Research and development of new products with implementation (Q115807): Difference between revisions
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(Removed claim: summary (P836): The project will be located at the premises of the company in the village of Moon. The company plans to implement a new device, a hip endoprosthesis as a measure with a dedicated instrument and development of the company through diversification of production and expansion of its range. The project is based on research and development (R & D), four stages and the purchase of devices for the implementation of the device (type 2 project). The fol...) |
(Created claim: summary (P836): The project will be located at the company headquarters in the town of Księżyno. The company plans to implement a new product – endoprotesis of hip joint to measure with dedicated instrumentarium and development of the company by diversification of production and expansion of its range. The project is based on R & D, in four stages and the purchase of devices for product implementation (type 2 project). The planned research work will consist of...) |
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The project will be located at the company headquarters in the town of Księżyno. The company plans to implement a new product – endoprotesis of hip joint to measure with dedicated instrumentarium and development of the company by diversification of production and expansion of its range. The project is based on R & D, in four stages and the purchase of devices for product implementation (type 2 project). The planned research work will consist of the following stages: it’s stage 1. Elaboration of technical and construction guidelines and assumptions designed to measure hip implants together with dedicated instrumentarium, stage 2. Execution of laboratory preprototypes of implants and preprototypes of instrumentary elements using rapid prototyping and verification. step 3. Making prototypes of implants according to the method of 3D printing in metal and instrumantaries using rapid prototyping, and then conducting tests confirming the readiness of the product to implement stage 4. Planning and carrying out surgical procedures using a tailor-made implant and a specially designed instrumentarium. Machines for the implementation of hip implants to measure: 1. 3D printer for plastic printing. 2. A low-temperature steriliser. 3. A program for segmentation of a medical scan on a 3D model. 4. Free model design program for 3D printing. 5. Two computer sets. 6. It’s a turning machine. 7. It’s a turning and frizzy center. Eligible costs project:6 867 356,27. Implementation component: 3 396 234,05. The contribution of the implementation component to the eligible costs: IT’S 49.45 %. Implementation of the project will enable the company to use its strengths in the form of unpatented knowledge and know-how in the field of implants planned for implementation, as well as the use of the opportunity in the market offered by the dynamically growing demand for medical devices in Poland and worldwide. (English) | |||||||||||||||
Property / summary: The project will be located at the company headquarters in the town of Księżyno. The company plans to implement a new product – endoprotesis of hip joint to measure with dedicated instrumentarium and development of the company by diversification of production and expansion of its range. The project is based on R & D, in four stages and the purchase of devices for product implementation (type 2 project). The planned research work will consist of the following stages: it’s stage 1. Elaboration of technical and construction guidelines and assumptions designed to measure hip implants together with dedicated instrumentarium, stage 2. Execution of laboratory preprototypes of implants and preprototypes of instrumentary elements using rapid prototyping and verification. step 3. Making prototypes of implants according to the method of 3D printing in metal and instrumantaries using rapid prototyping, and then conducting tests confirming the readiness of the product to implement stage 4. Planning and carrying out surgical procedures using a tailor-made implant and a specially designed instrumentarium. Machines for the implementation of hip implants to measure: 1. 3D printer for plastic printing. 2. A low-temperature steriliser. 3. A program for segmentation of a medical scan on a 3D model. 4. Free model design program for 3D printing. 5. Two computer sets. 6. It’s a turning machine. 7. It’s a turning and frizzy center. Eligible costs project:6 867 356,27. Implementation component: 3 396 234,05. The contribution of the implementation component to the eligible costs: IT’S 49.45 %. Implementation of the project will enable the company to use its strengths in the form of unpatented knowledge and know-how in the field of implants planned for implementation, as well as the use of the opportunity in the market offered by the dynamically growing demand for medical devices in Poland and worldwide. (English) / rank | |||||||||||||||
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Property / summary: The project will be located at the company headquarters in the town of Księżyno. The company plans to implement a new product – endoprotesis of hip joint to measure with dedicated instrumentarium and development of the company by diversification of production and expansion of its range. The project is based on R & D, in four stages and the purchase of devices for product implementation (type 2 project). The planned research work will consist of the following stages: it’s stage 1. Elaboration of technical and construction guidelines and assumptions designed to measure hip implants together with dedicated instrumentarium, stage 2. Execution of laboratory preprototypes of implants and preprototypes of instrumentary elements using rapid prototyping and verification. step 3. Making prototypes of implants according to the method of 3D printing in metal and instrumantaries using rapid prototyping, and then conducting tests confirming the readiness of the product to implement stage 4. Planning and carrying out surgical procedures using a tailor-made implant and a specially designed instrumentarium. Machines for the implementation of hip implants to measure: 1. 3D printer for plastic printing. 2. A low-temperature steriliser. 3. A program for segmentation of a medical scan on a 3D model. 4. Free model design program for 3D printing. 5. Two computer sets. 6. It’s a turning machine. 7. It’s a turning and frizzy center. Eligible costs project:6 867 356,27. Implementation component: 3 396 234,05. The contribution of the implementation component to the eligible costs: IT’S 49.45 %. Implementation of the project will enable the company to use its strengths in the form of unpatented knowledge and know-how in the field of implants planned for implementation, as well as the use of the opportunity in the market offered by the dynamically growing demand for medical devices in Poland and worldwide. (English) / qualifier | |||||||||||||||
point in time: 20 October 2020
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Revision as of 14:50, 20 October 2020
Project in Poland financed by DG Regio
Language | Label | Description | Also known as |
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English | Research and development of new products with implementation |
Project in Poland financed by DG Regio |
Statements
3,878,282.79 zloty
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6,867,356.27 zloty
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56.47 percent
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25 June 2019
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31 December 2021
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MEDGAL SP. Z O.O.
