Chongqing Chuke Intelligent Machinery Equipment Co., Ltd.

Chongqing Chuke Intelligent Machinery Equipment Co., Ltd.

News

  • SUP37S 5-in-1 Welding Torch Launched; Chuke Intelligent Completes Full-Scale Technology Upgrade and Reserves
    The 29th Beijing Essen Welding & Cutting Exhibition successfully concluded at the Shenzhen World Exhibition & Convention Center on July 2, 2026. As an authoritative industry event in the welding and laser processing field, this exhibition showcased innovative achievements and new process applications for core components. Chuke Intelligent Machinery Equipment Co., Ltd. (hereinafter referred to as "Chuke Intelligent"), a core cooperative supplier, appeared at the exhibition and launched its new SUP37S 5-in-1 handheld laser welding head, as well as two matching automatic wire feeding devices, SUP-AMF-Q and SUP-PWF-A. The SUP37S 5-in-1 handheld laser welding head, launched at this exhibition, is the core product of this iteration. As a new generation of all-around handheld laser welding core component, this product innovatively integrates five functions: handheld welding, platform welding, energy storage welding, laser cleaning, and weld bead cleaning. It completely changes the industry's problems of traditional welding accessories having single functions, redundant equipment, and cumbersome processes, achieving true multi-purpose functionality and versatility. It can simultaneously complete multiple processes such as workpiece welding, surface cleaning and rust removal, and weld bead trimming and optimization, fully adapting to the complex processing needs of various industrial scenarios. The equipment adopts a lightweight ergonomic structure design, effectively optimizing the overall weight distribution and significantly reducing operator fatigue during prolonged handheld operation, making it suitable for long-term continuous batch production in factories. In terms of welding operations, the equipment is equipped with a high-precision oscillating welding system, ensuring stable operation, uniform heat input, and smooth, regular weld formation with excellent quality. It has good compatibility with mainstream industrial metal materials such as carbon steel, stainless steel, aluminum alloy, and galvanized sheet, meeting the requirements of various precision and conventional welding processes. In terms of equipment protection and post-construction maintenance, this welding head features a comprehensive and professional protective structure, effectively resisting welding spatter, dust erosion, and other damage caused by workshop conditions. It provides all-around protection for the core optical path and internal precision components, significantly improving equipment operational stability and lifespan. Simultaneously, the product adopts a modular integrated design, facilitating easy disassembly and assembly, and simplifying maintenance. This greatly reduces equipment inspection and maintenance time costs, effectively minimizing equipment downtime and improving overall workshop production and operational efficiency. Two complementary devices, the SUP-AMF-Q multi-functional four-wire automatic wire feeder and the SUP-PWF-A push-pull automatic wire feeder, were launched simultaneously to further improve the automated laser welding operation system, effectively addressing shortcomings in wire feeding technology under various working conditions. The SUP-AMF-Q multi-functional four-wire automatic wire feeder features simultaneous adjustment and adaptation capabilities for two/three/four wires, is compatible with various welding materials, and can stably adapt to large-volume, continuous industrial welding production, effectively improving the overall level of automation. The SUP-PWF-A push-pull automatic wire feeder adopts a push-pull coordinated wire feeding principle, specifically designed for robotic welding and automated laser welding platforms. It provides a stable push-pull wire feeding solution, effectively addressing common industry problems such as wire feeding jamming, uneven feeding, and wire breakage in long-distance pipelines. The wire feeding output is more uniform and stable, adaptable to complex working conditions and long pipeline operations. During the exhibition, the Chuke Intelligent technology team conducted a comprehensive verification of the adaptability, stability, and process compatibility of the three new products, confirming that the entire product line can seamlessly match the company's existing laser welding equipment. In the future, Chuke Intelligent will leverage these new supporting components to continuously optimize overall solutions and improve the comprehensive performance of its equipment, providing customers across various industries with more efficient and comprehensive laser welding processing services.

    2026 07/06

  • Chuke Intelligent Pulsed Laser Cleaning Equipment Completes Paint Removal and Sample Testing on Galvanized Sheets
    Recently, a professional processing client visited the production plant of Chongqing Chuke Intelligent Machinery Equipment Co., Ltd. (hereinafter referred to as "Chuke Intelligent") to conduct on-site testing, focusing on the need for precise paint removal from galvanized sheets. Chuke Intelligent verified the selective laser ablation process and selective layer-by-layer peeling performance of its equipment on-site, providing a practical process reference for the procurement and selection of automated precision cleaning production lines. In the current metal component surface finishing industry, paint removal from thin-coated workpieces remains a technological challenge. Traditional chemical paint removal easily generates hazardous waste liquid, resulting in high environmental compliance costs; mechanical sandblasting and grinding have uncontrollable impact forces, easily wearing through the surface galvanized protective layer; conventional continuous laser heat effects are concentrated, and high temperatures can easily burn the base coating, making precise layer-by-layer peeling impossible. This client company requires targeted removal of old paint and protective coatings from sheet surfaces in mass production. The core process requirement is complete peeling of the surface paint layer while perfectly preserving the underlying electroplated galvanized layer. This places stringent standards on the equipment's selective laser ablation layering processing capabilities, spot energy control, and heat-affected zone management. At the testing site, technical engineers operated a handheld pulsed laser cleaning machine to remove paint from galvanized samples. Utilizing the output characteristics of short-pulse fiber lasers, the equipment precisely controls the energy range, achieving selective peeling by vaporizing only the surface paint. A follow-up air-cooling device removes residual heat in real time, significantly reducing heat conduction damage to the substrate coating and achieving the goal of selective layering at the process level. The client recorded key process parameters such as laser power and scanning speed throughout the process, and captured images of the entire test, allowing for direct comparison of the integrity of the coating in the cleaned area and detailed observation of the surface finish after selective peeling. After pulsed laser treatment, the surface paint was completely removed from the samples, leaving the galvanized substrate bright and intact, without defects such as burning, peeling, or zinc de-oxidation. The basic layering processing indicators met the client's process standards. The test also objectively revealed the limitations of handheld models: manual operation is susceptible to hand shake and distance deviation, and the stability of the laser spot fluctuates, making it difficult to ensure processing consistency under long-term, high-volume, standardized production conditions. This is why the customer is focusing on the company's automated platform-based cleaning equipment and plans to discuss complete mass production solutions after the sample testing is passed. With nearly 20 years of experience in the R&D of laser precision processing equipment, Chuke Intelligent has continuously iterated its pulsed laser cleaning product line around selective laser ablation and selective delamination processes. It optimizes process parameters for specific scenarios such as galvanized parts, aluminum alloys, precision molds, and thin film delamination, balancing the two core requirements of cleaning efficiency and substrate protection. In the future, Chuke Intelligent will customize complete selective laser ablation solutions to match the operating conditions of its customers' production lines based on feedback from customer laboratory testing. Supported by actual measured process data, this will help manufacturing enterprises achieve refined and low-loss upgrades in metal surface treatment.

