JP6301710B2 - Joint position optimization system and joint position optimization program - Google Patents

Description

  The present invention relates to a joint position optimization system and a joint position optimization program, and in particular, a joint position optimization that enables the joint connection position to be efficiently set according to the price and length of the wire. The present invention relates to an optimization system and a joint position optimization program.

  Conventionally, many wire harnesses incorporated in automobiles, home appliances, and the like have been used, and the wire harnesses are composed of a large number of electric wires, terminals, connectors, and the like. And since the circuit configuration of a wire harness differs greatly depending on the location where it is used, it is necessary to design the wire harness for each wire harness, which is extremely time-consuming. In order to reduce the labor of designing such a wire harness, for example, a technique for automatically calculating the wire length of a wire harness has been conventionally developed.

  Conventionally, as a technique for automatically calculating the wire length of the wire harness, for example, a first cavity reference section, a first node reference section, a second node reference section, and a second A technique is disclosed in which a cavity reference cross section is set, a section line length in each reference section section is calculated, and a sum of these section line lengths is output as the wire length of the electric wire (for example, (See Patent Document 1).

JP 2013-149098 A

  However, in the technique described in Patent Document 1, it is possible to set the wire length of an electric wire that connects each fixed auxiliary machine. For example, when connecting a joint in a wire harness, the joint There is a problem that the connection position cannot be selected. For example, when concentrating electric wires connected to a plurality of fixed accessories and connecting so-called concentration joints that are connected as ground wires, it is possible to connect to various positions of the wire harness. When connecting a central joint, it was arbitrarily set by the designer of the wire harness. Therefore, depending on the connection location of the joint, the waste of the electric wire occurs, the price of the electric wire becomes expensive, and the joint connection position cannot be set efficiently according to the price of the electric wire or the wire length. Have a problem.

  The present invention has been made in view of the above points, and a joint position optimization system and a joint position optimization program capable of efficiently setting the joint connection position according to the price and length of the electric wire. Is intended to provide.

In order to achieve the above object, a joint position optimization system according to the present invention comprises at least an information processing unit, a storage unit, and an input unit,
The information processing unit reads a wire harness design drawing created in advance, obtains information on the electric wire, fixed auxiliary machine, and node, and creates a wire harness route diagram based on the information; Based on the process of setting the temporary connection position of the joint at all the node positions of the route diagram of the wire harness, and calculating the line length of the electric wire connected to the joint based on the set temporary connection position of the joint Calculating the total wire length and the total price of the electric wires based on the wire length and storing them in the storage unit, and the position of the node based on the line length information or price information of the storage unit And a process of determining as follows.

  According to this configuration, since the node position is determined as the joint connection position based on the line length information or price information, the joint connection position can be efficiently determined based on the line length information or price information. And it can set appropriately. Moreover, in the design of the wire harness, if the joint connection position is determined based on the line length information, the waste of the electric wire can be eliminated, and if the joint connection position is determined based on the price information, the material price Can be reduced.

  Further, according to the present invention, in the configuration, based on the line length information or price information of the storage unit, the connection position of the joint can be selected by the input unit to give priority to line length or to give priority to price. It is characterized by that. According to this configuration, it is possible to select whether the connection position of the joint is to be given priority to the line length or the price to be given by the input unit, and therefore, an appropriate joint arrangement according to the intention of the wire harness designer can be performed. It can be carried out.

  Further, the present invention provides the electric wire stored in the storage unit when the information processing unit determines the connection position of the joint on the basis of the line length information of the storage unit with priority on the line length. In the total line length, the node position of the shortest total line length is the joint connection position, and when determining the joint connection position based on the price information of the storage unit with price priority, Among the total prices of the electric wires stored in the storage unit, the node position having the lowest price is set as the joint connection position. According to this configuration, when deciding on line length priority, the node position of the shortest total line length is set as the joint connection position, and when deciding on price priority, the node position with the lowest price is connected to the joint. Since the position is set, the joint connection position can be set efficiently and appropriately in accordance with whether the line length has priority or the price has priority. Moreover, in the design of wire harnesses, if the connection position of the joint is determined with priority on the wire length, the waste of the electric wire can be eliminated, and if the connection position of the joint is determined with priority on the price, the material price can be reduced. Can do.

Further, the joint position optimization program according to the present invention is provided in a computer including at least an information processing unit, a storage unit, and an input unit.
A process for reading a design drawing of a wire harness created in advance and acquiring information about electric wires, fixed accessories and nodes, a process for creating a route diagram of the wire harness based on the information, and a route diagram of the wire harness Based on the process of setting the temporary connection positions of the joints at all the node positions and the line lengths of the electric wires connected to the joints based on the set temporary connection positions of the joints, A process of calculating the total wire length and the total price of the electric wires and storing them in the storage unit; a process of determining the position of the node as a joint connection position based on the line length information or price information of the storage unit; It is characterized by making it carry out.

