CNC router finds application in architectural mill work, aluminum and metal composite cladding, sign-making, graphics & print finishing, wood working, plastic fabrication, metal fabrication, foam packaging, die maker, duct maker, solid surface, MDF cutting, 3D panel mold making, 3D plastic trimming, residential & commercial constructions & many more
We provide double spindle for faster working performance, and Rotary Attachment (optional).
SIL built CNC router for manufacturers who process large volumes of cladding materials and rely on speed and efficiency.
CNC router machine has built in X, Y axis drive system. A single-piece, heavy-duty steel frame, coupled with a helical rack drive system and high tolerance bearing components, delivers high-accuracy motion and quality cutting.
Optional 3.0 KW / 5.5 KW / 9 KW spindles of various power.
Handheld DSP Controller to set job parameter.
Water cooled / air cooled spindle for longer life & guaranteed machine performance.
Available in many sizes from small to large and Special size table. From 4 x 4ft ~ 7 x 21 ft. Vacuum table or aluminum T- slot extrusion table. Automatic lubricating system. Mist cooling system. Machine moving feet, Manual tool changer spindle.
Excellent speed, efficiency, high precision CNC engraver router machine built in X, Y Axis drive system rack and pinion with 25 mm square linear rails achieving high positioning, motion accuracy & longer life.
Working Table with aluminum T-slot and PVC sheet for protection of worktable which ensures for longer life.
Technical Specifications-
SPECS/MODEL SIL 1325 SIL 1530
X, Y Z Working area 1300x2500x250 mm 1500x3000x250 mm
Resolution ± 0.03/300 mm
Repeatability ± 0.03 mm
CNC Spindle 3 KW / 5.5 KW / 12 KW Power Spindle with Air Cooling / Water Cooling Mechanism
Max. RPM 0-24000 rpm
Max Working Speed 0-18000 rpm
Max. Consume Power 5.5 KW 7.2 KW
lathe Structure Welding Steel Structure
X,Y,Z Structure Rack Pinion, Ball Screw linear Rails
Working Voltage AC 220V, 50/60 Hz, Single Phase / AC 415V, 50/60 Hz, Three Phase
Working Mode Stepper / Servo
Table T-slot / Vacuum bed / Water bed
Linear Guide Hg 20 for X,Y & Z
Command Code G Code ( *nc, *mmg, *plt, *cnc)
Operating System DSP Control System
Memory 128 MB (or Flash Drive)
Inverter SIL Make / Crompton Greaves / Delta
Optional 1: Rotary Attachment Size Diameter 125mm, Length 1300mm
Optional 2: Vacuum Adsorption / Water bed with T- Slot Table
Dust Collector With Dust Collector Hood
Features-
Laser Marking Machine
Fiber laser marker can do, such as surface marking, deep engraving, cutting, etc., in both the jewellery and industrial sectors. It is particularly useful for the marking of texts, logos, designs and graphic patterns. From serial numbering to photo engraving, the LASER-marker is perfect for customizing metallic objects or precious alloys. Power choices for mopa fiber laser source marking machine are 20w, 30w, 50w, 100w, etc. You need to choose different power according to the application. Like surface marking, deep engraving, cutting, etc. Our new type of Mopa Fiber Laser Source Marking this new and revolutionary technology assures extreme and long-lasting reliability, high energy efficiency, and high productive performance.
Computerized Rotary Attachment
Gold Laser Marking Machine is provided with optional rotary attachment which computer controlled round axis movement through software. The Rotary attachment is necessary for laser marking on rings, bracelets and all round or curved objects. The perfect and precision round scale guarantees perfect position of markings, even on particularly curved surfaces.
For Hallmarking purpose and for Gold Particles collecting propose, we have two models like with and without enclosed body with Gold Dust Collector.
Technical Specifications-
Model SIL Accuwrite Gold F 20/30/50/60/100 Watts
Power 20 W to 100 W
Wavelength 1063 ±3 nm
Beam quality
Features-
New integrated design incorporating CNC control panel, laser source with the machine.
