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ID: #122
Idea
Prototype
Market
Scaling
Darreius Wind Turbine || Working model || 3D printed
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This is a video of how I have made a Darrieus Wind Turbine working model. This is a vertical axis wind turbine made by 3D printing. This...
This is a video of how I have made a Darrieus Wind Turbine working model. This is a vertical axis wind turbine made by 3D printing. This also uses a bearing so that it rotates very easily in small winds also.
I use Creality's Ender 3 V3 KE printer for my 3D printed projects. This printer is amazingly good for the price we pay for. The print quality is excellent and comparable to printers 2 to 3 times of its cost. It has a blazing fast print speed of up to 500 mm/s & has bed auto levelling feature which is very helpful for beginners. This printer uses advanced sprite extruder with ceramic heater for fast and efficient heating of filament. There are dual Z axis rails and X axis linear rail for very precise and fast printing. There is also a 4.3\"colour touchscreen interface. I am more than 100% satisfied with this printer. You can confidently buy this printer and will surely be happy with its performance.
I use Creality's Ender 3 V3 KE printer for my 3D printed projects. This printer is amazingly good for the price we pay for. The print quality is excellent and comparable to printers 2 to 3 times of its cost. It has a blazing fast print speed of up to 500 mm/s & has bed auto levelling feature which is very helpful for beginners. This printer uses advanced sprite extruder with ceramic heater for fast and efficient heating of filament. There are dual Z axis rails and X axis linear rail for very precise and fast printing. There is also a 4.3\"colour touchscreen interface. I am more than 100% satisfied with this printer. You can confidently buy this printer and will surely be happy with its performance.
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CONTRIBUTION
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DISTRIBUTION PARTNER
ID: #64
Idea
Prototype
Market
Scaling
Mini conveyor with middle drive - FR-20-20-M
VALUATION
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Mini conveyor with middle drive - FR-20-20-M
CONTRIBUTION
SEEKING
DISTRIBUTION PARTNER
ID: #62
Idea
Prototype
Market
Scaling
Automatic Bottle Filling and Capping Machine using PLC | Industrial Engineering Projects
VALUATION
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Fully automated bottle filling and capping system! This PLC-based device ensures accuracy and efficiency while streamlining industrial pa...
Fully automated bottle filling and capping system! This PLC-based device ensures accuracy and efficiency while streamlining industrial packaging. See how it optimizes production operations by handling liquid filling and capping with ease!
For Free Project Synopsis or PPT Document Download Visit
https://nevonprojects.com/automatic-b...
For Free Project Synopsis or PPT Document Download Visit
https://nevonprojects.com/automatic-b...
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SPONSORED INNOVATION
Fashion for everyone. Know your fabric quality before you order...
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CONTRIBUTION
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MANUFACTURER
ID: #88
Idea
Prototype
Market
Scaling
Electricity by walking ?? Human Powered Powerbank
VALUATION
Valuation Restricted
Electricity by walking ?? Human Powered Power bank
CONTRIBUTION
SEEKING
BRANDING & MARKETING
ID: #128
Idea
Prototype
Market
Scaling
How to Make a Mini Electric Car (DIY)
VALUATION
Valuation Restricted
Hi friends today I am going to show you how to make a mini electric car at home.
This is a two-seater electric car. This electric car ... Hi friends today I am going to show you how to make a mini electric car at home.
This is a two-seater electric car. This electric car will be beneficial for going to the local market or office or traveling around 60 kilometers.
The material I have used -
1. 1'' Iron pipe and 1x2'' rectangular bar
2. 12-inch e-rickshaw wheel
3. 4 Rear Shock Absorber for Hero Glamour bike
4. Old car driver sit and steering
5. E Rickshaw Differential ,Motor
6. 60v ,32A li-ion Battery pack
7. 1000W ,Motor and ,controller,etc
8. Universal Steering Wheel for Sports Car
https://amzn.to/4h5VBWO
9. 5 inch Parking Camera
https://amzn.to/4iiMoeG
10. 3D Black Carbon Fiber
https://amzn.to/43bIAaP
https://amzn.to/3CY7Abb
Dimensions of the vehicle (Inches):
Total height from ground - 58''
The total length of structure - 90''
Length of base - 86''
Ground clearance - 7''
Width of the structure - 30''
The Welding machine I have used are
iBELL TIG-MMA Inverter Welding Machine -
https://amzn.to/44TfbPX
iBELL MAG/MMA Flux Cored Gasless Welding Machine -
https://amzn.to/3ovkyTG
you can get the machine here (With Battery)
Cordless Angle grinder- https://amzn.to/3W8vtne
Brushless impact wrench - https://amzn.to/3xFdyug
Brushless Jig saw - https://amzn.to/3W3TlIR
Thank you for watching .
