Do not hesitate to contact us, please share your contact details and we will be in touch as soon as possible.
You may contact directly via:
telephone: +44 758 815 5440
email : info@thinkspacetechnologies.com
or visit us at:
Thinkspace Technologies Ltd.
Office 5 The Round House
Dormans Park Road
East Grinstead, West Sussex
RH19 2EN United Kingdom
| Build envelope: 400 x 400 x up to 425 mm3 (x, y, z)(further z-axis lengths in development) |
| Layer thickness: 20 – 100 μm |
| Production speed: max. 4,5 m/s (depending on material, density, layer thickness) |
| Laser system: 3D optics with maximum power of 4 x 1,000 W |
| Focus diameter: 50 μm – 500 μm (dynamic focus adjustment) |
| Filter system: integrated with 2 x 20 m2 filter surface |
QM modules:
|
| Dimensions: 2158 x 2850 x 2365 mm3 (W x D x H) |
| Weight: approx. 5,700 kg |
| Operating conditions: 15 – 35°C |
Materials:
|
| Build envelope: 800 x 400 x 500 mm3 (x, y, z) |
| Layer thickness: 30 – 150 μm |
| Production speed: up to 120 cm3/h (depending on material, parameter, geometry) |
| Laser system: 2 fiber lasers, each 1,000 W (cw) |
| Max. scanning speed: 7 m/s |
| Focus diameter: approx. 100 – 500 μm |
| Heating: 9 kW, maximum temperature 200°C |
Connected loads:
|
Inert gas supply:
|
| Inert gas consumption: approx. 17 – 34 l/min |
| Dimensions: 5235 x 3655 x 3604 mm3 (W x H x D) |
| Weight: approx. 9200 kg (tare weight) |
| Operation conditions: 15 – 25°C |
| Necessary peripheral equipment: Sieving station, powder silo |
Materials:
|
Build envelope:
|
| Layer thickness: 15 – 50 μm |
| Production speed: 1 – 5 cm3/h (depending on material) |
| Laser system: Fibre laser 100 W (cw) |
| Max. scanning speed: 7 m/s |
| Focus diameter: approx. 50 μm |
| Fixation of the building plate: mechanical (clamping system being prepared) |
Connected loads :
|
| Inert gas supply: 1 gas connection provided / Nitrogen or Argon |
| Inert gas consumption: approx. 0,6 – 0,8 l/min* |
| Dimensions: 705 x 1848 x 1220 mm3 (W x H x D) |
| Weight: approx. 600 kg |
| Operating conditions: 15 – 35°C |
Materials:
|
| Build envelope: 250 x 250 x 280 mm3 (x, y, z) |
| Layer thickness: 20 – 80 μm |
| Production speed: 2 – 35 cm3/h (depending on material / laser power) |
| Laser system: 1 x 200 W (cw), optional 1 x 400 W (cw) |
| Scanning speed: 7 m/s, 4,5 m/s for variable focus move |
| Focus diameter: 50 μm, optional variable focus move (50 μm – 500 μm) |
| Reference clamping system (optional): EROWA, System 3R / others on request |
| Connected loads: Max. power consumption 7.4 kW |
| Power supply: 3/N/PE AC 400 V, 32 A, compressed air 5 bar |
| Inert gas supply: 2 gas connections provided N2 generator external (optional) |
| Inert gas consumption: < 1 m3/h |
| Filtering system: integrated, with a 20 m2 filter surface |
| Dimensions: 2542 x 1818 x 1987 mm3 (W x D x H) |
| Weight: approx. 2.400 kg |
| Operating conditions: 15 – 35°C |
Materials:
|
| Build envelope: 250 x 250 x 280 mm3 (x, y, z) |
| Layer thickness: 20 – 80 μm |
| Production speed: 2 – 35 cm3/h (depending on material / laser power) |
| Laser system: 2 x 200 W (cw), optional 2 x 500 W (cw) |
| Scanning speed: 7 m/s, 4,5 m/s for variable focus move |
| Focus diameter: 50 μm, optional variable focus move (50 μm – 500 μm) |
| Reference clamping system (optional): EROWA, System 3R / others on request |
| Connected loads: Max. power consumption 7.4 kW |
| Power supply: 3/N/PE AC 400 V, 32 A, compressed air 5 bar |
| Inert gas supply: 2 gas connections provided N2 generator external (optional) |
| Inert gas consumption: < 1 m3/h |
| Filtering system: integrated, with a 20 m2 filter surface |
| Dimensions: 2542 x 1818 x 1987 mm3 (W x D x H) |