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Projekt zlokalizowany będzie w siedzibie firmy w miejscowości Księżyno. Firma planuje wdrożenie nowego wyrobu - endoprotezy stawu biodrowego na miarę wraz z dedykowanym instrumentarium i rozwój przedsiębiorstwa przez dywersyfikację produkcji i rozszerzenie posiadanego asortymentu. Projekt opiera się na pracach badawczo-rozwojowych, w czterech etapch oraz zakupie urządzeń do wdrożenia wyrobu (projekt typ 2). Na planowane do zrealizowania prace badawcze będą składały się następujące etapy: etap 1. Opracowanie wytycznych i założeń technologiczno-konstrukcyjnych projektowanych na miarę implantów stawów biodrowych wraz z dedykowanym instrumentarium, etap 2. Wykonanie przedprototypów laboratoryjnych implantów i przedprototypów elementów instrumentariów metodą rapid prototyping oraz ich weryfikacja. etap 3. Wykonanie prototypów implantów na miarę metodą druku 3D w metalu oraz instrumantariów metodą rapid prototyping, a następnie przeprowadzenie badań potwierdzających gotowość wyrobu do wdrożenia etap 4. Zaplanowanie i przeprowadzenie zabiegów operacyjnych z wykorzystaniem implantu na miarę i specjalnie zaprojektowanego instrumentarium. Maszyny służące do wdrożenia implantów stawu biodrowego na miarę: 1. Drukarka 3D do drukowania z tworzyw sztucznych. 2. Sterylizator niskotemperaturowy. 3. Program do segmentacji skanu medycznego na model 3D. 4. Program do projektowania swobodnego modeli do druku 3D. 5. Dwa zestawy komputerowe. 6. Automat tokarski. 7. Centrum tokarsko-frezarskie. Koszty kwalifikowane proj.:6 867 356,27. Komponent wdrożeniowy: 3 396 234,05. Udział komponentu wdrożeniowego w kosztach kwalifikowanych: 49,45%. Realizacja projektu w zakładanym zakresie umożliwi firmie wykorzystanie swoich mocnych stron w postaci nieopatentowanej wiedzy i know-how w zakresie implantów planowanych do wdrożenia, a także związanych z wykorzystaniem szansy na rynku jaką daje dynamicznie rosnący popyt na wyroby medyczne w Polsce i na świecie. (Polish)
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The project will be located at the company headquarters in the town of Księżyno. The company plans to implement a new product – endoprotesis of hip joint to measure with dedicated instrumentarium and development of the company by diversification of production and expansion of its range. The project is based on R & D, in four stages and the purchase of devices for product implementation (type 2 project). The planned research work will consist of the following stages: it’s stage 1. Elaboration of technical and construction guidelines and assumptions designed to measure hip implants together with dedicated instrumentarium, stage 2. Execution of laboratory preprototypes of implants and preprototypes of instrumentary elements using rapid prototyping and verification. step 3. Making prototypes of implants according to the method of 3D printing in metal and instrumantaries using rapid prototyping, and then conducting tests confirming the readiness of the product to implement stage 4. Planning and carrying out surgical procedures using a tailor-made implant and a specially designed instrumentarium. Machines for the implementation of hip implants to measure: 1. 3D printer for plastic printing. 2. A low-temperature steriliser. 3. A program for segmentation of a medical scan on a 3D model. 4. Free model design program for 3D printing. 5. Two computer sets. 6. It’s a turning machine. 7. It’s a turning and frizzy center. Eligible costs project:6 867 356,27. Implementation component: 3 396 234,05. The contribution of the implementation component to the eligible costs: IT’S 49.45 %. Implementation of the project will enable the company to use its strengths in the form of unpatented knowledge and know-how in the field of implants planned for implementation, as well as the use of the opportunity in the market offered by the dynamically growing demand for medical devices in Poland and worldwide. (English)
20 October 2020
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Identifiers
RPPD.01.02.01-20-0125/19
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