"working version"

#12424763

30 May 2025

A man with a dog buys fruit at a market in Belgrade. Serbia, Friday, May 30, 2025 First Deputy Prime Minister, Minister of Finance Sinisa Mali presented today at a meeting of the Board of the Social and Economic Council (SEC) a working version of the proposal on the dynamics of the growth of the minimum wage in Serbia with the aim of reaching the planned level of 650 euros by the end of 2027.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.

#5637058

21 April 2020

Szymon Chrupczalski, the VentilAid project coordinator, explains the utilisation of diving masks adapted to fit the VentilAid Prototype III respirator, a device that can be manufactured cheaply and with widely available parts using a 3D printer. The project was created by Urbicum, a Krakow based company specializing in 3D printing. The first two versions were developed and made available for free on the Internet. VentilAid Prototype III is a device for non-invasive ventilation, operating in CEPAP and BiPAP mode with an oxygen supply and meets the requirements of modern medical standards. It allows to keep patients in a stable condition and/or improve the condition of a conscious patient who is not eligible to be put on a hospital respirator. On April 17, 2020, in Krakow, Poland.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.

#5637062

21 April 2020

Szymon Chrupczalski, the VentilAid project coordinator explains the different components used to build the VentilAid Prototype III respirator, a device that can be manufactured cheaply and with widely available parts using a 3D printer. The project was created by Urbicum, a Krakow based company specializing in 3D printing. The first two versions were developed and made available for free on the Internet. VentilAid Prototype III is a device for non-invasive ventilation, operating in CEPAP and BiPAP mode with an oxygen supply and meets the requirements of modern medical standards. It allows to keep patients in a stable condition and/or improve the condition of a conscious patient who is not eligible to be put on a hospital respirator. On April 17, 2020, in Krakow, Poland.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.

#5637064

21 April 2020

A 3D printer makes partes of the VentilAid Prototype III respirator, a device that can be manufactured cheaply and with widely available parts using a 3D printer. The project was created by Urbicum, a Krakow based company specializing in 3D printing. The first two versions were developed and made available for free on the Internet. VentilAid Prototype III is a device for non-invasive ventilation, operating in CEPAP and BiPAP mode with an oxygen supply and meets the requirements of modern medical standards. It allows to keep patients in a stable condition and/or improve the condition of a conscious patient who is not eligible to be put on a hospital respirator. On April 17, 2020, in Krakow, Poland.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.

#5637066

21 April 2020

Szymon Chrupczalski, the VentilAid project coordinator explains how a 3D printer makes the VentilAid Prototype III respirator, a device that can be manufactured cheaply and with widely available parts using a 3D printer. The project was created by Urbicum, a Krakow based company specializing in 3D printing. The first two versions were developed and made available for free on the Internet. VentilAid Prototype III is a device for non-invasive ventilation, operating in CEPAP and BiPAP mode with an oxygen supply and meets the requirements of modern medical standards. It allows to keep patients in a stable condition and/or improve the condition of a conscious patient who is not eligible to be put on a hospital respirator. On April 17, 2020, in Krakow, Poland.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.

#5637068

21 April 2020

Jan Pawlik works on the oxygen concentrator that can be used with the VentilAid Prototype III respirator, a device that can be manufactured cheaply and with widely available parts using a 3D printer. The project was created by Urbicum, a Krakow based company specializing in 3D printing. The first two versions were developed and made available for free on the Internet. VentilAid Prototype III is a device for non-invasive ventilation, operating in CEPAP and BiPAP mode with an oxygen supply and meets the requirements of modern medical standards. It allows to keep patients in a stable condition and/or improve the condition of a conscious patient who is not eligible to be put on a hospital respirator. On April 17, 2020, in Krakow, Poland.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.

#5637070

21 April 2020

Szymon Chrupczalski, the VentilAid project coordinator, explains the functioning of the VentilAid Prototype III respirator, a device that can be manufactured cheaply and with widely available parts using a 3D printer. The project was created by Urbicum, a Krakow based company specializing in 3D printing. The first two versions were developed and made available for free on the Internet. VentilAid Prototype III is a device for non-invasive ventilation, operating in CEPAP and BiPAP mode with an oxygen supply and meets the requirements of modern medical standards. It allows to keep patients in a stable condition and/or improve the condition of a conscious patient who is not eligible to be put on a hospital respirator. On April 17, 2020, in Krakow, Poland.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.

#5637072

21 April 2020

Szymon Chrupczalski, the VentilAid project coordinator, explains the functioning of the VentilAid Prototype III respirator, a device that can be manufactured cheaply and with widely available parts using a 3D printer. The project was created by Urbicum, a Krakow based company specializing in 3D printing. The first two versions were developed and made available for free on the Internet. VentilAid Prototype III is a device for non-invasive ventilation, operating in CEPAP and BiPAP mode with an oxygen supply and meets the requirements of modern medical standards. It allows to keep patients in a stable condition and/or improve the condition of a conscious patient who is not eligible to be put on a hospital respirator. On April 17, 2020, in Krakow, Poland.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.