| Weight: approx. 2.400 kg |
| Operating conditions: 15 – 35°C |
Materials:
|
Model material:
|
| Support material: FullCure® 705 non-toxic gel-like photopolymer support |
| Material cartridges: Sealed four 1 Kg (2.2 lbs) cartridges |
Size and weight:
|
| Net Build size: 234 x 192 x 148.6 mm (9.21 x 7.55 x 5.85 in) |
| Workstation compatibility: Windows XP, Windows 7, Windows 8 |
| Network connectivity: Ethernet TCP/IP 10/100 base T |
| Jetting heads: SHR (Single Head Replacement), 2 heads |
Power Requirements: Single phase:
|
| Regulatory Compliance: CE/FCC/RoHS |
| Operational Environment: Temperature 18 C - 25 C (64 F - 77 F); Relative Humidity 30 - 70 % |
Model material:
|
| Support material: FullCure 705 non-toxic gel-like photopolymer support |
| Material cartridges: Sealed four 1 Kg (2.2 lbs) cartridges |
| Net build size: 294 x 192 x 148.6 mm (11.57 x 7.55 x 5.85 in.) |
| Layer thickness: 28 microns (0.0011 in.) |
| Build resolution: X-axis: 600 dpi; Y-axis: 600 dpi; Z-axis: 900 dpi |
| Accuracy: 0.1 mm (0.0039 in.) may vary depending on part geometry, size, orientation, material and post-processing method |
Size and weight:
|
| Workstation compatibility: Windows XP, Windows 7, Windows 8 |
| Network connectivity: Ethernet TCP/IP 10/100 base T |
| Jetting heads: 2 printing heads; SHR (Single Head Replacement) |
Power requirements: Single phase:
|
| Regulatory compliance: CE/FCC/RoHS |
| Operational environment: Temperature 18 C-25 C (64 F-77 F); relative humidity 30-70 % (non-condensing) |
Model materials:
|
| Support material: FullCure 705 non-toxic gel-like photopolymer support |
| Material cartridges: Sealed four 1 Kg (2.2 lbs) cartridges |
| Net build size: 294 x 192 x 148.6 mm (11.57 x 7.55 x 5.85 in.) |
| Layer thickness: 28 microns (0.0011 in.); 16 microns for VeroClear material (.0006 in.) |
| Build resolution: X-axis: 600 dpi; Y-axis: 600 dpi; Z-axis: 900 dpi |
| Accuracy: 0.1 mm (0.0039 in.) may vary depending on part geometry, size, orientation, material and post-processing method |
Size and weight:
|
| Workstation compatibility: Windows XP, Windows 7, Windows 8 |
| Network connectivity: Ethernet TCP/IP 10/100 base T |
| Jetting heads: 2 printing heads; SHR (Single Head Replacement) |
Power requirements: Single phase:
|
| Regulatory compliance: CE/FCC/RoHS |
| Operational environment: Temperature 18 C-25 C (64 F-77 F); Relative Humidity 30-70 % (non-condensing) |
Model materials:
|
| Support material: FullCure 705 non-toxic gel-like photopolymer support |
| Material cartridges: Four sealed 1 Kg (2.2 lbs) cartridges |
| Net build size: 294 x 192 x 148.6 mm (11.57 x 7.55 x 5.85 in.) |
| Minimum layer thickness: 28 microns (0.0011 in.) for Tango materials; 16 microns (.0006 in.) for all other materials |
| Build resolution: X-axis: 600 dpi; Y-axis: 600 dpi; Z-axis: 1600 dpi |
| Accuracy: 0.1 mm (0.0039 in.) may vary depending on part geometry, size, orientation, material and post-processing method |
| Size and weight: Machine: 82.5 × 62 × 59 cm (32.28 × 24.4 × 23.22 in.); 106Kg/234lb |
| Workstation compatibility: Windows XP, Windows 7, Windows 8 |
| Network connectivity: Ethernet TCP/IP 10/100 base T |
| Jetting heads: 2 printing heads; SHR (Single Head Replacement) |
Power requirements: Single phase:
|
| Regulatory compliance: CE/FCC/RoHS |
| Operational environment: Temperature 18 C-25 C (64 F-77 F); Relative Humidity 30-70 % (non-condensing) |
Model materials:
|
| Support material: SUP707 soluble support works with VeroGray, VeroBlue and VeroClear in high-quality mode, or VeroWhitePlus in high-speed or high-quality mode. Other materials and print modes work with SUP705 gel-like photopolymer support. |
