Hong Kong Office: Flat 2, 10/F, Fuk Hong Industrial Building, 60-62B Tong Mi Road, Mongkok, Kowloon, Hong Kong H.K. Tel: (852) 3188 2335 H.K. Fax: (852) 3188 4883 China Dongguan Office: Jinsha Admin. Distric, Chang An Town, Dongguan, China China Tel: (86) 769 2186 0299 China Fax: (86) 769 8544 8821 Web: http://www.frontiertech.com.hk Email: info@frontiertech.com.hk
Frontier Advanced Technology Ltd. is a 3D laser scanning technology leader in the global market and the core R&D team accumulated over 14 years of experience in laser-based measurement technology and applications. Our R&D team built the first 3D scanner in 1996 in Hong Kong and invented 12 machinery related patents since 1996. In recognition of our advanced technology and the outstanding contribution to the industries, Frontier received the Hong Kong Awards for Industries in both 2007 & 2008. Based on its proprietary technologies, Frontier develops a wide range of specialized reverse engineering and measurement solutions for various applications including: footwear design, toys design, electron product design, Jewelry product design, domestic product design, molding making, gift and souvenir, dental application, footwear mass customization system as well as custom made foot orthoses system. Frontier continuously develops new core techniques ever since its foundation in 2004 and is always maintains the leading position in laser-based measurement over the global market. Hong Kong Awards for Industry Winner for 2007 & 2008 Proprietary Technology Patents P.1 P.2
Applications in Shoe Industry: Last Production and Inspection Scan Shoe to Create Last No Need to Damage Shoe Sample No Distortion and Keep Original Style Last Inspection Scan shoe head 3D Shoe Head Remove Leather in software to create last head Auto 3D non-contact Scan 3D last with front & rear parts scanned New last modified with the scan data Connect last head to last to create new last Create inspection card using scanned data for cutting machine Scan Shoe to Last Head Case 1: Scan Shoe to Last Head Case 2: Non-contact 3D scanning, scan lasts without deformation / distortion Last Production Last Grading / Design Support Shoe Last Milling Machine Support EasyLast in Grading and shoe design No need to use gypsum to copy shoe head, avoiding deformation / distortion P.3 P.4
Plastic Shoes Wooden Moulds Shoe Legs Shoe Bottoms Others P.5 P.6
Scan 3D and Color Data in 1 Sweep Matching of Shoe Leg and Shoe Last Shoe leg and shoe last Create surface based on the curvature of last bottom Scan 3D II is able to scan both 3D shape and color texture at 1 sweep Modify the shoe leg using the created Matching of shoe leg and shoe User can scan the design curve drawn on last for design purpose or leather cutting IGES Format Conversion Support CAD System in Design Modification Conversion from scanning data (STL format) to IGES surface for modification Link with shoe design system, such as ShoeMaster and Lectra, etc. Auto segmenting scan data to several region and create IGES surface Capture the scanned color curves for leather cutting Modification & Re-Design Allow Painting on STL File to Preview Shoe Design Modify scan data in CAD system Extract feature curves for re-design P.7 P.8
Accessories Inspection Computerized Inspection Card Making Create inspection card Directly from scan data Manufacturing Support CNC Milling Centre for Mould Production Create inspection card Directly from scan data Support direct toolpath generation using the scan data (Both STL & IGES format support toolpath generation) Create inspection card of the shoe bottom from the shoe or the bottom part Support Rapid Prototyping System to Build Prototype Support STL output format for RP machine Create inspection card of the shoe bottom and base from the scanned shoe data P.9 P.10