  According to this configuration, since the node position is determined as the joint connection position based on the line length information or price information, the joint connection position can be efficiently determined based on the line length information or price information. And it can set appropriately. Moreover, in the design of the wire harness, if the joint connection position is determined based on the line length information, the waste of the electric wire can be eliminated, and if the joint connection position is determined based on the price information, the material price Can be reduced.

  Further, according to the present invention, in the configuration, based on the line length information or price information of the storage unit, the input unit can select whether the connection position of the joint is to be given priority to the line length or to give priority to the price. It is characterized by that. According to this configuration, it is possible to select whether the connection position of the joint is to be given priority to the line length or the price to be given by the input unit, and therefore, an appropriate joint arrangement according to the intention of the wire harness designer can be performed. It can be carried out.

  Further, in the above configuration, in the configuration, when the computer determines the connection position of the joint based on the line length information of the storage unit with priority on the line length, the total number of electric wires stored in the storage unit is determined. Among the line lengths, the node position of the shortest total line length is processed as the joint connection position, and the joint connection position is determined with price priority based on the price information in the storage unit. In this case, it is characterized in that processing is performed so that a node position having the lowest price among the total prices of electric wires stored in the storage unit is set as a joint connection position. According to this configuration, when deciding on line length priority, the node position of the shortest total line length is set as the joint connection position, and when deciding on price priority, the node position with the lowest price is connected to the joint. Since the position is set, the joint connection position can be set efficiently and appropriately in accordance with whether the line length has priority or the price has priority. Moreover, in the design of wire harnesses, if the connection position of the joint is determined with priority on the wire length, the waste of the electric wire can be eliminated, and if the connection position of the joint is determined with priority on the price, the material price can be reduced. Can do.

  According to the present invention, since the node position is determined as the joint connection position based on the line length information or price information, the joint connection position is efficiently determined based on the line length information or price information. And it can set appropriately. Moreover, in the design of the wire harness, if the joint connection position is determined based on the line length information, the waste of the electric wire can be eliminated, and if the joint connection position is determined based on the price information, the material price Can be reduced.

It is a system configuration figure showing an embodiment of a joint position optimization system concerning the present invention. It is explanatory drawing which shows the route diagram of the wire harness in embodiment of the position optimization system of the joint which concerns on this invention. It is explanatory drawing which shows the state which connected the joint temporarily to the route diagram of the wire harness in embodiment of the position optimization system of the joint which concerns on this invention. It is explanatory drawing which shows the state which moved the joint of the route diagram of the wire harness in embodiment of the position optimization system of the joint which concerns on this invention. It is explanatory drawing which shows the state which moved further the joint of the route diagram of the wire harness in embodiment of the position optimization system of the joint which concerns on this invention. It is explanatory drawing which shows the state which determined the connection position of the joint in priority of the line length of the route diagram of the wire harness in embodiment of the position optimization system of the joint which concerns on this invention. It is explanatory drawing which shows the state which determined the connection position of the joint by the price priority of the route diagram of the wire harness in embodiment of the position optimization system of the joint which concerns on this invention. It is a flowchart which shows the operation | movement in embodiment of the position optimization system of the joint which concerns on this invention.

  DESCRIPTION OF EMBODIMENTS Hereinafter, an embodiment of a joint position optimization system according to the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a block diagram showing a system configuration of a joint position optimization system in the present embodiment. The position optimization system 10 includes an information processing unit 11, a data storage unit 12 as a storage unit, a program storage unit 13 as a storage unit, a database unit 14 as a storage unit, a display unit 15, and an input unit 16. And each. For example, when a general-purpose computer is used as the joint position optimization system 10, a CPU as the information processing unit 11, a memory as the data storage unit 12, a hard disk drive as the program storage unit 13 and the database unit 14, and a display unit A display 15 corresponds to a display, and a keyboard and a mouse correspond to the input unit 16.

  In the database unit 14, for example, information such as the wire type, the wire diameter, the wire weight (per unit length), and the wire price (per unit length) when designing the wire harness is stored in advance. It is remembered. The program storage unit 13 also stores a general program for designing a wire harness such as CAD (Computer Aided Design) and a position optimization program for operating the position optimization system 10 of the present embodiment. ing.

  The information processing unit 11 activates a CAD program by the wire harness designer operating the input unit 16 and creates a design drawing of a desired wire harness according to the designer's operation. The design drawing of the wire harness is configured to be stored in the data storage unit 12 or the database unit 14.

  Subsequently, the information processing unit 11 is configured to perform information acquisition processing based on the created design drawing by starting the position optimization program. This information acquisition process acquires, for example, the position information of the electric wires used in the designed wire harness and the position information of the fixed auxiliary machine to which the electric wires are connected. By acquiring these information, the electric wires , The wire length, the wire type, the connection position between the wire and the fixed auxiliary machine, and the node position of the wire. Here, the node refers to a measuring point that represents a branch point of an electric wire displayed on a design drawing or a fixed point when the electric wire is installed. By such information acquisition processing, the information processing section 11 creates a route diagram of the wire harness 20 in which the connection state between the fixed auxiliary machine 21 and the node 22 in the wire harness 20 is shown, as shown in FIG. 2 to 7, the fixed auxiliary machine 21 and the node 22 are numbered for convenience of explanation.

  Next, when the designer operates the input unit 16, as illustrated in FIG. 3, the information processing unit 11 sets the temporary connection position of the joint 23 at the position of an arbitrary node 22 in the route diagram of the wire harness 20. To do. In the present embodiment, the joint 23 is an example of a so-called concentration joint 23 in which the electric wires 24 connected to the plurality of fixed accessories 21 are concentrated and connected as a ground wire. 3 to 5, an image of the electric wire 24 that connects the joint 23 and each fixed auxiliary machine 21 is indicated by a broken line.

  The information processing unit 11 is configured to calculate the line length of the electric wire 24 connected between the joint 23 and each fixed auxiliary machine 21 based on the set temporary connection position of the joint 23. . Specifically, in FIG. 3, the line length of the electric wire 24 between the joint 23 and the node (2) 22 and the fixed auxiliary machine (1) 21 via the node (1) 22, the joint 23 and the node (2 ) The length of the wire 24 between the fixed auxiliary machine (2) 21 via 22 and the fixed auxiliary machine (3) via the joint 23 and the node (2) 22, node (1) 22 and node (3) 22 ) 21 and the wire 24 between the joint 23 and the fixed auxiliary machine (4) 21 via the node (2) 22 are respectively calculated.

Then, the information processing unit 11 uses the line type information, the wire diameter information, the mass information, and the price information used for the electric wires 24 stored in the database unit 14 to calculate the price per unit or the unit price for each wire 24. By multiplying the hit mass, the total price and the total mass of the corresponding electric wire 24 are calculated and stored in the data storage unit 12 or the database unit 14. In this case, based on the line type information stored in the database unit 14, in the case of the electric wire 24 using a thin wire with a small wire diameter, the price per unit of the fine wire or the fine wire is added to the wire length of the electric wire 24. By multiplying the mass per unit of the object wire, the total price and the total mass of the corresponding electric wire 24 are calculated, and in the case of the electric wire 24 using a thick wire with a large wire diameter, By multiplying the price per unit of thick wire or the mass per unit of thick wire, the total price and the total mass of the corresponding electric wire 24 are calculated.
On the other hand, the information processing unit 11 calculates the total line length of the electric wires 24 connected to each fixed auxiliary machine 21 based on the calculated line lengths of the electric wires 24 and stores them in the data storage unit 12 or the database unit 14. Let me.

  Further, as shown in FIG. 4, the information processing unit 11 moves the temporary connection position of the joint 23 to the position of another node 22 based on the route diagram of the wire harness 20. The total price and the total mass of each electric wire 24 at the temporary connection position of the joint 23 is calculated, the total wire length of the electric wires 24 connected to each fixed auxiliary machine 21 is calculated, and the data storage unit 12 or the database unit 14 is calculated. Remember me.

  Specifically, FIG. 4 shows an example in which the temporary position of the joint 23 is moved from the node (2) 22 to the node (1) 22. In FIG. 1) The length of the wire 24 between the fixed auxiliary machine (1) 21 via 22 and between the joint 23 and the fixed auxiliary machine (2) 21 via the node (1) 22 and the node (2) 22 , The wire length between the joint 23 and the node (1) 22 and the fixed auxiliary machine (3) 21 via the node (3) 22, the joint 23 and the node (1) 22 and The line length of the electric wire 24 between the fixed auxiliary machine (4) 21 via the node (2) 22 is calculated.

  Then, the information processing unit 11 moves the temporary connection position of the joint 23 to the position of another node 22 based on the route diagram of the wire harness 20. While calculating the total price and total mass of each electric wire 24 in a connection position, the total wire length of the electric wire 24 connected to each fixed auxiliary machine 21 is calculated, and memorize | stored in the data storage part 12 or the database part 14. FIG.

