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Wuhan HE Laser Engineering Co., Ltd.
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Your Professional & Reliable Partner.
Established in 2008, Wuhan HE Laser Engineering Co., Ltd. (HE Laser) stands at the forefront of laser technology as a highly esteemed Hi-tech enterprise, forged from the collaboration between China and Russia in laser technology. Our company boasts a central headquarters along with two expansive laser production facilities, spanning a total area of approximately 45,000 square meters.Dedicated to the fabrication of cutting-edge fiber laser cutting machines, fiber laser welding machines, and ...
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Advanced automatic machines, strictly process control system. We can manufacture all the Electrical terminals beyond your demand.
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HE Laser - Application of Metal Sheet Fiber Laser Cutting Machine in Agricultural Machinery
In recent years, laser cutting technology has brought revolutionary changes to various industries, and the field of agricultural machinery is no exception. Nowadays, an increasing number of agricultural machinery manufacturing companies are entering the era of intelligence. Agricultural machinery products are becoming increasingly diversified and specialized, which has put forward new requirements for agricultural machinery manufacturing companies. How to integrate modern manufacturing technology into agricultural machinery manufacturing and enhance the ability to cope with unknown risks has become a challenge faced by many companies. Advanced laser processing technology, drafting systems, and numerical control technology of metal sheet fiber laser cutting machines not only reduce the production cost of agricultural machinery equipment but also improve economic benefits. This blog post delves into the significant impact of fiber laser cutters in agricultural machinery manufacturing, highlighting the benefits and advancements the fiber laser cutting machines bring. Application of Fiber Laser Cutting in the Agricultural Machinery Industry   01. Manufacturing of Agricultural Machinery Equipment Laser cutting technology can accurately cut metal materials into complex-shaped components using high-energy-density laser beams. For example, in the manufacturing of agricultural tractors, fiber laser cutting machines can be used to cut chassis, frames, and other structural components, ensuring precision and quality, and improving the lifespan and reliability of agricultural machinery equipment.   02. Manufacturing of Agricultural Tools In addition to agricultural machinery equipment manufacturing, fiber laser cutting machines also plays a significant role in the production of agricultural tools. For instance, a large amount of metal sheets and pipes used in auxiliary components for agricultural machinery and agricultural water-saving irrigation systems can be processed using fiber laser cutting machines. Customer Case Study Nanyang Jinfeng Machinery Co., Ltd. Nanyang Jinfeng Machinery Co., Ltd. is a specialized enterprise engaged in the production, design, and manufacturing of grain and oil machinery, located in Xinye, Henan Province, China The company's main business includes peanut husking machines, integrated machines for peanut sorting and removal of tails, peanut conveyors, belt conveyors with adjustable height, lightweight foldable conveyors, screw conveyors, chain threshers, shaking dust collectors, throwers, and grain suction machines for vehicles. In 2022, the company purchased an S1 "Meteor" series metal sheet fiber laser cutting machine from HE Laser Engineer Co., Ltd. Since the purchase of this metal sheet single platform fiber laser cutting machine, the overall efficiency of the company has greatly increased, while reducing labor costs. Currently, the S1 series economical metal sheet fiber laser cutting machine is in good condition. Advantages of fiber laser cutting machines in the agricultural machinery industry   01.Precision and Accuracy: Fiber laser cutting machines utilize highly focused laser beams, ensuring precise and accurate cutting. It allows manufacturers to create intricate patterns and shapes, resulting in precisely engineered agricultural machinery parts. This level of precision improves the functionality and performance of agricultural equipment.   02. Versatility in Material Selection: Agricultural machinery components are made from a wide range of materials, including metals and alloys. Fiber laser cutting machines can handle various materials effectively, such as steel, aluminum, and stainless steel. This versatility enables manufacturers to produce customized agricultural machinery parts with ease, catering to specific requirements and improving overall productivity.   03. Enhanced Efficiency: Traditional cutting methods often involve time-consuming processes and multiple tool changes. Fiber laser cutting machines eliminate the need for complex setups and minimize production time significantly. With their high cutting speed and automated operation, manufacturers can meet market demands efficiently and shorten the production cycle.   04. Cost - Effectiveness: By utilizing laser cutting technology, agricultural machinery manufacturers can optimize material usage effectively. The precise cutting process limits material wastage, reducing production costs. Additionally, the automation capabilities of fiber laser cutting machines streamline production, allowing for higher output and reducing labor costs in the long run.   05. Quality and Durability: The precise nature of fiber laser cutting machines ensures the production of high-quality agricultural machinery parts. The clean and burr-free edges result in components that fit perfectly, minimizing wear and tear. Improved durability ultimately leads to increased equipment lifespan and customer satisfaction.   06. Customization and Innovation: With the advancements in laser cutting technology, agricultural machinery manufacturers can embrace customization and innovation. The fiber laser cutting machines enable intricate designs and patterns, facilitating the production of unique and high-performance components. This flexibility opens up a realm of possibilities, ensuring the development of cutting-edge agricultural machinery. Conclusion: The application of metal sheet fiber laser cutting machines in agricultural machinery manufacturing has proven to be a game-changer. By offering precise cutting, material versatility, enhanced efficiency, cost-effectiveness, improved quality, and customization opportunities, these fiber laser cutting machines have transformed the industry. As technology continues to advance, the agricultural machinery sector can expect further innovations that will further optimize production processes and bring more efficient and reliable equipment to farmers worldwide.