This is a two-seater electric car. This electric car ... Hi friends today I am going to show you how to make a mini electric car at home.
This is a two-seater electric car. This electric car will be beneficial for going to the local market or office or traveling around 60 kilometers.
The material I have used -
1. 1'' Iron pipe and 1x2'' rectangular bar
2. 12-inch e-rickshaw wheel
3. 4 Rear Shock Absorber for Hero Glamour bike
4. Old car driver sit and steering
5. E Rickshaw Differential ,Motor
6. 60v ,32A li-ion Battery pack
7. 1000W ,Motor and ,controller,etc
8. Universal Steering Wheel for Sports Car
https://amzn.to/4h5VBWO
9. 5 inch Parking Camera
https://amzn.to/4iiMoeG
10. 3D Black Carbon Fiber
https://amzn.to/43bIAaP
https://amzn.to/3CY7Abb
Dimensions of the vehicle (Inches):
Total height from ground - 58''
The total length of structure - 90''
Length of base - 86''
Ground clearance - 7''
Width of the structure - 30''
The Welding machine I have used are
iBELL TIG-MMA Inverter Welding Machine -
https://amzn.to/44TfbPX
iBELL MAG/MMA Flux Cored Gasless Welding Machine -
https://amzn.to/3ovkyTG
you can get the machine here (With Battery)
Cordless Angle grinder- https://amzn.to/3W8vtne
Brushless impact wrench - https://amzn.to/3xFdyug
Brushless Jig saw - https://amzn.to/3W3TlIR
Thank you for watching .
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CONTRIBUTION
SEEKING
MANUFACTURER
ID: #149
Idea
Prototype
Market
Scaling
Insane Airless Tires
VALUATION
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I bet you've seen some of that videos with tubeless/airless tyre demonstration. How about to build one with your hands ? Cheap and simple...
I bet you've seen some of that videos with tubeless/airless tyre demonstration. How about to build one with your hands ? Cheap and simple, Using only pvc pipes, bolts nut ands to fit all together. This construction still needs to be modified. But in general, it's fully working concept.
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SPONSORED INNOVATION
Recruitment Software - Applicant Tracking System
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SEEKING
BRANDING & MARKETING
ID: #153
Idea
Prototype
Market
Scaling
HARMONICA WIRE WEAVING MACHINE!! A quick and easy way to make harmonica wire that you must try!!
VALUATION
Valuation Restricted
Okay, meet again my friends, thank you for always being loyal with us. on this video occasion we will share a little experience in making...
Okay, meet again my friends, thank you for always being loyal with us. on this video occasion we will share a little experience in making a harmonica wire weaving machine that not many people know how to make and for the materials we use are very easy to find around us, therefore pay close attention so that you can easily understand what we convey in this video. However, if there is still something you don't understand, please leave your questions in the comments column so we can find out and try to answer your questions and if you think this video is useful, help us to share this video on all your social media by pressing share and spread it to your friends so that many people get the latest experience through this video and if you like this video we will be even more enthusiastic to continue sharing the latest information by pressing the like button. And for those of you who have just found this channel, please press SUBSCRIBE so you don't miss the videos we upload next, hopefully it will be useful and creative greetings
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DEMAND
SEEKING
MANUFACTURER
ID: #189
Idea
Prototype
Market
Scaling
Universal Adaptive Contour Forming Machine for Metal Sheet Customization
VALUATION
Valuation Restricted
# Innovation Requirement: Universal Adaptive Contour Forming Machine for Metal Sheet Customization
## Problem Statement
The... # Innovation Requirement: Universal Adaptive Contour Forming Machine for Metal Sheet Customization
## Problem Statement
The automotive modification industry, custom bike builders, fabrication workshops, appliance manufacturers, and prototype development companies face a common challenge:
Every unique metal shape requires a dedicated mold, die, or tooling setup.
Traditional manufacturing methods involve:
* Expensive die manufacturing
* Long setup times
* High tooling costs
* Storage of multiple molds
* Limited flexibility for custom jobs
* Economically unviable low-volume production
For example, when a car modifier needs a custom fender, dashboard panel, door contour, bike tank cover, or decorative metal component, a dedicated mold must be created before production begins.
This increases both development time and cost.
---
## Proposed Innovation
### Universal Adaptive Contour Forming Machine
A smart metal-forming machine capable of automatically creating any contour shape without requiring dedicated molds.