#5637074

21 April 2020

Szymon Chrupczalski, the VentilAid project coordinator, explains how human lungs can function with the help of the VentilAid Prototype III respirator, a device that can be manufactured cheaply and with widely available parts using a 3D printer. The project was created by Urbicum, a Krakow based company specializing in 3D printing. The first two versions were developed and made available for free on the Internet. VentilAid Prototype III is a device for non-invasive ventilation, operating in CEPAP and BiPAP mode with an oxygen supply and meets the requirements of modern medical standards. It allows to keep patients in a stable condition and/or improve the condition of a conscious patient who is not eligible to be put on a hospital respirator. On April 17, 2020, in Krakow, Poland.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.

#5637078

21 April 2020

Szymon Chrupczalski, the VentilAid project coordinator, explains how human lungs can function with the help of the VentilAid Prototype III respirator, a device that can be manufactured cheaply and with widely available parts using a 3D printer. The project was created by Urbicum, a Krakow based company specializing in 3D printing. The first two versions were developed and made available for free on the Internet. VentilAid Prototype III is a device for non-invasive ventilation, operating in CEPAP and BiPAP mode with an oxygen supply and meets the requirements of modern medical standards. It allows to keep patients in a stable condition and/or improve the condition of a conscious patient who is not eligible to be put on a hospital respirator. On April 17, 2020, in Krakow, Poland.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.

#5637082

21 April 2020

Szymon Chrupczalski, the VentilAid project coordinator shows printed turbines used to build the VentilAid Prototype III respirator, a device that can be manufactured cheaply and with widely available parts using a 3D printer. The project was created by Urbicum, a Krakow based company specializing in 3D printing. The first two versions were developed and made available for free on the Internet. VentilAid Prototype III is a device for non-invasive ventilation, operating in CEPAP and BiPAP mode with an oxygen supply and meets the requirements of modern medical standards. It allows to keep patients in a stable condition and/or improve the condition of a conscious patient who is not eligible to be put on a hospital respirator. On April 17, 2020, in Krakow, Poland.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.

#5637086

21 April 2020

Szymon Chrupczalski, the VentilAid project coordinator shows printed turbines used to build the VentilAid Prototype III respirator, a device that can be manufactured cheaply and with widely available parts using a 3D printer. The project was created by Urbicum, a Krakow based company specializing in 3D printing. The first two versions were developed and made available for free on the Internet. VentilAid Prototype III is a device for non-invasive ventilation, operating in CEPAP and BiPAP mode with an oxygen supply and meets the requirements of modern medical standards. It allows to keep patients in a stable condition and/or improve the condition of a conscious patient who is not eligible to be put on a hospital respirator. On April 17, 2020, in Krakow, Poland.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.

#5637088

21 April 2020

Szymon Chrupczalski, the VentilAid project coordinator explains a graphic showing the breathing pressure of a patient the patient using the VentilAid Prototype III respirator, a device that can be manufactured with cheap and widely available parts using a 3D printer. The project was created by Urbicum, a Krakow based company specializing in 3D printing. The first two versions were developed and made available for free on the Internet. VentilAid Prototype III is a device for non-invasive ventilation, operating in CEPAP and BiPAP mode with an oxygen supply and meets the requirements of modern medical standards. It allows to keep patients in a stable condition and/or improve the condition of a conscious patient who is not eligible to be put on a hospital respirator. On April 17, 2020, in Krakow, Poland.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.

#5637092

21 April 2020

Jan Pawlik explains the function and design of the oxygen concentrator that can be used with the VentilAid Prototype III respirator, a device that can be manufactured cheaply and with widely available parts using a 3D printer. The project was created by Urbicum, a Krakow based company specializing in 3D printing. The first two versions were developed and made available for free on the Internet. VentilAid Prototype III is a device for non-invasive ventilation, operating in CEPAP and BiPAP mode with an oxygen supply and meets the requirements of modern medical standards. It allows to keep patients in a stable condition and/or improve the condition of a conscious patient who is not eligible to be put on a hospital respirator. On April 17, 2020, in Krakow, Poland.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.

#5637094

21 April 2020

A 3D printer makes partes of the VentilAid Prototype III respirator, a device that can be manufactured cheaply and with widely available parts using a 3D printer. The project was created by Urbicum, a Krakow based company specializing in 3D printing. The first two versions were developed and made available for free on the Internet. VentilAid Prototype III is a device for non-invasive ventilation, operating in CEPAP and BiPAP mode with an oxygen supply and meets the requirements of modern medical standards. It allows to keep patients in a stable condition and/or improve the condition of a conscious patient who is not eligible to be put on a hospital respirator. On April 17, 2020, in Krakow, Poland.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.

#5637096

21 April 2020

Szymon Chrupczalski, the VentilAid project coordinator, explains the functioning of the VentilAid Prototype III respirator, a device that can be manufactured cheaply and with widely available parts using a 3D printer. The project was created by Urbicum, a Krakow based company specializing in 3D printing. The first two versions were developed and made available for free on the Internet. VentilAid Prototype III is a device for non-invasive ventilation, operating in CEPAP and BiPAP mode with an oxygen supply and meets the requirements of modern medical standards. It allows to keep patients in a stable condition and/or improve the condition of a conscious patient who is not eligible to be put on a hospital respirator. On April 17, 2020, in Krakow, Poland.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.