Fall 2016Campanile-Carillon ModelPatrick Keep, Mohamad Aqeel Izani,

Nor Alia Izwanis Roni, Ryan Cazin,

Nate Scheirer, Ethan Henry, Muhammad Omar Raghib

Mechanical Engineering AER E/ME 466 Senior Capstone Design - DM7

This poster has been approved for public display by Dr. Tam, Department of Music and Theatre

Problem Statement: To build a scale model of the campanile-carillon that will house 27 bells, can be easily transportable, and functional.

Benchmark Previous DesignCustomer Requirements

• Transportable• Ease of Assemble• Withstand 50mph wind

gust• Playable

• Collapsible Tower• Fit Through Double Doors

ImprovementsScissor Lift Mesh Facade

The tower lifting system changed from using the camper design principle to scissor lift mechanism

The façade changed from solid façade to a mesh banner façade. • Reduce weight• Withstand wind

better• Cheaper

• Easier to rise and lower the tower

• One person to operate with the assistance of an electric motor

Estimated Cost

Wind Load Analysis Final Design

ITEM COSTBell $145,000

Trailer, Pallet Jack, & Base

$20,000

Exterior Cladding $25,000

Documentary Display

$20,000

TOTAL $210,000

Fall 2016Campanile-Carillon ModelPatrick Keep, Mohamad Aqeel Izani, Nor Alia Izwanis Roni, Ryan Cazin,Nate Scheirer, Ethan Henry, Muhammad Omar Raghib

Mechanical Engineering AER E/ME 466 Senior Capstone Design - DM7

This poster has been approved for public display by Dr. Tam, Department of Music and Theatre

QR label goes here

Problem Statement: To build a scale model of the campanile-carillon that will house 27 bells, can be easily transportable, and functional.

Benchmark Previous DesignCustomer Requirements

• Transportable• Ease of Assemble• Withstand 50mph wind

gust• Playable• Collapsible Tower• Fit Through Double Doors

ImprovementsScissor Lift Mesh Facade

The tower lifting system changed from using the camper design principle to scissor lift mechanism

The façade changed from solid façade to a mesh banner façade. • Reduce weight• Withstand wind

better• Cheaper

• Easier to rise and lower the tower

• One person to operate with the assistance of an electric motor

Estimated Cost

Wind Load Analysis Final Design

ITEM COSTBell $145,000

Trailer, Pallet Jack, & Base $20,000

Exterior Cladding $25,000Documentary

Display $20,000

TOTAL $210,000

Fall 2016Campanile-Carillon ModelPatrick Keep, Mohamad Aqeel Izani, Nor Alia Izwanis Roni, Ryan Cazin,Nate Scheirer, Ethan Henry, Muhammad Omar Raghib

Mechanical Engineering AER E/ME 466 Senior Capstone Design - DM7

This poster has been approved for public display by Dr. Tam, Department of Music and Theatre

QR label goes here

Problem Statement: To build a scale model of the campanile-carillon that will house 27 bells, can be easily transportable, and functional.

Benchmark Previous DesignCustomer Requirements

• Transportable• Ease of Assemble• Withstand 50mph wind

gust• Playable• Collapsible Tower• Fit Through Double Doors

ImprovementsScissor Lift Mesh Facade

The tower lifting system changed from using the camper design principle to scissor lift mechanism

The façade changed from solid façade to a mesh banner façade. • Reduce weight• Withstand wind

better• Cheaper

• Easier to rise and lower the tower

• One person to operate with the assistance of an electric motor

Estimated Cost

Wind Load Analysis Final Design

ITEM COSTBell $145,000

Trailer, Pallet Jack, & Base $20,000

Exterior Cladding $25,000Documentary

Display $20,000

TOTAL $210,000