Specifically, FIG. 5 shows an example in which the temporary position of the joint 23 is moved from the node (1) 22 to the node (3) 22. In FIG. 5, the joint 23 and the node (3 ) 22 and the length of the electric wire 24 between the fixed auxiliary machine (1) 21 via the node (1) 22, via the joint 23 and the node (3) 22, the node (1) 22 and the node (2) 22 The length of the electric wire 24 between the fixed auxiliary machine (2) 21 and the line length of the electric wire 24 between the joint 23 and the fixed auxiliary machine (3) 21 via the node (3) 22 and the joint 23 and the node. (3) The line lengths of the electric wires 24 between the node 22, the node (1) 22 and the fixed auxiliary machine (4) 21 via the node (2) 22 are respectively calculated.
As described above, the information processing unit 11 moves the joints 23 to the positions of all the nodes 22 to perform calculation processing of the total price, total mass, and total line length, and stores them in the data storage unit 12 or the database unit 14. .

  The input unit 16 selects whether the wire harness 20 designed by the designer is given priority to the line length or the price. When the line length priority is selected, the information processing unit 11 determines the total line length of the electric wires 24 for each temporary connection position of the joint 23 among the total line lengths stored in the data storage unit 12 or the database unit 14. Among these, the position of the node 22 having the shortest total line length is determined as the connection position of the joint 23. On the other hand, when the price priority is selected, the information processing unit 11 calculates the total price of the electric wires 24 for each temporary connection position of the joint 23 out of the total price stored in the data storage unit 12 or the database unit 14. Among them, the position of the node 22 having the lowest price is determined as the connection position of the joint 23.

  Specifically, for example, as shown in FIG. 6, the electric wire 24 connecting the fixed auxiliary machine (1) 21 and the fixed auxiliary machine (2) 21 and the joint 23 is constituted by a thin wire, and the fixed auxiliary machine (3) In the case of the wire harness 20 comprised of a thick wire as the electric wire 24 connecting the joint 21 and the joint 23, when the joint 23 is connected to the node (1) 22, the fixed auxiliary machine (3) 21 Even when the electric wire 24 between the joint 23 and the joint 23 is a thick wire, the price is high and the mass is large, the total wire length is the shortest. Therefore, when the wire length priority is selected, the node (1) 22 Is determined as the connection position of the joint 23. On the other hand, when the joint 23 is connected to the node (2) 22, the fixed auxiliary machine (1) 21 and the electric wire 24 between the fixed auxiliary machine (2) 21 and the joint 23 are thin wires, and the price is low and the mass is low. Since the total price is the lowest even when the distance to the node (2) 22 is long, the position of the node (2) 22 is connected to the joint 23 when price priority is selected. It is determined as a position.

  Next, the operation of the present embodiment will be described with reference to the flowchart shown in FIG.

  In the present embodiment, first, by operating a position optimization program of the wire harness 20, a design drawing of the wire harness 20 created in advance by a designer is read, and the information on the arrangement position of the wires 24 and the wires are read by the information processing unit 11. Information such as the position information of the fixed auxiliary machine 21 to which 24 is connected is acquired (ST1).

  Next, a route diagram of the wire harness 20 is created based on the acquired information (ST2). Then, the temporary connection position of the joint 23 is set at the position of an arbitrary node 22 in the route diagram of the wire harness 20 (ST3). Based on the set temporary connection position of the joint 23, the information processing unit 11 calculates the lengths of the electric wires 24 connected between the joint 23 and each fixed auxiliary machine 21 (ST4). Then, the information processing unit 11 uses the wire type information, the wire diameter information, the weight information, and the price information used for the electric wires 24 stored in the database unit 14 based on the calculated wire lengths to determine the respective electric wires. The total price and the total mass of 24 are calculated, and the total wire length of the electric wires 24 connected to each fixed auxiliary machine 21 is calculated and stored in the data storage unit 12 or the database unit 14 (ST5).

  If the joints 23 are not temporarily connected to the positions of all the nodes 22 (ST6: NO), the information processing unit 11 changes the temporary connection positions of the joints 23 based on the route diagram of the wire harness 20. To the position of the node 22 (ST7). Similarly, based on the temporary connection position of the moved joint 23, the information processing unit 11 calculates the lengths of the electric wires 24 connected between the joint 23 and each fixed auxiliary machine 21 (ST4). Based on the calculated wire length, the total price and the total mass of each electric wire 24 are calculated and stored in the data storage unit 12 or the database unit 14 (ST5).

