The Nishiki lamp by QUQU is a 3D-printed table lamp that uses lenticular optics to create shifting internal patterns when viewed from different angles. Japanese brand QUQU designs the lamp so its entire body functions as a lens, using the fine horizontal ridges produced during 3D printing as an optical array. As the viewer moves or tilts the lamp, embedded colours appear to shift and change depth within the translucent structure.
The lamp is produced using a semi-translucent biomass plastic that diffuses light while allowing layered colour to remain visible inside the form. Coloured material is deposited at varying depths during printing, creating a volumetric pattern that changes appearance when the internal LED is switched on. The shade measures approximately 155mm in height and is available in multiple colourways including deep blue, plum red, green, and white variations.
Cylindrical 3d Lamps
QUQU's Nishiki Lamp Shifts Internal Patterns Using Layered Printing
Trend Themes
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Lenticular 3D Printing — The convergence of lenticular optics with additive manufacturing creates objects whose appearance dynamically shifts with viewpoint, enabling products that encode motion and depth without moving parts.
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Layered Color Volumetrics — Embedding colored materials at controlled depths during printing produces volumetric patterns that change under illumination, offering new possibilities for visual richness and personalization in compact forms.
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Biomass Translucent Materials — Semi-translucent bioplastics that diffuse light while retaining internal coloration open pathways for sustainable, light-interactive consumer goods with reduced reliance on pigments and coatings.
Industry Implications
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Interior Lighting — Table and ambient lighting products can be reimagined as sculptural, viewpoint-responsive elements that provide changing mood and perceived depth through material and print architecture.
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Consumer Electronics Accessories — Phone docks, speakers, and peripheral housings incorporating lenticular printing and layered coloration can deliver tactile, visually dynamic finishes that differentiate commodity devices.
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Sustainable Product Design — Design practices focused on bio-based translucent polymers and integrated optical structure enable lower-impact goods that communicate premium aesthetics through material-engineered effects.