Product design as an integral step in assembly system development

As product design has entered the stage of green design, virtual design becomes increasingly important, and cutting research is the core of it. This paper established a basic virtual cutting system and the grid models of virtual objects based on PHANTOM Omni hap tic feedback device and its system development toolkit and built up oriented bounding box and operated bounding box collision detection. On the base of these, the paper also presented a new method of cutting force condition judgment of cutting tool, and gave the cutting path planning and grid model reconstruction on the basis of virtual cutting methods of triangular grid unit model. At last, the paper researched the virtual cutting of grid model using computer programming language, providing design methods for product design. The relative methods may advance the effect of product design drastically.

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Robotic Grip Determination From Solid Models

ASME 1991 Computers in Engineering Conference: Volume 1 — Artificial Intelligence; Expert Systems; CAD/CAM/CAE; Computational Fluid/Thermal Engineering ◽

10.1115/cie1991-0025 ◽

1991 ◽

Author(s):

Gary A. Gabriele

Keyword(s):

Product Design ◽

Assembly System ◽

Automated Assembly ◽

End Effector ◽

Second Stage ◽

The Third ◽

Third Stage ◽

Analysis System ◽

The Individual ◽

Assembly Analysis

Abstract Design for Assembly (DFA) can have a significant influence on the cost of a product. DFA is especially beneficial for products that are robotically assembled, due to the limitations placed on the product design by the automated assembly equipment. Automated assembly analysis systems have been developed to assess the assemblability of a product but, many lack an interface to the product CAD database. The lack of a CAD interface requires the user to examine every part in the assembly to determine the characteristics and features that promote efficient assembly. This is a time consuming and tedious process. An automated assembly analysis system is described that will automatically analyze a product design to determine if it can be assembled on a particular assembly system and suggest improvements in the design. Three main stages of the system are identified. The first stage determines if the individual parts of the assembly can be presented to the work station. The second stage determines if the individual parts of the assembly can be grasped and manipulated by the end effectors. The third stage determines if every part in the assembly can be positioned and inserted into the assembly to complete the assembly process. A prototype system was developed that addresses the second stage of the proposed automated assembly analysis system and is described herein. The Robotic Grip Determining (RGD) program examines a B-Rep solid model of a part to determine if it can be grasped by a modeled end effector. If the RGD program determines that the part can be grasped, a list of gripping positions are generated that describe how the end effector can grasp the part. These gripping positions can then be passed to the third stage of the proposed automated assembly-system.

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Pengembangan sistem informasi manajemen bengkel kerja sekolah menengah kejuruan

Jurnal Pendidikan Vokasi ◽

10.21831/jpv.v5i1.6078 ◽

2015 ◽

Vol 5 (1) ◽

pp. 103

Author(s):

Syahrina Ramadina ◽

Samsul Hadi

Keyword(s):

