Linx Laser SL102 & SL302 Selling Guide by PT Asia, Thailand

LINX SL102 / SL302 UNDERSTANDING LASER CODERS

INTRODUCTION

LINX SL102 / SL302

This guide provides you with the information to help you to sell the Linx SL102 and SL302, Linx’s new range of 10W and 30W laser coders, with the versatile and intuitive LinxVision® user interface. This guide will show you why the Linx SL102 and SL302 will deliver your customers the most effective coding solution with longest laser lifetime. It will demonstrate that the Linx SL102 and SL302 are

MORE VERSATILE

MORE RELIABLE

MORE INTUITIVE

LASER SELLING GUIDE LINX SL102 / SL302

WELCOME TO THE

faster, more intuitive to use and install, and easier to own than any other laser coder.

CONTENTS 02 CO2 laser coding

18 Sample marking

03 Overview of system

19 The head and lens

architecture

configuration

04 Overview of LinxVision 05 Overview of QuadMark

06 Overview of LinxDraw® 07 Linx laser SL range

three key wins 13 The right laser for the

right job 16 How do you decide –

10W, 30W or 50W?

20 Laser marking head and

lens options 27 Laser wavelengths 28 Accessory options 30 Laser classification 31 IP ratings explained 32 Default parameter value

for SL102 and SL302

OVERVIEW OF SYSTEM ARCHITECTURE

STEERED BEAM LASER OPERATION

PRODUCT SUMMARY

3 main parts:

Galvo Motors

• Laser tube – produces a beam of laser light

CO2 Laser Tube

• Mirrors – 2 motorised X-Y mirrors reflect the beam • Lens – the lens focuses the beam to a fixed point on the product.

Notes: – For moving products the mirrors will ‘chase’ the product – Linx lasers are designed to find the most efficient coding path for either stationary or moving product.

Galvo Mirror

Supply unit

Laser unit

Marking head

LinxVision touch screen user interface

Conduit 3m or 5m

Flat-Field Lens (system of several lenses)

Product

LASER CODING – KEY BENEFITS • Minimal running cost and downtime

• Clean and easy to maintain – no fluids or consumables

• Efficient, precise and high-quality coding and marking • Codes on the fastest production lines • Codes onto a wide range of materials and large surface areas

REAR PANEL OF SUPPLY UNIT

• Indelible codes minimize the risk of unauthorised removal or counterfeiting

Ethernet port

• Environmentally friendly – no storage and disposal of hazardous / flammable solvents • Codes on both stationary or moving products • Multiple lines of text within the marking field.

D-Type connectors • Encoder • Sensor • Serial port

LASER SELLING GUIDE LINX SL102 / SL302

LASER SELLING GUIDE LINX SL102 / SL302 02

CO2 LASER CODING

Access panel to I/O connections • Laser ready • Safety interlock • Laser busy • Job select • Good / bad mark signal • Start / stop • Trigger monitor

OVERVIEW OF QUADMARK®

LinxVision® is an easy to use user interface featuring software specially designed for touch screen operation, with large icons for intuitive, effortless control, editing and status reporting.

Linx QuadMark® allows complete control of up to four laser coders on the same network from a single location, ideal for larger sites with multiple lasers and helping to save time and cost.

• What You See Is What You Get (WYSIWYG) display – large, bright colour screen clearly shows your selected coding message.

• Connection is made using an IP65 QuadMark splitter box (optional accessory) and the built-in Ethernet port on the supply unit.

• Robust IP65 design – gain maximum reliability and uptime in challenging environments.

IP65 QuadMark splitter box

• User-friendly menus – reduce errors and the need for training with large icon display, intuitive message creation and simple file management. • Easy access toolbar – modifying the current message is quick if changes need to be made after activation. • Supports 21 different operating languages and multiple fonts.

Laser 1

LASER SELLING GUIDE LINX SL102 / SL302

LASER SELLING GUIDE LINX SL102 / SL302 04

OVERVIEW OF LINXVISION®

05 Laser 2 LinxVision user interface

Laser 3

Each additional laser is selected and controlled by the corresponding ‘Tab’ on LinxVision Display.

Laser 4

LINX LASER SL RANGE THREE KEY WINS

PRODUCT SUMMARY

Coding and marking is more versatile, more reliable and more intuitive than ever before thanks to Linx SL scribing laser coders.