    2026 07/03

  • Customers Visit Chuke Intelligent for On-Site Sample Testing; Fiber Laser Marking Machine Assists in Automotive Bearing Marking Processing
    Recently, a customer team specializing in automotive precision bearing parts visited Chongqing Chuke Intelligent Machinery Equipment Co., Ltd. (hereinafter referred to as "Chuke Intelligent") to conduct on-site laser marking sample testing of components. Technical engineers accompanied the operation and debugging throughout the process, and the finished product with 360° circular serial number engraving received full recognition from the customer. The visiting company mainly deals in precision bearing components for automotive transmission and chassis, and its products have stringent requirements for metal marking processes. Traditional processes such as inkjet printing, chemical etching, and steel stamping present multiple production challenges: inkjet printing is prone to flaking off when exposed to oil, making full-process traceability of parts difficult; etching causes significant pollution and can damage the precision plating of bearings; steel stamping has low processing efficiency, producing inconsistent character depth and making it unsuitable for automated production line quality inspection. With increasingly stringent product traceability regulations in the automotive parts industry, the customer specifically came to the site to verify the machine and find a high-precision laser marking solution suitable for curved pipe fittings. To address the customer's requirement for marking the outer edge of bearing pipe fittings, the team selected and tested the Chuke Intelligent self-developed fiber laser marking machine on-site. This marking machine produces a fine and uniform laser spot, capable of printing a complete circle of continuous serial numbers on the outer wall of cylindrical pipe fittings, with clear, burr-free character edges. The processing force is gentle and does not damage the original substrate plating of the bearing. The machine is compatible with various commonly used metal materials in automotive parts, such as stainless steel, alloy steel, and chrome-plated parts. The engraved markings are abrasion-resistant, high-temperature resistant, and resistant to acid and alkali corrosion. The markings will not become blurred even after long-term use of the parts, achieving full life-cycle traceability of the product. Engineers matched a specialized rotating fixture to the outer diameter of the pipe fitting, achieving 360° uniform speed positioning and rotation of the workpiece. The control system imported the customer's customized traceability code template, generating a circular marking path with a single click. During the hands-on demonstration, visiting customers observed the entire process, meticulously reviewing software parameter adjustments, workpiece fixation, and the complete laser engraving procedure. Engineers held a finished bearing pipe fitting on-site, comparing the engraving quality at different power levels and processing speeds, and simultaneously answering customer questions regarding production line integration, 24/7 uninterrupted mass production, and subsequent equipment maintenance costs. The entire process is simple and convenient to operate; processing a single pipe fitting's circular serial number takes only seconds, far exceeding the production efficiency of traditional methods. The entire process requires no ink and generates no chemical waste, meeting the factory's green production standards. Chuke Intelligent has nearly 20 years of technological expertise in the research and development and production of laser precision processing equipment. Focusing on the entire process of marking, cleaning, and engraving automotive and motorcycle parts, they can provide customized services for single-machine equipment and automated systems based on workpiece specifications and factory production line conditions. Going forward, Chuke Intelligent will continue to optimize its core processes for curved surface marking and high-speed online labeling, providing stable, efficient, and environmentally friendly intelligent processing equipment for a wide range of auto parts manufacturers, and promoting the digital traceability and intelligent manufacturing upgrade of the auto parts industry.

    2026 07/02

  • Chuke Intelligent Laser Successfully Validated for Precision Semiconductor Processing Chongqing Chuke Intelligent Machinery & Equipment Co., Ltd. (hereinafter referred to as "Chuke Intelligent") has successfully completed full-process testing of its flags
    Chuke Intelligent Laser Successfully Validated for Precision Semiconductor Processing Chongqing Chuke Intelligent Machinery & Equipment Co., Ltd. (hereinafter referred to as "Chuke Intelligent") has successfully completed full-process testing of its flagship laser for cutting silicon carbide (SiC) materials. Designed for the precision processing of hard, brittle third-generation semiconductor substrates—specifically targeting common SiC plate thicknesses of 2mm and 5mm—this laser provides a stable, reliable light source solution for the mass production of SiC power devices and ceramic substrates. Silicon carbide is a core substrate material in the third-generation semiconductor industry; however, its high hardness and brittleness make it prone to quality defects such as edge chipping, micro-cracks, and dimensional deviations during processing. Traditional diamond cutting processes suffer from high consumable costs and limited efficiency, while conventional general-purpose lasers struggle to balance processing speed with high yields, historically hindering the large-scale production of precision semiconductor components. To address these challenges, Chuke Intelligent launched the YFQCW-450-SM laser, specifically engineered for the ablation cutting of hard, brittle non-metallic materials like silicon carbide and alumina ceramics. The unit features a compact, all-in-one enclosure equipped with multiple cooling fans, a safety emergency stop button, and a standard fiber-optic output interface, paired with a long-distance transmission fiber. Utilizing a maintenance-free, air-cooled design, the system is suitable for both small-batch laboratory prototyping and direct integration into automated production lines. It delivers excellent beam quality and stable peak power output, with precisely controllable pulse energy; this significantly reduces thermal stress during processing, effectively preventing common issues such as edge chipping, delamination, and cracking at the source. The entire processing workflow requires no additional auxiliary consumables, and the laser supports stable, continuous operation over extended periods. Compared to traditional mechanical cutting methods, this equipment directly reduces consumable procurement costs and losses associated with product rework. This laser features a concentrated single-mode optical path and precise control over the heat-affected zone, ensuring both processing efficiency and high yield rates for both thin and thick silicon carbide (SiC) substrates. It is also compatible with processes such as drilling, dicing, and complex-shape cutting for semiconductor ceramic substrates—including sapphire and aluminum nitride—making it suitable for a wide range of applications. Moving forward, Chuke Intelligent will continue to analyze the process data gathered from these tests, refine operational parameters for various equipment configurations, and conduct targeted performance testing on diverse silicon carbide substrates and electronic ceramic materials. Additionally, the company will continue to deliver standardized laser source and cutting process solutions, providing reliable precision processing equipment to clients in the new energy and semiconductor sectors, thereby helping the domestic third-generation semiconductor manufacturing industry improve quality and efficiency while reducing costs.

    2026 06/30

  • Targeting the New Frontier of "On-the-Fly" Pipe Marking: Chuke Intelligent Explores Laser Marking Technology for Plastic Pipes
    A recent industry case involving the launch of an automated "on-the-fly" (flying) laser marking production line for low-temperature leak-detection pipes has vividly demonstrated the immense market potential for upgrading high-speed, in-line marking for plastic pipes. Driven by industry trends and downstream manufacturing demands, Chongqing Chuke Intelligent Machinery & Equipment Co., Ltd. (hereinafter referred to as "Chuke Intelligent") has designated comprehensive laser flying marking solutions specifically for plastic pipes as a key area for R&D. Leveraging its expertise in laser equipment development, the company is tackling technical challenges associated with the mass-production marking of agricultural irrigation pipes and plastic water supply/drainage pipes, thereby continuously expanding the niche application scenarios for its laser processing equipment. This successfully deployed automated flying marking line serves as a benchmark that Chuke Intelligent’s technical team has thoroughly analyzed; its mature hardware structure and control system provide valuable insights for the company's own R&D projects. The production line features multiple sets of roller-based conveying mechanisms that securely clamp and stabilize the pipes, preventing issues such as misalignment or vibration during high-speed transport. It is also equipped with an industrial vision inspection system that captures real-time images of the marking zone and simultaneously monitors critical parameters—such as aperture size, character spacing, and graphic integrity—enabling integrated, simultaneous marking and quality inspection. Furthermore, the flying marking control system boasts exceptional anti-interference capabilities, ensuring stable operation even amidst complex industrial conditions characterized by workshop dust, equipment vibration, and voltage fluctuations. Its marking efficiency ranks among the best for similar domestic equipment, effectively boosting the overall production capacity of pipe manufacturing lines. Core technologies—specifically dynamic tracking and marking, synchronized visual inspection, and high-speed stability control—constitute the focal points of Chuke Intelligent's current R&D efforts. With years of deep engagement in the laser processing equipment sector, Chuke Intelligent has successfully deployed standardized laser marking and cutting equipment across various industries, including hardware, plastics, and building materials, accumulating extensive experience in production line integration and vision-based system implementation. Leveraging a mature project service framework, the company conducted simultaneous market research and in-depth visits to multiple manufacturing plants producing drip irrigation and PE piping. By gathering firsthand insights from production floors—specifically regarding requirements for high-speed continuous marking, compatibility with diverse pipe specifications, and stable operation under low-temperature conditions—the team amassed the detailed, real-world data needed to inform the design of future "flying marking" systems for piping. Looking toward the industry's long-term evolution, the shift toward green, consumable-free laser marking for plastic piping represents an irreversible trend. Moving forward, the Chuke Intelligent team will continue to test and optimize solutions for technical challenges such as dynamic tracking on curved surfaces and adaptive positioning for varying pipe diameters. Drawing on its expertise in laser motion control and visual recognition technologies, the team aims to develop integrated laser marking systems tailored for pipe extrusion lines—delivering practical solutions that drive cost reductions, quality improvements, and green upgrades in plastic pipe manufacturing.