| Material cartridges: Sealed four 3.6 kg (7.9 lbs) cartridges |
| Net Build size: 255 × 252 × 200 mm (10.0 x 9.9 x 7.9 in.) |
| Layer thickness: Horizontal build layers as fine as 16 microns (0.0006 in.) |
| Build resolution: X-axis: 600 dpi; Y-axis: 600 dpi; Z-axis: 1600 dpi |
| Accuracy: 20-85 microns for features below 50 mm; up to 200 microns for full model size (for rigid materials only, depending on geometry, build parameters and model orientation) |
| Workstation compatibility: Windows 7 32/64-bit |
| Network connectivity: LAN – TCP/IP |
| Size and weight: 870 × 735 × 1200 mm (34.3 x 28.9 x 47.2 in.); 264 kg (582 lbs) |
| Jetting heads: SHR (Single Head Replacement), 8 units |
| Power requirements: 110–240 VAC 50/60 Hz; 1.5 KW single phase |
| Operational environment: Temperature 18 C-25 C (64 F-77 F); relative humidity 30-70% (non-condensing) |
Model materials:
|
Digital model materials: More than 100 digital materials can be manufactured on the fly including:
|
| Support material: SUP705 non-toxic gel-like photopolymer support |
| Material cartridges: Materials are sold in cases of four sealed 3.6 kg (7.9 lb) cartridges. VeroClear, Tango family, Durus and components of Digital ABS Green material also available as 1.44kg (3.17 lb) net weight in a 3.6kg case. Two different model materials can be loaded simultaneously, and printers are front-loading for quick replacement. |
Net Build size:
|
| Layer thickness: Horizontal build layers as fine as 16-microns (0.0006 in.) |
| Build resolution: X-axis: 600 dpi; Y-axis: 600 dpi; Z-axis: 1600 dpi |
Printing modes:
|
| Accuracy: 20-8 5um for features below 50 mm; up to 200 um for full model size (for rigid materials only, depending on geometry, build parameters and model orientation) |
| Input format: STL, OBJDF and SLC File Workstation compatibility: Windows 7 |
| Network connectivity: LAN – TCP/IP |
Size and weight:
|
| Print heads: 8 units |
| Power Requirements: 110–240 VAC 50/60 Hz; 1.5 KW single phase |
| Operational Environment: Temperature 18 C-25 C (64 F-77 F); relative humidity 30-70% (non-condensing) |
Model materials:
|
| Support material: FullCure 705 non-toxic gel-like photopolymer support |
| Material cartridges: Eight sealed 3.6 Kg (7.9 lbs) cartridges. Three different model materials can be loaded simultaneously in the high-capacity material cabinet, and can be hot-swapped. |
| Net build size: 255 × 252 × 200 mm (10.0 x 9.9 x 7.9 in.) |
| Layer thickness: Horizontal build layers as fine as 16 microns (0.0006 in.) |
| Build resolution: X-axis: 600 dpi; Y-axis: 600 dpi; Z-axis: 1600 dpi |
| Accuracy: 20-85 µm for features below 50 mm; up to 200 µm for full model size (for rigid materials only, depending on geometry, build parameters and model orientation) |
| Workstation compatibility: Windows 7 32/64-bit |
| Network connectivity: LAN – TCP/IP |
| Size and weight: 870 × 735 × 1200 mm (34.25 × 28.9 × 47.25 inches); 410 kg (902 lbs) |
| Material Cabinet: 330 x 1170 x 640 mm (13 x 46.1 x 26.2 in.) 76 kg (168 lbs) |
| Power Requirements:110–240 VAC 50/60 Hz; 1.5 KW single phase |
| Regulatory Compliance: CE, FCC |
| Operating Conditions: Temperature 18-25 °C (64-77 °F); relative humidity 30-70% (non-condensing) |
Model materials:
|
Digital Materials:
|
| Support material: FullCure 705 non-toxic gel-like photopolymer support |
| Material cartridges: Eight sealed 3.6 Kg (7.9 lbs) cartridges. Three different model materials can be loaded simultaneously in the high-capacity material cabinet, and can be hot-swapped. |
| Net build size: 255 × 252 × 200 mm (10.0 x 9.9 x 7.9 in.) |
| Layer thickness: Horizontal build layers as fine as 16 microns (0.0006 in.) |
