Building skills for the future with CNC routers and laser cutters

<h4>Across Aotearoa&comma; schools are embracing advanced manufacturing technologies to inspire innovation&comma; foster critical thinking&comma; and better prepare students for the future&period; <&sol;h4>&NewLine;<p>In 2017&comma; the Technology learning area of <em>The New Zealand Curriculum<&sol;em> was revised to strengthen the positioning of Digital Technologies within the curriculum&period;<&sol;p>&NewLine;<p><a href&equals;"https&colon;&sol;&sol;www&period;schoolnews&period;co&period;nz&sol;latest-print-issue&sol;" target&equals;"&lowbar;blank" rel&equals;"noopener"><b>Read the latest print edition of <em>School News<&sol;em> online HERE&period;<&sol;b><&sol;a><&sol;p>&NewLine;<p>This change was designed to ensure that all learners can become digitally capable individuals &&num;8211&semi; not just users of technology&comma; but innovative creators&period; It reflects a broader national commitment to equipping students with the knowledge&comma; skills&comma; and confidence to design&comma; develop&comma; and deploy technologies that address real-world challenges&period;<&sol;p>&NewLine;<p>At the heart of this approach are digital tools such as CNC routers and laser cutters&comma; which are increasingly being integrated into schools across Aotearoa&period;<&sol;p>&NewLine;<p>No longer exclusive to industry settings&comma; CNC routers and laser cutters are becoming core features of school workshops&comma; design studios&comma; and makerspaces&comma; offering students valuable hands-on learning experiences&period;<&sol;p>&NewLine;<p>By integrating this equipment&comma; schools are enabling inquiry-based learning and encouraging students to explore&comma; experiment&comma; and problem-solve&period; These tools bring together multiple disciplines and offer creative&comma; technical&comma; and practical applications across the curriculum&period;<&sol;p>&NewLine;<h4><strong>CNC routing&colon; Creating with precision<&sol;strong><&sol;h4>&NewLine;<p>CNC &lpar;Computer Numerical Control&rpar; routing introduces students to the world of automated fabrication&period; With this technology&comma; students use computer-aided design &lpar;CAD&rpar; software to create digital models that are then precisely cut into materials such as wood&comma; plastic&comma; foam&comma; or aluminium&period; This process builds digital literacy while providing a solid understanding of materials&comma; design thinking&comma; and production workflows&period;<&sol;p>&NewLine;<p>CNC routing allows students to explore concepts in geometry&comma; physics&comma; and engineering while producing items like signs&comma; furniture components&comma; scale models&comma; and custom-designed parts&period; The process of planning&comma; designing&comma; and fabricating strengthens students’ understanding of cause and effect&comma; accuracy&comma; and spatial reasoning&period; It also enhances their capacity for iterative thinking&comma; as they learn to assess&comma; modify&comma; and improve their designs based on feedback and performance&period;<&sol;p>&NewLine;<h4><strong>Laser cutting&colon; Engaging the imagination<&sol;strong><&sol;h4>&NewLine;<p>Laser cutters are among the most versatile tools in a school setting&period; They allow students to cut&comma; engrave&comma; or etch designs into a wide range of materials&comma; from acrylic and plywood to cardboard and leather&period; Laser cutting is widely used across subjects&comma; including STEM&comma; the arts&comma; and design technology&comma; as it supports both creative expression and functional design&period;<&sol;p>&NewLine;<p>In a STEM setting&comma; students might use laser cutting to create parts for robotics or construct engineering models&period; In visual arts and media studies&comma; students may create intricate stencil designs&comma; layered artworks&comma; or display materials&period; In design and technology&comma; laser cutting provides an efficient method to realise product concepts or architectural plans with professional precision&period;<&sol;p>&NewLine;<p>The accuracy and speed of laser cutting make it an ideal tool for prototyping and production&period; It enables students to focus on problem-solving and iteration without being limited by traditional hand tools&comma; allowing them to take their ideas further&period;<&sol;p>&NewLine;<figure id&equals;"attachment&lowbar;33762" aria-describedby&equals;"caption-attachment-33762" style&equals;"width&colon; 562px" class&equals;"wp-caption aligncenter"><img class&equals;"wp-image-33762 " src&equals;"https&colon;&sol;&sol;www&period;schoolnews&period;co&period;nz&sol;wp-content&sol;uploads&sol;2025&sol;06&sol;SN69-TECH-routers-and-lasercutters-Makerspace-NZ-1-1024x576&period;jpg" alt&equals;"" width&equals;"562" height&equals;"316" &sol;><figcaption id&equals;"caption-attachment-33762" class&equals;"wp-caption-text">Image courtesy of Makerspace NZ<&sol;figcaption><&sol;figure>&NewLine;<h4><strong>To learn more about how this technology can be implemented in school environments&comma; <em>School News<&sol;em> spoke with <a href&equals;"https&colon;&sol;&sol;makerspace&period;co&period;nz&sol;" target&equals;"&lowbar;blank" rel&equals;"noopener">Makerspace