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1 – 10 of 472André Luiz Castro, João Pedro Carvalho de Souza, Luís F. Rocha and Manuel F. Silva
This paper aims to propose an automated framework for agile development and simulation of robotic palletizing cells. An automatic offline programming tool, for a variety of robot…
Abstract
Purpose
This paper aims to propose an automated framework for agile development and simulation of robotic palletizing cells. An automatic offline programming tool, for a variety of robot brands, is also introduced.
Design/methodology/approach
This framework, named AdaptPack Studio, offers a custom-built library to assemble virtual models of palletizing cells, quick connect these models by drag and drop, and perform offline programming of robots and factory equipment in short steps.
Findings
Simulation and real tests performed showed an improvement in the design, development and operation of robotic palletizing systems. The AdaptPack Studio software was tested and evaluated in a pure simulation case and in a real-world scenario. Results have shown to be concise and accurate, with minor model displacement inaccuracies because of differences between the virtual and real models.
Research limitations/implications
An intuitive drag and drop layout modeling accelerates the design and setup of robotic palletizing cells and automatic offline generation of robot programs. Furthermore, A* based algorithms generate collision-free trajectories, discretized both in the robot joints space and in the Cartesian space. As a consequence, industrial solutions are available for production in record time, increasing the competitiveness of companies using this tool.
Originality/value
The AdaptPack Studio framework includes, on a single package, the possibility to program, simulate and generate the robot code for four different brands of robots. Furthermore, the application is tailored for palletizing applications and specifically includes the components (Building Blocks) of a particular company, which allows a very fast development of new solutions. Furthermore, with the inclusion of the Trajectory Planner, it is possible to automatically develop robot trajectories without collisions.
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FlexPalletizer IRB 640 is the name of a new palletizing robot developed by ABB that meets the special needs of the consumer goods industry, and particularly those of the…
Abstract
FlexPalletizer IRB 640 is the name of a new palletizing robot developed by ABB that meets the special needs of the consumer goods industry, and particularly those of the foodstuffs and beverage sector. A total of 1,200 palletizing cycles per hour and a handling capacity of 160kg are among the performance features that ensure fast pay‐back of the capital investment. Modern software tools not only increase productivity, but also lower the cost of operating the robot. PalletWizard, for example, allows users to create their own palletizing programs off‐line and requires no special knowledge of programming. It works in a PC environment and allows the robot to be kept in production while new work cycles, etc., are being created.
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João Pedro Carvalho de Souza, André Luiz Castro, Luís F. Rocha and Manuel F. Silva
This paper aims to propose a translation library capable of generating robots proprietary code after their offline programming has been performed in a software application, named…
Abstract
Purpose
This paper aims to propose a translation library capable of generating robots proprietary code after their offline programming has been performed in a software application, named AdaptPack Studio, running over a robot simulation and offline programming software package.
Design/methodology/approach
The translation library, named AdaptPack Studio Translator, is capable to generate proprietary code for the Asea Brown Boveri, FANUC, Keller und Knappich Augsburg and Yaskawa Motoman robot brands, after their offline programming has been performed in the AdaptPack Studio application.
Findings
Simulation and real tests were performed showing an improvement in the creation, operation, modularity and flexibility of new robotic palletizing systems. In particular, it was verified that the time needed to perform these tasks significantly decreased.
Practical implications
The design and setup of robotics palletizing systems are facilitated by an intuitive offline programming system and by a simple export command to the real robot, independent of its brand. In this way, industrial solutions can be developed faster, in this way, making companies more competitive.
Originality/value
The effort to build a robotic palletizing system is reduced by an intuitive offline programming system (AdaptPack Studio) and the capability to export command to the real robot using the AdaptPack Studio Translator. As a result, companies have an increase in competitiveness with a fast design framework. Furthermore, and to the best of the author’s knowledge, there is also no scientific publication formalizing and describing how to build the translators for industrial robot simulation and offline programming software packages, being this a pioneer publication in this area.
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The purpose of this paper is to report on the innovative system developed to automatically palletize orders of cartons of candy for shipment to distribution centers.
Abstract
Purpose
The purpose of this paper is to report on the innovative system developed to automatically palletize orders of cartons of candy for shipment to distribution centers.
Design/methodology/approach
Designers study the manual system employed by the customer and focused on dividing the workload across robotic and traditional palletizing equipment.
Findings
As many as 15 workers could be redistributed to other areas of the plant, as well as helping to prevent injuries, without increasing floor space needed.
Practical implications
Robotics can be very useful but are not always the correct answer for all aspects of every application.
Originality/value
Knowing what others have accomplished can be very useful in structuring an approach to a new automated assembly requirement.
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The purpose of this paper is to provide a review of present‐day and anticipated future applications of robots in the food industry.
Abstract
Purpose
The purpose of this paper is to provide a review of present‐day and anticipated future applications of robots in the food industry.
Design/methodology/approach
The paper discusses the use of robots in the agriculture and farming, processing and packaging and retail sectors of the industry. Examples are given of specific applications and development activities.
Findings
Robots are being developed for many agriculture and farming applications but with the exception of milking robots, most still remain at the research/prototype stage. Food processing and packaging is the best developed sector of the industry and most uses entail picking, packing and palletising, although meat cutting is a growing application. Robots are few in the food retail sector although a number of innovative, niche products have recently been launched.
Originality/value
This paper reviews the use of robots throughout the food chain and considers possible future applications.
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