| Build resolution: X-axis: 600 dpi; Y-axis: 600 dpi; Z-axis: 1600 dpi |
| Accuracy: 20-85 µm for features below 50 mm; up to 200 µm for full model size (for rigid materials only, depending on geometry, build parameters and model orientation) |
| Workstation compatibility: Windows 7 32/64-bit |
| Network connectivity: LAN – TCP/IP |
| Size and weight: 870 × 735 × 1200 mm (34.25 × 28.9 × 47.25 inches); 410 kg (902 lbs) |
| Material Cabinet: 330 x 1170 x 640 mm (13 x 46.1 x 26.2 in.) 76 kg (168 lbs) |
| Power Requirements: 110–240 VAC 50/60 Hz; 1.5 KW single phase |
| Regulatory Compliance: CE, FCC |
| Operating Conditions: Temperature 18-25 °C (64-77 °F); relative humidity 30-70% (non-condensing) |
Model materials:
|
Digital Materials: Hundreds of composite materials can be manufactured on the fly including:
|
| Support material: FullCure 705 non-toxic gel-like photopolymer support |
| Material cartridges: Eight sealed 3.6 Kg (7.9 lbs) cartridges. Three different model materials can be loaded simultaneously in the high-capacity material cabinet, and can be hot-swapped. |
| Net build size: 255 × 252 × 200 mm (10.0 x 9.9 x 7.9 in.) |
| Layer thickness: Horizontal build layers as fine as 16 microns (0.0006 in.) |
| Build resolution: X-axis: 600 dpi; Y-axis: 600 dpi; Z-axis: 1600 dpi |
| Accuracy: 20-85 µm for features below 50 mm; up to 200 µm for full model size (for rigid materials only, depending on geometry, build parameters and model orientation) |
| Workstation compatibility: Windows 7 32/64-bit |
| Network connectivity: LAN – TCP/IP |
| Size and weight: 870 × 735 × 1200 mm (34.25 × 28.9 × 47.25 inches); 410 kg (902 lbs) |
| Material Cabinet:330 x 1170 x 640 mm (13 x 46.1 x 26.2 in.) 76 kg (168 lbs) |
| Power Requirements:110–240 VAC 50/60 Hz; 1.5 KW single phase |
| Regulatory Compliance:CE, FCC |
| Operating Conditions: Temperature 18-25 °C (64-77 °F); relative humidity 30-70% (non-condensing) |
| Model material: ABSplus in ivory, white, blue, fluorescent yellow, black, red, nectarine, olive green or gray |
| Support material: SR-30 soluble |
| Maximum part size: 12.7 x 12.7 x 12.7 cm (5 x 5 x 5 in.) |
| Layer thickness: 0.178 mm (0.007 in.) |
| Workstation compatibility: Windows XP/Windows 7 |
| Size and weight: 63 x 45 x 53 cm, (25 x 18 x 21 in.); 27 kg (60 lbs.) |
Power requirements:
|
| Regulatory compliance: CE/TUV/KCC/RoHS/WEEE |
| Special facility requirements: None |
| Model material: ABSplus in ivory |
| Support material: SR-30 soluble |
| Build size: 203 x 152 x 152 mm (8 x 6 x 6 in.) |
| Layer thickness: .254 mm (.010 in.) |
| Workstation compatibility: Windows XP/Windows 7 Network connectivity: Ethernet TCP/IP 10/100 base T |
Size and Weight:
|
Power Requirements: uPrint SE:
|
| Regulatory Compliance: CE/ETL/RoHS/WEEE |
| Special Facility Requirements: None |
| Model material: ABSplus in ivory, white, blue, fluorescent yellow, black, red, nectarine, olive green or gray |
| Support material: SR-30 soluble |
| Build size: 203 x 203 x 152 mm (8 x 8 x 6 in.) |
| Layer thickness: .254 mm (.010 in.) or .330 mm (.013 in.) |
| Workstation compatibility: Windows XP/Windows 7 |
| Network connectivity: Ethernet TCP/IP 10/100 base T |
Size and weight:
|
| Power Requirements: 100–127 VAC 50/60 Hz, minimum 15A dedicated circuit or 220–240 VAC 50/60 Hz, minimum 7A dedicated circuit |
| Regulatory Compliance: CE/ETL/RoHS/WEEE |
| Special Facility Requirements: None |
| Model material: ABSplus in nine colors |
| Support material: Soluble (SST 1200es); breakaway (BST 1200es) |
| Build size: 254 x 254 x 305 mm (10 x 10 x 12 in.) |
| Layer thickness: 0.33 mm (0.013 in.) or .254 mm (.010 in.) |