Machines up to 3 KW shipped with Laser Source integrated to the machine.
SIL machines with ECAT technology are IOT 4.0 ready.
Remote access and pre-alert of maintenance and health of machine reduces downtime of machine.
Three Vision Cameras helps monitors the cutting process, pallet exchange and operator console.
Sheet clamping mechanism secures the sheet while cutting process.
Two stage capacitive detect gives sheet angle precision detect and adjust nested sheet accordingly.
Collision problem prevention camera with special CNC advanced controllers option with anti crash detection and high speed Z Axis retraction on no sheet underneath or nozzle touch.
QR code scanning system to controller helps to retract right parts and design to be loaded and avoid mistakes and errors from machine operator. Production process controlled as per the QR code of the sheet to be processed.
Six zone fume extractor.
Machine compatible with Nesting softwares from Sigmanest ,Lantek and Metallix.
Auto Nozzle Exchanger (Optional)
Auto Nozzle Cleaner (Optional)
Nozzle Beam Centring (Optional)
Slat Conveyor (Optional)
Technical Specifications-
MODEL F-Pro 3015 F-Pro 4020 F-Pro 4025 F-Pro 6020
Working Area 3000 x 1500 4000 x 2000 4000 x 2500 6000 x 2000
Laser Power Source (IPG, FANUC) 1-15 kw
Positioning Accuracy â?¤ �± 0.05 mm / m
Repositioning Accuracy ± 0.02 mm
Maximum Rapid Speed 120 180 m / min *
Maximum Acceleration 1.5 2.5 G *
Controller SILCUT 2.0 ECAT / Beckhoff / Fanuc / FSCUT
Descriptions-
Laser micro machining techniques are currently used by the automobile and medical industries as well as in the production of semiconductors and solar cell processing. Lasers for micro machining offer a wide range of wavelengths, pulse duration (From femto second to microsecond) and repetition rates (from single pulse to Megahertz). These attributes allow micro-machining with high resolution in depth and lateral dimensions.
The �eld of micro-machining includes manufacturing methods like drilling, cutting, welding as well as ablation and material surface texturing, whereby it is possible to achieve very �ne surface structures ranging in the micrometer domain. Such processes require a rapid heating, melting and evaporation of the material. The use of extremely short nano- and pico-second and even femto-second pulse duration helps to minimise the thermal effects such as melting and burr formation thus eliminating the need for any post processing measures.
Features-
Type of Lasers: QCW Fiber, Nano Second, Pico Second, Femto Second, UV, IR or Green
Applications: Micro Cutting, Micro Hole Drilling, Micro Milling, Dicing, Ablation, Engraving, Etching
Flexible design for all your micro machining requirements. The system can be configured as per your
Requirement.
2 D plannar cutting with precision focus adjustment for dicing, stealth dicing or ceramic cutting
Accuracies up-to 1micron for 100mm travel. Special air bearing slides for higher accuracies
Add rotary axis for micro tube machining
Add short focus plannar Lens
Close loop scanner for submicron machining of precision parts
Add Trepanning for micro hole drilling from 0.25mm or lower & up-to 1mm.
Description-
SIl 3D 6axis Robot fiber laser cutting machine can be adopted with multiple automations that iclude gantry and double sided gantry system.Fixtures and automation gives and advantage as to excellant dynamic response and lower weight.The SIl robotic cutting system adopts world class robot from Fanuc or YASKAWA integrated with Fiber laser source and best of designed cutting head.This machine performs well with its high precision, high efficiency and low noise when running at full capacity. SIL 6-Axis laser cutting machine is used in precisely cutting 3D parts with complex surface. Specially suitable for cutting covering parts of automobile and aviation industry, such as edge and hole cutting. It can replace the traditional trimming die and piercing die. It can realize 3D partsâ?? high quality, high precision and high efficiency cutting, without needs of secondary processing.
