All Projects
Browse our projects and implementations
Browse our projects and implementations
Power supply modules for plant monitoring systems
The project involved the development and manufacturing of power supply modules designed for a plant parameter monitoring system. The solution was created according to the client’s requirements and is responsible for converting 230 V mains voltage, stabilizing it, and safely supplying 12 V-powered devices. As part of the implementation, an electronic circuit design was prepared together with mounting components adapted to the client’s construction requirements. The modules were designed with a focus on reliable operation, proper component cooling, and convenient installation within the target system. The project also included the manufacturing of structural components using laser cutting and CNC bending technologies, followed by powder coating for surface protection. The entire solution was complemented with dedicated control software responsible for the proper operation of the system and monitoring of power supply parameters.
Ventilation and heating system controller
The project involved the development of a controller responsible for managing the ventilation system and heating mats used in a chamber maintaining a constant temperature of 25°C. The solution was designed according to the client’s requirements and enables stable control of system operating parameters while maintaining appropriate conditions inside the chamber. As part of the implementation, an SMD PCB design was developed together with the selection of fans and heating mats adapted to the client’s device construction. Dedicated control software was also created to manage system operation, temperature control, and communication between individual components. The project also included SMD assembly of electronic components as well as EMC and ROHS testing to verify proper operation and compliance with technical requirements.
Assembly fixtures
The project involved the comprehensive development and manufacturing of an assembly fixture designed for stable clamping and precise positioning of components during assembly and riveting processes. The scope of work began with the preparation of a CAD design in the SolidWorks environment, taking into account the individual project requirements and operator ergonomics. As part of the implementation, components were manufactured using 3D printing technology with high-strength materials, while additional parts were prepared using laser cutting and CNC bending technologies. The structure was complemented with welded elements and protected with powder coating. The project was completed with the assembly and fitting of all components, resulting in a durable and functional solution that improves workflow efficiency and increases the repeatability of operations.
Industrial juice dispenser
The project involved the design and development of a prototype juice dispenser intended for operation in gastronomic and semi-industrial environments. The device was created as a technology demonstrator and a test platform for a future commercial product. We acted as an external R&D department, responsible for the comprehensive product development process from concept definition, through mechanical and electronic design, to the implementation of control software and the production of a fully functional prototype. The goal of the project was to create a fully functional device that meets hygienic and sanitary requirements, is ergonomic for end users, and is technologically prepared for further development and production scaling.
Display cabinet for automated plant cultivation and growth
The project involved the design and development of a prototype cabinet for automated plant cultivation and controlled growth in enclosed environments. The device was created as a technology demonstrator for a startup developing an innovative solution in the field of controlled environment agriculture (CEA). The scope of work included mechanical design of the enclosure, development of the control system, and integration of electronics, sensors, and actuators. The structure was designed for continuous operation, modularity, and easy service access, while also being prepared for further production optimization. We developed dedicated control electronics enabling environmental data acquisition and active control of internal cabinet conditions. The system was designed as scalable, allowing future expansion with additional sensors and actuator modules. In parallel, we created control software implementing the device’s operational logic, automatic parameter regulation, and test/service modes. After integrating all subsystems, we conducted functional and stability testing to verify control accuracy, measurement repeatability, and overall prototype reliability. The result was a fully functional prototype device, forming the foundation for further product development, cultivation trials, and progression to subsequent commercialization stages.
Automatic transmission cover Volkswagen Golf
The project involved recreating a damaged automatic transmission cover for a Volkswagen Golf. The client provided the original component, which was no longer suitable for further use. The objective was to accurately reproduce the part’s geometry, prepare full manufacturing documentation, and produce a short pilot series of new CNC-milled components. The project was completed through a comprehensive process: from 3D scanning, through CAD and CAM design, to the production of finished parts. This collaboration enabled the client to quickly replace an unavailable OEM component.
Fuel filler cap – Polaris quad
The project involved launching a small production series of aluminum fuel filler caps for Polaris quads. The objective was to reproduce the fuel tank thread, design a new cap with enhanced aesthetic qualities, and develop the complete manufacturing process. The scope of work included thread scanning, CAD design, and industrial design development, followed by preparation of the manufacturing process, finishing operations, and product personalization through logo engraving.