| Workstation compatibility: Windows XP/Windows 7 |
| Network connectivity: Ethernet TCP/IP 10/100 base T |
| Size and weight: 838 x 737 x 1143 mm (33 x 29 x 45 in.); 148 kg (326 lbs.) |
Power Requirements:
|
Regulatory Compliance:
|
| Special Facility Requirements: None |
| Model material: ABSplus in nine colors |
| Support material: Soluble (SST 1200es); breakaway (BST 1200es) |
| Build size: 254 x 254 x 305 mm (10 x 10 x 12 in.) |
| Layer thickness: 0.33 mm (0.013 in.) or .254 mm (.010 in.) |
| Workstation compatibility: Windows XP/Windows 7 |
| Network connectivity: Ethernet TCP/IP 10/100 base T |
| Size and weight: 838 x 737 x 1143 mm (33 x 29 x 45 in.); 148 kg (326 lbs.) |
Power Requirements:
|
Regulatory Compliance:
|
| Special Facility Requirements: None |
| Material: ABSplus-P430 |
| Build envelope (XYZ): 254 x 254 x 305 mm (10 x 10 x 12 in.) |
| Material delivery: One build material cartridge and one support material cartridge, each 923 cc (56.3 in3) |
Layer thicknesses:
|
| Support structure: Soluble |
| Available colors: Ivory, black, blue, dark grey, fluorescent yellow, nectarine, olive green, red, white, and custom colors |
| System size/weight: 838 x 737 x 1143 mm (33 x 29 x 45 in.)/with crate: 186 kg (409 lbs.), without crate: 148 kg (326 lbs.) |
| Achievable accuracy: Parts are produced within an accuracy of ± .241 mm (± .0095 in.). (Accuracy is geometry dependent. Achievable accuracy specification derived from statistical data at 95% dimensional yield.) |
| Network communication: 10/100 base T connection; Ethernet protocol |
| Operator attendance: Limited attendance required for job start and stop |
| Operating environment: Maximum room temperature of 30 C (86 F) |
| Relative humidity range: 30 to 70 percent, noncondensing |
Power requirements:
|
| Regulatory compliance: CE/ETL |
| Software: All Fortus Systems include Insight and Control Center job-processing and management software. |
Materials: Fortus 360mc and 400mc:
|
Fortus 400mc only:
|
Build envelope options:
|
Material delivery options:
|
| Fortus Plus Upgrade option: A half-day customer support visit aligns material capabilities with Fortus Plus Systems, so you can access a growing list of FDM thermoplastics and share inventory across the complete range of Fortus 3D Production Systems. |
Layer thicknesses:
|
| Support structure: Soluble for most materials; break-away for PC-ISO, ULTEM and PPSF; soluble or break-away for PC |
| System size/weight: 1281 x 896 x 1962 mm (50.5 x 35.5 x 77.3 in.)/with crate: 786 kg (1,511 lbs.), without crate: 593 kg (1,309 lbs.) |
| Achievable accuracy: Parts are produced within an accuracy of ± .127 mm (± .005 in.) or ± .0015 mm/mm (± .0015 in/in), whichever is greater. (Accuracy is geometry dependent. Achievable accuracy specification derived from statistical data at 95% dimensional yield.) |
| Network communication: 10/100 base T connection; Ethernet protocol |
| Power requirements: 230 VAC, 50/60 Hz, 3 phase, 16A/phase (20 amp dedicated circuit required) |
| Regulatory compliance: CE |
| Special facility requirements: None |
Materials: Fortus 380mc and 450mc:
|
Fortus 450mc only:
|
Build envelope options:
|
Material delivery options:
|
Layer thicknesses:
|
| Support structure: Soluble for most materials; break-away for PC-ISO and ULTEM; soluble or break-away for PC |
| System size/weight: 129.5 x 90.2 x 198.4 cm (51 x 35.5 x 78.1 in.)/with crate: 680 kg (1,500 lbs.), without crate: 601 kg (1,325 lbs.) |
| Achievable accuracy: Parts are produced within an accuracy of ± .127 mm (± .005 in.) or ± .0015 mm/mm (± .0015 in/in), whichever is greater. (Accuracy is geometry dependent. Achievable accuracy specification derived from statistical data at 95% dimensional yield.) |
