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Design of a Handle Mechanism (Solidworks)

Pietro Galli
Pietro Galli

The project was developped on Solidworks and dealt with the costruction of an Hadle mechanism, the study of its motion and the Finite Element Analysis (FEA) of the assembly.

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ME 447: FINAL LAB PROJECT Pietro Galli MARCH 12, 2015 PIETRO GALLI
1 Table of content: Functionality. 2 Parts list 2 Drawings.. 3 FEM analysis.. 14
2 Functionality: The mechanism reported is a typical door handle mechanism. The rotation of the handle makes spin a cam (the lock mechanism) which push the latch backward allowing so the door to be opened. All the parts have been created by using Solidworks as well as the assembly. In order to minimize the waste of computational power the two rose covers and the two handle are design from the same model on Solidworks using the option configuration since they are very similar one to the other. Parts list: Rose cover 1 Rose cover 2 Latch plate (x2) Latch Lock mechanism Handle 1 Handle 2 Face plate Screw 91251A412 (x2)
3 Drawings:
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14 FEM analysis: The component analyzed using the finite element method is the handle. The situation that is simulated is to have the door locked and someone that is trying to force to open it. The material of the mechanism is Alloy steel and the force applied to the handle is 450 N. As first design the handle had a squared hole on the bar as shown if figure. With this design a safety factor of 1.8 comes out which is not a bad result but can be improved.
15 In order to increase the SF the new handle is design without that hole which implies a slightly bigger waste of material but ensure the Safety Factor to rise up to 2.1. This is a good deal since having a sf over 2 is important in this industry. This is the new, definitive, handle and the results of the stress analysis:

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Design of a Handle Mechanism (Solidworks)

  • 1. ME 447: FINAL LAB PROJECT Pietro Galli MARCH 12, 2015 PIETRO GALLI
  • 2. 1 Table of content: Functionality. 2 Parts list 2 Drawings.. 3 FEM analysis.. 14
  • 3. 2 Functionality: The mechanism reported is a typical door handle mechanism. The rotation of the handle makes spin a cam (the lock mechanism) which push the latch backward allowing so the door to be opened. All the parts have been created by using Solidworks as well as the assembly. In order to minimize the waste of computational power the two rose covers and the two handle are design from the same model on Solidworks using the option configuration since they are very similar one to the other. Parts list: Rose cover 1 Rose cover 2 Latch plate (x2) Latch Lock mechanism Handle 1 Handle 2 Face plate Screw 91251A412 (x2)
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  • 14. 13
  • 15. 14 FEM analysis: The component analyzed using the finite element method is the handle. The situation that is simulated is to have the door locked and someone that is trying to force to open it. The material of the mechanism is Alloy steel and the force applied to the handle is 450 N. As first design the handle had a squared hole on the bar as shown if figure. With this design a safety factor of 1.8 comes out which is not a bad result but can be improved.
  • 16. 15 In order to increase the SF the new handle is design without that hole which implies a slightly bigger waste of material but ensure the Safety Factor to rise up to 2.1. This is a good deal since having a sf over 2 is important in this industry. This is the new, definitive, handle and the results of the stress analysis: