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Utveckling av rattstång med övre teleskopfunktion / Development of steering column with upper telescopic functionJosefsson, Johannes, Lundberg, Marcus January 2009 (has links)
<p>I denna rapport redogör projektgruppen för resultatet i kursen examensarbete 15hp (C-nivå) utfört på maskiningenjörsprogrammet, inriktning produktutveckling och design, vid Jönköpings Tekniska Högskola.</p><p>Examensarbetet har utförts i samarbete med Kongsberg Power Product Systems AB i Ljungsarp. Syftet var att utveckla en ny typ av övre teleskopfunktion till Kongsbergs modulsystem för ställbara rattstänger.</p><p>Utgångspunkten i projektet var att skapa en mer ergonomisk förarmiljö, något som Kongsbergs kunder och marknaden för långsamtgående fordon allt mer efterfrågar. Kraven som ställts på projektet bestod i största del av axiella och radiella krafter som konstruktionen skulle klara av, samt den axiella förlängningen av rattstången.</p><p>För att strukturera arbetet har en produktutvecklingsmetod från boken The Mechanical Design Process av David G. Ullman använts. Dessa metoder har använts i genomförandefasen för att leda fram till resultatet.</p><p>Projektet har resulterat i ett koncept som löser Kongsbergs krav på förbättrad förarergonomi.</p> / <p>In this report the project team describes the outcome of the course degree project 15 ECTS (C level) performed at the program of mechanical engineering, targeted product development and design, at Jönköping University.</p><p>The degree project has been carried out in cooperation with Kongsberg Power Products Systems AB in Ljungsarp. The aim was to develop a new type of upper telescopic function to the Kongsberg modular system for adjustable steering columns.</p><p>The starting point of the project was to create a more ergonomic driver's environment, as Kongsberg’s customers and the market for slow vehicles are increasingly demanding.</p><p>The requirements placed on the project consisted in the main part of the forces that construction would meet, and the axial extension of the steering column.</p><p>To structure the work a product development methodology from the book The Mechanical Design Process by David G. Ullman has been used.</p><p>The project has resulted in a concept that solves Kongsberg's demands for improved driver ergonomics.</p>
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Utveckling av rattstång med övre teleskopfunktion / Development of steering column with upper telescopic functionJosefsson, Johannes, Lundberg, Marcus January 2009 (has links)
I denna rapport redogör projektgruppen för resultatet i kursen examensarbete 15hp (C-nivå) utfört på maskiningenjörsprogrammet, inriktning produktutveckling och design, vid Jönköpings Tekniska Högskola. Examensarbetet har utförts i samarbete med Kongsberg Power Product Systems AB i Ljungsarp. Syftet var att utveckla en ny typ av övre teleskopfunktion till Kongsbergs modulsystem för ställbara rattstänger. Utgångspunkten i projektet var att skapa en mer ergonomisk förarmiljö, något som Kongsbergs kunder och marknaden för långsamtgående fordon allt mer efterfrågar. Kraven som ställts på projektet bestod i största del av axiella och radiella krafter som konstruktionen skulle klara av, samt den axiella förlängningen av rattstången. För att strukturera arbetet har en produktutvecklingsmetod från boken The Mechanical Design Process av David G. Ullman använts. Dessa metoder har använts i genomförandefasen för att leda fram till resultatet. Projektet har resulterat i ett koncept som löser Kongsbergs krav på förbättrad förarergonomi. / In this report the project team describes the outcome of the course degree project 15 ECTS (C level) performed at the program of mechanical engineering, targeted product development and design, at Jönköping University. The degree project has been carried out in cooperation with Kongsberg Power Products Systems AB in Ljungsarp. The aim was to develop a new type of upper telescopic function to the Kongsberg modular system for adjustable steering columns. The starting point of the project was to create a more ergonomic driver's environment, as Kongsberg’s customers and the market for slow vehicles are increasingly demanding. The requirements placed on the project consisted in the main part of the forces that construction would meet, and the axial extension of the steering column. To structure the work a product development methodology from the book The Mechanical Design Process by David G. Ullman has been used. The project has resulted in a concept that solves Kongsberg's demands for improved driver ergonomics.