Features-
Free movement with greater reach at 270 degree angle
Advanced Laser cutting head with auto focusing
Suitable to Edge cutting of Hydro formed parts of Automobiles
Auto tracking system
Expert in 3D Cutting with arbitrary curve
6-axis mechanical arm gives four times more output
Advantages
Stable and reliable light path system and control system
Imported original fiber laser generator with great and stable performance,lifespan is over 100,000 hours
High cutting quality and efficiency with cutting speed up to 25m/min and beautiful,smooth cutting edge
High performance reducer,gear and rack;Guide rail and ball screw to guarantee
Application Area-
Mainly used in 3D precision cutting of aviation, automobile industry, construction machinery , mold, fitness equipment and sheet metal processing, etc flexible laser manufacturing system is made up of advanced international FIBER laser, 6-axis industrial robot and control system. It meets well the demand of quenching, tempering, normalizing, alloying, cladding etc.
This 3D robot laser cutting machine is specially for cutting thin metal ,such as carbon steel,stainless steel,brass,aluminum ,etc
Characteristics-
High Quality Laser cavity with life more than 8 to 10 years before service.
Laser power feedback controller.
Stable optical performance round the clock.
Maintenance free Lamp operating life more than 400 hours or personalized design with ergonomics principles.
Fast, efficient, deep, little distortion, little heat-affect area quality welding, welding points free from pollution, saves energy.
Features-
The energy, pulse width frequency and light spot size can be adjusted to achieve different welding effects. The parameters are adjusted by the lever in the sealed cavity, which is simple and highly efficient.
Ceramic converging cavity is imported from Britain. Jewellery Laser welder is corrosion resistant and high temperature resistant, and has 8-10 years service life.
Uses the most advanced light shielding system to eliminate the irritation to eyes by light during working.
Able to work round the clock with same stable performance. Maintenance free operation for 10,000 hours. Ergonomics â?? Based design avoids fatigue even after long time working.
Jewellery Laser welder is widely used in aviation, Aerospace, Sports Products, Jewellery, Golf head, Medical instruments, Titanium alloy dentures, Instruments, Electronics, Machinery, Automobile etc.
It is specially used for perforating Gold and Silver jewellery, Spot welding, Repairing, Inlay and welding of claw.
Technical Specifications-
Model SIL 200 W
Max.output power 150 / 200 W
Max.pulse energy 100 / 120 J
Peak power 6 / 7 KW
Pulse duration 0.1 20 ms
Pulse frequency 1-100 Hz
Pulse duration 0.1-20 ms
Welding depth 0.1-4.0 mm
Focal diameter 0.1-2.0 mm
Vision system Stereo microscope 10X
Power supply AC 220 V / ± 10% / 50 Hz
Net weight 150 kg
control system Microchip CPU
Description-
Color Laser Marking Machine used to coloured parts are commonly used from decorative applications in a wide range of consumer goods and marking of these parts is generally achieved though the removal of the coloured anodised layer to reveal the base aluminium material either a white or silvery mark depending on process conditions. Commonly used in gift-ware and consumer goods, alphanumeric and marketing logos are typically marked.
The use of lasers for colour marking is not a particularly new technique as it has been recognized for over 10 years. This technique was originally identified as a viable process for use on craft metal work and jewellery. However, the process has had very little commercial impact in the intervening years. There is now a greater interest in this process as manufacturers of consumer goods are looking for new techniques and finishes to provide product differentiation. This application note looks at a variety of materials that are colour mark-able including titanium and stainless steel, and explores the benefits and parameters of the pulsed fiber laser in relation to this application area.
Specifications-
Significant improvement in the quality of the mark due to the stability and controllable of the laser source.
Beam intensity and spot size enable the use of small mark widths.
Output power stability over time enables complex mark patterns without power fluctuations â?? no weld defects.
High power density allows large marking areas to be processed rapidly.
Maintenance free (no replaceable parts).
3-Dimensional marking can be easily achieved.
High repetition rate is achievable.
Low frequency (
Description-
The UV Laser Marking with its wavelength 355nm is suitable for marking plastics (ABS, PA) due to a high repetition rate. The UV laser wavelength is suitable and versatile in marking a wide range of materials and is perfect for â??cold markingâ?? applications where heat zones are not allowed.
