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Precision Laser Cutting & Marking Control
China Galvanometer Dual Flight Vision Laser Control System
Panoramic Vision Laser Control System Factory
Laser Cutting & Engraving Control System China
Ethercat Control System Supplier
about us

About Us

Shenzhen Shenyan CNC Co., Ltd. is the parent company of Shenzhen Zhiyuan CNC Co., Ltd. It is a high-tech enterprise specializing in motion control system, industrial automation development, and visual intelligent identification.

About Us

Shenzhen Shenyan CNC Co., Ltd.

Shenzhen Shenyan CNC Co., Ltd. is the parent company of Shenzhen Zhiyuan CNC Co., Ltd. It is a high-tech enterprise specializing in motion control system, industrial automation development, and visual intelligent identification. Since its establishment in 2012, it has been a leader in the industry and gained strong support and recognition from many major players in the laser industry such as Han′s Laser, Golden Laser, HSG Laser etc., The company has a professional R & D team, a complete service system, and has a number of domestic patents, computer software copyrights, and a number of core technologies. The company has successfully developed a control system for metal cutting and non-metal cutting in the laser field, which is widely used in industrial flexible materials, digital printing, digital labels, glass/acrylic, textile/toy, leather/shoes and other industries.

2012

Established

20+

Years Experience

80%

Technical Team

100+

Patents

Featured Products

Personalized and Specialized Products

Our product lineup includes galvanometer dual flight control systems, precision visual positioning laser control systems, and more. These innovative solutions are designed to enhance efficiency and precision in metal and non-metal cutting applications. Shop now and take your industry to the next level with our high-performance products.

Galvo CCD Laser Control System

Galvanometer Dual Flight Vision Laser Control System

Galvo CCD Laser Control System

The definition of Galvo CCD Laser Control System in the laser industry is a multi-axis linkage system, specifically referring to the X-axis and Y-axis of the frame movement, and the X-axis and Y-axis in the galvanometer system. Through the coordinated control of these four axes, a multi-axis linkage operation mode is formed.

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Panoramic Laser Controller Engrave Fabric

Panoramic Vision Laser Control System

Panoramic Laser Controller Engrave Fabric

The Panoramic Laser Controller Engrave Fabric designed for ultra-large format, high precision cutting applications. It is equipped with a 20-megapixel high-performance industrial camera and supports up to 12-axis control, making it ideal for multi-head laser cutting setups.

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Precision Positioning Laser Controller

Precision Visual Positioning Laser Control System

Precision Positioning Laser Controller

Precision Positioning Laser Controller has advanced vision positioning capabilities. Equipped with a 1.3-megapixel industrial camera, the system supports 3-axis motion control and is specially designed for complex, high-precision laser cutting tasks. It features a 7-inch touchscreen interface and integrates advanced visual positioning technology, achieving sub-pixel accuracy for precise recognition and alignment of cutting patterns, thus ensuring exceptional cutting quality.

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Multi-Galvo Laser Controller

Multi-Galvanometer Laser Marking Control System

Multi-Galvo Laser Controller

Multi-Galvo Laser Controller supports 2 galvanometer heads working synchronously. It is designed for large-scale and efficient laser marking tasks.

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EtherCAT Laser Control Board For Fabric

Ethercat Laser Control System For Double Beam

EtherCAT Laser Control Board For Fabric

In the fields of laser automation and high-performance motion control, this EtherCAT Laser Control Board For Fabric deeply integrates EtherCAT real-time technology with multi-axis drives, motors, and laser control cards, providing a fully integrated solution from the control layer to the execution layer.

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Integrated Knife Die-Galvo Laser Controller

Integrated Knife Die-Galvo Laser Cutting And Engraving Control System

Integrated Knife Die-Galvo Laser Controller

The Integrated Knife Die-Galvo Laser Controller adopts 7 inch full touch color screen and is equipped with remote controller.It has main function of frame cutting,and galvanometer marking work as a supplement.

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Typesetting Laser Controller

Visual Copying Typesetting Cutting Control Card

Typesetting Laser Controller

The Typesetting Laser Controller is equipped with a 20-megapixel industrial camera and supporting 7-axis motion control. It is specifically designed for complex and high-precision cutting tasks across a wide range of industries.

