Smartphone mp3 speaker

Smartphone mp3 speaker 3D model

3D Smartphone mp3 speaker model

Smartphone mp3 speaker

Smartphone mp3 speaker

Smartphone mp3 speaker

Smartphone mp3 speaker

Smartphone mp3 speaker

Smartphone mp3 speaker

Smartphone mp3 speaker

Smartphone mp3 speaker

Smartphone mp3 speaker

Smartphone mp3 speaker

Smartphone mp3 speaker

Smartphone mp3 speaker

Smartphone mp3 speaker

Smartphone mp3 speaker

This model “Smartphone/mp3 Speaker” is built with Autodesk Fusion 360. Print this model to enjoy, or get inspired to create and print your own speakers!

This project is previewed as “starter/advanced lessons” for classes with children form 12 to 16 years or even older.

Read on to understand the object and the structure of the project.

Print Settings

Printer Brand:

MakerBot

Printer:

MakerBot Replicator 2

Rafts:

Yes

Supports:

Yes

Resolution:

0.1

Infill:

10-15%

Notes:

It’s probably a bit tricky to place the parts.. Check out the pictures..
I often used a 45° angle.
The file “Hebel_fixed” you should print on top without support.
How I Designed This

In this section I’ll tell you about how I designed the 3D model. In the next section I’ll suggest an outline for a classroom project where students create their own speakers.

The 3D models of this project were made in Autodesk Fusion 360. There’s a teacher and students version of the software that runs on Mac and Windows. It’s quite easy to learn. They offer even an understandable introduction and some sample constructions.

First you or your students have to measure and design the electronical components (–> step-file). These define the size/volume needed and can be used as subtractive parts (e.g. to create the holes needed). Thereafter they can start to design the housing.

Attention: Depending on the 3d-printer you’re using, you need to add tolerances between 0.2 and 0.5 mm for intermateable or movable parts.

Smartphone mp3 speaker

Smartphone mp3 speaker

Project: Design your own speaker

Objectives

Design and create 3D printed joints from scratch.
Build “real things” (speaker) from simple component pieces.
Learn basic 3D design skills and how to use Autodesk Fusion 360 or 123d Design.
Learn soft-soldering and to populate circuit boards.
Explore simple ELV circuits, ELV components and their functions or product design (depending on classroom usage).

Audiences

Anyone from 12 years on that is new to 3D modeling can use this project to get started with Autodesk Fusion 360 or 123d Design.
Students can use this project as a jumping-off point for constructing models of their own “speakers” or to develop their own home media gadgets.

Preparation

Students will need access to computers with the Autodesk software installed.
The software is easier to use with a mouse than with a tablet or trackpad, so computer mice are recommended.
No previous 3D design experience is required for the students, although familiarity with Autodesk would be helpful.
The instructor should be comfortable answering modeling questions about Autodesk and be able to advise students to avoid design features that might cause printing difficulties (overhangs, delicate features, etc).
Use some USB-Sticks to save the students work. It’s easy and fast to use and you got all files bundled and mobile.
You’ll need one or more 3D printers and some useful tools like pliers, files, sandpaper, etc.
Before you start designing the elecronic parts should be developed and clear.

Material needed

1x 5mm diameter standard LED
1x DC socket 5,5/2.1mm (DC 13A)
1x 20mm rocker switch (e.g. Arcolectric 1091-1133ND)
1x mini stereo plug 3.5mm
1x 5x10mm spring (from a damaged pen)
electric wires
2x speakers (ramsonic LMP-5016-B60)
resistors: 330, 220, 22, 1 Ohm
2x capacitor 0.1uF
1x elko 470uF
1x elko 4.7uF
1x elko 1000uF
1x IC TDA 2003
1x board
4x 3 x 10mm woodscrew
6x 3 x 20mm woodscrew
1x perforated metal plate 30x30mm
1x M3x5 nut and bolt
4x M3x5 bolt and square nuts
1x powersupply DC 9V/400mA up to 12V 1500mA

Tools needed

Measuring instruments
Soldering iron
Solder
Side cutter
Cable stripper
Screwdrivers
Glue
Pliers
Other tools to work save and to make some finish.

Smartphone mp3 speaker

(That’s probably not a 100% correct, but I tried to make it simple and clear for everyone..)
Structure

Introduction
This project can easily be used in conjunction with other parts of your curriculum. In this section I would like to suggest an outline for a few different ways of implemantation:

Simple circuits
For students without any knowlegde about electronics I would recommend to make something like a “simple circuit – experiment workshop” (“Werkstattunterricht/Atelier”). Using very simple elements (lamps, wires, bimetal, etc.) they learn basics like the function of resistors, fuses, serial-/parallel connection, switches etc.

ELV components and their functions
After that you can start to make smaller projects like “running lights”, “blinker”, “metronom”, etc. to learn the functions of capacitors and other components. Right here it’s may time to introduce soldering and populate circuit boards.
With younger students or beginners in CAD you could (first) make a flashlight instead of speakers. It’s less complex but ends up in a great result too. (the flashlight-lesson is under construction..)

Product design
It’s even interesting to set a focus on design. The students can make a research of exsisting designs, compare them, evolve categories, pros and cons.. The students should analyse them by usage and feasability. After that they should create a remake, remix or modification.
Let make them “hand sketches” to find there own forms. This creates a different understanding in the developpement process (fast and sensitive) and a deeper “hands on” forms then to start directly in the CAD.
A special field of interest could also be the assembly and disassembly: joints, steps, etc.

Results

At the end of this project, each student should at least have:

An initial sketch of its speaker
A CAD-model and -file in Autodesk Fusion 360 or 123d Design
*.stl-files to print the objects
All the 3D printed pieces
A functional self-made amplifier
A “real” and functional speaker

Further Activities

Projects

The students should develope/calculate their own amplifier.
The students should research objects of their interest and analyse them by usability and feasability. After that they should create a remake, remix or modification.
This can go quiet far: bluetooth, usb connections or chargers…

Basic ideas of the project

Ideas

Well, the basic idea behind this project is to engage young people to get in touch with the game changing tools and to start thinkering and engineering in school. That’s why I decided to chose a subject of their world and interests. The asset of this project is to create not merely a model of something, but rather a real thing.
It represents a “real world” conjunction of low- and high-tech materials, wich demands an ajustment of solutions, what assists knowledge reconstruction and problem-solving skills.
And, as I tried to explain under “Structure”, this project provides even a meaningful context for understanding abstract concepts (physics, math, engineering, design..).
And at least it could be a jumping-off point for critical design and environment analysis by students and to actively remake, make and invent things – as responsible personalities – to make things better.

Smartphone mp3 speaker

Smartphone mp3 speaker

Inspiration

This project was one of the key reasons to search new possibilities of fabrication in school and finally to buy a 3d-printer.
I made this project with my students a serval times: with wood, acrylics and other conventional materials. Students had always great ideas of design, but it was nearly impossible to realize these with those materials – or it would have taken too much time.
With the 3d-printer they can (nearly) realize every form much quicker. As consequence they now have even time to iterate – to reflect and to improve their work.
This increases the quality of the products, what’s good for the motivation and they indeed learn problem solving skills as “real-world” and iterative process.

And 3d-printing is even comparable with techniques we used before to create “free forms” like “layered construction” with wood.
Above are some examples with conventional materials made by students (13 years old).

Credits:

MakerBoter

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zip smartphone_mp3_speaker 7 MB

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