Toy Cars Art Works Toy Figures Mechanical Parts Electronic Products Brassiere Cups and Moulds Souvenirs Domestic Products and Spectacles P.11 P.12
Moulds Application Case : Direct Toolpath Generation Automatic Align and Merge 3D STL Model Jewelry Products 3D Scan Build Rapid Prototype Flow of Auto Surfacing Photo Frames Support Quick IGES Surface Creation Auto grid creation on the scan data to generate IGES surface Dental Products Auto segmenting data to grids Auto creation of IGES surface Complete 3D Scan Data Create 3D curve based on the feature manually, and Auto create IGES surface for modification Compatible with CAD system (e.g. UG & Pro-E) to modify design P.13 P.14
40X Faster than Traditional Laser Scan- ners Adopt German High Resolution and High Speed Laser Sensors and Laser Optical Components Adopt German Imported Slides Adopt Japanese High Quality Close-Loop Controller and Motors Patented Technology, Patented No. (200520054113.6), (200520054112.1) Support Multi-Language Control Interface (English, Chinese Traditional and Chinese Simplified ) L-Size Direct CNC Toolpath Generation Optional Accessory: 4 Axis Fully Automatic Scanning module Color and Texture Scanning Module Automatic Align and Merge 3D Computerized STL Model Building Rapid Prototypes Multi Functions Scan 3D Specifications Model Scan 3D - High Speed Scan 3D II - Precision Scan 3D II - High Speed Scan 3D II - High Speed + Dimension 40(L) x 43(W) x 59(H) inch (Several Size Available) Scan Volume Small : 360x300+Laser Length x400mm 3 / Medium : 460x400+Laser Length x400mm 3 / Large : 600x400+Laser Length x530mm 3 Laser Type Linear Repeatability Linear Accuracy Class II laser, 670nm, Visible red spectrum +/- 0.01 mm +/- 0.01 mm Optical Resolution +/- 0.05(Y) 0.10(Z) mm +/- 0.03(Y) 0.05(Z) mm +/- 0.05(Y) 0.10(Z) mm +/- 0.08(Y) 0.15(Z) mm Standard Deviation <30μm <15μm <30μm <50μm Stand-off Distance 150mm Laser Length 36mm 36mm 56mm 70mm Scan Speed 18,000 pts/sec 48,000 pts/sec Scan Software Output Format Operating Voltage Scan 3D IGES, DXF, ASCII Point Cloud Format, OBJ, STL Triangulated Surface Format, FCS, VRML, X3D 110V / 220V AC, 50Hz *Remark: Product specifications, pictures and materials are only for reference. We reserve the right to make changes without notice. P.15 P.16
20X Faster than Traditional Laser Scanners Scan Last in 4 min Building Rapid Prototypes Support Shoe Last Milling Grading and Redesign in software Create inspection card using scanned data Scan 3D II Vantage Specifications Model Vantage E Vantage V Vantage HS+ Vantage HS Dimension 45 cm (L) x 52 cm (W) x 77 cm (H) Scan Volume 220 x 300 (Z) mm 3 160 x 300 (Z) mm 3 220 x 300 (Z) mm 3 160 x 300 (Z) mm 3 Rotation/ Movable Range Laser Type Rotary Axis A (auto) : 360 o Movable Axis Z (auto) : 300mm Rotary Axis B (manual) : 30 o Movable Axis X (manual) : 80mm Class II laser, 670nm, Visible red spectrum Linear Repeatability +/- 0.01mm / 0.028 Deg Linear Accuracy +/- 0.01mm / 0.028 Deg Standard Deviation <10μm <80μm <50μm <30μm Laser Length 70mm 58mm 70mm 56mm Scan Speed 23,040 pts/sec 30,720 pts/sec Optical Measurement Min Pt Dist. 0.12mm (u) 0.27mm (v) 0.09mm (u) 0.17mm (v) 0.08mm (u) 0.15mm (v) 0.05mm (u) 0.10mm (v) Scan Software Output Format Operating Voltage Scan 3D Pro (English & Chinese Interface) IGES, DXF, ASCII Point Cloud Format, OBJ, STL Triangulated Surface Format, FCS, VRML, X3D 110V / 220V A.C., 50Hz *Remark: Product specifications, pictures and materials are only for reference. We reserve the right to make changes without notice. Optional Accessory: Color and Texture Scanning Module Scan3D II Rotary Specifications Model No. Dimension Scan3D II Rotary 40(L) x 43(W) x 59(H)inch Scan Volume Diameter 220 x 400 mm 3 Laser Type Linear Repeatability Linear Accuracy Optical Resolution Standard Deviation Stand-off Distance Laser Length Scan Speed Scan Software Output Format Operating Voltage Class II Laser, 670nm, Visible Red Spectrum +/- 0.01mm +/- 0.01 Deg +/- 0.01mm +/- 0.02 Deg +/- 0.10mm (Z) +/- 0.20mm (Rad) < 0.10 mm ~150 mm 85 mm 48,000 pts/sec Scan 3D IGES, DXF, ASCII Point, OBJ, STL, FCS, VRML, X3D 110V / 220V A.C., 50Hz *Remark: Product specifications, pictures and materials are only for reference. We reserve the right to make changes without notice. P.17 P.18
