Electric Motor Generator: Difference between revisions

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{{Site header}}
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{{GVCS Header}}
Electric Motors/Generators (EMG) - they are everywhere, such as the spraying pump in the freeze dried fruit powder machine. Electric motors of interest also double as electric generators (dynamos). The design requirement is infirnitely scaleability in power and speed. Thus, we could produce motors for all applications, from pumps, vaccuum pumps, to hybrid car wheel motors. Crucial. The challenge is to produce a smart design, where a larger or smaller motor can be build around the same design, such that the motor is essentially stackable for higher power.  Electric generators are used in [[turbine]]s, [[windmill]]s, [[stationary power]], [[hybrid electric vehicle]]s, etc. – they are the heart of the worldwide electric grid.


=Collaboration=
{{Category=Energy}}
==Review of Project Status==


Start with some dullish [http://www.phys.unsw.edu.au/hsc/hsc/electric_motors.html background]. Move onto real people involved in the industry - such as [http://hitorqueelectric.com/contact/ Hi-Torque Electric]. Move over to advanced electrical generator options, such as [http://openfarmtech.org/index.php?title=Solar_Turbine_CHP_System#Component_Design_-_Boundary_Layer_Turbine_.28BLT.29 bladeless turbines]. Include open source motor controls, such as [http://www.robotpower.com/osmc_info/Open Source Motor Controller], but upgraded to full scaleability in voltage and power. There you have the context for electric motor development. Applications are many: hybrid electric cars and tractors, and dedicated electric motors for moving parts in advanced devices such as agricultural combines, with potential of significant simplification of mechanical devices.
''    see also: [[Hydraulic Motor]]''


Presently, we are seeking to identify someone working on open source electric motors.
[[File:ElectricMotorGenerator.png|thumb|right|400px|Electric Motor Generator]]


== EMG - Current Work==
==Overview==
== EMG - Developments Needed==
The '''Electric Motor''' serves the function of converting electrical energy into mechanical energy and vice-versa.
=== EMG - General===
 
=== EMG - Specific===
{{Video}}
==== EMG - Background Debriefing====
 
==== EMG - Information Work====
==Detailed Description==
==== EMG - Hardware Work====
Most electric motors operate through the interaction of magnetic fields and current-carrying conductors to generate force. The reverse process, producing electrical energy from mechanical energy, is done by generators such as an alternator or a dynamo; some electric motors can also be used as generators.
== EMG - Sign-in==
 
=Development Work Template=
The ideal [[GVCS]] motor is one that meets [[OSE Spec]] for appropriate scale and ease of fabrication.
#[[EMG - Product Definition]]
 
##[[EMG - General]]
While many heavy-duty GVCS technologies are powered by [[Hydraulic Motors]], many of the smaller, more precision actuation is left to Electrical Motors.
##[[EMG - General Scope]]
 
##[[EMG - Product Ecology]]
==Product Ecology==
###[[EMG - Localization]]  
 
###[[EMG - Scaleability]]
{{Product Ecology
###[[EMG - Analysis of Scale]]
 
###[[EMG - Lifecycle Analysis]]
|Product={{Electric Motor}}
##[[EMG - Enterprise Options]]
 
##[[EMG - Development Approach]]
|From=
###[[EMG - Timeline]]
*{{Battery}}
###[[EMG - Development Budget]]
*{{UPS}}
####[[EMG - Value Spent]]
*[[Charge Controller]]
####[[EMG - Value available]]
*{{3D Printer}} - Insulator parts
####[[EMG - Value needed]]
*{{Wire Mill}} - Copper wires
##[[EMG - Deliverables and Product Specifications]]
 
##[[EMG - Industry Standards]]
|Uses=
##[[EMG - Market and Market Segmentation]]
*{{Wind Turbine}}
##[[EMG - Salient Features and Keys to Success]]
*{{Steam Engine}}
#[[EMG - Technical Design]]
 
##[[EMG - Product System Design]]
|Creates=
###[[EMG - Diagrams and Conceptual Drawings]]
*[[Electricity]]
####[[EMG - Pattern Language Icons]]
*[[Power]]
####[[EMG - Structural Diagram]]
 
####[[EMG - Funcional or Process Diagram]]
|Enables=
####[[EMG - Workflow]]
*{{3D Printer}}
###[[EMG - Technical Issues]]
*{{CNC Circuit Mill}}
###[[EMG - Deployment Strategy]]
*{{Lathe}}
###[[EMG - Performance specifications]]
*{{Torch Table}}
###[[EMG - Calculations]]
*{{Laser Cutter}}
####[[EMG - Design Calculations]]
*{{Industrial Robot}}
####[[EMG - Yields]]
*{{Welder}}
####[[EMG - Rates]]
*{{Solar Panel}}
####[[EMG - Structural Calculations]]
*{{Multimachine}}
####[[EMG - Power Requirements]]
*{{Car}}
####[[EMG - Ergonomics of Production]]
*[[CNC]]
####[[EMG -Time Requirements]]
 
####[[EMG - Economic Breakeven Analysis]]
|Components=
####[[EMG - Scaleability Calculations]]
*Housing
####[[EMG - Growth Calculations]]
*[[Wiring]]
###[[EMG - Technical Drawings and CAD]]
*Magnets
###[[EMG - CAM Files]]
*[[Power]]
##[[EMG - Component Design]]
*[[Controller]]
###[[EMG - Diagrams]]
*[[Stepper]]
###[[EMG - Conceptual drawings]]
 
