BEGIN YOUR FUN ADVENTURE WITH LASER ENGRAVING MACHINE NOW !
Enhance your quality of learning towards CNC machine with the help of our laboratory manuals
INNOV8’s KEY STRENGTH
USER-FRIENDLY
The instructions are clearly articulated and easy to comprehend
IN-DEPTH LESSON
Significant topics are thoroughly covered and explained with clarity
CUSTOMIZED MATERIAL
Materials are deliberately selected to optimize the learner’s understanding
WHY USE THE SCULPFUN S9 CNC MACHINE?
CHEAPEST CUTTING BEAST
Advanced laser beam shaping technology offers similar performance to a 90W CO2 laser, cutting up to 15mm thick wood at a lower cost
ULTRA-THIN 0.1mm ENGRAVING LINE ULTRA-THIN 0.1mm ENGRAVING LINE
Ultra-fine beam and high energy density allow easy engraving on ceramics and stainless steel
WIDELY COMPATIBLE DESIGN
S9 laser module features a versatile connection device compatible with various laser engraving machines
MEET OUR DEVS
ANTONIO, ANGELICA
BAÑARES, SHARMAINE
BOLISTA, VIVIEN
GUILLARTE, GLORIEMER
RIVERA, TRISTAN
VIDANES, DEXTER
MISSION
Our mission is to transform education by developing innovative edutainment learning modules that integrate CNC laser technology. We aim to create user-friendly and engaging learning experiences that inspire creativity, foster practical skills, and make complex concepts accessible to learners of all ages.
VISION
Our vision is to be a global leader in edutainment solutions, empowering educators and learners with cutting-edge tools that combine education and entertainment. We strive to advance the future of learning through technology, ensuring every user can explore, create, and achieve their fullest potential with ease and enjoyment.
Computer Numerical Control (CNC) machines are automated tools used in the manufacturing sector to create industrial parts without the need for direct human intervention. They function through pre-set sequences of commands programmed into a computer, ensuring high precision, consistent results, and efficient production processes. CNC machines are versatile, capable of performing tasks such as cutting, drilling, and milling across various materials including metals, plastics, wood, and composites. This technology has transformed manufacturing by minimizing manual labor while enhancing both the accuracy and speed of production.
Laser engraving machines utilize laser technology to inscribe designs, patterns, or text onto a wide range of materials such as metals, wood, glass, and plastics. These devices function by aiming a high-energy laser beam at the material’s surface, which vaporizes or removes a layer to achieve the desired design. The operation is managed by computer software that directs the laser with exceptional precision. Renowned for its capacity to create intricate and detailed designs swiftly and with minimal waste, laser engraving is a favored method in manufacturing, art, and product personalization.
OWN YOURSELF A SCULPFUN S9 LASER ENGRAVING MACHINE
Embark your fun learning with us! Collection of product, software and learning module are stated below with lowest price offered.
BUNDLE
Bundle #1
₱499
Inclusions:
- Free-use of the Sculpfun S9 Laser Engraving Machine and its accessories (Client is responsible for any damages)
- Necessary software for experimental activities
- Unlimited access to Edutainment Learning Module – Includes 11 Experiments
- After-sales service (Valid for one year only)
- Free 3 mm-thick wood sheet
Bundle #2
₱399
Inclusions:
- Free-use of the Sculpfun S9 Laser Engraving Machine (Client is responsible for any damages)
- Lightburn license is provided (Good for 3 desktops)
- Unlimited access to Edutainment Learning Module – Includes 11 Experiments
- After-sales service (Valid for six months only)
Bundle #3
₱199
Inclusions:
- Free-use of the Sculpfun S9 Laser Engraving Machine (Client is responsible for any damages)
- The software required for the experiments must be provided by the client
- Unlimited access to Edutainment Learning Module – Includes 7 Experiments
SCULPFUN S9 PRODUCT DESCRIPTION:
- With its ultra-fine 0.06mm laser focus, 90W effect laser beam shaping technology, and super cutting penetration and precision, S9 can cut up to 15mm thick wood, 10mm acrylic, directly engrave ceramics, and 304 stainless steel—achievements that are nearly beyond the reach of a 90W CO2 laser.
- The machine’s full-metal structural design increases engraving accuracy and makes it extremely robust. The entire structure is made to be easily assembled, taking about ten to twenty minutes to finish. The structural frame is still upgradeable and incredibly robust. You can replace the broken laser with a new one while it’s in use. Or to increase the engraving area, swap out the longer metal beams.
- The focus design of S9 is the fastest. A sliding design and a fixed focus lens are combined in the S9 laser. To finish the focusing, just slide the laser and tighten the screws. As a result, using the laser is relatively simple.