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CONCEPT FOR A PORTABLE ASSISTIVE LIFTING SEATCALVIN LINARES, PABLO January 2019 (has links)
This project consists of the design of a concept for a portable assistive seat in collaboration with IKEA. The aim of the project is to create a solution that fits within the Omtänksam family of products and shares the company’s values of what is so-called Democratic Design: Form - Quality - Low Price - Function – Sustainability The Omtänksam Family is focused on products that can help the elderly to have a more comfortable life while blending with the home environment. A portable assistive Lifting Seat is a real need for many people that require some extra help when standing up or sitting down. The main goal of this project is to design a cheap, safe, simple and light product that can assist people for reducing the effort that is required from them. The product must be comfortable, easy to transport and friendly to interact with. Considering a mass manufacturing perspective is very important to meet the previously formulated requirements. The force that the assistive seat releases must keep performing efficiently during the product service life. A locking system must be provided for avoiding the lifting force to act when the user is sitting, assisting only when it is demanded. This Thesis describes the process of designing a concept for a Portable AssistiveLifting Seat involving different areas such as ergonomics, semantics, manufacturing, mechanical engineering and materials science. The design approach in this case is driven by the Democratic Design Principles combining the human-centered design with a market perspective. The result takes advantage of form and material for avoiding the need for any extra lifting mechanism. This solution is way simpler than any other one existing in the market and it integrates the solution for many different problems in one single piece. This simplification of the problem allows reducing the production cost and helps to meet the intended requirements creating an innovative product for the market.
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Redesigning a Locking System for a Rail Road DumperBjörnström, Viktor January 2018 (has links)
This report describes a master thesis in Industrial Design Engineering performed at Kiruna Wagon towards Luleå University of Technology in the spring of 2018. The task of the project is to develop a new locking mechanism to the doors of one of Kiruna Wagons planned product releases, the Side Dumper. To find the ideal solution, an iterative and prototype focused design process is used, which is split up into four main phases. Initially, an immersion into the context of the project is performed, followed by a literature study upon which the theoretical fundament of the project is set. A design specification is stated, which functions as support for design and evaluation during the whole project. In the ideate phase, existing forces of the unloading station was used as a base for ideation. A large bank of ideas was created, which continuously was diverged and converged by many iteration cycles of designing, evaluation and learning. When five concepts had been developed, their functions needed to be verified in the develop phase, where several challenges arose. These were coped with, mainly through calculations, prototyping and by resetting concepts into solution principles. At last, in the deliver phase two remaining solutions, solution B and solution C, were verified through calculations, CAD-modeling and by a scale-wise functional prototype in steel. The prototype was tested, evaluated and finally delivered to Kiruna Wagon. The report ends with discussion and conclusions about method, process and results, and describes necessary further work for an implementation of the solution. / I denna rapport beskrivs ett examensarbete inom teknisk design som utförts på Kiruna Wagon mot Luleå Tekniska Universitet under våren 2018. Projektet gick ut på att utveckla en ny låsningsmekanism till dörrarna till en av Kiruna Wagons kommande produkter som kallas för Side Dumper. För att hitta den ideala lösningen användes en iterativ och prototypfokuserad designprocess, som delas upp i fyra huvudfaser. Initialt genomfördes en fördjupning i kontexten som rör projektet, följt av en litteraturstudie där den teoretiska grunden för projektet fastställs. En designspecifikation fastslås som fungerar som stöd för design och utvärdering under hela projektet. I ideate-fasen utnyttjades befintliga krafter på lossningsstationen som en bas för idéarbetet. En stor idébank skapades, som kontinuerligt divergerades och konvergerades genom många iterationscykler av design, utvärdering och lärande. När fem koncept hade utvecklats, behövde deras funktioner verifieras. Detta genomfördes i develop-fasen, där flera utmaningar uppstod. Utmaningarna hanterades huvudsakligen genom beräkningar, prototyper och genom att återställa koncept till lösningsprinciper. Slutligen verifierades två återstående lösningar, lösning B och lösning C, i deliver-fasen genom beräkningar, CAD-modellering och en genom att tillverka en skalenlig funktionell prototyp i stål. Prototypen testades och utvärderades för att slutligen kunna levereras till Kiruna Wagon. Rapporten avslutas med att diskutera och ge slutsatser kring metodval, process och resultat, och beskriver fortsatt arbete för att kunna implementera produkten i framtiden.
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PRODUCT DEVELOPMENT OF WORK CHAIRS AND OFFICE CHAIRMUKUNDAN KUMAR, ABHIJITH, THOMAS, SAM January 2020 (has links)
Work chair is considered as an important element for the users to improve comfort in work environment. An ergonomic chair design and engineering is therefore considered very important for its usability and comfort view of point for the users. The aim of the thesis is to improve the mobility and ergonomics of the existing chair in all aspects. Ergonomically designed chairs are important for long time seated workers to increase their productivity and also to reduce low back injuries which arise due to the poor design chairs in ergonomic aspects. In addition, ergonomically designed chairs help to increase the seating comfortability of the chair users. QFD and waterfall model was followed for the work execution. In this paper, we discuss a design of an ergonomically efficient chair with simple adjustments which gives more comfortability. This will give us a better likelihood to stay in a neutral position. The Ergonomics of the chair is improved in various steps. This thesis focuses on many ideas in which some of them are implemented and evaluated.
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