Industry
Industry
Carbon Monoxide Detector – Very Low Consumption
Design of an electronic carbon monoxide (CO) detection device, specially optimized for extremely low power consumption. The electronics integrate sensors, alert logic, and long-term standby modes.
Our role:
The detector continuously monitors the ambient air and triggers an audible and visual alert in the event of the presence of carbon monoxide, a toxic and odorless gas. Its low-power mode allows for extended battery life, even when running on battery power.
Benefits for the customer:
- Increased safety of people and facilities against CO risks
- Very long autonomy thanks to minimal consumption
- Device reliability, designed to operate continuously in demanding environments
- Easy integration into industrial, maritime or domestic applications
DKI cylinder equipped with a brushless motor
Development of a DKI brand hydraulic actuator demonstrator, powered by a brushless motor. This solution represents a significant technological advancement compared to the universal motors traditionally used.
Our role:
The actuator is designed to deliver higher torque and increased speed under load, while providing finer control and improved responsiveness. The tests carried out made it possible to concretely measure the performance gains linked to this architecture.
Benefits for the customer:
- Improved responsiveness thanks to brushless motorization
- Increased performance with greater torque and higher speed under load
- Superior durability and reliability compared to universal motors
- Technological innovation paving the way for new applications of hydraulic actuators
Electronic shopping cart disinfection system
Design of an electronic system dedicated to the disinfection of shopping carts. This development integrates the control of disinfection modules (UV or other technologies), power management and securing the process for public use.
Our role:
The system controls and automates the disinfection cycle, ensuring efficient and consistent action across the entire trolley. It optimizes energy consumption and makes use safer to avoid any risk to users.
Benefits for the customer:
- Enhanced hygiene and health security for users
- Automation of the disinfection process, limiting human intervention
- Efficiency and reliability thanks to electronics designed for intensive use in public environments
- Enhancing the customer's image through an innovative response to health issues
Trolley wheel motorization, mobile platform
We designed and developed motorized wheels to be installed under trolleys to make them electrically assisted trolleys. The project includes mechanical design (CAD drawings, plastics processing, parts produced by digital milling machine, 3D printed and pre-production covers), electronics (schematics, routing, board prototyping, embedded software), then assembly, testing and mass production. EMC compliance was taken into account.
Our role:
This motorized system provides assistance in moving carts, reducing the physical effort required. It integrates motorization, electronic control, protections, and a mechanical design adapted to support loads, ensuring durability and continuous use. The cart retains its casters but gains in traction, ease of maneuverability, and the ability to move easily, even when loaded.
Benefits for the customer:
- Users have less to push the cart, reducing fatigue and risk of injury
- Travel is faster and easier, even on varied surfaces or uphill
- Mechanical parts designed in CAD, EMC tests, prototyping then pre-series before mass production, ensuring a quality product
- Choice of plastic materials, adapted mechanical designs, custom electronics according to the specific load or use
- The customer benefits from a modern, assisted solution that can improve its attractiveness or competitiveness if the use is visible (for example in stores, logistics, etc.)
