Concept UV-C Light Sanitizer

Creation of an innovative Narvalo sanitizer that combines LED UVC technology and ozonation for effective sterilization of masks and personal items, reducing the risk of infection and maintaining a safe home environment.

1. PRODUCT DEVELOPMENT BRIEF

The project stems from the need to maintain a safe home environment from virus and bacteria contamination, focusing on the cleaning of everyday objects and Narvalo masks.

2. DESIGN CHALLENGES

As already highlighted in the brief, the project challenges are located on various levels of the design.

Technology optimization

Effectively integrate LED UVC and ozonation into one compact device.

Design and functionality

Create a UV-C Light Sanitizer that is both aesthetically pleasing and functional for the end user

Safety

Ensure that the use of the device does not pose health risks, especially for ozone management

3. DESIGN PROCESS

Scanning the project into its most relevant design phases.

User Needs Analysis

Study of users’ habits and concerns regarding sanitation of personal items and masks.
This led to the identification of two main user profiles, “the Technologist” and “the Sick of Clean,” which helped to better understand the different expectations and needs in terms of sanitizer functionality and mode of use.

Evaluation of Sanitization Technologies

Comparative analysis between ozone production technologies and the use of UVC LEDs to determine the most effective and efficient method for sanitization.

Establishment of Technical Specifications

Establish optimal sanitizer dimensions, component specifications (such as UVC LEDs, ozone plates, wireless charging system), and additional features based on user preferences.

Concept generation

Brainstorming and generating initial concepts based on the results of the research phase, exploring different shapes, opening mechanisms, and internal component arrangements. Creation of various concepts that integrate aesthetics and functionality, such as innovative opening mechanism and design that facilitates daily use.

Opening mechanisms

The “spring” mechanism prevents the user, through a mechanical lock, from opening the compartment during operation.

Defining the Final Design

Selection of the final concept that best meets users’ criteria of effectiveness, design, and desirability.
Conclusion of the design process with the definition of a sanitizer that meets users’ expectations by combining advanced technology, attractive design, and practicality of use.

4. PROJECT OUTPUTS

From the decomposition of the initial problems, some design solutions were proposed that were able to convert technical limitations into a structural renewal of the starting product

Complete sterilization

The combination of LED UVC and ozone enables effective sterilization against viruses and bacteria.

Integrated wireless charging

The sanitizer also offers a wireless charging function for mobile devices, increasing its daily utility.

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