LinxDraw® is a code template generation and management software package. LinxDraw allows the creation of code templates either ‘off-line’ or directly on the laser. Templates / codes created using LinxDraw can be downloaded to the laser, and viewed and printed using LinxVision. LinxDraw has functionality over and above that available on LinxVision so is used for more complex or special applications.

MORE VERSATILE

LinxDraw can be used in conjunction with LinxVision hardware or with a remote PC or laptop.

LINXDRAW SOFTWARE

LASER SELLING GUIDE LINX SL102 / SL302

LASER SELLING GUIDE LINX SL102 / SL302 06

OVERVIEW OF LINXDRAW®

MORE RELIABLE

MORE INTUITIVE

Versatility of integration

Versatility of application

Great flexibility in adapting the SL lasers to the customer production line constraints:

• The SL range has one of the widest selections of marking heads, lens and tube options. Benefits • Ensures that the Linx laser can be fine tuned to individual materials, line speeds and code requirements • Ensures best code quality

• Modular design: the Linx SL102/302 have separated components to create a modular design, making the laser easy to install • Down (90°), straight (0°) shooters or any angle (360°) rotating head with an optional beam turning unit or a beam extension unit

• Efficient use of the laser, prolonging the overall lifetime of the laser.

• We have won orders because the competitor does not fit into the application whereas the SL102 does!

Laser Application

Substrate

• Optional Linx QuadMark interface which allows the user to control up to four lasers at once (requires an extra splitter box). Benefits

Product pitch

• Various lengths of beam turning unit for easier access to the production

Line speed

Code complexity

LASER SELLING GUIDE LINX SL102 / SL302

MORE VERSATILE

• Laser can adapt to the customer’s production line constaints.

Beam extension units (BEU)

Beam turning units (BTU)

MORE INTUITIVE

Reliable laser tube

Intuitive to use

• A longer tube life is not just the result of the quality of the tube itself

• Large WYSIWYG display shows clearly the selected message to print

• Tube life is also prolonged as a result of an efficient use of the laser energy and also careful machine design to ensure that the tube is kept at an optimum temperature • Linx provides a 2 year warranty* (tube only). Optimum laser power to ensure longevity of tube

• No complex menus or parameters

• At-a-glance status reporting enables the user to quickly understand laser status

• By specifying the right laser, head and lens we are making the most efficient use of the laser tube, so it lasts longer! • A bit like running a car: – if you drive 100km/h in 2nd gear it will overheat, you will spend more on fuel and eventually breakdown; – if you drive 100km/h using the correct gears for your journey, the car will last much longer!

• Easy to enter and select Jobs with message preview

Efficient cooling system • Some competitor laser coders do not have an efficient cooling system which means that the laser tube runs above its optimum temperature. This reduces laser output causing poor quality codes, which can lead to higher maintenance costs (tube replacement/laser service). 24/7 operation without the need for manual intervention

LASER SELLING GUIDE LINX SL102 / SL302

LASER SELLING GUIDE LINX SL102 / SL302 10

MORE RELIABLE

• Quick access operator tool bar.

Robust stainless steel design with an IP65 option • Durable equipment suitable to the most challenging production environments. Benefits • Minimal running costs and downtime.

Benefits

*Tube life may vary according to application.

• Minimal operator training, limiting operator mistakes and increasing productivity.

• A unique set-up wizard removes the complexity of implementation and guides users through configuration step-by-step.

THE RIGHT LASER FOR THE RIGHT JOB Tell us about your application, give us a product sample, and we’ll give you the right solution. • What message do you want to code (code complexity)? • What substrate do you want to mark on? • What is your (maximum) line speed?

Benefits • Installation can be quick and error free so it means less downtime for the customer.

• What is the (minimum) product pitch? Depending on the laser configuration, a Linx 10W could outperform a competitor’s 30W, or a 30W could replace a 50W. Our rigorous sample marking process ensures the right laser-headlens-tube combination is tailored to the customer application, ensuring the laser energy is used efficiently and prolonging the overall lifetime of the laser.