UV Laser mark at very high speeds which are indispensable for short cycle times in industrial manufacturing environments. With high peak powers they are most suitable for fine marking and structuring without thermal impact on glass applications and/or ceramics.
The UV laser marking will mark plastics and silicon materials without the need of additives and will also mark glass with drastically reduced risk of micro fracture. The excellent beam quality also affords this laser the ability to be utilized in micro marking applications such as electronics, circuit boards and microchips in addition to solar panels and precise medical marking applications.
They also provide an excellent quality for classical laser marking applications and micro material processing.
Features-
Small beam diameter and fine marking line
Good quality and high laser beam stability
Complete machine stability, simple and easy operation
Narrow pulse width, small heat affected zone, work-piece without damage
Suitable for sensitive material as cold light source
Laser directly acting on molecular chain with maximum extend to avoid thermal effect
It works stably, applied in superbly precise marking, such as: LCD, wafer, chip ceramic, sapphire, precise surface marking of other materials,3C electronics, Lamps, food package, wire rod ,leather, ceramic, PCV, glass, Phone case, medicine bottle, fine marking on glass substrate, electric appliance marking and so on.
Technical Specifications-
Wavelength 335nm
Laser Beam Mode TEM00
Average Power Up to 2W
Positioning Visible Red Diode Light
Input Power 115/230VAC 50/60Hz
System Power Consumption < 950W
Cooling Air Cooled, active thermo-electric/Water Cooled
Operating Temperature Range 18 to 35C (64 to 95F)
Humidity 10% to 85% Non-condensing
STANDARD LENS CONFIGURATIONS FOCAL LENGTH
100 mm 65 mm X 65 mm (2.56 X 2.56)
160 mm 110 mm X 110 mm (4.33 X 4.33)
255 mm 175 mm X 175 mm (6.89 X 6.89)
Description-
A mirror galvanometer is used to scan the laser beam and mark the product surface. Moving the focus lens (used instead of the f lens) back and forth enables adjusting the beam not only on the x and y axes, but also on the z axis.
3D Software Extension
Ideal for the three-dimensional reproduction of designs and engravings with major detail, requiring different levels of engraving depth. This software extension, optionally provided, is based on the management of STL files, allows the 3D reproduction of solids authentic to their real proportions.
3 Axis Auto-Movement
Axis position management through software, allowing the serial marking of multiple objects on the same tray and at the same time, even having different shapes and sizes. Based on the management of Cartesian coordinates, the use of this module, makes possible to program the movement of all axes depending on the position of the objects to be LASER-marked, making possible to boost productivity by the serial marking.
Features-
Hi-tech technology
Permanent, high quality marks
High efficiency and low operation cost
Good accessibility, even to irregular surface
Non-contact marking and no special working environmental needed
The minimized metallurgical and mechanical damage
Easy to automate and integrate (direct writing of patterns can established
Using computer-controlled movement of the beam or sample)
Precise beam positioning and a beam highly localized energy
Transfer to the work piece
High reproducible and high speed, effective
Minimal heat load
Contamination free
Technical Specifications-
Model SIL Accuwrite F 3D 50/60/100 Watts
Power 20 W to 100 W
Wavelength 1063 ±3 nm
Beam quality
Description-
Laser cutting after they were introduced in the 19th century, the fashion designers are widely adopting laser cutting in garment manufacturing. In synthetic fabrics, laser cutting produces well-finished edges as the laser melts and fuses the edge, which avoids the problem of fraying produced by conventional knife cutters. Furthermore, use of laser cutting is increasingly used for leather due to the precision of cut components.
In fashion accessories such as jewellery, laser cutting can be used to produce new and unusual designs to produce a fusion of apparel design and jewellery style. In laser cutting a laser is used to cut the fabric into the desired pattern shapes. A very fine laser is focused on to the fabric surface, which increases the temperature substantially and cutting takes place due to vaporization.