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Galvo Laser Control System

Galvanometer Dual Flight Laser Control System

Galvo Laser Control System

The definition of Galvo Laser Control System in the laser industry is a multi-axis linkage system, specifically referring to the X-axis and Y-axis of the frame movement, and the X-axis and Y-axis in the galvanometer system. Through the coordinated control of these four axes, a multi-axis linkage operation mode is formed.

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Galvo Macro Vision Laser Control System

Galvanometer Dual Flight Laser Control System

Galvo Macro Vision Laser Control System

The definition of Galvo Macro Vision Laser Control System in the laser industry is a multi-axis linkage system, specifically referring to the X-axis and Y-axis of the frame movement, and the X-axis and Y-axis in the galvanometer system. Through the coordinated control of these four axes, a multi-axis linkage operation mode is formed.

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Multi-Axis Linkage Controller

Multi-Axis Linkage Control System

Multi-Axis Linkage Controller

The definition of Multi-Axis Linkage Controller in the laser industry is a multi-axis linkage system, specifically referring to the X-axis and Y-axis of the frame movement, and the X-axis and Y-axis in the galvanometer system. Through the coordinated control of these four axes, a multi-axis linkage operation mode is formed.

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Multi-Axis Linkage laser Control System

Multi-Axis Linkage Control System

Multi-Axis Linkage laser Control System

The definition of Multi-Axis Linkage laser Control System for glass in the laser industry is a multi-axis linkage system, specifically referring to the X-axis and Y-axis of the frame movement, and the X-axis and Y-axis in the galvanometer system. Through the coordinated control of these four axes, a multi-axis linkage operation mode is formed.

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Multi-Axis Linkage laser Engraving System

Multi-Axis Linkage Control System

Multi-Axis Linkage laser Engraving System

The definition of Multi-Axis Linkage laser Engraving System in the laser industry is a multi-axis linkage system, specifically referring to the X-axis and Y-axis of the frame movement, and the X-axis and Y-axis in the galvanometer system. Through the coordinated control of these four axes, a multi-axis linkage operation mode is formed.

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Latest News

Dedicated to meeting the Specific Needs of Industry Users
What are the classifications of non-metallic cutting control systems? What are the classifications of non-metallic cutting control systems?

The following are the classification and technical characteristics of mainstream non-metallic cutting control systems:

What are the non-metallic cutting control systems? What are the non-metallic cutting control systems?

Non metallic cutting control systems are mainly divided into the following categories, covering different laser types and functional characteristics:

What are the metal cutting control systems in the laser field? What are the metal cutting control systems in the laser field?

According to the technical characteristics and application scenarios, metal cutting control systems in the laser field can be mainly divided into the following categories:

Choosing the Right Laser Controller for Thin-Film Processing Choosing the Right Laser Controller for Thin-Film Processing

In actual thin-film laser processing production lines, the first issue engineers face is often not “which laser is more advanced,” but rather “whether this machine can stably produce qualified products and whether the yield can meet mass-production requirements.” The answer to this question largely depends on the configuration logic of the entire laser system, especially the precision and system integration capability of the laser controller in managing laser parameters. The process window for thin-film processing is usually extremely narrow: if the energy density is slightly too high, the film will burn through; if it is slightly too low, the film cannot be fully cut or cleanly ablated. The role of the laser controller is precisely to keep the laser output firmly locked within this process window and maintain this stability continuously throughout production line operation.

Why Multi-Axis Linkage Laser Controller Matter in Non-Metal Processing Why Multi-Axis Linkage Laser Controller Matter in Non-Metal Processing

In most non-metal processing workshops, equipment purchasing decisions are often made under a “good enough” mindset. Basic laser motion control systems are inexpensive and easy to deploy, and they are fully capable of handling tasks such as straight-line cutting, rectangular cutting, and simple pattern engraving. However, when the order structure begins to change — customers demand more complex contours, tighter tolerances, and faster production cycles — factories start to realize that the compromises left by control architectures lacking linkage capability are quietly eroding profits order by order. The value of a Multi-Axis Linkage Laser Controller is not reflected in a specification sheet, but in those marginal costs that are silently consumed over time.

