines whether or not the positions of the first route and the second route in the space match each other (whether the route matches). If Yes in S113, the process proceeds to S114, and if No, the process proceeds to S116.
In S114, the wire harness calculation unit 17 refers to the wiring data storage unit 16, and determines the circuit classification of the electric wire used for the wiring route to which the first route belongs and the electric wire used for the wiring route to which the second route belongs. It is determined whether or not the circuit sections match each other. If Yes in S114, the process proceeds to S115, and if No, the process proceeds to S116.

In S115, the wire harness calculation unit 17 registers the routes of the first route and the second route and the wiring route of the binding partner in the wiring route binding list to which each of the wiring data storage unit 16 belongs.
In S116, the wire harness calculation unit 17 ends the loop of the second path.
In S117, the wire harness calculation unit 17 ends the loop of the first route.

  In S121, the wiring processing device 1 displays each wiring route in the wiring data storage unit 16 as a wire harness including the contents of the binding list in the wiring data storage unit 16 that is the calculation result of the wire harness calculation unit 17. It is displayed on the device 94.

According to the present embodiment described above, the wiring worker can efficiently perform the following operations (1) to (5) by referring to the processing result of FIG. And, since the first half (1) to (4) of these operations can be performed outside the switchboard, there is room in time and space compared to working inside the switchboard, and the speed is high and high. Efficient work can be performed.
(1) Using the wire length measuring and cutting machine of the wire processing system, the wires of each wiring route are manufactured and processed with a length according to the wiring route length of the wiring data storage unit 16.
(2) According to the wiring route of the wiring data storage unit 16, the shape of each electric wire is configured outside the panel. For example, when each electric wire to be wired is a shape memory electric wire, the shape of each electric wire is fixed by bending the electric wire to be wired manually. Since this fixing work can be performed in a wide space outside the switchboard, it is possible to take a work posture that reduces the burden on the wiring operator, such as being able to flexibly change the height and angle of the wires.
(3) The validity of the arrangement data of each electronic component in the component arrangement storage unit 12, the wiring route of the wiring data storage unit 16, and each wiring route of the wire group created in (2) is checked. For example, it is checked whether or not a combination of a starting terminal and a landing terminal for performing wiring between electronic components is appropriate.
(4) The wire harness is created by referring to the shape data of the wire harness indicated by the binding list of the wiring data storage unit 16 displayed on the display device 94. For example, the wiring operator may bundle a plurality of electric wires into one using an adhesive or a binding band for each important point such as a corner of the wiring route. Alternatively, the wiring operator may bundle the plurality of electric wires together by fixing and integrating the plurality of electric wires inside a jig such as a duct. The created wire harness can be configured not only in a planar shape but also in a three-dimensional shape.
(5) After the manufactured wire harness is housed and attached to the inside of the switchboard, the end points of the electric wires constituting the wire harness are connected to the electronic components of the switchboard.

DESCRIPTION OF SYMBOLS 1 Wiring processing apparatus 11 Component arrangement | positioning edit part 12 Component arrangement | positioning storage part 13 Wiring route edit part 14 Wiring condition storage part 15 Wiring route calculation part 16 Wiring data storage part 17 Wire harness calculation part 91 CPU
92 Memory 93 Input device 94 Display device

Claims (5)

A wiring processing method by a wiring processing device for creating data of a wire harness that bundles electric wires connecting electronic components in a switchboard,
The wiring processing device has a wiring data storage unit and a wire harness calculation unit, and is connected to an input device and a display device, respectively.
In the wiring data storage unit, a path list in which paths from the start terminal to the end terminal of the electronic components in the switchboard are sequentially connected and electrical characteristic information of electric wires wired along the path list are associated with each other. The wiring route is stored,
The wire harness calculation unit selects a plurality of routes as a route group from the wiring data storage unit, the positions of the route groups are the same, and the electrical characteristic information of the wiring route to which the route belongs is the same. Sometimes, the wire harness data is created by bundling together the wire group of the wiring route to which each of these route groups belongs,
The said display apparatus displays the data of the said wire harness which the said wire harness calculation part produced, The wiring processing method characterized by the above-mentioned. The wiring processing apparatus further includes a wiring route calculation unit,
The wiring route calculation unit determines a route list of the wiring route by calculating a linear programming method that maximizes a target function indicating a route length of the wiring route to be bundled, and stores the wiring data as a wiring route. The wiring processing method according to claim 1, wherein the wiring processing method is stored in a unit.   A wiring processing program for causing the wiring processing device to execute the wiring processing method according to claim 1. A wiring processing device for creating data of a wire harness that bundles electric wires connecting electronic components in a switchboard,
The wiring processing device has a wiring data storage unit and a wire harness calculation unit, and is connected to an input device and a display device, respectively.
In the wiring data storage unit, a path list in which paths from the start terminal to the end terminal of the electronic components in the switchboard are sequentially connected and electrical characteristic information of electric wires wired along the path list are associated with each other. The wiring route is stored,
The wire harness calculation unit selects a plurality of routes as a route group from the wiring data storage unit, the positions of the route groups are the same, and the electrical characteristic information of the wiring route to which the route belongs is the same. Sometimes, the wire harness data is created by bundling together the wire group of the wiring route to which each of these route groups belongs,
The said display apparatus displays the data of the said wire harness which the said wire harness calculation part produced, The wiring processing apparatus characterized by the above-mentioned. The wiring processing apparatus further includes a wiring route calculation unit,
The wiring route calculation unit determines a route list of the wiring route by calculating a linear programming method that maximizes a target function indicating a route length of the wiring route to be bundled, and stores the wiring data as a wiring route. The wiring processing apparatus according to claim 4, wherein the wiring processing apparatus is stored in a unit.