Normally gas lasers (CO2) are used for cutting of fabric. The cutting machine includes a source of laser, a cutting head fitted with mirrors to reflect the laser beam to the cutting line, a computer to control the entire system and a suitable mean for removing the cut parts. The application of inert gases (N2, He) during cutting prevents the charring and removes debris and smoke from the cutting area. Like the mechanical cutting devices, a laser beam does not become blunt and need sharpening. Automatic single ply laser cutters are faster (30 40 m/min) than automatic multiple ply knife cutters (5 12 m/min). However, while cutting multiple plies, knife cutters are faster per garment cut and also cheaper. The limitation of laser cutting is the number of lays of the fabric that can be cut by the beam. Best result is obtained while cutting single or a few lays, but the accuracy and precision is not obtained with several plies.
Technical Specifications-
Model AccuCut â?? XXXX
Laser type CO2 DC glass tube / RF metal laser tube
Laser power
Glass tube 60 W/ 80 W/ 100 W/ 130 W / 150 W
Metal tube 40 W/ 60 W/ 80 W/ 100 W/ 200 W
Wavelength 10.6m
Supply voltage AC 230 V ± 10%
Reposition accuracy 0.1 mm (MAX)
Cutting speed 0-30000 mm/min
Engraving speed 0-64000 mm/min
Cooling Water cooled
Work environment Temp: 0 C 45 C Humidity: 5% 95%
Acceleration speed 1 G
Graphic file support .plt, .cdr, .al, .dwg, .dst, .dxf, .bmp, .jpeg, .tiff, .gif, .pcx etc.
Description
Suresh Indu Lasers introduces new product this year. This laser product has best application in field of metallurgy and is now manufactured in India.
Laser cleaning machine 20W â?? 1kW for de-rusting metal and restoring the metal to obtain same physical and chemical behaviour of the metallic elements.
Laser cleaning system removes the contaminated layers of the metal through exposing it to a focused laser beam.
Materials mostly used for laser cleaning are Aluminium (Anodized/Polished/Cast), Stainless Steel/ Mild Steel, Titanium, Copper, Brass, Nickel, Galvanized Metals, Multi-Coated Materials, Painted Metal Alloys, Plastics, Polypropylene/Poly-carbonate, Cast Iron and Chrome, Chrome, Carbide, Rubber and PVC.
Cleaning Head is portable and it operates with precise deflection and position of the laser beam. The head provides good stability with pressurised water cooling to the optics and dust proof.
Description
SIL Fiber Laser Metal Cutting Machine Flexi model 3015 size with laser power of 1000 W or 1500 W power. It can cut Mild Steel, Stainless Steel, Coated Stainless Steel, and High-Strength steel, Aluminium, Brass, and Nickel easily.
The machine features a durable rack-and-pinion motion system, lightweight gantry with synchronized dual servo motors. Fiber Laser energy saves up to 70 percent as compared with traditional CO2 laser cutters, It can provide cutting speed to 20 m / min and rapid speed of 80 m/ min with 0.8 G acceleration.
Features-
Designed to work in harsh conditions.
All mechanics designed for more than 20 years life.
Cut part accuracy +/- 50 micron.
Machine up time
Description-
Laser pipe cutting machine incorporates space saving design and ease of use. Its high cutting speed and very low operating cost makes the most affordable system on the market. The light weight motion system allows excellent positioning accuracy while maintaining cutting speeds that are the highest in its class.
The application is for cutting Mild Steel pipe, Stainless Steel pipe, Aluminum Alloy pipe, copper pipe, Brass pipe ( Square pipe, Round pipe, Rectangular pipe, C Channel, H Channel ), etc.,
Specifications-
Can add 2 Chuck and 3 Chuck options with unloading.
Can cut square, rectangle, round shapes & open channels like C, H, L shapes and special sections capabilities.
QR code scanning system to controller helps to retract right parts and design to be loaded and avoid mistakes and errors from machine operator.
Works independently with pipe buldle loader without profile management problems.
Auto loading feature is enabled with belt traction system.
Unloading trays are at the part delivery point to collect parts and scrap tray for easy scrap collection.
Pnematic rollers support for square, rectangle and round shape tubes for 20 â?? 220 �? mm.
