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JP-2026074667-A - Demolition simulation program and demolition simulation device

JP2026074667AJP 2026074667 AJP2026074667 AJP 2026074667AJP-2026074667-A

Abstract

[Problem] To enable pre-demolition simulations for efficiently demolishing the target object. [Solution] The demolition simulation program 15 can cause the processor 11 to perform an acquisition process to acquire demolition information from storage devices 14 and 90 that store demolition information 30, which includes demolition means information 31 relating to the types of demolition means used for the demolition work on the object to be demolished, and cost information 32 relating to the cost when the demolition work on the object to be demolished is performed using the demolition means, which is set for each type of demolition means; a setting process to set the demolition information to be used for the simulation based on user input operations; and a display process to display the model 43 of the object to be demolished on the display device 22 in different display modes depending on the content of the cost information included in the demolition information set by the setting process, based on the acquired demolition information. [Selection Diagram] Figure 1

Inventors

  • 白木 徹

Assignees

  • 株式会社デンソー

Dates

Publication Date
20260507
Application Date
20241021

Claims (5)

  1. Processor (11), An acquisition process to acquire demolition information (30) from a storage device (14, 90) which stores demolition information (30) including demolition means information (31) relating to the type of demolition means used for the demolition work of the object to be demolished, and cost information (32) which is set for each type of demolition means and relates to the cost when the demolition work of the object to be demolished is performed using the demolition means, A setting process that sets the dismantling information to be used in the simulation based on user input, Based on the acquired demolition information, a display process is performed to display the model (43) to be demolished on the display device (22) in different display modes according to the content of the cost information included in the demolition information set by the setting process, A demolition simulation program (15) that can be executed.
  2. The cost information includes at least one of the following: speed information (321) relating to the speed of movement of the demolition means in the demolition work, usage fee information (322) relating to the usage fee of the demolition means in the demolition work, and work time information (323) relating to the time required for the demolition work using the demolition means. The demolition simulation program according to claim 1.
  3. The cost information includes at least two of the following: movement speed information (321) relating to the movement speed of the demolition means in the demolition work, usage fee information (322) relating to the usage fee of the demolition means in the demolition work, and work time information (323) relating to the time required for the demolition work using the demolition means. The aforementioned setting process includes a process for setting the type of cost information to be used in the simulation based on user input operations. The display process includes a process that causes the display device (22) to display the model to be dismantled in a manner corresponding to the cost information set in the setting process, and in a different display manner for each content of the cost information corresponding to the dismantling means information set in the setting process. The demolition simulation program according to claim 1.
  4. The demolition means information includes at least one of the following: tools and equipment used in the demolition work, a method for demolition of the object to be demolished, and the direction in which the demolition work is performed. The demolition simulation program according to claim 1.
  5. An acquisition processing unit (151) acquires the demolition information from a storage device (14, 90) which stores demolition information (30) including demolition means information (31) relating to the type of demolition means used for the demolition work of the object to be demolished, and cost information (32) which is set for each type of demolition means and relates to the cost when the demolition work of the object to be demolished is performed using the demolition means, A setting processing unit (152) sets the dismantling information to be used in the simulation based on user input, Based on the acquired dismantling information, a display processing unit (153) causes the model (43) to be dismantled to be displayed on the display device (22) in different display modes depending on the content of the cost information included in the dismantling information set by the setting processing unit, A demolition simulation device (10) equipped with the following features.

Description

This disclosure relates to a demolition simulation program and a demolition simulation device. For example, Patent Document 1 discloses a technique for determining the assembly procedure by simulating assembly work using a robot in order to avoid interference between the robot and vehicles or parts. Japanese Patent Application Publication No. 11-207669 Figure 1 is a functional block diagram showing an example of a demolition simulation device according to one embodiment.Figure 2 shows an example of dismantling information according to one embodiment.Figure 3 shows an example of the display content shown on the display device when a demolition simulation program is executed according to one embodiment.Figure 4 shows an example of the display content shown on the display device when a demolition simulation program is executed according to one embodiment.Figure 5 shows an example of the display content shown on the display device when a demolition simulation program is executed according to one embodiment.Figure 6 shows an example of the display content shown on the display device when a demolition simulation program is executed according to one embodiment.Figure 7 shows an example of the display content shown on the display device when a demolition simulation program is executed according to one embodiment.Figure 8 shows an example of the display content shown on the display device when a demolition simulation program is executed according to one embodiment.Figure 9 is a processing flow diagram showing an example of the processor's processing content when a demolition simulation program according to one embodiment is executed. The following describes one embodiment with reference to the drawings. The demolition simulation device 10 shown in Figure 1 is a simulator for simulating the demolition procedures and demolition methods used in the demolition work of the object to be demolished. In this embodiment, the simulation performed by the demolition simulation program or the demolition simulation device may be referred to as the demolition simulation. Furthermore, while this embodiment assumes, for example, a car as the object to be demolished, the object to be demolished is not limited to a car. The demolition simulation device 10 may be configured as, for example, a general-purpose personal computer installed in the user's workspace, or as, for example, a so-called cloud server installed outside the user's workspace. The hardware configuration of the demolition simulation device 10 includes a processor 11, main memory 12, and a communication unit 13, as shown in Figure 1. The processor 11 includes a microcomputer such as a CPU and performs arithmetic processing. The main memory 12 is a storage area such as ROM, RAM, and rewritable flash memory. The communication unit 13 provides communication with external devices. The communication unit 13 is connected to an external data server 90 via a telecommunications line, such as the Internet. The demolition simulation device 10 is connected to an input device 21 and a display device 22. The input device 21 is a user interface, such as a mouse, keyboard, or touch panel, and has the function of receiving input operations from the user. The display device 22 is a user interface, such as a display, that can provide visual information to the user and presents various types of information to the user. Furthermore, if the demolition simulation device 10 is composed of, for example, a personal computer installed within the user's work environment, the input device 21 and display device 22 can also be elements of the demolition simulation device 10. Alternatively, if the demolition simulation device 10 is installed outside the user's work environment, the input device 21 and display device 22 can be configured separately from the demolition simulation device 10 and connected to it via a telecommunications line. The demolition simulation device 10 is equipped with an auxiliary storage device 14. The auxiliary storage device 14 stores the demolition simulation program 15. The demolition simulation program 15 is a computer program for virtually implementing the acquisition processing unit 151, the setting processing unit 152, and the display processing unit 153 on a computer. The processor 11 reads the demolition simulation program 15 from the auxiliary storage device 14, expands it into the main memory 12, and executes it, thereby virtually implementing the acquisition processing unit 151, the setting processing unit 152, and the display processing unit 153 on the computer. In other words, the demolition simulation device 10 includes an acquisition processing unit 151, a setting processing unit 152, and a display processing unit 153. The acquisition processing unit 151, the setting processing unit 152, and the display processing unit 153 can be configured as functional units virtually realized by, for example, executing the demolition simulation program 15 on the processor 11.