ES projects

The project “Solar Power Plants for Panel Building Renovation (RenoPV)” is being implemented

UAB “Via Solis” together with its partner UAB “Techvitas” from 2024. July 12. is implementing the project “Solar Power Plants for Panel Building Renovation (RenoPV)”, (No. 02-020-K-0029), which is co-financed by the European Union.

The project will contribute to the development of a new high-added value product, will create conditions for researchers to participate in the company’s research and experimental development activities, will promote intellectual property and early pilot production of the created new product. The project is based on the need to improve the aesthetic integration of photovoltaic modules into buildings. To this end, a method will be developed to paint the contacts of photovoltaic cells in such a way that the paint does not fade and does not wear out when exposed to the photovoltaic cell, i.e. when exposed to ultraviolet rays and extreme temperatures.

The project aims to improve the aesthetic integration of photovoltaic modules into buildings. During the research activities, three new product prototypes will be created, which will allow renovation companies to offer consumers the possibility of covering building facades with sustainable and environmentally friendly wooden panels with integrated photovoltaic modules for renovation.

Project budget: 2,590,593.41 EUR.

Implementing body: Innovation Agency

The project is co–financed by the European Union

Funding amount: 1,541,086.28 EUR.

More information: www.investicijos.lt

INDUSTRIAL ROBOT FOR GRINDING WOODEN PARTS

UAB “Techvitas”, in cooperation with VŠĮ “Innovation Agency” (administrating institution) and VAMĮ “Panevėžio College” (partner), recently signed an agreement and is starting to implement the project INDUSTRIAL ROBOT FOR GRINDING WOODEN PARTS (project No. 002–019–K–0126). The project is co-financed by the European Union.

Project duration:
02/07/2024 – 02/07/2026

Project value:
1 306 438 EUR

EU funding:
824 983 EUR

Project goal. To create a robotic automatic wood sanding system through R&D activities in order to increase production productivity, speed up production processes, save costs and materials, and reduce the number of errors and defects.

Problems solved by the project. The product being developed will solve the challenges currently identified in the market related to the sanding of irregular metal, plastic, wooden and other materials of various coarseness, by integrating various robotic solutions. In this way, a solution will be presented to the market that will allow to significantly increase production productivity, speed up production processes and save costs and materials related to production processes, as well as reduce the number of errors and defects in production processes.

Target group of the project. The primary purpose of the robotic arm being developed will be to sand wooden product parts, therefore the target market for the product will be the market for wood sanding machines. The product will have a high demand as it will help automate a large part of the processes that currently have to be performed by employees in the market. Automated wood sanding machines will process wood materials faster and more efficiently than manual methods, which will increase productivity and save money.

Quantum Detectors and Emitters and Their Robotic Manufacturing Cell (KVADERA)

Techvitas Robotika, UAB has signed an agreement for the implementation of the project “Quantum Detectors and Emitters and Their Robotic Manufacturing Cell” (KVADERA).
The project partners are Innovation Agency (administrating institution) and Integrated Optics, UAB (project executor). The project is co-financed by the European Union.

Project duration:
01/01/2024 – 17/06/2026

Total project value:
EUR 1,014,105

EU funding:
EUR 723,417

Project objective – to develop competitive laser sources and single-photon detectors for quantum applications by advancing robotic assembly technologies. KVADERA will contribute to promoting innovation supply in Lithuania by investing in the development of advanced photonics products and in research and experimental development activities.

The products developed under this project will be used for academic research and industrial applications related to quantum physics, computing, cryptography, particle analysis, drug development, and other fields that utilize narrow-spectrum, tunable lasers and single-photon detectors.
All these applications require reliable, compact, and cost-effective lasers and detectors, which are essential system components determining their performance and specifications.