chanelink logo
CHANELINK
Polski

BLM Group launches a new LT12 laser tube cutting system

798
2024-04-18 16:21:10
Zobacz tłumaczenie

Recently, BLM Group in the United States has launched a new LT12 laser tube system, which performs well in cutting light and heavy pipes and profiles, and can handle materials with a diameter of up to 305 millimeters.

According to the company, compared to other similar machines, the LT12 laser tube system reduces cutting time by up to 55% when cutting materials with the same maximum diameter, significantly improving work efficiency.

It is worth mentioning that this machine does not require special basic installation, and its design is unique. It uses a slender 3D cutting head, which can easily handle the cutting needs of special parts and beams. The machine is equipped with a 3, 4, or 5 kW laser source and integrates built-in sensors to monitor optical parameters in real-time during operation, ensuring cutting accuracy and stability. In addition, the manufacturer emphasizes that the Active Tools library of the LT12 laser tube system can effectively improve the operational efficiency and user experience of operators.

In terms of unloading, the characteristic of this machine is its conveyor belt design, which can efficiently handle shorter parts and process longer parts in stages through the unloading chain. The operator can easily configure the short part conveyor to unload the parts into the Flat noodles to realize the buffering function. At the same time, the waste conveyor is responsible for transporting the waste to the bin on the back of the machine, maintaining a clean working environment.

Finally, the LT12 laser tube system is also equipped with an active scanning function, which can automatically correct the geometric shape positioning on the cutting tube and flexibly adjust the cutting errors caused by pipe deformation, ensuring that every cutting can achieve accurate and error free results.

Source: OFweek

Powiązane rekomendacje

  • The research team describes laser direct writing of single-photon optical fiber integrated multimode storage on a communication band chip

    Figure: Experimental setup.Quantum memory that relies on quantum band integration is a key component in developing quantum networks that are compatible with fiber optic communication infrastructure. Quantum engineers and information technology experts have yet to create such a high-capacity network that can form integrated multimode photonic quantum memories in communication frequency ban...

    2023-08-04
    Zobacz tłumaczenie

  • X photon 3D nanolithography

    Virtual and Physical Prototypes: X-ray laser direct writing 3D nanolithography.Multi-photon polymerization (MPP), also known as 3D nanoprinting, has been investigated using wavelength-tunable femtosecond lasers. At a fixed pulse width of 100 fs, any spectral color in the range of 500nm to 1200nm can be used, which reveals the interaction of more subtle photophysical mechanisms than two-photon phot...

    2023-09-11
    Zobacz tłumaczenie

  • Ultrafast laser technology continues to reach new heights

    Ultra short pulse lasers, such as femtosecond lasers, are increasingly becoming easy-to-use plug and play devices suitable for a wide range of industrial and biomedical applications. Fifteen years ago, the volume of these lasers was still very large, requiring daily cleaning of optical components, regular maintenance of cooling water, and continuous optimization of laser parameters. Nowada...

    2023-11-06
    Zobacz tłumaczenie

  • Researchers use machine learning to optimize high-power laser experiments

    High intensity and high repetition lasers rapidly and continuously emit powerful bursts of light, capable of emitting multiple times per second. Commercial fusion energy factories and advanced compact radiation sources are common examples of systems that rely on such laser systems. However, humans are a major limiting factor as their response time is insufficient to manage such rapid shooting syst...

    2024-05-24
    Zobacz tłumaczenie

  • Micro devices output powerful lasers at room temperature, reducing power consumption by 7 times

    Recently, researchers at the Rensselaer Polytechnic Institute in the United States have invented a miniature device thinner than human hair, which can help scientists explore the essence of light and matter and unravel the mysteries of the quantum field. The most important advantage of this technology is that it can work at room temperature without the need for complex infrastructure. The resea...

    2024-05-29
    Zobacz tłumaczenie