TubePro controller is installed to process 3D & 2D profiles cutting for both single and entire production batches.
Tube Lite nesting software is used for nesting.
Optional automation with robotic arm loader for continous loading of tube or pipe can be integrated.
Predefined parameters for different types of profiles with respect to thickness and materials.
Real zero tailing for zero wastage to process complete tube.
6X speed piercing feature for faster production with 70% more efficiency.
Auto lubrication is enabled in machine to reduce smooth functing without wear and tear.
Safety enclosed body with high capacity fume extractor attached to the machine to reduce fumes, dust and spark which eye irritation.
Technical Specifications-
Fiber Laser IPG / Fanuc (2 â?? 10 KW)
Cutting Head Raytools / Precitec
Bundle / Single Loading Fully-Automatic
Min. Loading 2000 mm
Max. Loading 6000 mm / 9000 mm
Loading Capacity 3 Ton
Unloading Dual Trays
Rapid Speed 100 m / min
Repositioning Accuracy â?¤ �± 0.03 mm
Cutting Acceleration 1.0 G
Rotary Diameter 160/220/320 mm
Controller TubePro
Nesting TubeLite
Description-
Laser cutting after they were introduced in the 19th century, the fashion designers are widely adopting laser cutting in garment manufacturing. In synthetic fabrics, laser cutting produces well-finished edges as the laser melts and fuses the edge, which avoids the problem of fraying produced by conventional knife cutters.
Furthermore, use of laser cutting is increasingly used for leather due to the precision of cut components. In fashion accessories such as jewellery, laser cutting can be used to produce new and unusual designs to produce a fusion of apparel design and jewellery style.
In laser cutting a laser is used to cut the fabric into the desired pattern shapes. A very fine laser is focused on to the fabric surface, which increases the temperature substantially and cutting takes place due to vaporization. Normally gas lasers (CO2) are used for cutting of fabric. The cutting machine includes a source of laser, a cutting head fitted with mirrors to reflect the laser beam to the cutting line, a computer to control the entire system and a suitable mean for removing the cut parts. The application of inert gases (N2, He) during cutting prevents the charring and removes debris and smoke from the cutting area. Like the mechanical cutting devices, a laser beam does not become blunt and need sharpening. Automatic single ply laser cutters are faster (30â??40 m/min) than automatic multiple ply knife cutters (5â??12 m/min). However, while cutting multiple plies, knife cutters are faster per garment cut and also cheaper.
Technical Specifications-
Model AccuCut XXXX
Laser type CO2 DC glass tube / RF metal laser tube
Laser power
Glass tube 60 W/ 80 W/ 100 W/ 130 W / 150 W
Metal tube 40 W/ 60 W/ 80 W/ 100 W/ 200 W
Wavelength 10.6
Supply voltage AC 230 V ± 10%
Reposition accuracy 0.1 mm (MAX)
Cutting speed 0-30000 mm/min
Engraving speed 0-64000 mm/min
Cooling Water cooled
Work environment Temp: 0 C 45 C Humidity: 5% 95%
Acceleration speed 1 G
Graphic file support .plt, .cdr, .al, .dwg, .dst, .dxf, .bmp, .jpeg, .tiff, .gif, .pcx etc.
Description-
Indian railways which is the fourth largest railway network in the world by size, with 121,407 kilometres of total track over a 67,368-kilometre route and over 18million passengers and 2 million tons of freight traffic per day. On its rail network of 63,327 km, Indian Railways runs more than 200,000 wagons and 50,000 carriages pulled by more than 8,000 engines; it also runs 6,909 stations and has over 1,400,000 employees, which makes it the third biggest employer in the world.
Railway coach side walls and roofs
SIL recently commissioned an innovative SCW 2.5X25 automatic laser cutting and welding system to produce side walls and roofs for its passenger wagons. This is a sheet cut and weld system designed and customised by SIL as per clients specifications. SCW stands for Sheet Cut and Weld, 2.5 indicates the maximum weld length,25m indicates the maximum welded sheet length that the system can be handle. The machine produces semi-finished parts which is used for manufacturing railway coach sidewalls and roofs including windows and doors of the coaches.
