한국어

TRUMPF machine cooler saves 50 percent energy

1037
2025-03-14 15:27:53
번역 보기

Ditzingen, 05. March 2025 – At its in-house exhibition INTECH, high-tech company TRUMPF is showcasing a new cooler for its laser cutting machines. The new unit is capable of reducing energy consumed during the cooling process and uses fifty percent less energy than conventional solutions. Unlike conventional coolers, the main components of this new solution— such as pumps, fans and compressors— are equipped with a rotational speed controller. This enables the solution to use only the amount of energy actually required to cool the laser. This allows for a great deal of energy to be saved, particularly when cutting thin sheet metal or during planned breaks in processing. ‘With the energy-efficient cooling unit, TRUMPF is continuing to make sustainability advancements in industrial production. Users not only save electricity and CO2— they also reduce energy costs in the process. This helps companies to remain competitive,' says Fabian Staib, product manager at TRUMPF. Due to its high energy savings, the energy-efficient cooling unit pays for itself in less than four years. With a surface area of just one square meter, the cooler easily fits into any production environment. TRUMPF currently offers the solution for its laser cutting machines with 24 kW laser power. In the future, the high-tech company also intends to launch the cooling unit for other laser power levels.

(Image source:TRUMPF)

Solution relies on environmentally friendly coolant

With the new cooling unit, TRUMPF is helping sheet metal processing companies reduce their consumption of coolants in line with the Kigali Amendment, a 2016 agreement stipulating the global phase-out of environmentally harmful refrigerants. The cooler’s refrigerant, R513a, has a significantly lower global warming potential and thus meets the Kigali Amendment’s stricter regulations.

관련 추천
  • Researchers enhance the signal of perovskite nanosheets

    In the field of optoelectronics, researchers from Busan National University in South Korea and the University of Oxford in the UK have successfully improved the signal amplification ability of CsPbBr3 perovskite nanosheets through innovative patterned waveguide methods, bringing new possibilities for the future of optoelectronics. This breakthrough not only has potential applications in fields suc...

    2024-02-22
    번역 보기
  • Van's updates the manufacturer of laser-cut parts

    Van's Aircraft has responded to reports of ruptured dented parts found in AirVenture's latest kit. These defects are caused by external suppliers changing the process of laser cutting parts. From February 2022 to June 2023, Van's moved some parts from traditional punch manufacturing to an outside supplier that can laser cut rivet holes. The move is designed to increase the company's throughput and...

    2023-08-04
    번역 보기
  • Progress in the Study of Nonlinear Behavior of Platinum Selenide Induced by Strong Terahertz at Shanghai Optics and Machinery Institute

    Recently, the research team of the State Key Laboratory of Intense Field Laser Physics of the Chinese Academy of Sciences Shanghai Institute of Optics and Fine Mechanics has made progress in the research on the nonlinear behavior and mechanism of platinum selenide in terahertz band. The research team systematically studied the spectral and optical intensity characteristics of platinum selenide und...

    2024-05-23
    번역 보기
  • GZTECH selected as a reserve "golden seed" enterprise for listing in Hubei Province

    Recently, relevant departments officially released the list of reserve "golden seed" enterprises for listing in Hubei Province for 2024-2025. Following being selected as reserve "golden seed" enterprises for listing in Donghu High tech Zone and Wuhan City in 2024, Wuhan GZTECH Co., Ltd. (hereinafter referred to as "GZTECH") once again stood out from many candidate enterprises with its outstanding ...

    05-19
    번역 보기
  • Blue Laser Fusion plans to commercialize nuclear fusion reactors using laser technology by 2030

    Recently, a start-up company co founded by Nobel laureate Hideyoshi Nakamura in San Francisco plans to commercialize nuclear fusion reactors using laser technology around 2030.Hideyoshi Nakamura won the 2014 Nobel Prize in Physics for inventing blue light-emitting diodes. He founded Blue Laser Fusion in Palo Alto, California in November 2022. Partners include Hiroaki Ohta, former CEO of drone manu...

    2023-08-21
    번역 보기