The concept is inspired by a contour gauge shape duplicator but scaled into an industrial automated machine.
Instead of fixed molds, the machine contains:
### Upper Adaptive Mold
Hundreds or thousands of independently movable pins/bars arranged in a grid.
### Lower Adaptive Mold
A matching grid of servo-controlled pins/bars positioned opposite the upper mold.
When a design is entered into the system:
1. CAD file is imported.
2. Software converts the contour into pin coordinates.
3. Each upper and lower bar automatically moves to a specific height.
4. Together they create a temporary mold matching the desired shape.
5. Metal sheet is placed between both adaptive surfaces.
6. Hydraulic/servo press applies force.
7. Sheet permanently forms into the required contour.
8. System resets for the next design.
No dedicated die is required.
---
## Working Principle
### Step 1 – Design Input
User imports:
* CAD file
* 3D scan
* DXF
* STEP
* STL
* Physical template scan
### Step 2 – Shape Conversion
Software analyzes:
* Curvature
* Surface profile
* Height variation
* Bend requirements
### Step 3 – Adaptive Mold Generation
AI/Control software calculates position of every bar.
Example:
If machine contains:
* 2,500 upper bars
* 2,500 lower bars
Then all 5,000 bars automatically reposition themselves to create the required shape.
### Step 4 – Sheet Loading
Metal sheet is inserted between adaptive molds.
Supported materials:
* Mild steel
* Stainless steel
* Aluminum
* Brass
* Copper
* Composite sheets
### Step 5 – Forming
Hydraulic or servo press applies pressure.
Adaptive bars transfer the contour into the sheet.
### Step 6 – Output
Finished customized component is produced.
System becomes ready for next design.
---
## Key Innovation Areas
### Adaptive Pin Technology
Independent servo-controlled bars.
### AI Shape Translation Engine
Converts CAD geometry into pin coordinates.
### Real-Time Mold Reconfiguration
Automatic setup within minutes.
### Smart Pressure Control
Material-specific forming parameters.
### Design Library
Store and recall thousands of designs.
### Industry 4.0 Integration
Cloud-based monitoring and analytics.
---
## Potential Applications
### Automotive
* Fender modification
* Bonnet contours
* Door panels
* Interior trims
* Body kits
### Motorcycle Industry
* Fuel tank panels
* Side covers
* Mudguards
* Custom fairings
### Aerospace
* Lightweight panels
* Prototype components
### Architecture
* Decorative metal facades
* Custom wall panels
### Appliances
* Washing machine panels
* Refrigerator parts
### Furniture
* Designer metal products
### Prototyping Industry
* Rapid manufacturing
---
## Expected Benefits
### Cost Reduction
Eliminates need for dedicated molds.
### Faster Production
Setup time reduced from days/weeks to minutes.
### Mass Customization
Every piece can have a different design.
### Lower Investment
One machine replaces hundreds of dies.
### Sustainable Manufacturing
Reduced tooling waste.
### Higher Innovation
Enables small manufacturers to create complex designs.
---
## Prototype Requirement
### Phase 1 – Proof of Concept
Machine Size:
500 mm × 500 mm
Features:
* 100–400 movable bars
* Servo-controlled movement
* Basic CAD import
* Manual sheet loading
* Low-pressure forming
Objective:
Validate adaptive contour generation.
### Phase 2 – Functional Prototype
Machine Size:
1000 mm × 1000 mm
Features:
* 1,000+ adaptive bars
* Automated shape generation
* Hydraulic pressing
* Touchscreen control
Objective:
Create real automotive and bike panels.
### Phase 3 – Commercial Product
Machine Size:
Customizable
Features:
* 5,000–20,000 adaptive bars
* AI-driven contour optimization
* Industrial production capability
* Multi-material support
---
## Seeking Innovators
We are looking for:
* Mechanical Engineers
* Mechatronics Engineers
* Robotics Experts
* Industrial Automation Specialists
* CNC Machine Designers
* Hydraulic System Designers
* AI/Control System Developers
* Manufacturing Startups
* Research Institutions
* Prototype Development Teams
The goal is to develop the world\\\\\\'s first commercially viable Universal Adaptive Contour Forming Machine capable of transforming digital designs directly into metal sheet contours without dedicated dies or molds.
Status: Concept Seeking Innovators, Technical Partners, Prototype Developers and Investors.