Precision Positioning Laser Controller: Enabling High-Precision Thin Film Laser Cutting Solutions Precision Positioning Laser Controller: Enabling High-Precision Thin Film Laser Cutting Solutions

In the context of continuous upgrades in high-end manufacturing and advanced material processing, the Precision Positioning Laser Controller is gradually becoming one of the key core devices in thin film cutting applications. With the widespread application of flexible electronics, optical film materials, lithium battery separators, and polymer composite materials, the market has put forward higher requirements for high-precision, low thermal impact, and stable controllable laser cutting solutions. Driven by this trend, technical discussions and application practices around long-tail keywords such as high-precision laser cutting control system thin film material laser micro-cutting equipment nanometer-level positioning laser controller are rapidly increasing.

Galvo Laser Controller for Acrylic: Fast, Precise Results Galvo Laser Controller for Acrylic: Fast, Precise Results

With Galvo Laser Control System, extremely high precision and flexibility are demonstrated in the field of acrylic material processing. Especially in the customization and mass production of acrylic accessories, it has already become an indispensable key technical support. Acrylic, as a polymer material with excellent light transmittance, plasticity, and relatively high mechanical strength, can form clear, delicate, and visually layered engraving effects on its surface under laser action, which gives it broad application potential in the field of accessory design. TheGalvo Laser Control System is precisely the core hub that realizes this kind of fine processing. By precisely controlling key parameters such as laser power, scanning path, and motion speed, it enables complex patterns to be stably and efficiently transformed into physical products.

Galvo Laser Controller for High-Speed Textile Processing Galvo Laser Controller for High-Speed Textile Processing

In today’s textile manufacturing industry, which is continuously evolving toward higher value-added production and intelligent upgrading, laser processing technology is gradually becoming an important driving force for industry transformation. A solution centered on the “Galvo Laser Control System (galvanometer laser control system)” demonstrates clear comprehensive advantages over conventional laser control systems in textile fabric processing, thanks to its high-speed scanning and precise control capabilities. Especially in the context of increasingly widespread personalized, small-batch, and multi-variety production models, the galvanometer laser controller is becoming an important technical support for textile enterprises to enhance their competitiveness.

Improve Fabric Cutting Efficiency with CO2 Laser Controller Improve Fabric Cutting Efficiency with CO2 Laser Controller

With the continuous increase in market demand and the growing need for high-efficiency and precision processing, CO2 laser cutting has gradually become one of the indispensable technologies in the fabric cutting field due to its superior cutting effect. Laser cutting of textile fabrics is already a very mature and widely used application. A good laser control system is not only the brain of the laser equipment but also a complete set of systematic solutions.

Why are fabric cutting systems shifting to multi-axis laser controllers? Efficiency is key. Why are fabric cutting systems shifting to multi-axis laser controllers? Efficiency is key.

In the fabric cutting production process, the core value of the laser control system used for fabric cutting is mainly reflected in processing efficiency and the stability of operating cycle. The control system not only determines the execution method of the cutting trajectory, but also directly affects the processing capacity of fabric per unit time. Therefore, from a practical application perspective, the differences between single-axis and multi-axis control logic are more reflected in processing speed, path execution efficiency, and the improvement of overall output brought by multi-axis coordination capability.

EtherCAT Laser Control Board for Non-Metal Laser Processing | High-Speed Motion Control System EtherCAT Laser Control Board for Non-Metal Laser Processing | High-Speed Motion Control System

With the rapid development of the modern laser industry, the demand for non-metal material processing is gradually upgrading toward high precision, high speed, and intelligence. Materials such as wood, acrylic, leather, and textiles are increasingly used in advertising production, handicraft processing, clothing manufacturing, and industrial component production, which places higher requirements on the control systems of laser equipment. Ordinary laser control systems are gradually showing problems of response delay and insufficient precision when handling complex trajectories, high-speed motion, and multi-axis coordination. Therefore, the EtherCAT Laser Control Board, which has high real-time performance and high stability, has become an important direction for industry upgrading.

Laser Control System & Rotary Die Cutting: Upgrading to Hybrid Processing Laser Control System & Rotary Die Cutting: Upgrading to Hybrid Processing

Rotary die cutting is a processing method in which a cylindrical die rotates continuously. This seemingly simple processing method is actually one of the core technologies in modern die cutting processes. The reason why rotary die cutting can become one of the core technologies of die cutting processes is inseparable from its various production advantages such as high efficiency and large-scale continuous production. These significant advantages have also made rotary die cutting favored by multiple industries such as electronics, packaging, and medical.

Applications

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