    2026 06/29

  • Chuke Intelligent Completes Process Optimization for Infrared Picosecond Laser "Black Marking" on Glass
    In the manufacturing of glass components for consumer electronics and smart home appliances, screen printing and inkjet printing have long been the mainstream methods for marking graphics and text on glass surfaces. These traditional processes not only consume materials such as inks and solvents but are also prone to issues like marking detachment and fading. Furthermore, they generate small amounts of pollutants, making it difficult to meet modern manufacturing requirements for green production and long-lasting durability. Recently, Chongqing Chuke Intelligent Machinery Equipment Co., Ltd. (hereinafter referred to as "Chuke Intelligent") successfully optimized a process for creating permanent black marks on glass using an infrared picosecond laser. By utilizing the Raycus RFL-P60MX picosecond laser in conjunction with a stainless steel target for assisted processing, the company overcame the challenge of achieving high-contrast, permanent black marking, thereby offering a novel solution for the glass deep-processing industry. Unlike standard direct laser engraving, this "black marking" method employs a target-assisted processing approach. Operators place the transparent glass workpiece in close contact with a stainless steel target and precisely focus the laser beam on the interface between the glass and the stainless steel. The infrared picosecond laser features ultra-short pulses and a minimal heat-affected zone, ensuring the glass does not crack or shatter. High temperatures are generated instantly at the focal point, decomposing the surface layer of the target material into fine carbon particles; under high pressure, these particles are embedded into the glass surface, creating uniform, rich black markings. The process involves no pigments; the mark is embedded within the glass, ensuring the pattern does not peel off due to wiping or friction, and the durability of the mark matches the lifespan of the workpiece itself. Extensive sample testing has fully validated the stability of this process. Patterns were successfully marked on standard float glass, tempered glass, and ultra-thin electronic glass. The resulting marks exhibited uniform blackness, crisp line details, and clean edges without burrs, achieving a level of contrast far superior to conventional internal laser engraving. The entire process requires no ink and generates no exhaust fumes or waste materials, truly achieving zero consumables and zero pollution. Additionally, the stainless steel target is reusable, allowing for significant cost savings during long-term mass production. The equipment's operating speed can be increased as needed; even at double the standard processing speed, it maintains consistent pattern color and quality, making it fully compatible with high-volume assembly line operations. Previously, achieving a solid, jet-black mark on glass typically required expensive ultraviolet (UV) ultrafast lasers. By utilizing a 1064nm infrared picosecond laser system combined with a simple stainless steel backing, the initial equipment investment cost has been significantly reduced. Through rigorous parameter optimization, the Chuke Intelligent team resolved common issues—such as uneven blackening, localized whitening, and stress-induced cracking—enabling standard infrared picosecond equipment to consistently deliver high-quality black marking results. The process handles everything from small logos to large-format graphic markings in a single pass. This glass black-marking process has already undergone multiple rounds of sample validation. Moving forward, the Chuke Intelligent project team will continue to refine optical path parameters and target-matching strategies, expand the range of compatible glass types, and further enhance processing efficiency. As demand grows for applications such as home appliance panels, smart touch-sensitive glass, and automotive decorative glass, this consumable-free laser marking process is poised to replace traditional screen printing, becoming the mainstream choice for marking precision glass components and helping manufacturers upgrade their processes and achieve greener operations.

    2026 06/27

  • Keeping Pace with Ultrafast Laser Frontiers: Chuke Intelligent Gears Up to Explore Femtosecond Lasers
    Femtosecond ultrafast laser cold processing technology is currently emerging as a key breakthrough in the fields of precision micro-hole and micro-structure manufacturing. With its energy-efficient architecture, near-zero thermal damage processing capabilities, and industrial-grade stability, the Jetlit20 femtosecond laser sets a new technical benchmark for laser light sources. As a company deeply committed to the R&D and manufacturing of laser equipment, Chongqing Chuke Intelligent Machinery Equipment Co., Ltd. ("Chuke Intelligent") continuously tracks cutting-edge industry technologies, benchmarks its R&D roadmap against high-end femtosecond laser products, and steadily advances toward the development of ultra-high-precision laser processing equipment. The laser achieves multiple breakthroughs in hardware design. It innovatively employs a passive air-cooling structure—eliminating the need for external water-cooling units—which reduces overall energy consumption by 50%–70% and cuts industrial electricity costs by 30%–40%. The unit boasts an IP51 protection rating and features a shock-resistant structure capable of withstanding interference from dust and vibrations, allowing it to easily adapt to complex workshop environments. Additionally, the light source supports flexible multi-wavelength selection and adjustable pulse widths, enabling technicians to optimize parameters for different materials and ensure optimal processing results across various workpieces. Regarding core processing performance, the femtosecond-level ultrashort pulses deliver a "cold processing" effect with near-zero thermal impact, preventing defects such as material melting or cracking. The equipment can execute high-density micro-hole processing—creating tens of thousands of holes—within a compact 6×6 mm area; it is capable of stably drilling 30 μm micro-holes in 20 μm thick stainless steel sheets, producing holes with uniform shapes and smooth edges. Its processing solutions cover highly reflective, hard, and brittle materials—including metals, ceramics, glass, and sapphire—thereby resolving industry-wide challenges associated with significant thermal damage and insufficient micro-hole precision in traditional laser processing. Chuke Intelligent has long focused on the R&D and production of laser marking, welding, and cleaning equipment, maintaining a strong presence in the automotive electronics and precision component manufacturing markets. Amid the rapid growth of the ultrafast laser industry, the company continuously monitors the technological evolution of femtosecond laser sources and rigorously benchmarks its offerings against industry-leading products—specifically regarding energy-efficient design, precision processing techniques, and comprehensive system protection. The technical team is building expertise in application areas such as cold micromachining and micro-hole drilling, while consistently enhancing equipment stability and precision control capabilities. Moving forward, Chuke Intelligent will keep pace with industry trends and incorporate cutting-edge technological insights. The company plans to progressively expand its product line of ultra-high-precision laser processing equipment and drive the adoption of cold processing technology in automated systems, thereby delivering cost-effective laser solutions to the domestic precision manufacturing sector.