Scan Foot in 9 sec The Scan 3D FS supports a wide range of industrial standardized 3D file formats, including DXF, STL, OBJ, IGES and VRML. Most of the CAD/CAM systems, including last and footwear design systems (e.g. Shoemaster, Lectra, Delcam Crispin and EasyLast 3D) support one/all of these formats. Scan foot in 9 sec Select the types of last Auto measure 40 pre-defined foot dimensions Support user defined measurement and auto measurement after scanning Build in foot measurement and database Build in client info database Support design CAD system for foot orthotics and insoles production Support custom-made made of personalized footwear Support Auto-Grading software to create last based on the foot scan data Production of last for customized shoes Build-in Client and Measurement Database Scan 3D Foot Scanner Specifications Model No. Foot Scanner F20 Foot Scanner F20 Dimension 850mm(L) x 510mm(W) x 445mm(H) Scan Volume 350 x 170 x 140 mm 3 Laser Type Class II Laser, 670nm, Visible Red Spectrum Optical Resolution Linear Repeatability Linear Accuracy +/- 0.35mm +/- 0.01mm +/- 0.01mm Standard Deviation +/- 0.35mm Scan Speed 76,800 pts/sec 51,200 pts/sec Scan Time 9 sec/foot 18 sec/foot Scan Software Scan 3D Pro Support User Defined Measurement Output Format Operating Voltage IGES, DXF, ASCII Point, OBJ, STL Triangulated Surface Format, FCS, VRML, X3D 110V / 220V A.C., 50Hz *Remark: Product specifications, pictures and materials are only for reference. We reserve the right to make changes without notice. P.19 P.20
Scan Foot in 9 sec Fast and Accurate 3D Scanning for Custom Orthotics Making The Scan 3D FS supports a wide range of industry standard 3D file formats including DXF, STL, OBJ, IGES and VRML. Virtually all existing CAD/CAM systems, including those used for orthotic design and manufacture, support one or all of these formats. The patient simply places a foot on a transparent plate and the scan process takes only 9 seconds with a simple click in the software. Scans can be taken with the foot either weight-bearing, partial-weight bearing or non-weight bearing. The foot can also be held in a corrective position if required. Optional Rotary Axis Support rotary scan to transform the scanner into a 360 degree full view scanner to capture all product details Scan 3D Foot Scanner Specifications Auto measure 40 pre-defined foot dimensions Build-in patient & measurement database Support user define measurement and auto perform measurement after scan Build in foot measurement and database Build in client info database Support design CAD system for foot orthotics and insoles production Support mass customization of foot orthoses for diabetic and arthritic foot Model No. Scan 3D FS1 Scan 3D FS2 Dimension 720mm(L) x 440mm(W) x 220mm(H) Scan Volume 170 x 120 x 350 mm 3 Laser Type Class II Laser, 670nm, Visible Red Spectrum Optical Resolution 0.12mm(H) x 0.22mm 0.23mm(H) x 0.40mm(V) Linear Repeatability 0.006mm Linear Accuracy 0.01mm Standard Deviation 0.18mm 0.34 mm Scan Speed 48,000 pts/sec 19,200 pts/sec Scan Time 9 sec/foot Scan Software Scan 3D Pro Output Format IGES, DXF, ASCII Point Cloud Format, OBJ, STL Triangulated Surface Format, FCS, VRML, X3D Operating Voltage 110V / 220V A.C., 50Hz *Remark: Product specifications, pictures and materials are only for reference. We reserve the right to make changes without notice. Using Rotary Scan to scan insole / shoe pads and accessories P.21 P.22