High School ◽

Information System ◽

Product Design ◽

Management Information System ◽

System Development ◽

Product Evaluation ◽

Design Development ◽

Vocational High School ◽

Management Information ◽

Teachers And Students

Penelitian ini bertujuan untuk mengembangkan sistem informasi yang dapat mendukung user/ pengguna dalam memberikan pelayanan sistem informasi manajemen Bengkel Kerja Sekolah Menengah Kejuruan. Penelitian ini merupakan jenis penelitian pengembangan atau Research and Development (R&D). Prosedur penelitian yang digunakan pada penelitian ini terdiri atas beberapa langkah yaitu: analisis kebutuhan, desain produk, pengembangan desain produk, uji coba produk/ implementasi produk, dan penilaian produk. Pada tahap pengembangan desain produk, software diuji kelayakannya dengan cara validasi tes alpha dan tes beta. Selanjutnya dilakukan penilaian produk untuk mengetahui kinerja sistem menurut pengguna yang terdiri dari kepala bengkel, teknisi, guru, dan siswa Bengkel Kerja di SMK Negeri 3 Yogyakarta. Data dianalisis dengan statistik deskriptif. Hasil penelitian ini adalah sebuah produk berupa Software yang diberi nama ”Sistem Informasi Manajemen Bengkel Kerja Sekolah Menengah Kejuruan” atau “SIMBA SMK Negeri 3 Yogyakarta.” Produk yang dibuat dinyatakan telah memenuhi kriteria jelas, konsisten, akurat, dan andal. Rerata skor penilaian secara keseluruhan mencapai nilai 3,77 (baik). THE MANAGEMENT INFORMATION SYSTEM DEVELOPMENT OF THE VOCATIONAL HIGH SCHOOL WORKSHOPAbstractThe aim of the study is to develop information system which can support the users in handling the management information system of the Vocational High School Workshop.The study is categorized as the Educational Research Development (R&D). The research procedure used in conducting this study consists of some stepsi.e.: need analyzes, product design, product design development, product trial/product implementation, and product evaluation. In the development phase of product design, software tested for feasibility by means of validation tests alpha and beta testing. Further product assessment to determine the performance of the system according to user consists of some stepsi.e.: the head of the workshop, technicians, teachers, and students of Workshop at SMK 3 Yogyakarta. Data were analyzed with descriptive statistics. The result of this study was the software named Sistem Informasi Manajemen Bengkel Kerja Sekolah Menengah Kejuruan (The Management Information System of the Vocational High School Workshop) or “SIMBA SMK 3 Yogyakarta.” Results of the assessment states that the product has met the criteria made clear, consistent, accurate, and reliable. It was indicated by the whole score rate reaching at 3.77(good).

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The Automatic Assembly Technology of Standard Mold Base Based on UG

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.482-484.2265 ◽

2012 ◽

Vol 482-484 ◽

pp. 2265-2269

Author(s):

Ze Hao Hu ◽

Juan Liu ◽

Kun Liu ◽

Nan Wang

Keyword(s):

Product Development ◽

Product Design ◽

Assembly System ◽

Automatic Assembly ◽

Design And Development ◽

Development Cycle ◽

Assembly Technology ◽

Open Api ◽

Product Development Cycle

Abstract: In order to realize the function of automatic assembly of the standard mold base, simultaneously, realize the intelligence and automation of products, the automatic assembly system is analyzed and researched, the design and development of the automatic assembly are completed and the executable files are exported through the function provided by the tool of UG/Open API, which make the mold automatic assembly realistic, the structure of product design and assembly optimized, the product development cycle shortened and the efficiency and accuracy of assembly improved.

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Communication and Knowledge Management Platform for Concurrent Product and Assembly System Development

Procedia Manufacturing ◽

10.1016/j.promfg.2018.12.018 ◽

2019 ◽

Vol 28 ◽

pp. 107-113 ◽

Cited By ~ 4

Author(s):

Rainer Müller ◽

Leenhard Hörauf ◽

Christoph Speicher ◽

Johannes Obele

Keyword(s):

Knowledge Management ◽

System Development ◽

Assembly System ◽

Management Platform

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3C Product Design by Customers Based on Geek Net Groups

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.155-156.115 ◽

2012 ◽

Vol 155-156 ◽

pp. 115-119

Author(s):

Pu Hong Li ◽

Zhi Jun Fan

Keyword(s):

Mobile Phone ◽

Product Design ◽

Mass Production ◽

System Development

Individuation is the inevitable trend of product design, especially 3C product. So the further can the clients participate in the product design, the more product individuation is. Confronted with the increasing individual demands of customers, manufacturers should think it more important to increase the individuation of their products by doing their best to enable the clients take part fart- hest in the 3C products design with the efficiency of mass production. The characteristics of 3C product design and the customers - "Geek" network groups are summarized at first. Then, as an example of MEIZU M9 mobile phone, design by customers-Geek to the innovation design of 3C product is analyzed. Finally, based on these questions, the methods and problems for the production innovation of 3C manufacturers are described. It provides theoretic basic for studying customers how to participate in design and the system development of design by customers.

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