Our Product Design process is based on a solid design philosophy that begins with identifying the core essence and main function of the desired product. Then, a clear sense of the end-users' requirements and needs, along with our partner's vision for the product, create together a strong foundation on which we define product strategy and develop a competitive advantage. The products we have designed span a wide range of fields, such as Hi-Tech products, Medical devices, top-level Consumer products, and instrumentation for highly skilled professional teams.
Mechanical Engineering is an important part of our professional capabilities. Our Mechanical Engineering process includes 3D CAD surface modeling, manufacturing process design and prototype testing, all according global safety standards. Throughout the mechanical engineering process, we focus on planning stable manufacturing processes and designing products that serve their intended function reliably, are user-friendly, durable over time and are of high quality.
Complex products may involve a number of disciplines and several fields of knowledge. Whether it is a medical device or a tool for highly skilled professionals, moving mechanical parts may be integrated with electronic components that could be embedded with software. At STUDIO KLIPY we manage such complexity by employing rigorous Project Management methodologies, testing all components together as part of the design process, and planning ahead every aspect of production including supply chain management, manufacturing, assembly, and quality testing.
Production & Quality Assurance
With hands-on experience in manufacturing overseas (China, US and more), we are experienced in executing quality assurance in the most meticulous manner throughout the entire production process and upon its completion. Quality assurance is executed both by the factory’s inspectors and by our partners in each location, who are trained in conducting QA testing.
From the very beginning of the design process we prepare 3D visualizations of the concepts we are experimenting in, starting with raw foam mockups that enable us to examine shapes and preliminary functional solutions. As soon as we start building the concept in 3D CAD we produce 3D prints of the shapes and solution we are considering in-order to be able to evaluate and discuss the merits of each option in more practical terms. During 3D CAD modeling and detailing we prepare high quality 3D models that enable us to better address many design and engineering topics such as the types of plastics and other materials that should be used, assembly solutions, joints, edges and ribs, choice of the best manufacturing technology, and in-depth technical discussions with manufacturing partners.