When you see it for the first time, you will feel that it is not only an avant-garde technology product, but also a work of art.
More about R1
Octave Light R1
Industrial 3D Printer
The R1 is the first affordable Top-Down desktop 3D Printer in the world with a 385 nm /405nm LED light source, which used to be only available in industrial scale stereolithography machines.
2016 prototype of Octave Light R1
Every 3D Printer enthusiast knows that top-down style stereolithography is great. The Top- down with Recoater blade method is what have been used in industrial-scale stereolithography machines for more than 20 years. It is proven and trust-ed. Yet, nobody knows how to manufacture an accurate top-down 3D Printer with an affordable price. But things are OK now, because the Octave Light R1 DLP Desktop 3D Printer is here to show people how it is done.
Biomedical Science
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Biochemical fluid devices researches.
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Teeth reconstruction.
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Ceramic crowns.
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Special ultra- structural materials used in human body.
Industrial Mechanics
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High precision machinery parts or elements.
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Parts that requires precisely matching components.
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Moving parts that cannot be disassembled into pieces.
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Special structural parts that are difficult to machine or mold.
Profession Practices
Art & Jewelry
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Curved surfaces.
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Complex hollows.
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Thin-walled structures.
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Structures that cannot be demolded.
R1’s high precision printing skill can highly restore and reconstruct gum models, transparent braces or dental brackets, allowing patients to experience the convenience that the technology has brought to us.
Micro Structure
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Precise semiconductor structure.
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Microfluidics device.
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Multilayer circuit exposure.
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Special precise electronic components design.
Material Development
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Ceramics based stereolithographic resin.
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Metal based stereolithographicresin.
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Soft or transparent stereolithographic resin.
15th February, 2016
Octave Light R1 3D Printer prototype first public
The Octave Light R1, with our Top-down with Recoater blade method, solidifies the currently printing layer of resin between air and the previously printed portion of the object, then proceed to Recoat the next layer of liquid resin on top of the just solidified layer . There are no peeling actions and no forceful actions with the Octave Light R1. It just works.
High reliability
Unstressed printing with Top-down reciter blade
Stereolithography Style
Top-down with Recoater blade
Top-down with Recoater blade
High-precision forming
The Octave Light R1 features a Laser Measurement Sensor, that has a resolution of 3 μm. 3 μm is less then the radius of a red blood cell.This is the exact same Laser Measurement Sensor that is used in silicon wafer manufacturing machines, in the semi-conductor industry right now. When I say the R1 uses industrial grade components, I am being serious.
All other affordable Top-down 3D Printers in the market today do not know how to correctly solve their Z axis direction inaccuracy problem, because of the rising and lowering of the resin surface. They are out of control on how tall their printed objects actually are.
The Octave Light R1 is the only affordable Top-down 3D Printer that can keep its projected image in shape focus. For each layer that we print, after we have determined the exact location of our resin surface with our Sensor, we move our Optical Engine vertically to make sure that the focal plane always land on the resin surface. When you inspect our printed objects, you will see our focus is so accurate that each individual pixel of our Optical Engine is sharply imprinted on the objects.
Laser Measurement Sensor to determine the exact location of resin surface in real time
High precision
Laser Measured Precision
DLP Optical UV Engine
Top-down with Recoater blade
The light source of the Octave Light R1 is a powerful ultraviolet LED, which has a long lifetime and is energy efficient. The Octave Light R1 only turns on the ultraviolet LED right before each exposure and immediately turns off the ultraviolet LED after each exposure.
The Octave Light R1 rejects all compromises. There are no mirrors, no glass or plastic windows, no vat (resin tray) bottom, nothing is blocking the optical path of our optical engine. The precision lens of the optical engine of the R1 throw its UV light directly onto the top surface of resin. This is another reason why our optics are of the highest precision in the whole desktop 3D Printer market.
The Optical Engine of the Octave Light R1 has an internal light intensity sensor to detect the brightness of the LED light source. This enables the accurate adjustment of the Ultraviolet light intensity, to ensure that the resin layers cure depth is consistent.
Do you see the pixels on it? Each pixel is an exact 50 µm X 50 µm square, which is just enough area to tightly fit in four human macrophages.
The Octave Light R1 is so accurate with our laser measured top-down printing method and our industrial-stereolithography grade optics, that you can use a microscope to look at our printed parts and see the imprints of each of the 2 millions 50 μm X 50 μm pixels.
Custom Industrial DLP Ultraviolet Optics with Direct Light Path
Ultraviolet Optics with Direct Light Path
Octave Light R1
specification comparison
Resolution
70um / Low 30um / Hight
Here are a lot of actual completed cases.
Provide your best solution with our equipment.
Solution
Artwork
The most important thing in everyone's life
The wedding ring is the only and most important token of love.
Customized concept design artwork
Quickly realize difficult-to-produce samples with 3D printing
Give us the hardest jobs Give your most precious gift to the one you love the most
Customized concept design artwork
Medical
After the mouth is modeled, we use 3D printing technology to create dentures or corrective braces. The size of the printed model can be very accurate.
Manufacture
Ceramic artwork is difficult to manufacture.
We print molds to produce ceramic artwork
Rapid development and production in just one day.
Material
Our machines can print hard ceramic materials as well as soft silicone materials, and combine the two materials.
Biochemical
We make a block with a structure of interlaced complex flow channels.
This bioblock provides plant seeds to grow roots.
Development
It took less than three days from design to development of a mold.
The mold can be closed with precision and injected with colloid to solidify into a part.
I need
Do you need our service or quote for 3D printed solution?
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