    2026 06/26

  • Customized Fixturing Implemented: Chuke Intelligent’s Pneumatic Marking System Tailored for Automotive Engine Processing
    Chongqing Chuke Intelligent Machinery Equipment Co., Ltd. (hereinafter referred to as "Chuke Intelligent") recently delivered a customized pneumatic marking system designed for the complex curved surfaces of engine cylinder blocks; the system has successfully passed on-site commissioning. To meet rigorous requirements—such as handling multiple bolt-positioning holes, high-hardness cast iron material, and high-precision engraving—the company independently designed an integrated aluminum alloy positioning fixture. Paired with a portable pneumatic marking unit, this setup achieves clear, permanent traceability marking. From initial design to production line implementation, Chuke Intelligent has once again demonstrated its deep technical expertise in precision marking through its mature customization capabilities. In the automotive engine manufacturing and maintenance sectors, marking cylinder blocks—core structural components—presents significant processing challenges. Due to irregular shapes and widely dispersed mounting reference points, standard universal marking fixtures struggle to achieve rapid positioning. Conventional methods require repeated equipment adjustments for each marking cycle, which not only extends processing time per unit but also increases the risk of character misalignment, inconsistent depth, and positional errors; furthermore, indistinct traceability marks can hinder product quality inspections and after-sales traceability. Additionally, the high hardness of the cast iron material places strict demands on marking stylus impact force and equipment stability, making it difficult for standard marking equipment to balance engraving clarity with equipment longevity. After identifying the customer's on-site processing pain points, Chuke Intelligent’s technical team immediately conducted a field survey. They gathered key parameters—such as the cylinder block's full dimensional data, designated mounting holes, and standard marking zones—to design a targeted, integrated aluminum alloy positioning fixture bracket. The fixture utilizes a modular bent-aluminum profile structure that perfectly aligns with the bolt-hole references on the cylinder block's top surface. It allows for rapid locking and positioning without additional auxiliary clamps, drastically reducing the time required for workpiece setup and alignment.  The bracket’s angle accommodates the cylinder block's tilted orientation, ensuring the marking stylus remains perpendicular to the marking surface and effectively preventing character distortion caused by marking on an incline. The system features a portable pneumatic marking unit with a compact, lightweight design; a side handle facilitates on-site setup and transport, while an internal pressure regulator allows for precise control of impact force, meeting the specific marking requirements of cast-iron engine blocks. A high-precision red marking stylus ensures clear positioning, creating uniform, deep marks that are resistant to wear and corrosion; the markings remain intact and legible even under prolonged exposure to high temperatures and oil, satisfying the automotive industry's standards for lifetime component traceability. The entire system eliminates the need for large, fixed workstations, allowing for flexible deployment in small workshops or automotive repair and refurbishment facilities, and is equally suitable for both mass production and individual repair scenarios. From initial design and custom tooling fabrication to final assembly and testing, the Chuke Intelligent technical team managed every stage of the project. They repeatedly simulated on-site conditions to optimize the bracket’s mounting holes and fixture structure, and conducted multiple test runs to calibrate marking precision, ensuring the delivered equipment was ready for immediate integration into the production line. During implementation, on-site operators reported that the custom tooling made positioning quick and easy, reducing setup time per engine block by over 60% and significantly improving marking consistency—effectively resolving the instability issues associated with the general-purpose equipment previously used. With years of expertise in industrial marking equipment R&D, Chuke Intelligent focuses on the distinct processing needs of various sectors, pursuing a dual strategy of standardized equipment and non-standard, customized solutions. Beyond engine block marking tooling, the company has delivered bespoke marking systems for clients across industries such as automotive components, construction machinery, hardware valves, and mold manufacturing. Moving forward, Chuke Intelligent will continue to refine its core precision marking technologies and address specific operational challenges in sectors like automotive parts and heavy industry, empowering manufacturing clients to enhance standardization and production efficiency through highly adaptable, customized industrial marking solutions.

    2026 06/24

  • Chuke Intelligent Explores New Femtosecond Laser Glass Coloring Technology, Unlocking Innovative Approaches to Ink-Free, Iridescent Internal Engraving
    Creating colorful patterns inside glass using only lasers—without ink or surface damage—is a cutting-edge frontier in glass processing. As industries such as consumer electronics and creative gifts demand higher standards for glass aesthetics, the limitations of traditional surface-adhesion techniques have become increasingly apparent, driving interest in ink-free, highly durable internal engraving technologies. Recently, Chuke Intelligent produced several glass internal engraving samples based on this trend, preliminarily validating the process's effectiveness in this application. Currently, mainstream methods for creating colored glass patterns rely on techniques like screen printing, coating, and surface etching with coloring. Because these patterns adhere to the glass surface, they are prone to wear and fading over time; furthermore, these processes can compromise light transmission and struggle to maintain stability when producing intricate, multi-layered gradient patterns. Femtosecond laser micromachining represents a cutting-edge technological approach. It utilizes ultrashort-pulse lasers to create micro-nano optical structures within the glass, generating gradient color textures through light refraction and diffraction. Requiring no consumables such as ink or pigments, this method offers a novel approach to glass aesthetic processing. Leveraging the ultrashort-pulse characteristics of femtosecond lasers, the process generates virtually no heat-affected zone. The laser acts only on pre-determined internal areas, avoiding issues such as substrate melting, cracking, or edge chipping; the glass surface remains smooth and flat, preserving its original transparency. Samples featuring dragon boat patterns produced during this trial exhibit complete, fluid lines and display multi-layered color gradients—shifting between blue, purple, gold, and orange—as the viewing angle changes. Because the resulting patterns are embedded within the glass substrate, they are immune to surface corrosion, wear, or fading, ensuring superior color longevity. The technology supports a wide range of custom graphics and text, making it suitable for diverse applications including decorative ornaments, electronic glass cover plates, architectural decorative glass, and creative commemorative products.  Chuke Intelligent has currently completed the prototyping and validation of initial samples. Moving forward, the company will continue to monitor the application of femtosecond laser processing technology on transparent substrates and explore feasible solutions for large-scale implementation. Long dedicated to the supply and delivery of laser processing equipment, Chuke Intelligent’s successful production of these femtosecond internal glass-engraving samples marks another step in validating its engagement with cutting-edge industry technologies.

    2026 06/23

  • From Handheld Welding to Automated Platform Laser Welding: Chuke Intelligent Secures Repeat Order from Jinmao Machinery
    Recently, Chongqing Chuke Intelligent Machinery Equipment Co., Ltd. (hereinafter referred to as "Chuke Intelligent") delivered a set of automated platform laser welding equipment to Chongqing Jinmao Machinery Co., Ltd. Following their previous purchase of handheld laser welding equipment, Jinmao Machinery once again selected Chuke Intelligent's laser welding solution for the mass production welding of exhaust pipes. Jinmao Machinery specializes in the processing of components such as mechanical parts, automotive parts, and motorcycle parts. They had previously purchased Chuke Intelligent's handheld laser welding equipment for routine welding tasks. However, as the volume of exhaust pipe orders continued to grow, the existing welding method began to reveal bottlenecks regarding efficiency and yield: consistency was difficult to guarantee with manual welding, processing time per unit was long, and the production line's flow rhythm was hindered. Consequently, the company decided to introduce an automated platform laser welding machine to improve consistency and output efficiency in mass welding operations. Exhaust pipe welds allow for absolutely no defects. As a critical component of the automotive exhaust system, exhaust pipes have extremely strict requirements for weld airtightness. Even tiny pores in the weld can evolve into leakage points under long-term high-temperature and vibration conditions, directly affecting the product's service life and driving safety. Although laser welding offers advantages such as a small heat-affected zone and controllable deformation, improper use of shielding gas or deviations in laser parameter settings during the process can still lead to micro-pores in the weld—a common challenge when welding thin-walled tubular parts. To address this technical challenge, Chuke Intelligent's technical team conducted multiple rounds of process validation prior to delivery. By iteratively adjusting shielding gas flow and nozzle angles, combined with the precise matching of parameters such as laser power, frequency, and welding speed, they successfully controlled the weld porosity within the customer's acceptance standards. Once the equipment was put into mass production, welding speeds reached several meters per minute; the welding time per unit was drastically reduced compared to the previous manual method, and the overall flow rhythm of the production line accelerated significantly. The application of the automated platform laser welding machine also facilitated the optimization of workforce allocation. Previously, exhaust pipe welding required certified professionals, entailing high labor costs and a training period of several months for skilled welders. The introduction of automated welding equipment has lowered the skill threshold for operators, allowing general staff to handle the task after only brief training. Consequently, enterprises can reassign veteran welders to high-end product lines that demand greater technical expertise and involve smaller production batches, thereby optimizing human resource allocation. The shift from manual to automated exhaust pipe welding reflects the automotive parts industry's comprehensive focus on weld consistency, airtightness reliability, and production line throughput. The laser welding platform solution delivered here—featuring verifiable process parameters and equipment configurations tailored to the production line—serves as a practical example of transforming automation from a merely functional capability into a highly effective, user-friendly solution. Moving forward, Chuke Intelligent will continue to refine its welding solutions to better meet the specific operational needs of automotive parts manufacturing.

