
The role of of r&D at Konveyor
As R&D, our aim is to ensure the commercialization of technological products produced through in-house studies to transform them into innovation and to ensure that technological changes are incorporated into the company, to convey these gains to all sub-units of the company, to reduce costs, to increase product and service quality and efficiency, to strengthen the technological infrastructure and to ensure the formation of knowledge that will form the basis for the production of new technologies for the future.
Collaborative Innovation
Advanced Software Tools and Expertise
We utilize advanced tools to design, simulate, and optimize our products during the early stages of development. These technologies empower us to conduct in-depth analyses, minimize risks, and refine our solutions for optimal performance before entering full production.
We utilize AutoCAD software as a powerful tool for designing and optimizing production line layouts. By leveraging its advanced features and precision capabilities, we are able to create detailed, efficient, and scalable layouts tailored to the specific needs of our manufacturing processes.
Konveyor Machine Production
The Machinery Department develops solutions aimed at meeting our company's needs, focusing on production processes and the machinery technologies used.
Our department continues to create successful projects by combining cutting-edge technologies with the know-how gained through years of experience, offering unique solutions and detailed analyses.
With its dynamic and skilled team of engineers, specialized automation experts, experienced technicians, and comprehensive machinery manufacturing facilities, it meticulously plans every detail of projects and implements them quickly and efficiently.
- Ability to quickly adapt new and cutting-edge technology to the production process
- Ability to manufacture special machines suitable for production.
- Reducing investment costs
- Offering customers much faster production opportunities
- Having flexible production capability
- Bringing artificial intelligence and digitalization to production capabilities.
Machine workshop: A total of 23 machines include CNC, turning, milling, etc.


Product Development and Enhancement
Innovation is at the heart of what we do. Whether creating new products or enhancing existing ones, our R&D processes ensure high-quality outcomes. We validate our designs through prototyping and rigorous testing and ensure compliance with all relevant industry standards. This meticulous approach helps us maintain our competitive edge and ensures reliability and efficiency in our offerings. Among the products we have developed are finned tube heat exchangers, MPHE (multi-port heat exchangers), check valves.
Performance Laboratory
Our in-house performance laboratory not only supports our R&D efforts but also conducts comparative testing to evaluate and improve product performance. During these tests, R134a refrigerant is used, as it is suitable for the testing equipment and is not flammable. These tests play a key role in evaluating and optimizing energy efficiency, cooling capacity, and overall system performance. The testing setup is specifically designed to handle R134a, ensuring accurate and safe analysis.
The laboratory is equipped with a cold room and air tunnel, which are essential for creating controlled environments that simulate various real-world conditions. The cold room allows us to test products under low-temperature conditions, while the air tunnel helps simulate airflow dynamics and thermal performance under varying external conditions. By conducting these comparative tests, we gain valuable insights into how our products perform against industry standards and competing solutions, ensuring that we can continuously refine and improve our designs.


Thermal Shock Laboratory
A thermal shock chamber is a device used to apply rapid temperature changes to products in order to assess their durability. It is commonly for quality control and testing purposes, evaluating how products withstand extreme temperature variations.
Operating Temperature Range:
- Min: -30 °C
- Max: 120 °C
Chamber Size:
- 800x600x600 mm
Operating System:
The device applies rapid cold and hot thermal shocks to the products for a specified duration and number of cycles. This test evaluates how the products respond to temperature fluctuations and their performance under extreme temperature conditions.Additive Manufacturing
As part of our ongoing R&D efforts, we utilize 3D printing technology to create prototypes for our projects and innovative ideas. This approach allows us to quickly turn concepts into tangible models, enabling more effective testing, design iteration, and product development. By having the ability to produce prototypes in-house, we can experiment with new ideas more freely and make design adjustments in real-time.
This technological advancement also plays a crucial role in optimizing our overall production process. It helps us reduce costs associated with traditional prototyping methods, minimize material waste, and shorten lead times. Additionally, the ability to manage time efficiently and respond faster to market demands gives us a competitive edge in delivering high-quality products with greater agility.


Patent and Innovation
As part of our ongoing commitment to innovation, we continuously invest in the development of new ideas and technologies. The number of intellectual property applications we have filed reflects this commitment and demonstrates our focus on delivering unique and practical solutions that set new standards in our industry.
These achievements are a clear sign of our proactive approach to shaping the future of the industry and ensuring that our innovations have a lasting impact around the world.