Fabrication of a Foldable Camp Bed

 

Table Of Contents


  • <p> </p><p>Title Page<br>Letter Of Transmission<br>Release Page<br>Signature Page<br>Approval Page<br>Dedication<br>Acknowledgement<br>Abstract<br>Table Of Content<br>

Chapter ONE

INTRODUCTION

  • <br>
  • 1.0Introduction<br>
  • 1.1Limitation Of Existing Foldable Camp – Bed<br>
  • 1.2Design Specification Of The Foldable Camp – Bed</p><p>

Chapter TWO

LITERATURE REVIEW

  • <br>
  • 2.0Literature Review<br>
  • 2.1Component Parts Of The Foldable Camp – Bed<br>
  • 2.2The Angel Iron<br>
  • 2.3The Catcher<br>
  • 2.4The Cover<br>
  • 2.5The Brackets<br>
  • 2.6The Square Pipe</p><p>

Chapter THREE

SYSTEM DESIGN AND IMPLEMENTATION

  • <br>
  • 3.0Design Solution<br>
  • 3.1Alternative A<br>
  • 3.2Merit<br>
  • 3.3Demerit<br>
  • 3.4Alternative B<br>
  • 3.5Merit<br>
  • 3.6Demerit<br>
  • 3.7Alternative C<br>
  • 3.8Merit Demerits</p><p>

Chapter FOUR

SYSTEM TESTING AND EVALUATION

  • <br>
  • 4.0Material Selection<br>
  • 4.1Mild Steel<br>
  • 4.2Standard Parts Used</p><p>

Chapter FIVE

SUMMARY, CONCLUSION AND RECOMMENDATIONS

  • <br>
  • 5.0Description Of Foldable Camp – Bed</p><p>Chapter Six<br>
  • 6.0Cost And Design Analysis<br>
  • 6.1Stages Of Design Process<br>
  • 6.2Conceptual Stage<br>
  • 6.3Acceptance Stage<br>
  • 6.4Functional Stage<br>
  • 6.5Translation Stage<br>
  • 6.6Stage Of Production<br>
  • 6.7Weldability<br>
  • 6.8Impact Resistance<br>
  • 6.9Possible Defects In The Materials<br>
  • 6.10Deterioration Due To Wear And Corrosion<br>
  • 6.11Defects On Workmanship<br>
  • 6.12Extent Of Use Of A Particular Material</p><p>Chapter Seven<br>
  • 7.1Construction</p><p>Chapter Eight<br>
  • 8.0Economic Analysis<br>
  • 8.1Material Cost Analysis<br>
  • 8.2Machine Cost Analysis<br>
  • 8.3Labour Cost</p><div></div><p>Chapter Nine<br>
  • 9.1Operation Of The Foldable Camp – Bed<br>
  • 9.2The Viability Of The System</p><p>Chapter Ten<br>
  • 10.1Conclusion<br>
  • 10.2Recommendation<br>References</p> <br><p></p>

Project Abstract

<p> In this project, three alternative design solutions were considered for the foldable cam – bed. The authors utilize the local materials (with cost consideration) for the components. The merits and demerits of each of the alternative with respect to the considered group were also discusses and the solutions of the alternatives that best satisfied the limitations were selected for production. The material selected design and cost analysis, production processes and operation maintenance and problems encountered during the design were also included. <br></p>

Project Overview

<p> </p><h2><b>1.0 INTRODUCTION</b></h2><p>Camp bed is used universally for relaxation, emergency eases such as war and in other several ways, it is the acknowledgement of these resources that led to the design of the foldable camp – bed. All the existing foldable camp bed, have almost the same dimension but differ in design. Some use rope while the modern design make use of wood and spring. Some other are constructed using straight bars, pipes of angle iron.</p><h2><b>1.10 LIMITATION OF ALREADY EXISTING FOLDABLE CAMP – BED</b></h2><p>Some foldable camp beds are made of Iron bars which are too heavy and cannot be carried with ease. Most existing foldable camp – bed are cumbersome to carry because their lengths which are normally six feet or 183 meters or 1830mm.</p><p>Some of the materials used for fabrication of the foldable camp bed may not be locally got and this affects its prince, making its availability to become more rare.</p><p>In the market, design that make use of springs to hold the improvised materials or even wood are found. But when the spring fill off, its efficiency is reduced and this make it more profitable to make use of wood than spring to hold improvised mattress.</p><h2><b>DESIGN SPECIFICATION OF THE FOLDABLE CAMP BED</b></h2><ul><li>It is high in weight.</li><li>It can be produced locally.</li><li>It is portable.</li><li>It has an in built head rest which is adjustable. The tarpaulin material used in folding the foam to the wood can be easily removed along with the wood for cleaning.</li><li>It is could carry a person up to 75kg in weight. Pipes (square) used are made of galvanized steel and also the angle Iron used is made if galvanized steel both painted with aluminum oil paint to avoid corrosion.</li><li>It is easy to manipulate.</li><li>All these specification put together make this project a viable one that can compete favorably with any existing foldable camp bed and also eliminate the limitations posses by earlier designers.</li></ul> <br><p></p>

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