    2026 06/23

  • Domestic Alternative to Imports: Chuke Intelligent’s Enclosed Pneumatic Dot-Peen Marking Machine Secures Follow-up Order from Automaker
    Recently, Chongqing Chuke Intelligent Machinery & Equipment Co., Ltd. (hereinafter referred to as "Chuke Intelligent") successfully delivered a customized enclosed pneumatic dot-peen marking system to a leading domestic automotive parts manufacturer. Leveraging servo motor technology, the equipment achieved breakthroughs in both speed and precision, surpassing the performance of the international brand equipment previously used by the client. Thanks to its superior capabilities, the system earned the client's trust, resulting in immediate settlement of the final payment and the placement of a follow-up order. The client is a benchmark enterprise in the field of critical automotive components, specializing in products such as steel engine pistons, steering knuckles, and precision forgings. Its products are supplied to major automakers and new energy vehicle brands—including JAC, Chery, Great Wall, BAIC, and BYD—and the company ranks among the global leaders in forged steel piston production capacity. The enterprise had long relied on imported marking equipment (specifically from SIC Marking) for marking components such as suspension springs, drive shafts, and engine pistons. Last year, the client purchased a marking machine from Chuke Intelligent for the first time; the equipment's reliable performance and lower operation and maintenance costs fostered a strong cooperative relationship between the two parties. For this procurement, the client set rigorous technical requirements: the equipment had to feature an enclosed frame with multi-layer movable steel plates, offer an effective marking area of ​​at least 200mm × 130mm, and match the marking speed of imported equipment. Prior to this, several domestic suppliers had participated in testing but failed to meet the speed requirements. The field of pneumatic dot-peen marking generally faces technical limitations. Traditional equipment typically employs stepper motors with open-loop control and lacks position feedback; this often leads to positioning errors during high-speed operation, resulting in distorted markings and difficulties in scanning QR codes. To overcome this challenge, Chuke Intelligent utilized a Panasonic 400W servo motor to build the control system. The servo system relies on encoders for real-time position feedback and employs full closed-loop control. This approach boosts operating speed while ensuring precise positioning, successfully resolving the industry-wide dilemma of balancing speed and accuracy. Field test results were impressive: when marking 100mm x 120mm QR codes, Chuke Intelligent’s equipment took just 7 seconds—outperforming imported equipment (9 seconds) and far surpassing other domestic models, which required 16 to 20 seconds for the same task. In a spot check of 20 samples using professional Keyence scanners, every QR code achieved the highest readability rating (Grade A), demonstrating excellence in both speed and precision. Holding multiple international certifications—including ISO, CE, FDA, and RoHS—Chuke Intelligent specializes in the R&D and manufacturing of high-precision marking equipment, serving clients in over a hundred countries and regions worldwide. This collaboration once again underscores the technical prowess of domestic equipment. Moving forward, the company remains committed to advancing core technologies and delivering cost-effective, customized solutions to drive industrial upgrades—such as in automotive manufacturing—and propel domestic intelligent equipment into broader global markets.

    2026 06/22

  • Chu Ji Intelligent Closed Pneumatic Marking Machine for Shipment, 50 × 50mm Width Compatible Production Line Independently Integrated
    Recently, Chongqing Chuke Intelligent Machinery Equipment Co., Ltd. (hereinafter referred to as "Chuke Intelligent") officially shipped and delivered a closed pneumatic marking machine. The marking range of this device is 50mm × 50mm, designed specifically for integrated production line scenarios. After the customer completes the installation of the machine head independently, it can be installed on the existing production line to achieve automated online marking. In the current industrial manufacturing scene, automated production lines have become mainstream. Workpiece identification and information traceability are indispensable aspects of production line operation. The traditional manual marking method has obvious shortcomings: operators hold marking tools one by one, which not only has low efficiency, but also makes it difficult to unify the depth and clarity of markings, seriously affecting the standardization and traceability of product identification. Offline marking, on the other hand, requires the workpiece to be removed from the production line, marked separately, and then re online. This increases the number of processes, interrupts the pace of work, and limits the increase in production capacity. In response to the customer's on-site integration and lightweight transformation needs, Chuke Intelligent has customized this closed pneumatic marking machine for the customer, accurately matching the production line integration usage scenario. The marking machine adopts a fully enclosed stainless steel head, which can effectively block the invasion of dust, oil, and metal debris, adapt to complex working conditions in the workshop, reduce equipment failure frequency and daily maintenance workload. Pneumatic drive technology is mature and stable, and permanent markings such as characters, batch codes, and QR codes can be completed on the surface of metal workpieces. The handwriting is clear and wear-resistant, meeting the requirements of industrial product lifecycle traceability. The whole machine adopts a split structure and is equipped with an independent control host. Parameter settings, marking editing, and data storage can be directly completed on the touch screen, and switching between different specifications of workpieces is also very convenient. The equipment is equipped with standardized interfaces that can be directly integrated with existing production line control systems, saving the trouble of additional modifications. The marking process and production process can be synchronized. The delivered model is set with a standard format of 50mm x 50mm, which precisely covers the identification area of the customer's workpiece without wasting space. The machine head is made relatively compact, with a small footprint and flexible installation. It can be directly embedded into existing workstations and adapted to various assembly line layouts. Chuke Intelligent has been deeply involved in the field of industrial identification equipment for more than 20 years, always adhering to customer needs as the guide and providing customized identification solutions. We provide professional support to customers throughout the entire process, from early requirement communication and scheme design to equipment production, debugging, and delivery, ensuring that equipment performance matches the actual production scenarios of customers. In the future, Chuke Intelligence will continue to focus on the field of industrial automation identification, continuously optimize product performance, enrich product categories, and provide adaptable identification solutions for more industry customers.

