Product Development of Material Supply : Implementation of Karakuri Kaizen

Porteiro Paraponiaris, Yanni, Mateos Rodríguez, Arturo

January 2019

The industry 4.0 is continuously aiming to produce faster, increasing quality, and strictly using what is necessary to achieve efficiency enhancement. Within the wide list of methods used to reach this target, robot automation is usually used, although is expensive and rigid. Alternatively, a Japanese cheap automation philosophy called "Karakuri", is being introduced by Volvo GTO to manage this goal. This thesis relies on this philosophy, which takes profit of the existing energy, like gravity, to put in motion mechanisms, in order to reduce costs and improve the production efficiency by developing a semi-automated material handling system. The design method followed, the Scrum, divides the thesis in several phases of development, presenting a fully developed solution at the end of each one and iteratively increasing the level of definition along the process, to finally provide a solution suitable to be implemented.

Karakuri Kaizen

Volvo

Material Handling

Product Development

LCA

Low Cost Automation

Mechanical Engineering

Maskinteknik

An electric actuator selection aid for low cost automation

Egbuna, C. Chukwudi

03 1900

Thesis (MScEng (Mechanical and Mechatronic Engineering))--University of Stellenbosch, 2008. / Low Cost Automation (LCA) is of immense importance to industry, and even more so for small scale industries. In implementing LCA determining cost effective and efficient actuator alternatives present challenges for design engineers. Most often decisions are experiential or entirely based on manufacturer recommendations. Experience based decisions are most often biased with respect to the engineers’ knowledge. Similarly, manufacturer recommendations are restricted to their own products and are as such also biased. Either way, sub-optimum drive alternatives may sometimes be chosen. This demonstrates the need for making better informed decisions based on more than experience and what is available for use. This thesis reports the development of an electric actuator selection procedure and aid for use in the early layout design phase. It provides readily accessible information on technically viable actuator options. Experiential knowledge of experts in the field, commercial information, as well as data obtained from experimentation was used in its development. Being orientated towards LCA, the procedure has been targeted at the application of electric motors and their associated control technologies but can be extended to hydraulic, pneumatic and other actuators. In achieving a wider applicability of the selection aid, a generic set of actuator properties descriptive of most actuators was formulated. An AC drives control evaluation was conducted for developing the selection procedure and aid. It provided a means to validate some selection aid rules associated with actuator controllability. Quantitative data on speed and positioning accuracies of common AC three phase motors and their associated inverter technologies were the targeted results of the experimentation.

Electricactuator

Low cost automation

Selection aid

Selection procedure

Dissertations -- Mechanical engineering

Theses -- Mechanical engineering

Actuators

Manufacturing processes -- Automation

Mechanical and Mechatronic Engineering

Analýza a řízení provozu nové výroby v podniku / Analysis and operation management of a new production in company

MIKULÁŠKOVÁ, Petra

January 2013

The thesis analyses manufacturing process of wooden handles as a component part of bench chisels. The introductory part summarizes basic theoretical knowledge regarding production process, production preparation, production management and cycle, as well as layout of the workplace. The main part focuses on analysis of wooden handle production with the use of in-dustrial engineering methodology. Analysis of material flow, workplace arrangement, methodics 5S, low-cost automation, pull system, Kanban and utilization of waste were carried out in order to find improvement possibilities in the wooden handles production. Solutions for better production efficiency and increase of production capacity are proposed from the findings of this thesis.