HE Laser - Understanding the Open-Type Fiber Laser Cutting Machine
In the ever-evolving field of advanced manufacturing, fiber laser cutting machines have become a game-changer. Among various types, the open-type fiber laser cutting machine stands out as a versatile and efficient tool. In this blog, we will delve into the intricacies of open-type fiber laser cutting machines, exploring their key features, applications, and advantages. By the end, you'll have a comprehensive understanding of this open type fiber laser cutting machines.   1. Overview of Open-Type Fiber Laser Cutting Machine: 1.1 Definition and Core Components: An open-type fiber laser cutting machine is a cutting-edge device that utilizes a high-powered fiber laser source to slice through various materials with exceptional precision. It comprises three essential components: the laser source, the cutting head, and the control system. Its open design allows easy access to the workspace, facilitating efficient material handling and loading.   1.2 Working Principle on Fiber Laser Cutting Machine: The open-type fiber laser cutting machine operates based on a phenomenon called stimulated emission. Within the laser source, an activated fiber generates an intense beam of coherent light. This concentrated energy is then directed through the cutting head, where a lens focuses it into a small, controlled spot. The material, under the beam's heat, is rapidly vaporized or melted, resulting in a clean and accurate cut.   2. Key Features and Advantages of Fiber Laser Cutting Machine:: 2.1 Superior Cutting Quality and Precision: One of the primary strengths of an open-type fiber laser cutting machine is its exceptional cutting quality. The focused laser beam enables high-precision cuts with minimal heat-affected zones, ensuring excellent edge quality and minimal distortion. This makes it ideal for intricate and demanding applications.   2.2 Wide Range of Material Compatibility: Unlike other cutting technologies, such as plasma cutting machine, open-type fiber laser cutting machines can work with a diverse range of materials. From metals like steel, aluminum, and copper to non-metals such as plastics, composites, and even wood, their versatility is unmatched. This broad compatibility makes them indispensable in various industries like automotive, aerospace, and electronics.   2.3 High Cutting Speed and Efficiency: The fiber laser technology employed in open-type machines boasts exceptional energy efficiency, consuming less power than traditional CO2 lasers. Additionally, the high beam quality and advanced control systems enable faster cutting speeds, reducing production time and costs. Such efficiency makes open-type fiber laser cutting machines highly sought-after in industrial manufacturing settings.   3. Applications of Open-type Fiber Laser Cutting Machine: 3.1 Sheet Metal Fabrication: Open-type fiber laser cutting machines excel in sheet metal processing, enabling precise and intricate cuts required for manufacturing components like automotive panels, enclosures, and precision machinery parts.   3.2 Architectural and Decorative Fabrication: Thanks to their capability to accurately cut and engrave various materials, these cutting machines play a crucial role in architectural and decorative industries. They facilitate the creation of custom designs, patterns, and intricate details on materials like stainless steel, acrylic, and brass.   4. HE Products:Open-type Fiber Laser Cutting Machine Established in 2008, Wuhan HE Laser Engineering Co., Ltd. (HE Laser) is a leading Hi-tech enterprise at the forefront of laser technology, born from the collaboration between China and Russia in laser technology. With a central headquarters and two expansive laser production facilities covering approximately 45,000 square meters, HE Laser is dedicated to providing integrated solutions to the metal processing industry. One of HE Laser’s flagship products is the Open Type Fiber Laser Cutting Machine series, designed to meet the diverse needs of metal fabrication with precision and efficiency. These cutting-edge machines combine the latest in laser technology and advanced manufacturing processes, ensuring fast, flexible, and high-quality metal cutting capabilities. With a team of international laser technology experts from China, Russia, and Japan, HE Laser has garnered over 80 national patents, showcasing our commitment to continuous innovation and research in the field of lasers. Our Open Type Fiber Laser Cutting Machine series offers customers the ability to achieve rapid, accurate, and high-quality metal cutting, ultimately enhancing production efficiency, reducing costs, and creating significant commercial value. Trusted by customers in over 100 countries and regions worldwide, HE Laser is a reliable partner for businesses seeking top-of-the-line laser solutions. Contact us today to learn more about our Open Type Fiber Laser Cutting Machine series and discover how HE Laser can support your metal processing needs with cutting-edge technology and exceptional service. Conclusion: The open-type fiber laser cutting machine is a formidable instrument that defines the future of manufacturing. Its ability to deliver superior cutting quality, handle diverse materials, and optimize efficiency has made it an indispensable asset across several industries. As technology continues to advance, the open-type fiber laser cutting machine's potential will undoubtedly grow, pushing boundaries and enabling new possibilities in manufacturing processes worldwide.