| Workstation Compatibility: Microsoft Windows 8.1 and Windows 8 (Pro, Enterprise), Microsoft Windows 7 (Pro, Enterprise, Ultimate), Microsoft Windows Vista (Business, Enterprise, Ultimate), Microsoft Windows Server 2008, Microsoft Windows Server 2003 |
| Network communication: 10/100 base T connection; Ethernet protocol Power requirements:
|
| Regulatory compliance: CE, TUV listed |
| Special facility requirements: None |
Materials:
|
| Build size: 914 x 610 x 914 mm (36 x 24 x 36 in.) Material delivery: Two bays each for material and support canisters For maximum material capacity and up to 400 hours of unattended run time, the optional Fortus Plus upgrade enables Xtend 500 Fortus Plus material use. |
| Fortus Plus Upgrade option: A half-day customer support visit aligns material capabilities with Fortus Plus Systems, so you can access a growing list of FDM thermoplastics and share inventory across the complete range of Fortus 3D Production Systems. |
Layer thicknesses:
|
| Support structure: Soluble for most materials; break-away for PC-ISO, ULTEM and PPSF; soluble or break-away for PC |
| System size/weight: 2772 x 1683 x 2027 mm (109.1 x 66.3 x 79.8 in.)/with crate: 3287 kg (7247 lbs.), without crate: 2869 kg (6325 lbs.) |
| Achievable accuracy: Parts are produced within an accuracy of ± .09 mm (± .0035 in.) or ± .0015 mm/mm (± .0015 in/in), whichever is greater. (Accuracy is geometry dependent. Achievable accuracy specification derived from statistical data at 95% dimensional yield.) |
| Workstation compatibility: Windows 2003 through Windows 8 |
| Network communication: 10/100 base T connection; Ethernet protocol |
| Power requirements: 230VAC nominal three-phase service with 5% regulation; 230VAC as measured phase-to-phase; 50Hz or 60Hz; 40 Amp circuit |
| Regulatory compliance: CE |
| Special facility requirements: None |
| Roboshot is the next generation of Artificial Intelligence (AI) in injection molding machines, with higher precision and reliable molding capabilities than ever before. Engineered for greater rigidity, Roboshot’s proven performance makes it the perfect solution for cleanrooms and other molding environments that demand precise process control, high speed injection and consistent repeatability. |
| Rigid 2-Piece Wide Platen ClampRoboshot Clamp: Roboshot’s moving platen now incorporates a new 2-piece structure designed to reduce platen deflection. |
| High Performance, Rigid, Low Friction Injection Unit: The S2000i-B Series injection units have been engineered for greater rigidity. |
| Precise 31-iB Control: Roboshot all-electric plastic injection molding machine ROBOSHOT’s 31-iB Control incorporates high-speed parallel processors with 64-bit technology. The 31-iB Control is equipped with:
|
| MOLD 24i Networking and Resin Evaluation Options: The MOLD 24i Option includes a quality radar for 40 items or more, molding parameter change log, run hour analysis, process monitor, and alarm log. |
| Rigid Toggle Mechanism: Clamp Movement by Ball Screw & Synchronous Belt Drive for Fast & Accurate Clamp Operation |
Fully Guided Multi Point Ejector:
|
| Bull Gear Mechanism: Simple & Accurate Mould Height Adjustment for Precise Tonnage |
Endura-II - Advanced User Friendly Control:
|
Compact Injection Unit:
|
The Drives:
|
| Superior Precision |
| Cycle Time Reduction: Parallel Movement of Axes |
| Shot Weight Consistency: Reduced Cost |
| Quick Barrel Exchange In Vertical Direction (up to IU 630): IU 970 onwards Barrel Swivel Mechanism |
Robust & Rugged Toggle Mechanism:
|
| Bull Gear Mechanism: Simple & Accurate Mould Height Adjustment for Precise & Consistent Tonnage |