SCW 2.5X25 machine consist of Cutting and Welding base table with gantry and dual Z-axis of cutting and welding, Machine Enclosure, Control panel, Chiller, Fume Extractor, Raw Sheet Loading Table and finally Sheet rolling table. The sheets are rolled out automatically from trimming-welding station and cutting station with the help of two rollers at both station which will sandwich the sheet and move the sheets towards sheet rolling table. This operation is done be servo motors due which we can get the exact position of the sheet without any error.
Features-
Laser welding station 2.5 x 22 m.
Laser Welding Head Includes Wobbler, Seam Tracker and Monitoring System
3 Kw Fiber Laser with Dual Beam Switch Facility.
Laser Cutting Station 2.5 x 4 Mtr.
CNC Laser Weld-Cut System up to 26 meters length.
Camera based real time part to part coordinate measurement, helping accurate cutting for long length sheets.
Technical Specifications-
Laser Power 3000/4000/6000W
Laser model IPG
Welding area size 2550mm
Laser cutting area Size 4000 X 2500 mm
Y- Axis 4050 mm
X-Axis 2550 mm
Z Axis 180 mm
Welding thickness 1-3 mm Stainless Steel (3 kwatt ) Kindly contact for 6 kwatt
Cutting thickness 0.5-25 mm MS/0.5-12 mm SS/0.5-8 mm Al
Positioning Accuracy â?¤ �± 0.1 mm/m
Max Welding Speed 15 m/min
Max Cutting area rapid Speed 80 m/min
Cutting Speed 20 m/min
Cutting Acceleration 0.5 G
Repositioning Accuracy ± 0.05 mm
Resolution 0.01 mm
Power 380 V/ 50 HZ
380 V / 60 HZ
Weight without rolling table 15 TON
Laser including 2 Fiber Cable & 2-way beam switch(Time Sharing)
Advanced welding head with seam tracker
Wobble Welding Head (Optional)
Description-
Usage of Li-Ion battery is increasing exponentially in various sectors such as mobiles, automobile, defense, aerospace, etc.
SIL has recently developed battery welding machine for Li-Ion batteries. These batteries are made of prismatic containers having materials like Al, Al alloy, SS or OFHC Copper. These machines are used for welding can-caps, terminals, fill tubes, tabs, etc. The components can have thicknesses from 0.5 mm upto 3 mm.
Type of Lasers that can be used are either CW or QCW fiber Laser. The machine produces positioning accuracy of better than 10 µm and positioning speed > 18 m/min.
Other important features are welding process monitoring thru video camera, power ramping & pulse shaping, welding head with wobble motion, seam tracking with path compensation to name a few.
Description-
Q-switched fiber lasers are capable of providing pulse energies in the mJ range, but for materials processing applications requiring multiple Joules of pulse energy at multi-kilowatt peak powers IPG has developed the unique Quasi-CW Fiber Lasers. These fiber lasers occupy the space between kW class CW fiber lasers and Q-switched pulsed lasers. They are very similar to kW class fiber lasers with one notable difference: their peak power during ON time is up to tenfold higher than their average power in pure CW mode of operation. Thus, these lasers can provide tens of joules of energy over a long pulse, from 50 microseconds to 50 milliseconds.
Feaatures-
Laser power from 75 W to 2.3 kW.
Peak power will be ten times more than actual power.
Fully automated and IOT 4.0 enabled.
Description-
The handheld laser welding machine combines quality of laser with flexibility of traditional welding to users advantage. The handheld laser welding machine is very easy to operate, which offers perfect welding seam without usage of any consumables at a fairly fast welding speed. The handheld laser welding machine can replace the traditional argon welding and electric welding.
Features-
High laser energy density, small thermal effect area, no deformation, less or minimal subsequent processing.
Easy spot welding and continuous welding.
Non-contact processing, stress free, noiseless, no pollution to the environment,
Good welding quality, smooth and beautiful appearance, high welding speed, high strength.
Weld strength and toughness equivalent or stronger than the base metal.