## Problem Statement
The... # Innovation Requirement: Universal Adaptive Contour Forming Machine for Metal Sheet Customization
## Problem Statement
The automotive modification industry, custom bike builders, fabrication workshops, appliance manufacturers, and prototype development companies face a common challenge:
Every unique metal shape requires a dedicated mold, die, or tooling setup.
Traditional manufacturing methods involve:
* Expensive die manufacturing
* Long setup times
* High tooling costs
* Storage of multiple molds
* Limited flexibility for custom jobs
* Economically unviable low-volume production
For example, when a car modifier needs a custom fender, dashboard panel, door contour, bike tank cover, or decorative metal component, a dedicated mold must be created before production begins.
This increases both development time and cost.
---
## Proposed Innovation
### Universal Adaptive Contour Forming Machine
A smart metal-forming machine capable of automatically creating any contour shape without requiring dedicated molds.
The concept is inspired by a contour gauge shape duplicator but scaled into an industrial automated machine.
Instead of fixed molds, the machine contains:
### Upper Adaptive Mold
Hundreds or thousands of independently movable pins/bars arranged in a grid.
### Lower Adaptive Mold
A matching grid of servo-controlled pins/bars positioned opposite the upper mold.
When a design is entered into the system:
1. CAD file is imported.
2. Software converts the contour into pin coordinates.
3. Each upper and lower bar automatically moves to a specific height.
4. Together they create a temporary mold matching the desired shape.
5. Metal sheet is placed between both adaptive surfaces.
6. Hydraulic/servo press applies force.
7. Sheet permanently forms into the required contour.
8. System resets for the next design.
No dedicated die is required.
---
## Working Principle
### Step 1 – Design Input
User imports:
* CAD file
* 3D scan
* DXF
* STEP
* STL
* Physical template scan
### Step 2 – Shape Conversion
Software analyzes:
* Curvature
* Surface profile
* Height variation
* Bend requirements
### Step 3 – Adaptive Mold Generation
AI/Control software calculates position of every bar.
Example:
If machine contains:
* 2,500 upper bars
* 2,500 lower bars
Then all 5,000 bars automatically reposition themselves to create the required shape.
### Step 4 – Sheet Loading
Metal sheet is inserted between adaptive molds.
Supported materials:
* Mild steel
* Stainless steel
* Aluminum
* Brass
* Copper
* Composite sheets
### Step 5 – Forming
Hydraulic or servo press applies pressure.
Adaptive bars transfer the contour into the sheet.
### Step 6 – Output
Finished customized component is produced.
System becomes ready for next design.
---
## Key Innovation Areas
### Adaptive Pin Technology
Independent servo-controlled bars.
### AI Shape Translation Engine
Converts CAD geometry into pin coordinates.
### Real-Time Mold Reconfiguration
Automatic setup within minutes.
### Smart Pressure Control
Material-specific forming parameters.
### Design Library
Store and recall thousands of designs.
### Industry 4.0 Integration
Cloud-based monitoring and analytics.
---
## Potential Applications
### Automotive
* Fender modification
* Bonnet contours
* Door panels
* Interior trims
* Body kits
### Motorcycle Industry
* Fuel tank panels
* Side covers
* Mudguards
* Custom fairings
### Aerospace
* Lightweight panels
* Prototype components
### Architecture
* Decorative metal facades
* Custom wall panels
### Appliances
* Washing machine panels
* Refrigerator parts
### Furniture
* Designer metal products
### Prototyping Industry
* Rapid manufacturing
---
## Expected Benefits
### Cost Reduction
Eliminates need for dedicated molds.
### Faster Production
Setup time reduced from days/weeks to minutes.
### Mass Customization
Every piece can have a different design.
### Lower Investment
One machine replaces hundreds of dies.
### Sustainable Manufacturing
Reduced tooling waste.
### Higher Innovation
Enables small manufacturers to create complex designs.
---
## Prototype Requirement
### Phase 1 – Proof of Concept
Machine Size:
500 mm × 500 mm
Features:
* 100–400 movable bars
* Servo-controlled movement
* Basic CAD import
* Manual sheet loading
* Low-pressure forming
Objective:
Validate adaptive contour generation.
### Phase 2 – Functional Prototype
Machine Size:
1000 mm × 1000 mm
Features:
* 1,000+ adaptive bars
* Automated shape generation
* Hydraulic pressing
* Touchscreen control
Objective:
Create real automotive and bike panels.
