Engineered for precision and compliant with Canadian safety and electromagnetic standards. Click a model below for detailed technical configurations.
As Canada pushes forward with the modernization of its automotive clusters in Ontario, the aerospace hub in Quebec, and resource exploration industries across Alberta and British Columbia, the requirement for high-reliability permanent marking systems has reached critical levels. Product traceability, anti-counterfeiting protocols, and strict environmental directives require technologies that go beyond traditional ink-jet or physical stamping systems.
Our dynamic 3D laser marking platforms provide seamless surface adaptation. Unlike older 2D systems that suffer from focal distortion on uneven geometries, our state-of-the-art dynamic focus units map to 3D surfaces in real-time. Whether it's high-speed line integration for EV battery assembly or precise micro-engraving on surgical instruments in the health sciences sector, we deliver reliable, localized solutions.
Operating with MOPA fiber lasers and variable pulse widths, our machines allow Canadian factories to mark a wide range of materials—from aircraft-grade titanium and automotive carbon composites to delicate, medical-compliant plastics.
Engraving high-density DataMatrix codes on cast aluminum engine components and chassis structures, designed to survive extreme thermal stress and corrosion.
Low-stress laser marking on titanium alloy components that prevents structural micro-cracks while meeting AS9100 quality traceability standards.
Corrosion-resistant UDI (Unique Device Identification) markings on surgical grade stainless steel instruments, ensuring readability after repeated sterilizations.
How dynamic three-axis scanning architecture eliminates the optical limitations of conventional flat-bed laser marking.
Standard flat markings struggle when applied to curved surfaces, slopes, cones, or multi-tiered parts. Traditional lasers lose focus near the edges, causing light dispersion, faded markings, and unreadable data matrices.
Our systems utilize 3-axis optical scanning systems featuring a dynamic pre-focus control lens. Driven by advanced digital servo controllers, the Z-axis focal position moves in sync with the high-speed X/Y scanning mirrors. This allows for clean, distortion-free marks across curved surfaces, spheres, and complex industrial geometries.
Get Technical ConsultationHigh-performance options from portable hand-held markers to dynamic high-power cabinet platforms.
Founded in May 2010, Chengdu Jigsaw Machine Co., Ltd. is a high-tech enterprise specializing in the research and development, manufacturing, sales, and service of industrial sawing, cutting, and advanced laser marking systems. With years of experience in the field of cutting machinery and industrial automation, the company is committed to providing efficient, reliable, and intelligent solutions for global customers across a wide range of industries.
Operating a modern production facility covering over 2,000 square meters, our facilities are equipped with advanced machining, assembly, and testing systems. Over the last decade, we have established a strong distribution network, partnering with representatives in Canada and globally to ensure timely technical support, spare parts availability, and comprehensive after-sales service.
To meet the high standards of the Canadian market, we focus on continuous quality improvement and process integration. Chengdu Jigsaw Machine Co., Ltd. has obtained ISO9001 international quality management system certification and CE certification, ensuring that all products meet strict international standards for quality, safety, and performance.
Our dynamic focusing systems and control assemblies undergo strict burn-in testing and optical alignment before shipment, ensuring reliable operation on your production floor.
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Planing Milling and Grinding Machine
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From deep underground mining tools in Ontario to cleanroom medical devices in British Columbia, we configure our machines for local application needs.
Canadian oil, gas, and mining drill assemblies operate under severe friction and high pressures. Our high-power 100W 3D fiber laser deep engraving systems mark trace codes that remain readable even after heavy wear.
Outdoor heavy machinery used in northern Canadian environments requires markings on high-tensile structural steels. Our MOPA variable pulse rate technology provides micro-crack-free marks that resist sub-zero thermal stresses.
We offer direct PLC integration protocols (EtherNet/IP, Modbus, Profinet) to link our marking heads with manufacturing execution systems (MES) commonly used in automated Canadian assembly lines.
When deploying high-power laser equipment in Canada, meeting local safety regulations is a priority. Our machines are built with components that comply with CSA C22.2 standards for electrical safety and Health Canada’s Radiation Emitting Devices Act.
We offer Class 1 fully enclosed safety workstations with interlock systems, preventing accidental exposure. For integration into automated lines, we supply Class 4 OEM laser engines equipped with fast-response safety shutter systems ready for connection to external safety circuits.
Our technology roadmap is focused on integrating real-time quality control systems. Our upcoming generation of 3D marking heads features coaxial vision-assisted alignment (smart camera finder) and optical depth sensor verification.
This system scans the work surface before marking, automatically adjusts the focal depth, prints the code, and verifies it against the target database. This ensures high-accuracy marking in complex manufacturing setups.
Explore our complete range of high-performance fiber, UV, and CO2 3D laser marking platforms.
Get answers to common technical, installation, and compliance questions about deploying 3D laser marking technology in Canada.
MOPA (Master Oscillator Power Amplifier) fiber lasers allow for adjustable pulse durations, ranging from 2 ns to 500 ns. This control helps manage thermal input on the work material. It enables operations like color marking on stainless steel and high-contrast marking on sensitive plastics. In contrast, standard Q-switched lasers have a fixed pulse duration, limiting their adjustability for delicate or thermal-sensitive applications.
No, our machines are built around industrial control boards that interface directly with standard PC systems via USB or Ethernet. We support control packages like EZCAD3, which handle complex 3D STL file slicing, projections, and dynamic focus parameters. Additionally, our interfaces support connection protocols like EtherNet/IP and Modbus for communication with PLC systems (such as Allen-Bradley or Siemens) on factory networks.
We provide technical assistance through remote commissioning, video training sessions, and diagnostic evaluations. Our systems carry a 2-year warranty on core components, including the laser source and galvo scanner heads. In case of issues, replacement parts are dispatched via fast shipping to minimize production line downtime.
Class 4 open laser engines require designated safety measures, including interlocked barriers, laser-safety eyewear matched to the source wavelength (e.g., 1064nm for fiber, 355nm for UV), warning indicator lights, and proper fume extraction systems. We offer fully enclosed, interlocked Class 1 workstations that simplify compliance on the shop floor.
Speak with our application engineers for custom system designs, sample testing on your materials, and compliance guidance for the Canadian market.
Average response time: < 8 hours. Full CAD drawing and configuration layout provided with every quotation.