SyncOne
AI Powered Intimate Wellness Simulator
SyncOne utilizes AI video motion capture and high-precision algorithms for real-time mechanical control, simulating a realistic experience. It synchronizes seamlessly with PCs, mobile apps, and VR devices. The contact section, made of transparent TPU through a two-shot molding process, features a unibody design for easy removal and insertion. It includes a sealing groove to prevent leaks and a diffuser that amplifies vibration power—both easy to clean. The base is equipped with a side waterproof airflow channel, PTC heating, and UVC disinfection lights, enhancing usability for sterilization and drying. Overall, the design prioritizes grip comfort, simplicity, and convenience.
Design Process
Research & Analysis
To uncover the true needs, we conducted extensive market research and analysis, transforming the core demands into software algorithms and prototype design to deliver the most suitable experience for users.
EVT & DVT
From idea to prototype, we created and tested numerous mockups, refining them to ensure both performance and reliability
DFMA
Through refined design and manufacturing optimization, we accelerated efficiency, elevated quality standards, and significantly shortened the path to mass production—delivering not only superior craftsmanship but also a clear competitive edge in cost and scalability.
* The graphic effect is created using the Timeline panel in Adobe Photoshop.
EVT & DVT
We first validated the principle through 3D modeling and 3D printing, then created simplified molds for injection molding to produce test parts. Each iteration went through mechanical trials and dimensional analysis, followed by targeted adjustments. By repeatedly refining tolerances, load paths, and spatial layouts, we achieved an optimized internal structure and highly efficient mechanical transmission. This systematic process ensured that SyncOne’s core mechanics are both reliable and precise.
Unibody Design
From the earliest stage of soft resin casting with 3D-printed molds to the development of metal 3D-printed inner sleeves,
our process was designed to achieve the optimal balance of material flexibility and softness.
This enabled us to realize a one-piece molding design, ensuring superior waterproofing and consistent injection-molding quality across the entire structure.
CMF Design
We are committed to the seamless integration of aesthetics and functionality.
To address the common issue of fingerprints, sweat stains, and yellowing that may occur with prolonged use, SyncOne has been developed through countless tests in surface finishing techniques and multiple rounds of material optimization.
Our dedication to CMF (Color, Material, Finish) design is as critical as the final product itself. We see the CMF process not as a supporting role, but as a defining element of the user experience—ensuring that every touch feels as refined as it looks.
Packaging Design
Packaging is more than just a container—it is the very first dialogue between the product and the consumer. It not only safeguards SyncOne and ensures a seamless unboxing journey, but also carries the spirit of the Segai brand, embodying the values and design philosophy that Segai Design Lab aspires to share with the world.
Features Overview
Overall, SyncOne combines innovative design with a user-friendly experience, integrating technology into everyday use and providing realistic sensory feedback.
Inhouse
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Yi Chung Lee (Seung Hyun Lee) | Industrial Design / CMF Design / Packaging Design / Design Engineering Development / Design For Manufacture & Assembly / EVT & DVT
Cedar Lee | Motion Design / 3D Art / Digital Design
Zhi Hao Liu (Tony) | User Experience Development / Marketing Research & Analysis
Watson Wong | Brand Founder / Product Manage
Segai Design Lab™
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UNIT NO.3 ON THE 13TH FLOOR OF GRAND CITY PLAZA NOS.1-17 SAI LAU KOK ROAD,TSUEN WAN,NEW TERRITORIES,HONG KONG
Segai Innovation Technology Holdings Limited
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