Multi Stage Ejection:
|
| Generous Mould Space: Accommodates Large Moulds |
Wide Skates for Platen Supports:
|
Endura-II, Advanced User Friendly Control:
|
Closed Loop PID Temperature Control:
|
| Twin Cylinder Injection Unit: Uniform Load Distribution across Screw Centerline |
| Precise Linear Guideways: Frictionless Linear Bearing Guideways improve the Injection Power & Cylinder Alignment |
| Replacement of Standard Induction Motor with Servo Motor: Energy savings up to 50% |
| Automatic Grease Lubrication for Clamping Unit: Ensures continuous & optimum Lubrication to Reduced Friction & Longer Toggle Life |
| Fully Guided Knock Out Bar: Provides Multi Point Ejection & Even Ejection Force |
| Finite Element Analysis (FEA) for Machine Components: Provides Maximum Strength to Weight Ratio |
| Hydraulic Valves Mounted Close to Actuators: Fast Response From Actuator to Control Unit |
| Unique Prefill Cylinder Design: Fast Tonnage Built-up Time |
Large Ram Diameter:
|
| Generous Mould Space: Accommodates Large Moulds |
Wide Skates for Platen Supports:
|
Closed Loop PID Temperature Control:
|
Endura-II - Advanced User Friendly Control:
|
| Twin Cylinder injection Unit: Uniform Load Distribution across Screw Centerline |
| Finite Element Analysis (FEA) for Machine Components: Provides Maximum Strength to Weight Ratio |
| Mono Seal & No Piston Rings: Long Life of Sealing System, Ease of Maintenance |
| Fully Guided Knock Out Bar: Provides Multi Point Ejection & Even Ejection Force |
| Hydraulic Valves Mounted Close to Actuators: Fast Response From Actuator to Control Unit |
Robust & Rugged Toggle Mechanism:
|
Multi Stage Ejection
|
| Generous Mould Space: Accommodates Large Moulds |
Wide Skates for Platen Supports
|
| Closed Loop PID Temperature Control: Provides precise Temperature Control, Excellent Process Control & Stability |
Endura-II, Advanced User Friendly Control
|
| Twin Cylinder Injection Unit: Uniform Load Distribution across Screw Centerline |
| Replacement of Standard Induction Motor with Servo Motor: Energy savings up to 50% |
| Fully Guided Knock Out Bar: Provides Multi Point Ejection & Even Ejection Force |
| Hydraulic Valves Positioned Near Actuators: Fast Response & Accurate Control |
| Finite Element Analysis (FEA) for Machine Components: Provides Maximum Strength to Weight Ratio |
CAN Bus System with Servo System:
|
Robust & Rugged Toggle Mechanism:
|
| Bull Gear Mechanism: Simple & Accurate Mould Height Adjustment for Precise & Consistent Tonnage |
Multi Stage Ejection:
|
| Generous Mould Space: Accommodates Large Moulds Wide Skates for Platen Supports
|
Endura-II, Advanced User Friendly Control:
|
Closed Loop PID Temperature Control:
|
| Twin Cylinder Injection Unit: Uniform Load Distribution across Screw Centerline |
| Precise Linear Guideways: Frictionless Linear Bearing Guideways improve the Injection Power & Cylinder Alignment |
| Replacement of Standard Induction Motor with Servo Motor: Energy savings up to 50% |
| Automatic Grease Lubrication for Clamping Unit: Ensures continuous & optimum Lubrication to Reduced Friction & Longer Toggle Life |
| Fully Guided Knock Out Bar: Provides Multi Point Ejection & Even Ejection Force |
| Finite Element Analysis (FEA) for Machine Components: Provides Maximum Strength to Weight Ratio |
| Hydraulic Valves Mounted Close to Actuators: Fast Response From Actuator to Control Unit |
| Unique Prefill Cylinder Design: Fast Tonnage Built-up Time |
Large Ram Diameter
|
| Generous Mould Space: Accommodates Large Moulds |
Wide Skates for Platen Supports:
|
Closed Loop PID Temperature Control:
|
Endura-II - Advanced User Friendly Control:
|
| Twin Cylinder injection Unit: Uniform Load Distribution across Screw Centerline |
| Finite Element Analysis (FEA) for Machine Components: Provides Maximum Strength to Weight Ratio |
| Mono Seal & No Piston Rings: Long Life of Sealing System, Ease of Maintenance |
| Fully Guided Knock Out Bar: Provides Multi Point Ejection & Even Ejection Force |
| Hydraulic Valves Mounted Close to Actuators: Fast Response From Actuator to Control UnitServo |
| Advanced Clamp Design: Separate Prefill Tank, Fast Tonnage Build-up, Special Hydraulics for Fast Clamp Movements |
| Large Ram Diameter: Provides Uniform Force Distribution across Platen, Provides Excellent Mould Squareness & Parallelism, Reduces Mould Wear |
| Generous Mould Space: Accommodates Large Moulds |
| Wide Skates for Platen Supports: Reduced Platen Deflection, Enhanced Life of Tie-bars, Higher Mould Carrying Capacity |
Endura-II, Advanced User Friendly Control:
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| Closed Loop PID Temperature Control: Provides precise Temperature Control, Excellent Process Control & Stability |
| Twin Cylinder Injection Unit: Uniform Load Distribution across Screw Centerline |
| Precise Linear Guideways: Frictionless Linear Bearing Guide ways improve the Injection Power & Cylinder Alignment |
| Replacement of Standard Induction Motor with Servo Motor:Energy savings up to 50% |
| Finite Element Analysis (FEA) for Machine Components |
| Fully Guided Knock Out Bar: Provides Multi Point Ejection & Even Ejection Force |
| Mono Seal & No Piston Rings: Long Life of Sealing System, Ease of Maintenance |
| Hydraulic Valves Mounted Close to Actuators: Fast Response From Actuator to Control Unit |
| More Use of Hoses: Quieter Machine Operation |
Robust & Compact Two Platen Clamping Mechanism:
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Fully Guided Multipoint Ejector on Fly:
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Rigid Base Construction:
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Endura-II - Advanced User Friendly 10.4" TFT Controller (500 to 1000 Ton):
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| Hydraulic Valves Mounted Close to Actuators: Fast Response From Actuator to Control Unit |
| Precise Linear Guideways: Lower Friction Linear Bearing Guideways improve the Injection Power & Cylinder Alignment |
| Energy Efficient Hydrualics: Electro-Hydraulic Variable Volume Pump for Low Energy Consumption |
Robust & Rigid Clamp:
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Precision Processing Performance:
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| xternal Measures: It is a robust 3D industrial printing device (11 x 7 ratio) of the latest design with pressure-tight enclosure. The production chamber is specially designed for the use of different ceramic, metal and composite materials. |
| Production technology:The 3D printing machine allow you to produce custom-made components and prototypes by high-energy laser beam developed layers time efficiently at competitive costs. Production parameters can be adjusted at a wide range according to the materials and the geometrical design. |
| Preparing materials: The 3D printer is equipped with an independent preparation unit for unique ceramic composite materials for for research or serial production, under controlled conditions. |
| Control: Local or remote device and production control mode, the printer is equipped with own software and intuitive user interface. |
| Testing environment: Machine to perform preliminary tests for various manufacturing parameters and conditions with the same technology with economic testing equipment. |