NZ<&sol;a> Director and &OpenCurlyDoubleQuote;Chief Do-er” Marcus Lund&period;<&sol;strong><&sol;h4>&NewLine;<p><strong>How have CNC routing and laser cutting transformed the way students engage with hands-on learning and creative problem-solving&quest; <&sol;strong><&sol;p>&NewLine;<p>CNC routing and laser cutting machines have significantly transformed hands-on learning and creative problem-solving for school-age students by introducing accessible&comma; precise&comma; and versatile tools that bridge digital design with physical creation&period; These technologies empower students to engage in STEM&sol;STEAM education in a dynamic way&comma; fostering skills like critical thinking&comma; collaboration&comma; and innovation&period; <&sol;p>&NewLine;<p>Digital fabrication technology can facilitate enhanced creativity and design thinking by allowing students to develop original ideas and bring them to life through iterative design processes&period; It promotes hands-on engagement with technology&comma; giving learners practical experience with digital tools and materials in real-time&period; <&sol;p>&NewLine;<p>Through these experiences&comma; students strengthen their problem-solving skills by addressing real-world challenges that require critical analysis&comma; experimentation&comma; and revision&period; The use of CNC routing and laser cutting also supports interdisciplinary learning&comma; bridging subjects such as science&comma; technology&comma; engineering&comma; the arts&comma; and mathematics&period; Importantly&comma; these tools help prepare students for future careers by building digital fluency and exposing them to technologies commonly used in design&comma; engineering&comma; and manufacturing industries&period;<&sol;p>&NewLine;<p>Essentially&comma; CNC routing and laser cutting machines have revolutionised STEAM education by making hands-on learning interactive&comma; interdisciplinary&comma; and future-focused &&num;8211&semi; equipping students with the tools and mindset needed to tackle complex problems creatively&period;<&sol;p>&NewLine;<p><strong>What safety and accessibility considerations should schools prioritise when implementing this equipment&quest; <&sol;strong><&sol;p>&NewLine;<p><img class&equals;"alignleft wp-image-33763 size-medium" src&equals;"https&colon;&sol;&sol;www&period;schoolnews&period;co&period;nz&sol;wp-content&sol;uploads&sol;2025&sol;06&sol;SN69-TECH-routers-and-lasercutters-Makerspace-NZ-2-e1749083145551-240x300&period;jpg" alt&equals;"" width&equals;"240" height&equals;"300" &sol;>CNC Laser and CNC Router machines should always be purchased from reputable NZ- based suppliers who can provide machines with appropriate safety systems&comma; user training and ongoing support and machine servicing&period; <&sol;p>&NewLine;<p>Machines sourced directly from overseas are often lacking in safety systems and may not conform to local safety standards&comma; not to mention the lack of training and onsite service&period;<&sol;p>&NewLine;<p>There are several important safety aspects to consider when implementing digital fabrication technology in schools&period; Machines should be equipped with emergency stop buttons &lpar;E-stops&rpar; and interlocks to ensure they can be safely shut down in the event of a malfunction or emergency&period; <&sol;p>&NewLine;<p>Appropriate dust collection systems or fume extraction and filtration must be installed&comma; depending on the materials being used&comma; to maintain a safe and healthy working environment&period; <&sol;p>&NewLine;<p>Comprehensive training for both staff and students is essential&comma; with consideration given to age appropriateness and supervision requirements&period; Clear signage and restricted access to machine areas should be in place to prevent unauthorised or unsupervised use&period; <&sol;p>&NewLine;<p>Finally&comma; both routine user maintenance and scheduled maintenance provided by qualified suppliers are necessary to ensure machines remain in safe&comma; working order over time&period;<&sol;p>&NewLine;<p>By prioritising these safety and accessibility considerations&comma; schools can integrate CNC routers into their programs responsibly&comma; fostering a safe and inclusive environment where all students can explore digital fabrication and creative problem-solving&period; <&sol;p>&NewLine;<p><strong>Finally&comma; what advice would you give to schools looking to invest in CNC or laser cutting tools for the first time&quest;<&sol;strong><&sol;p>&NewLine;<p>Do your research&excl; Speak with fellow tech teachers from around NZ &&num;8211&semi; forums and Facebook groups can be really helpful for making these connections&period;<&sol;p>&NewLine;<p>It’s also important to have open conversations with suppliers&period; Ask them what options they can offer to meet your school’s specific needs&comma; and whether they can provide a comprehensive &&num;8220&semi;turnkey&&num;8221&semi; solution that includes delivery&comma; installation&comma; training&comma; and ongoing support&period; <&sol;p>&NewLine;<p>Reputable suppliers will stand by their products and offer the post-sale service that helps ensure long-term success&period;<&sol;p>&NewLine;