- 98% of the ultraviolet light that could harm eyes is blocked by the laser filter cover. Without the need for goggles, you and those in your vicinity can observe laser engraving. It can also shield animals from the laser spot at the same time.
- The machine works with a variety of technical engraving programs, including LaserGRBL, LightBurn, Benbox, GrblController, and LiteFire. It also supports PWM mode engraving, works with both Windows and Mac operating systems (for LightBurn), and works with a variety of engraving file formats, including JPG, PNG, DXF, SVG, AI, G-code, NC, and BMP.
- The machine has a very useful power switch that is not found on other models. To make it easier to fix the machine and the data connection, fixing holes have been conserved on the four feet and the body structure.
- The provided A4-sized steel pad guards against fire dangers and laser damage to the table.
- Accurate scale lines on the X- and Y-axes make it easy for you to rapidly gauge the size of engraved objects. Your varied engraving needs can be covered by the 410x420mm large-area engraving interval.
CAD/CAM-Assisted Edutainment Learning Module
ABSTRACT
This research paper presents an educational approach that utilizes Edutainment Learning Modules to integrate Computer-Aided Design and Computer-Aided Manufacturing (CAD/CAM) technologies. The aim of this research is to evaluate the effectiveness of the Learning Module under evaluation. Specifically, the study evaluates its capacity to enhance learning experiences in an entertaining style, with the aim of encouraging student engagement, retention, and skill development. The research paper determines the development process of a CAD/CAM-Assisted Edutainment Learning Module, with particular emphasis on its conceptual framework, functionality, and design principles. The research outcomes offer significant knowledge regarding the integration of CAD/CAM software into an edutainment learning module for the purpose of creating a prototype—specifically, a wooden drone paired with its learning module—that demonstrates the module’s effectiveness in enhancing the learning experiences of third and fourth-year students, as well as professors in the Electronics Engineering department. These results encourage the potential of the module to shift traditional learning methods. Furthermore, this study examines the implications and recommendations pertaining to educational practices, thereby offering educators useful information, and laying the foundation for future developments in this field. This study aims to evaluate the effectiveness of the CAD/CAM-Assisted Edutainment Learning Module among third and fourth-year Electrical and Computer Engineering (ECE) students. The research addresses key questions regarding the design, programming, and precision manufacturing processes of the learning module, as well as its functional suitability, maintainability, reliability, portability, and usability. Using descriptive and inferential statistics, particularly Analysis of Variance (ANOVA), the study assesses the module’s effectiveness across these dimensions. Data were collected from 146 ECE students at Rizal Technological University-Main Campus, with the majority being male (73.97%) and aged 21 (51.37%). Results show positive evaluations across all dimensions, with average ratings indicating strong agreement on the module’s effectiveness. The ANOVA results reveal no significant differences in effectiveness across the evaluated dimensions (p=0.73). The study concludes that the module is a valuable educational tool, demonstrating consistency and high performance in functional suitability, usability, reliability, maintainability, and portability. Recommendations include continuous improvement, enhanced training and support, integration into the curriculum, and fostering collaboration and knowledge sharing among educational institutions. This comprehensive evaluation highlights the potential of the CAD/CAM-Assisted Edutainment Learning Module in enriching the learning experiences of ECE students.
RECOMMENDATIONS
Based on the findings of the study, the following recommendations are proposed:
1. Continuous Improvement
While the CAD/CAM-Assisted Edutainment Learning Module demonstrated overall effectiveness, there is always room for improvement. Regular feedback from students should be solicited to identify areas for enhancement, whether in terms of user interface design, instructional clarity, or additional features to enrich the learning experience.
2. Training and Support
Providing adequate training and support to both students and instructors can further enhance the utilization of the module. Workshops, tutorials, and online resources can help students familiarize themselves with the software and maximize its potential for learning.
3. Longitudinal Study
Conducting a longitudinal study to assess the long-term impact of the module on students’ learning outcomes and professional development could provide valuable insights. Tracking students’ progress over an extended period can offer a comprehensive understanding of the module’s effectiveness beyond immediate perceptions.
4. Integration into Curriculum
Integrating the CAD/CAM-Assisted Edutainment Learning Module into the ECE curriculum as a core component can ensure its sustained use and relevance. Collaborating with faculty members to incorporate module activities into coursework can foster seamless integration and maximize learning outcomes.
5. Collaboration and Knowledge Sharing
Encouraging collaboration and knowledge sharing among institutions and stakeholders can promote broader adoption and dissemination of the module. Sharing best practices, resources, and experiences can facilitate mutual learning and collective improvement in ECE education.