2024

02/20

How Do We Choose A Suitable Fiber Laser Cutting Machine For Metal? | HE LASER
When it comes to metal fabrication, a fiber laser cutting machine is a crucial tool that offers precision, speed, and efficiency. However, selecting the right fiber laser cutter can be challenging. In this blog, we will provide essential tips to help you choose the suitable fiber laser cutting machine for your metalworking needs. 1. Define Your Requirements: Before embarking on the purchasing process, clearly outline your requirements. Consider factors such as 1) Material Types and Thickness Determine the types of metals you will primarily work with and their thicknesses. This will help you select a fiber laser cutting machine with appropriate power and capabilities for your specific applications. 2) Cutting Speed and Accuracy Assess your required cutting speed and accuracy levels. Consider the production volume and precision needed for your metal cutting operations to choose a fiber laser cutter that can meet these requirements. 3) Raw Material (Sheet / Tube) Size Evaluate the available space in your facility and the size of the raw materials (sheet or tube) you will be processing. This will help you determine the optimal size and configuration of the laser cutting machine.   By understanding your specific needs, you can narrow down your options and find a fiber laser cutting machine that aligns with your business objectives.   2. Research Fiber Laser Cutting Machine Specifications Once you have a clear understanding of your requirements, researching different fiber laser cutting machine specifications is the next step. Pay attention to crucial details like 1) Laser Power The power of a fiber laser cutting machine determines its cutting capabilities. Higher power lasers can cut thicker materials and achieve faster cutting speeds for the same thick material. Common power options range from a few hundred watts to dozens of kilowatts. The laser power can affect the maximum thickness that the fiber laser cutting machine can process. 2) Bed Size Evaluate maximum size that the laser cutting machine can process. And then evaluate the available space in your facility to ensure the laser cutting machine can be installed and meet any special installation requirements. 3) Reliability And Durability Of The Laser Cutting Machine Frame, Bed, And Gantry The tool bed should adopted whole welding structure, which is rough machined after annealing to eliminate internal stress, and finish machined after secondary aging treatment. It solved the problem of internal stress during welding, which improved the stability of the tool bed. 4) Software And User Interface Analyzing these specifications will help you determine if a particular fiber laser cutting equipment is suitable for your production needs. The operation should be convenient with drawing the two/three dimensional parts without dies, which could lower the cost and time during processing. Friendly HMI should be convenient for operation and maintenance of customers.   3. Cost And Return On Investment Determining the overall cost-effectiveness of a fiber laser cutting machine is crucial. Consider not only the initial purchase cost but also operational costs, maintenance expenses, and potential savings derived from increased efficiency. Calculate the projected ROI to make an informed decision. Obtaining multiple quotes and comparing pricing structures will also help you negotiate better deals.   4. Maintenance And Support Regular maintenance is necessary to keep the machine in optimal condition. Inquire about the maintenance requirements. Also, ensure that the manufacturer offers reliable technical support, spare parts availability, and training programs for machine operators. HE Laser guarantees excellent care for customers' fiber laser cutting machines. We are committed to providing you with prompt online after-sales service, available 24/7, a level of support that many small and medium-sized enterprises cannot match. Our highly skilled team of engineers and sales professionals ensures that you can trust us to efficiently resolve any post-sales issues, alleviating any concerns you may have.   Conclusion: Choosing the right fiber laser cutting machine is critical for achieving optimal results in metal fabrication. By defining your requirements, evaluating power and cutting capacity, considering cutting speed and accuracy, assessing durability and reliability, and evaluating software and control systems, you can make an informed decision. Remember to conduct thorough research, compare different options, and seek expert advice whenever necessary. With these insights, you are now equipped to find the ideal fiber laser cutting machine for your metalworking business.   When you choose HE Laser, you will receive the ideal fiber laser cutting machine. As a reputable manufacturer specializing in fiber laser cutting machines since our establishment in 2008, HE LASER boasts a headquarter and two laser factories, encompassing an expansive area of nearly 45000㎡. We are committed to producing top-quality laser cutting machines, laser welding machines, and automatic production line equipment, providing comprehensive solutions to the metal fabrication industry. Additionally, we offer the option to customize fiber laser cutting machines according to your specific production requirements. We warmly invite you to get in touch with us for further information. Email: info@helaser.com.cn WhatsApp: +86 18607188587