    2026 06/18

  • Chuke Intelligent 300W Pulse Laser Cleaning Machine overcomes the cleaning problem of semiconductor over furnace carrier disk
    In the semiconductor packaging and precision device production process, the over furnace carrier is the core fixture to ensure the stability of product sintering and reflow soldering processes. Under long-term high-temperature operation, the surface of the carrier is prone to accumulate stubborn pollutants such as solder residue, flux carbonization layer, and metal oxides. Traditional cleaning methods are not thorough, can damage the substrate, and cause secondary pollution, which has long been an industry pain point affecting semiconductor production accuracy and product yield. In response to this market demand, Chongqing Chuke Intelligent Machinery Equipment Co., Ltd. (hereinafter referred to as "Chuke Intelligent") has launched a 300W pulse laser cleaning machine, which is specially designed to customize cleaning solutions for semiconductor furnace carriers. With efficient, non-destructive, and environmentally friendly technological advantages, it completely solves the problem of carrier cleaning. Semiconductor furnace carriers operate under high temperature conditions for a long time, and the adhesion of carbide residues and oxides is extremely strong. The drawbacks of ordinary manual wiping, chemical immersion, traditional ultrasonic cleaning, and other methods are prominent. Not only is it difficult to clean blind spots such as corners and micropores of the carrier, but chemical agents can also corrode the precision structure and surface coating of the carrier, causing tooling loss and decreased accuracy. At the same time, waste liquid pollution is generated, increasing the cost of environmental protection treatment for enterprises and seriously restricting the improvement and efficiency of semiconductor precision production. The initial intelligent 300W pulse laser cleaning machine precisely adheres to the strict clean production standards of the semiconductor industry and adopts advanced non-contact pulse laser cleaning technology. The equipment precisely applies high-energy pulse laser to the surface pollutants of the carrier, utilizing photothermal effect to quickly peel off and remove various stubborn impurities. There is no need to contact the workpiece throughout the process, and it will not cause any damage to the metal substrate, precision hole positions, and original structure of the carrier. Compared to traditional cleaning, the use of laser cleaning machines does not require the addition of any chemical cleaning agents, and there is no secondary pollution such as waste liquid or residue, which meets the requirements of semiconductor dust-free and clean production; Comprehensive and thorough cleaning, laser can accurately cover the surface, gaps, and micro hole dead corners of the carrier, eliminating conventional cleaning blind spots; Efficient and time-saving, the automated operation mode significantly reduces the maintenance time of the load tray, eliminating the need for subsequent drying and repair processes, effectively improving the turnover efficiency of the production line, and reducing the operation and maintenance costs of the enterprise. At present, the 300W pulse laser cleaning machine has completed multiple rounds of on-site testing, and its cleaning effect for various types of semiconductor furnace carriers is stable and meets the standard. It can efficiently adapt to multiple production scenarios such as semiconductor packaging, power device sintering, SMT reflow soldering, etc. As a domestically produced precision cleaning equipment, this product accurately targets the pain points of industry production. With stable performance and outstanding cleaning effects, it provides semiconductor enterprises with a cost-effective tool cleaning solution. With the semiconductor industry iterating towards high precision and high reliability, the cleanliness control of production fixtures has become the key to enhancing the core competitiveness of products. Chuke Intelligence has clearly identified semiconductor precision cleaning as its core direction of deep cultivation. In the future, Chuke Intelligence will continue to promote the adaptation and application of laser cleaning technology in more tooling scenarios. With the reliable performance of domestic equipment, it will help the semiconductor industry optimize processes, improve yield, and provide reliable cleaning solutions for precision manufacturing.

    2026 06/18

  • Chuke Intelligent Side-mounted Fiber Laser Marking Machine Successfully Delivered, Production Line Remains Uninterrupted!
    Recently, Chongqing Chuke Intelligent Machinery Equipment Co., Ltd. (hereinafter referred to as "Chuke Intelligent") successfully delivered three sets of customized desktop fiber laser marking machines, specifically designed for low-speed production lines with side-mounted online marking capabilities. The equipment has been successfully implemented by a leading Chongqing-based company in the fields of micro-motors, electrical components, and automotive parts, solving the customer's production pain points such as frequent downtime and high equipment wear in traditional marking methods. The customer's products are exported to more than ten countries, including the United States, Germany, South Korea, Russia, and Brazil. During mass production, all motors and electrical components require permanent marking. Previously, the workshop used handheld laser marking machines, requiring the entire conveyor belt to be paused for each marking operation. Repeated start-ups and shutdowns of the production line continuously increased the load on the drive motors and control systems, leading to overheating, premature aging of components, and high maintenance costs. To address the client's specific on-site conditions and usage habits, the Chuke Intelligent Technology team tailored a solution. Initially, the team recommended an online marking solution using a flight support structure for higher space utilization. However, considering the client's preference for computer-controlled traditional models, the final configuration was determined to be a "desktop fiber laser marking machine + side-marking mode." The biggest technical challenge on-site was the fixed installation on both sides of the production line, making it impossible to move the entire machine for focusing. Chuke Intelligent added a manually adjustable X-Y axis worktable to the base of the machine's column. When switching product batches, operators only need to fine-tune the worktable to complete laser focusing and positioning, without moving the entire machine. The entire system supports dynamic side marking on products on a low-speed conveyor belt, without requiring any downtime, truly achieving continuous production line operation. Currently, three machines have been deployed on three production lines in a single client workshop and are in the testing and verification phase. Operational results show that the new equipment completely eliminates the start-up and shutdown issues of the production line, extending the lifespan of core equipment such as conveyor belts and drive motors, and eliminating downtime losses associated with the marking process. Clear component identification and permanent, uniform markings significantly improve production efficiency. As a national high-tech enterprise and specialized innovative enterprise with multiple international certifications including ISO, CE, FDA, and RoHS, Chuke Intelligent relies on its parent company's over 20 years of manufacturing experience to focus on the R&D and manufacturing of laser processing and industrial marking equipment, serving over 100 countries and regions worldwide. The successful delivery of this customized equipment further demonstrates the company's technical strength and service capabilities in the non-standard customization field. In the future, Chuke Intelligent will continue to focus on the automation upgrade needs of the manufacturing industry, using customized intelligent equipment to help enterprises in various industries reduce costs, increase efficiency, and improve quality development.

    2026 06/18

  • Fully Adapted to High-Temperature Production: Chuke Intelligent Pneumatic Lifting Tabletop Marking Machine Successfully Delivered
    Recently, Chongqing Chuke Intelligent Machinery Equipment Co., Ltd. (hereinafter referred to as "Chuke Intelligent") successfully delivered two tabletop pneumatic lifting marking machines customized for a customer after completing production and quality inspection. This equipment is tailor-made for the customer's automated production line integration project and will serve as the core equipment for the marking station, helping the customer achieve a fast-paced, high-precision automated production process. The core advantage of the delivered equipment is its customized pneumatic lifting structure. During the material loading and unloading process on the production line, the equipment can quickly lift, actively avoiding the conveyor line and preventing collisions between workpieces and tooling. After entering the marking process, the equipment quickly falls back, and with the help of a limit device, it precisely locks the working position, ensuring stable marking quality. Compared with traditional electric lifting marking machines, the pneumatic drive has a faster response and more compact action, perfectly matching the needs of fast-paced automated production. As an equipment supplier with over two decades of experience in industrial marking, Chuke Intelligent has accumulated extensive experience in integrating and implementing automated production lines. This project, based on the client's production line conditions and needs, specifically optimized details such as the lifting drive method, stroke control, and installation interfaces to ensure the equipment can be quickly integrated into the client's existing production line and put into use without complex modifications. After the equipment arrives, the client will complete the integration with their production line independently, achieving fully automated operation of workpiece conveying, obstacle avoidance, positioning, and marking through the linkage between the loading/unloading station and the marking station. The successful delivery of this equipment further enriches the company's portfolio of automated supporting equipment projects. Chuke Intelligent will continue to focus on the market and the personalized needs of its clients, continuously refining product performance and iterating and upgrading lifting drive solutions, positioning accuracy, and production line control interfaces to develop and launch more specialized marking equipment tailored to various production scenarios. With its mature technical strength and reliable product quality, Chuke Intelligent will continue to provide high-quality equipment and solutions to clients in different industries, helping more manufacturing enterprises improve their automation levels and production efficiency.