###[[EMG - Performance specifications]]
}}
###[[EMG - Performance calculations]]
 
###[[EMG - Technical drawings and CAD]]
==Status==
###[[EMG - CAM files whenever available]]
 
##[[EMG - Subcomponents]]
The '''Electric Motor Generator''' is currently in the [[Electric_Motor_Generator/Research_Development|Research Phase of product design]].
#[[EMG - Deployment and Results]]
 
##[[EMG - Production steps]]
==See Also==
##[[EMG - Flexible Fabrication or Production]]
*[[Dirk 3D Printed Electric Motor Development]]
##[[EMG - Bill of materials]]
*[[Stepper Motor]]
##[[EMG - Pictures and Video]]
*[[Motor selection]]
##[[EMG - Data]]
*[[Appropedia: Comparison of electrical motors]] - types and applications, 3D models.
#[[EMG - Documentation and Education]]
*[http://en.wikipedia.org/wiki/Electric_motor Wikipedia: Electric Motor]
##[[EMG - Documentation]]
*[http://en.wikipedia.org/wiki/Electric_generator Wikipedia: Electrical Generator]
##[[EMG - Enterprise Plans]]
*[[Electricity]]
#[[EMG - Resource Development]]
 
##[[EMG - Identifying Stakeholders]]
 
###[[EMG - Information Collaboration]]
{{GVCS Footer}}
####[[EMG - Wiki Markup]]
####[[EMG - Addition of Supporting References]]
####[[EMG - Production of diagrams, flowcharts, 3D computer models, and other qualitative information architecture]]
####[[EMG - Technical Calculations, Drawings, CAD, CAM, other]]
###[[EMG - Prototyping]]
###[[EMG - Funding]]
###[[EMG - Preordering working products]]
###[[EMG - Grantwriting]]
###[[EMG - Publicity]]
###[[EMG - User/Fabricator Training and Accreditation]]
###[[EMG - Standards and Certification Developmen]]
###[[EMG - Other]]
##[[EMG - Grantwriting]]
###[[EMG - Volunteer grantwriters]]
###[[EMG - Professional, Outcome-Based Grantwriters]]
##[[EMG - Collaborative Stakeholder Funding]]
##[[EMG - Tool and Material Donations]]
##[[EMG - Charitable Contributions]]

Latest revision as of 18:25, 2 November 2022


Electric Motor Generator
   Home  |  Research & Development  |  Bill of Materials  |  Manufacturing Instructions  |  User's Manual  |  User Reviews    Electric Motor Generator.png

Main > Energy

see also: Hydraulic Motor

Electric Motor Generator

Overview

The Electric Motor serves the function of converting electrical energy into mechanical energy and vice-versa.

Detailed Description

Most electric motors operate through the interaction of magnetic fields and current-carrying conductors to generate force. The reverse process, producing electrical energy from mechanical energy, is done by generators such as an alternator or a dynamo; some electric motors can also be used as generators.

The ideal GVCS motor is one that meets OSE Spec for appropriate scale and ease of fabrication.

While many heavy-duty GVCS technologies are powered by Hydraulic Motors, many of the smaller, more precision actuation is left to Electrical Motors.

Product Ecology

Product Ecology
Electric Motor Generator Electric Motor Generator
From Uses Creates Enables

Components

Status

The Electric Motor Generator is currently in the Research Phase of product design.

See Also



The Global Village Construction Set
Habitat CEB Press Cement Mixer Sawmill Bulldozer Backhoe
Agriculture Tractor Seeder Hay Rake Well-Drilling Rig
Microtractor Soil Pulverizer Spader Hay Cutter Trencher
Bakery Oven Dairy Milker Microcombine Baler
Industry Multimachine Ironworker Laser Cutter Welder Plasma Cutter
CNC Torch Table Metal Roller Rod and Wire Mill Press Forge Universal Rotor
3D Printer 3D Scanner CNC Circuit Mill Industrial Robot Chipper Hammermill
Drill Press Induction Furnace
Energy Power Cube Gasifier Burner Solar Concentrator Electric Motor Generator Hydraulic Motor
Steam Engine Heat Exchanger Wind Turbine Pelletizer Universal Power Supply
Nickel-Iron Battery
Materials Aluminum Extractor Bioplastic Extruder
Transportation Car Truck

Imprimante 3D Scanner 3D Extracteur d'Aluminum Pelleteuse Four à Pain Presse à balles de paille Extrudeuse à bioplastiques Bulldozer Voiture Presse BTC Betonnière Broyeur à marteaux Imprimante de circuits électroniques Table de découpe numérique Trayeuse Perçeuse à colonne Moteur électrique Gazogène Faucheuse Râteau à foin Moteur hydraulique Fourneau à induction Bras robotisé Poinçonneuse Découpeur Laser Laminoir à plaques Microcombine Microtracteur Multimachine Batterie Ni-Fe Machine à granulés Torche plasma Power Cube Presse hydraulique Laminoir à barres et fils de fer Pulvérisateur de terre Scierie Semoir Concentrateur solaire Roto-bêche Moteur à vapeur Echangeur de chaleur Tracteur Fraiseuse de tranchée Camion Alimentation électrique universelle Rotor universel Poste de soudure à l'arc Plateforme de forage de puits Eolienne

Key Design Planning Prototype Almost done Full Release
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