2023

12/28

How to Choose the Right Power of Fiber Laser Cutter for Different Thickness Metals | HE LASER
Fiber laser cutters are widely used high-precision cutting tools in metal processing. However, choosing the proper power is a key factor for different thickness metals. The right power selection ensures cutting quality and efficiency while avoiding problems caused by excessive or inadequate energy input. This blog provides a comprehensive guide on how to choose the right power of a fiber laser cutting machine for different thickness metals, considering important factors such as material thickness, cutting speed, and cutting quality requirements. By making informed power selections, efficient, precise, and non-destructive metal cutting can be achieved, as well as highlight common misconceptions and offer guidance to avoid them. 1. Determine the Metal Thickness Range: Start by identifying the range of metal thicknesses you typically work with. Different power levels are suitable for different thickness ranges. Fiber laser cutters are usually classified into three power categories: low (up to 1 kW), medium (1 kW to 4 kW), and high (over 4 kW). Generally, thicker materials require higher power. This is because thicker materials necessitate additional energy to overcome thermal conduction and achieve melting. Here are typical power ranges for common metal materials: 2. Considerations for Cutting Speed: Cutting speed is another important factor influencing power selection. Generally, higher power fiber laser cutters can achieve faster cutting speeds, Additionally, increasing cutting speed can help reduce the heat-affected zone and deformation of materials which can significantly improve productivity. Thicker metals typically require more power to achieve faster cutting speeds. Evaluate the desired cutting speed for your production needs to determine the power level that can meet those requirements. For cutting different material thicknesses, appropriate parameters should be chosen based on the relationship between cutting speed and power.   3. Material Type: Different metals have varying reflective properties, which can impact the effectiveness of laser cutting. For example, stainless steel reflects more laser energy compared to carbon steel. Higher power fiber laser cutters are generally more suitable for materials with higher reflectivity, as they can overcome the reflective losses more efficiently.   4, Cutting Quality Requirements: Cutting quality requirements also affect power selection. Different cutting quality standards, such as kerf width, edge quality, and kerf smoothness, often require different power levels to achieve. For instance, higher power is needed to ensure cutting quality when stringent cutting quality is demanded.   5. Budget and Cost Considerations: The power level directly influences the cost of a fiber laser cutter. Higher power machines tend to be more expensive upfront, but they can offer better performance and productivity for thicker materials. Consider your budget and balance it against the expected cutting requirements to find the most cost-effective solution.   6. Maintenance and Operating Costs: Higher power fiber laser cutters may require additional maintenance and have higher operating costs due to increased energy consumption. Assess your ability to handle maintenance tasks and the long-term financial implications when deciding on the power level of the fiber laser cutter.   7. Consult with Experts: If you are unsure about the appropriate power level for your specific application, it is advisable to consult with experts or manufacturers who have experience working with fiber laser cutters. They can provide valuable insights and recommendations based on your specific requirements.   Avoiding Common Misconceptions: Q: Is higher power always better? A: No, higher power is not always better. Using excessive power for thin materials can cause excessive heat, leading to material deformation or a wider heat-affected zone.   Q: Can low power handle thick materials through multiple passes? A: While low power can eventually cut thick materials through multiple passes, it is time-consuming and can result in uneven cuts. It is best to choose the appropriate power level for efficient cutting.   Conclusion: Choosing the correct power level for a fiber laser cutter for different thickness metal is essential to optimize cutting efficiency and productivity. Consider the metal thickness range, cutting speed, material type, budget, and maintenance costs when making your decision, and avoiding common misconceptions. Consulting with experts can also help in determining the most suitable power level for your specific needs. With careful consideration, you can ensure that your fiber laser cutter performs optimally for your desired metal cutting applications.   When you choose HE Laser, you will receive the professional advise. As a reputable manufacturer specializing in fiber laser cutting machines since our establishment in 2008, HE LASER boasts a headquarter and two laser factories, encompassing an expansive area of nearly 45000㎡. We are committed to producing top-quality laser cutting machines, laser welding machines, and automatic production line equipment, providing comprehensive solutions to the metal fabrication industry. Additionally, we offer the option to customize fiber laser cutting machines according to your specific production requirements. We warmly invite you to get in touch with us for further information. Email: info@helaser.com.cn WhatsApp: +86 18607188587

2023

12/28