Advantages-
Fast welding speed, 2~10 times faster than traditional welding.
The welding seam is smooth & beautiful, small taper, doesnâ??t need polish, save time.
No deformation or welding scar, firm welding of the work piece.
Laser welding has no consumables, low power consumption and long service life.
Safe, easy operation and more environment friendly.
Applications-
The handheld laser welding machine can be used for welding stainless steel, copper, aluminum, gold, chromium, silver, titanium, nickel and other metals or alloys, it can also be used for a variety of welding between different materials, such as: copper â?? brass, titanium â?? molybdenum, titanium â?? gold, nickel â?? copper and so on
Handheld laser welding machine is widely used in the kitchen cabinets, staircase elevator, shelf, oven, stainless steel door, window guardrail, distribution box, medical equipment, communications equipment, battery manufacturing, craft gifts, household and other industries.
Description-
SILROBOWELD it is modern 2 to 6 kw laser welding delivers high quality, high precision weld that is not possible with conventional CO2 welding.
Fiber laser technology allows to processes different types of thickness and materials, including similar and different material.
SILROBOWELD operates in standard laser safety booth to protect user from shorter wavelength emitted by fiber laser.
SILROBOWELD its takes higher level of precision and productivity using fiber laser processes material such as brass, copper, and aluminum.
Fiber laser technology is with unmatched beam quality and electrical saving, due to this requires less maintains to oscillators to generate beam.
In SILROBOWELD teaching is done with inline CCD camera which is easy , fast and accurate teaching of welding path.
Another key features are rotating mirror in welding head, which helps to rotate beam direct path of welding, it can make any shape of laser beam like 8, O, line (vertical or horizontal)
Description-
Laser marking system is an industrial marking tool integrated with laser marking software to control the galvanometer scanners that produce relative motion between the laser spot and the work-piece.
Laser and optics are heart of the machine, control marking mechanisms system.
Industrial Marking can be done almost too various products and applications with variety of combinations characters and graphics, logos, unique serialised alphanumeric, or one of a number of different bar-code designs. Which are used for all kinds of products for its tractability, anti-counterfeiting, material, batch or manufacturer identification etc.
Laser marking is a device for marking physical surfaces, without physical contact, using laser energy. Laser marking enable editing the mark data (letters and graphics) on a computer, using graphic utilities. In addition to marking, they are also used widely for drilling holes, cutting, trimming, and detailed processing.
Laser markings are used in a variety of industries, such as printing 2D codes on automotive parts, logos on electronic components/electrical devices, lot numbers, Automotive parts, Electronic components/ electrical devices, Machines/tools, Semiconductors/LCDs, Molded parts, Medical instruments
MOPA Fiber Laser
Common fiber lasers and solid-state lasers use mirrors to resonate and amplify the laser. The laser is output by Q-switching. Using this technology, it is difficult to produce a reliable, durable laser with high quality and -flexibility. MOPA all-fiber laser eliminates the resonator structure, and enables a high quality beam with stability, durability and â?? flexibility.
Features-
Attachments like Rotary, On-Fly, Auto Trace available based on customer requirement.
Permanent Marking Processing / Online- Marking Process.Laser marking is perfect for products which are manufactured and requires store record, identify record, process management, and other critical information.
It will not wear off or peel off, because it is marked directly into the product.
Direct marking process with no contact with material minimize damage to the product and enhance the fine quality in detail processing and Marking.
Laser marking is high speed process marking faster for large production industry is adopted in large scale.
Less Operating Cost, zero maintenance cost. The electric bill is really just about the only operating cost.
Wide Range of Materials and processing some possible materials include metals, plastics/resins, plastic film, and so on.
Labelling data can include logos, graphics, model numbers, serial numbers, 2D codes, and more.
Environment-friendly Processing/Marking There is no ink, and therefore no solvent; no adhesive label, and therefore no backing paper, no waste disposal.
Technical Specifications-
Model SIL Accuwrite F 20/30/50/60/100 Watts
Power 20 W to 100 W
Wavelength 1063 ±3 nm
Beam quality