  When the joints 23 are temporarily connected to the positions of all the nodes 22 (ST6: YES), it is selected whether the wire harness 20 designed by the input unit 16 is given priority to the line length or price. If the line length priority is selected (ST8: line length priority), the temporary connection position of the joint 23 stored in the data storage unit 12 or the database unit 14 by the information processing unit 11 is selected. Among the total line lengths of the electric wires 24, the position of the node 22 having the shortest total line length is determined as the connection position of the joint 23 (ST9).

  On the other hand, when price priority is selected (ST8: price priority), the total price of the electric wires 24 for each temporary connection position of the joint 23 stored in the data storage unit 12 or the database unit 14 by the information processing unit 11. The position of the node 22 having the lowest price is determined as the connection position of the joint 23 (ST10).

  As described above, in the present embodiment, the connection position of the joint 23 can be set efficiently and appropriately based on whether the line length has priority or the price has priority. Moreover, in the design of the wire harness 20, when the wire length is given priority, the waste of the electric wire 24 can be eliminated, and when the price is given priority, the material price can be reduced. Arrangement of the appropriate joint 23 according to the intention can be performed.

  In the embodiment, the setting is made so that either the total wire length or the total price of the electric wires 24 is prioritized, but the connection position of the joint 23 is prioritized so as to be lightest based on the mass. May be set. In the example shown in FIGS. 6 and 7, the case where there are two types of line types and two types of prices has been described. However, three or more types of line types and prices may be set.

  Furthermore, in the above-described embodiment, it is selected whether the line length is prioritized or the price is prioritized. However, by determining in advance whether the line length is prioritized or the price is prioritized, automatic Alternatively, the connection position of the joint 23 may be set.

  The present invention is not limited to the above-described embodiment, and various modifications can be made based on the gist of the present invention.

DESCRIPTION OF SYMBOLS 10 Position optimization system 11 Information processing part 12 Data storage part 13 Program storage part 14 Database part 15 Display part 16 Input part 20 Wire harness 21 Fixed accessory 22 Node 23 Joint 24 Electric wire

Claims (6)

At least an information processing unit, a storage unit, and an input unit;
The information processing unit
A process of reading a design drawing of a wire harness created in advance and acquiring information on electric wires, fixed accessories, and nodes,
Based on the information, a process of creating a route diagram of the wire harness,
A process of setting temporary connection positions of joints at all the node positions in the route diagram of the wire harness;
Based on the set temporary connection position of the joint, the wire length of the wire connected to the joint is calculated, and the total wire length and the total price of the wire based on the wire length are calculated and stored in the storage unit. Processing to
Based on the line length information or price information of the storage unit, the process of determining the position of the node as a joint connection position;
Joint position optimization system characterized by   The input unit can select whether the connection position of the joint is to be given priority to line length or to give priority to price based on the line length information or price information of the storage unit. The joint position optimization system according to 1.   When the information processing unit determines the connection position of the joint on the basis of the line length information of the storage unit, the shortest of the total wire lengths of the electric wires stored in the storage unit. If the node position of the total line length is the connection position of the joint, and the connection position of the joint is determined on the basis of price information of the storage unit with price priority, the total number of electric wires stored in the storage unit The joint position optimizing system according to claim 1 or 2, wherein a node position having the lowest price among the prices is set as a joint connection position. In a computer including at least an information processing unit, a storage unit, and an input unit,
A process of reading a design drawing of a wire harness created in advance and acquiring information on electric wires, fixed accessories, and nodes,
Based on the information, a process of creating a route diagram of the wire harness,
A process of setting temporary connection positions of joints at all the node positions in the route diagram of the wire harness;
Based on the set temporary connection position of the joint, the wire length of the wire connected to the joint is calculated, and the total wire length and the total price of the wire based on the wire length are calculated and stored in the storage unit. Processing to
Based on the line length information or price information of the storage unit, the process of determining the position of the node as a joint connection position;
A joint position optimization program characterized by having   5. The input unit can select whether the connection position of the joint is to be given priority to the line length or the price to be given based on the line length information or price information of the storage unit. The joint position optimization program described. In the computer,
When determining the connection position of the joint based on the line length information of the storage unit with priority on the line length, the total wire length of the shortest among the total line lengths of the electric wires stored in the storage unit Process the node position to be the connection position of the joint,
When determining the connection position of the joint on the basis of price information of the storage unit with price priority, the node position having the lowest price among the total prices of the electric wires stored in the storage unit is determined as the joint position. 6. The joint position optimization program according to claim 4 or 5, wherein the joint position optimization program is processed so as to be a connection position.

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