### Phase 3 – Commercial Product
Machine Size:
Customizable
Features:
* 5,000–20,000 adaptive bars
* AI-driven contour optimization
* Industrial production capability
* Multi-material support
---
## Seeking Innovators
We are looking for:
* Mechanical Engineers
* Mechatronics Engineers
* Robotics Experts
* Industrial Automation Specialists
* CNC Machine Designers
* Hydraulic System Designers
* AI/Control System Developers
* Manufacturing Startups
* Research Institutions
* Prototype Development Teams
The goal is to develop the world\\\\\\'s first commercially viable Universal Adaptive Contour Forming Machine capable of transforming digital designs directly into metal sheet contours without dedicated dies or molds.
Status: Concept Seeking Innovators, Technical Partners, Prototype Developers and Investors.
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CONTRIBUTION
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DISTRIBUTION PARTNER
ID: #118
Idea
Prototype
Market
Scaling
Pedal-operated sweeper
VALUATION
Valuation Restricted
Four graduating mechanical engineering students amazed netizens with their thesis project design, which used eco-friendly materials to ma...
Four graduating mechanical engineering students amazed netizens with their thesis project design, which used eco-friendly materials to make a pedal-operated street sweeper.
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Anyworks
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CONTRIBUTION
SEEKING
OTHER
ID: #168
Idea
Prototype
Market
Scaling
Building the Ultimate Handmade Elliptical Bike
VALUATION
Valuation Restricted
Building the ultimate handmade elliptical bike is a challenging and rewarding DIY project that combines the principles of engineering and...
Building the ultimate handmade elliptical bike is a challenging and rewarding DIY project that combines the principles of engineering and creativity. The result is a one-of-a-kind, functional, and efficient elliptical bike that is tailored to the builder's preferences and needs.
An elliptical bike is a hybrid between a traditional bicycle and an elliptical trainer. It combines the motion of pedaling with the upper body workout of an elliptical trainer. Building a handmade elliptical bike requires sourcing the necessary materials, such as a frame, wheels, pedals, and drivetrain, and then custom building the elliptical portion of the bike. This can include the design and placement of the handlebars and the resistance mechanism for the upper body workout.
The building process begins with the selection and preparation of materials. This includes sourcing high-quality components, such as the frame and wheels, and carefully measuring and cutting any additional pieces needed for the elliptical portion of the bike. Next, the bike is assembled, starting with the frame and then adding the wheels, pedals, and drivetrain. The elliptical portion of the bike is then added, including the handlebars and resistance mechanism.
It's important to note that building a handmade elliptical bike requires a high degree of skill and knowledge of bike mechanics and engineering principles. Properly assembling and calibrating the bike is crucial for safety and the proper functioning of the elliptical workout.
Once the bike is built and calibrated, the rider can experience the unique benefits of an elliptical bike. The combination of pedaling and upper body workout allows for a more comprehensive workout and engages different muscle groups. It also provides an eco-friendly and sustainable transportation option.
Overall, building the ultimate handmade elliptical bike is a challenging and rewarding DIY project that results in a one-of-a-kind, functional, and efficient elliptical bike that is tailored to the builder's preferences and needs. It requires a high degree of skill and knowledge of bike mechanics and engineering principles but provides a unique and eco-friendly transportation option.
An elliptical bike is a hybrid between a traditional bicycle and an elliptical trainer. It combines the motion of pedaling with the upper body workout of an elliptical trainer. Building a handmade elliptical bike requires sourcing the necessary materials, such as a frame, wheels, pedals, and drivetrain, and then custom building the elliptical portion of the bike. This can include the design and placement of the handlebars and the resistance mechanism for the upper body workout.
The building process begins with the selection and preparation of materials. This includes sourcing high-quality components, such as the frame and wheels, and carefully measuring and cutting any additional pieces needed for the elliptical portion of the bike. Next, the bike is assembled, starting with the frame and then adding the wheels, pedals, and drivetrain. The elliptical portion of the bike is then added, including the handlebars and resistance mechanism.
It's important to note that building a handmade elliptical bike requires a high degree of skill and knowledge of bike mechanics and engineering principles. Properly assembling and calibrating the bike is crucial for safety and the proper functioning of the elliptical workout.
Once the bike is built and calibrated, the rider can experience the unique benefits of an elliptical bike. The combination of pedaling and upper body workout allows for a more comprehensive workout and engages different muscle groups. It also provides an eco-friendly and sustainable transportation option.
Overall, building the ultimate handmade elliptical bike is a challenging and rewarding DIY project that results in a one-of-a-kind, functional, and efficient elliptical bike that is tailored to the builder's preferences and needs. It requires a high degree of skill and knowledge of bike mechanics and engineering principles but provides a unique and eco-friendly transportation option.
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TECH DISCUSSION
No technical queries yet.