    2026 06/16

  • Chuke Intelligent Accepts Interview from Municipal Media: Focusing on High-Quality Industrial Development in Beibei Science City
    Recently, municipal media visited the Beibei Science City in Western (Chongqing) for a special interview. Representatives from the park and resident companies exchanged views on regional industrial development, business environment construction, and future planning. As a representative enterprise in the high-end intelligent manufacturing field within the park, Xiao Renmin, General Manager of Chongqing Chuke Intelligent Machinery Equipment Co., Ltd. (hereinafter referred to as "Chuke Intelligent"), accepted the interview, sharing the company's practices and vision of establishing itself in Beibei and leveraging the park's platform for development. Following the administrative division adjustment, the Beibei Science City in Western Science City, as a key area for technological innovation and advanced manufacturing developed by Beibei District, is accelerating the construction of an advanced industrial cluster centered on quantum chips, artificial intelligence, high-end instruments and meters, and precision die casting. Leveraging the innovative resources of Western Science City, the park continues to improve industrial support and policy support, striving to create an industrial highland integrating R&D, manufacturing, and commercialization of research results (technology transfer), providing enterprises with a favorable environment for development and growth. Chuke Intelligent is a national high-tech enterprise and specialized innovative enterprise focusing on the field of precision laser equipment. Holding multiple international certifications including ISO, CE, FDA, and RoHS, it has already settled in the Central South High-Tech Industrial Park. The company focuses on the R&D and manufacturing of industrial equipment such as laser processing equipment and pneumatic marking equipment, with products widely serving the automotive, hardware, and construction machinery industries. In an interview, General Manager Xiao Renmin introduced the company's production and operation in the park, as well as its development path of technological upgrading and market expansion. She stated that the industrial planning and policy support of the Beibei Industrial Park have provided strong support for the company to connect with upstream and downstream resources, attract professional talent, and expand market channels. The company will continue to be rooted in Beibei, deeply cultivating the field of intelligent industrial manufacturing, and empowering the upgrading of regional manufacturing through technological innovation. As a key industrial platform within the Western Science City Beibei Park, the Zhongnan High-Tech Industrial Park, aligned with the overall planning of the Western Science City Beibei Park, focuses on intelligent manufacturing and high-end equipment industries. It aims to create an integrated industrial platform encompassing standardized factory buildings, supporting services, and industrial incubation, providing small and medium-sized manufacturing enterprises with space and services integrating production, office, and R&D. This facilitates the large-scale and intensive development of enterprises and serves as a crucial carrier for the clustered development of advanced manufacturing in the region. Currently, Beibei District is leveraging the construction of the Western Science City Beibei Park to accelerate the optimization and upgrading of its industrial structure and cultivate and strengthen advanced manufacturing and strategic emerging industries. Chuke Intelligent will continue to focus on product R&D, technological innovation, and market expansion, contributing to Beibei District's goal of becoming a hub for advanced manufacturing. Simultaneously, Chuke Intelligent will utilize the park platform to further strengthen collaborative cooperation with upstream and downstream enterprises, jointly promoting the continuous improvement of the regional industrial ecosystem and contributing to the high-quality development of industries in the Western Science City Beibei Park.

    2026 06/16

  • Chuke Intelligent Launches Automated Tire Mounting Machine Designed for 8-14 Inch Motorcycle Tires
    Recently, Chongqing Chuke Intelligent Machinery Equipment Co., Ltd. (hereinafter referred to as "Chuke Intelligent") launched a new automated tire mounting machine specifically designed for motorcycles, focusing on fitting 8-14 inch tires and fully compatible with mainstream scooters, underbone motorcycles, and small motorcycles. The machine is optimized for the characteristics of motorcycle tires, such as their small size, high sidewall hardness, and precision wheel rims, effectively solving the problems of low efficiency and easy wheel rim damage associated with traditional manual tire mounting. It provides a reliable automated solution for the domestic and international two-wheeled vehicle manufacturing and maintenance industries. The machine adopts a PLC control system and servo drive, ensuring precise and controllable tire mounting. It effectively avoids scratching aluminum alloy wheel rims and prevents tire bead deformation, guaranteeing the quality of tire and wheel assembly. The machine features a lightweight design and a compact footprint, suitable for mass assembly scenarios on motorcycle production lines, as well as meeting the daily operational needs of repair shops and modification workshops, flexibly adapting to the needs of customers of different sizes. Addressing the diverse needs of motorcycle production and repair scenarios, this automated tire loading machine has undergone numerous optimizations and adjustments. Equipped with a high-precision clamping system and flexible pressing components, the machine can adjust the pressing force according to different tire specifications, preventing tire damage caused by uneven force, and is particularly suitable for the protection needs of lightweight motorcycle wheel rims. The operating interface features a touchscreen design, with all relevant parameters adjustable. The machine also supports one-button start and emergency stop functions, ensuring a safe and controllable operation process that complies with internationally recognized equipment safety standards. In practical applications, the advantages of automated tire loading equipment are significant. Traditional manual tire loading relies on specialized tools and skilled workers, and is prone to problems such as wheel rim scratches or poor tire seals due to improper operation. This automated tire loading machine, through its automated process, greatly improves operational stability, reduces reliance on human experience, and minimizes losses caused by human error. This helps customers reduce overall costs and improve delivery quality in both production and repair processes. With its stable performance and flexible adaptability, this equipment not only targets the domestic market but also adapts to mainstream motorcycle models in Southeast Asia, South Asia, and Latin America, providing standardized tire-fitting solutions for local vehicle manufacturers and repair chains. Its modular design ensures excellent compatibility, allowing for functional expansion based on the specific needs of customers in different regions. This further simplifies operation, improves overall efficiency, and helps customers enhance their competitiveness in local markets, driving the automation upgrade of the two-wheeled vehicle industry. Looking to the future, Chuke Intelligent will continue to deepen its expertise in the two-wheeled vehicle automation equipment sector. Guided by market demand, it will continuously optimize equipment performance, expand product compatibility, and explore intelligent and integrated technological upgrades to help domestic and international customers build more efficient and stable production and service systems. Simultaneously, the company will actively expand its global cooperation network, deepen exchanges with customers in different regions, and promote product adaptation to more international standards and localized needs. This will help Chinese automation equipment play a greater role in the global two-wheeled vehicle industry, jointly driving the industry towards higher quality and higher efficiency.

    2026 06/16

  • Laser Marking Machine Improves Quality and Efficiency: Chuke Intelligent Enables Integrated Laptop Shell Production
    Recently, Chongqing Chuke Intelligent Machinery Equipment Co., Ltd. (hereinafter referred to as "Chuke Intelligent") launched a customized laser marking machine. This equipment can integrate multiple processes such as marking, white marking, black marking, and anodizing on laptop shells, achieving a high-quality processing effect without any tactile feedback or bulging, once again demonstrating the company's technical strength in the field of ultra-thin wall precision laser processing. Modern laptop shells are generally made of magnesium-aluminum alloy. While the anodized layer on the surface provides corrosion protection, it also brings multiple challenges to subsequent processing. Whether it's clear brand marking, delicate etching of shell textures, or removal of the oxide layer from interfaces and grounding areas, laser processing must achieve the desired effect while ensuring zero damage to the substrate, a smooth and tactile surface, and eliminating problems such as bulging and deformation. Traditionally, the industry has relied on single-process equipment to complete each step of the process, requiring repeated clamping and multiple transfers of workpieces. This not only limits production efficiency but also easily affects yield rates due to positioning errors. Multiple machines operating in tandem also occupy significant space, and the limited functionality of different process equipment makes it difficult to simultaneously adapt to diverse needs such as marking and anodizing, resulting in high overall maintenance costs. Addressing these industry pain points, Chuke Intelligent's new laser marking machine achieves a breakthrough in both process technology and efficiency. Equipped with a high-performance laser source and a high-speed galvanometer system, the machine has a maximum processing area of ​​400×400 mm and can complete multiple processes such as white marking, black marking, and anodizing on laptop shells in a single operation. Its precise energy control technology can completely remove the anodized layer from designated areas without damaging the substrate; the marking effect is clear and delicate, with a smooth, non-tactile surface, perfectly solving the bulging and deformation problems common in traditional processes. The machine's parameters are pre-fixed and debugged before leaving the factory. With customized tooling, the entire processing process can be completed with a single workpiece clamping. Operators can import drawings and start the operation with a single click, significantly lowering the learning curve. Meanwhile, the semi-enclosed protective design effectively isolates smoke and dust, ensuring production safety and workshop cleanliness. From a life-cycle value perspective, the equipment's comprehensive advantages are equally prominent. One machine can replace multiple traditional machines, significantly saving workshop space and procurement costs; the integrated low-failure-rate design reduces downtime for maintenance and eliminates the need for long-term on-site engineer support, significantly lowering labor and maintenance costs. The equipment can quickly adapt to the processing needs of different laptop casing models, providing enterprises with a flexible solution for handling multi-variety orders. Leveraging mature laser processing technology and extensive project implementation experience, Chuke Intelligent will continue to delve into the process requirements of 3C electronics manufacturing scenarios, constantly refining equipment performance and application solutions to solve problems for supply chain partners and help the laptop manufacturing industry move towards greater efficiency and precision.

    2026 06/15

  • Chuke Intelligent Semi-Enclosed Three-in-One Laser Anodizing System Aids Precision Manufacturing of Laptop D-Side
    Recently, Chongqing Chuke Intelligent Machinery Equipment Co., Ltd. (hereinafter referred to as "Chuke Intelligent") successfully delivered a semi-enclosed three-in-one laser anodizing system to a large laptop manufacturing industry chain partner. This equipment overturns the traditional single-path processing mode, specifically solving the problem of removing the anodized layer in multiple areas of the laptop D-side, once again demonstrating the company's strong technical capabilities in the field of ultra-thin wall precision laser processing. The laptop D-side is mainly made of magnesium-aluminum alloy and aluminum alloy, taking into account structural, heat dissipation, and power supply functions. It has conventional interfaces such as USB, HDMI, and power on both sides. Although the anodized layer on the metal surface has a corrosion-resistant protection function, it hinders conductivity and grounding. Therefore, the motherboard assembly area and interface area need to have the anodized layer precisely removed. Due to the extremely thin wall of the laptop shell and the extremely low processing tolerance, the industry requires laser processing to achieve layer breaking without damaging the substrate and removing film without residue, with stringent process standards. Traditionally, the industry has relied on single-optical-path equipment combined with rotary fixtures and vacuum chucks for multi-faceted anode breaking. This approach has significant limitations in large-scale production. The electronics manufacturing industry suffers from high staff turnover, complex traditional equipment operation, and extensive pre-job training. Rotary fixture motors and other components require regular maintenance and calibration, making equipment maintenance cumbersome. Many large production lines also require on-site engineers from manufacturers to ensure smooth production and steady capacity increases. Chuke Intelligent's newly developed semi-enclosed three-in-one laser anode breaking system breaks away from traditional design concepts, creating an integrated processing solution. The equipment features multiple independent optical paths, enabling simultaneous multi-directional operation through a unified control interface, eliminating the need for workpiece rotation and secondary positioning. The hardware and laser parameters are optimized before shipment, and with customized tooling, precise workpiece positioning and high processing consistency are ensured. Operators can start operations with a single click after importing engineering drawings, significantly reducing the learning curve. The robust structure allows for 24-hour continuous production, significantly reducing daily maintenance burden. Leveraging the advantages of multi-optical path synchronous processing, the equipment's production efficiency has achieved a significant leap. Taking the D-side of a well-known brand's 16-inch magnesium-aluminum alloy laptop as an example, the customer previously used traditional equipment to complete three-sided anode breaking, with a single workpiece processing time of 36 seconds. After switching to the Chuke Intelligent semi-enclosed three-in-one laser anode breaking system, the same processing standard can be completed in only 17 seconds, reducing processing time by over 50% and resulting in a substantial increase in production capacity. While the initial purchase cost of this system is higher than traditional models, its overall value is significantly superior. The equipment operates stably, effectively reducing production line downtime; its simple operation and low maintenance attributes significantly reduce costs related to employee training, equipment maintenance, and on-site technical support. Simultaneously, the compact equipment layout further saves workshop space. From a long-term operational perspective, the entire solution achieves cost reduction and efficiency improvement for manufacturing enterprises. Chongqing Chuke Intelligent is a high-tech enterprise with multiple international certifications, including ISO, CE, FDA, and RoHS, and its products and services cover more than 100 countries and regions worldwide. The company has deep roots in the fields of 3C electronics, auto parts, and aerospace. Leveraging its technological expertise in multi-optical path integration, precision tooling design, and laser process optimization, it continuously launches customized laser processing solutions to empower the entire chain of high-end manufacturing.

    2026 06/13

  • Chuke Intelligent Pneumatic Marking Machine Makes Motorcycle Frame Marking Easier
    Recently, Chongqing Chuke Intelligent Machinery Equipment Co., Ltd. (hereinafter referred to as "Chuke Intelligent") launched a pneumatic marking machine specifically designed for motorcycle frames. The equipment innovatively adopts an electromagnetic adsorption fixing method, eliminating the traditional manual hand-held operation mode, improving the shortcomings of the frame marking process, and providing motorcycle parts manufacturers with a brand-new marking processing solution. In the motorcycle manufacturing process, frame marking is an essential and crucial step. Due to the frame structure, traditional handheld marking equipment is difficult to fix accurately, and prolonged manual operation can easily cause shaking, resulting in misaligned and uneven marking characters, affecting product appearance and compliance, increasing labor costs, and reducing production efficiency. Combining the on-site working conditions of the motorcycle parts industry, Chuke Intelligent has customized and upgraded its pneumatic marking machine. The equipment integrates an integrated electromagnetic adsorption module, making the operation simple and convenient: simply attach the equipment to the predetermined position on the frame, activate the electromagnetic adsorption to stabilize the machine, and no manual pressing is required. A stable fixing method ensures consistent marking results across the entire batch of products. Based on a mature pneumatic marking principle, this equipment uses compressed air to drive a marking needle to impact at high frequency, forming permanent dot matrix markings on the surface of metal and hard workpieces. Compared to traditional solutions, the electromagnetic adsorption structure offers multiple improvements: firstly, it frees up operators' hands, reducing labor intensity and lowering the entry barrier; secondly, it ensures precise marking points, significantly improving yield; and thirdly, it simplifies operation steps, increases assembly line processing speed, and perfectly adapts to the needs of large-scale production. With its mature structural design and customizability, the equipment's application scope is further extended. Besides motorcycle frames, it can also serve marking scenarios for heavy workpieces such as automobile beams, engineering machinery structural components, and large equipment nameplates. For different workpiece shapes and process requirements, the company can customize the adsorption contact surface and marking head angle to flexibly adapt to various production sites. Chuke Intelligent has always been committed to responding to the differentiated needs of the manufacturing industry with customized solutions, providing customers with a full-chain service including solution planning, prototype verification, batch supply, and technical guidance. While cultivating the domestic market, the company is actively expanding into overseas markets and continuously broadening its global customer network. Moving forward, Chuke Intelligent will continue to focus on the industrial marking and laser processing sector, deeply exploring production pain points across various industries, continuously iterating on scenario-specific specialized equipment, and helping manufacturing enterprises both domestically and internationally optimize production processes and improve overall efficiency through practical products and comprehensive services.

    2026 06/12

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