Head Lens Marking Field

Line Speed

Product Pitch

LASER SELLING GUIDE LINX SL102 / SL302

LASER SELLING GUIDE LINX SL102 / SL302 12

Intuitive to set up

In order to understand whether your customer’s application is going to be possible, you need to know two things:

If time required to mark is less than, or equal to, the time that is available to mark, then the Linx laser is suitable. Because we have one of the most versatile coders in the market, in most cases the Linx SL102 and SL302 will be the right laser coder for your application.

1. How long is it going to take to mark the product? (Time to Mark)

TIME TO MARK CODE COMPLEXITY

2. How much time do I have to do it in? (Available Time) In order to answer these two questions, you need to ask the customer for some additional information. To determine the ‘Time to Mark’, you need to know:

Simple

Complex

Customer to supply information

• Code complexity, because writing more information in a code takes longer than writing less information

SUBSTRATE 15

• Substrate type, because some substrates are easier to mark with a laser than others Easy (eg Paper) Hard (eg H/LDP)

• Marking field size, because a bigger field gives you a longer time to write (this is determined by sample marking)

Customer to supply information

AVAILABLE TIME

• Spot size / energy density, because more energy per area on the substrate takes longer (this is determined by sample marking).

Understanding ‘Time to Mark’ and ‘Available Time’ will help you sell the Linx SL102 and SL302 because they can do applications that other competitors are unable to. So, let’s see what this means in practice...

Time to the next mark

Linx to supply information

Customer to supply information

ENERGY (APPLIED)

PRODUCT PITCH

Max

• Product pitch, because the closer the products are to each other, the less time available.

LINE SPEED

Head (3 Options) x Lens (13 Options)

Min

• Line speed, because the faster the line the less time is available

MARKING FIELD SAMPLE MARKING

In order to determine the ‘Available Time’, you need to know:

LASER SELLING GUIDE LINX SL102 / SL302

LASER SELLING GUIDE LINX SL102 / SL302 14

When you visit a customer they will want to know whether the Linx SL102 and SL302 are suitable for their application.

Dwell Time + Beam Size + Energy Level

Distance to the next mark

Linx to supply information

Customer to supply information

In most cases for the Linx SL102 and SL302, the ‘Time to Mark’ is less than or equal to the ‘Available Time’.

There are three factors which help you decide on the correct power laser for an application. These are substrate, line speed and code complexity.

Take the average position of application in terms of each of the following: SUBSTRATE LINE SPEED M/MIN CODE COMPLEXITY

SUBSTRATE Easy

16 Hard

• • • • • • • • • •

Heat sensitive paper Reactive coating (e.g Datalase®) Paper Colour coated paper PVC Colour coated card PET Painted metal Glass HDPE/LDPE

LINE SPEED Slow Medium Fast

• • • •

<40m/min 41-100 m/min 101-300 m/min 301+ m/min

CODE COMPLEXITY Short marking time Long marking time

• • • • • •

3 characters 7 characters 1 Line 10 characters 2 Lines 10 characters 3 Lines 10 characters 4 Lines 10 characters

Notes: – Larger characters will increase the complexity and the marking time of the code – Linx lasers cannot code bare metal, hot glass and base HDPE.

10W

10W or 30W

30W

30W or 50W

50W

Example

SUBSTRATE Heat Sensitive Paper

Paper

PVC

Colour Coated Card

PET

Painted Metal

Glass

HDPE/ LDPE

LASER SELLING GUIDE LINX SL102 / SL302

HOW DO YOU DECIDE – 10W, 30W or 50W?

17 LINE SPEED M/MIN <5

100

150

CODE COMPLEXITY 3 char.

7 char.

1 line 10 char.

2 lines 10 char.

3 lines 10 char.

Notes: – By taking the average position of the above three variables on the scale, you will be provided with a starting point For example: - Substrate: Paper - Line Speed: 25 M/Min - Code Complexity: 1 line (10 Char) Which Laser?: 10W probably suitable (pending sample marking) – This page is to be used as a guide only for determining the likely laser for your customers application. In order to determine the optimal laser configuration, sample marking should be performed.

220

350+

Complex graphics, 4 lines bar codes 10 char. and logos

THE HEAD AND LENS CONFIGURATION

Sample marking is the critical component of any successful laser sale and should not be omitted. Good sample marking will determine the most cost effective solution whilst ensuring the highest quality code and prolonging laser life.

The head and lens configuration depends on: • An appropriate spot size for the size of characters specified by the customer’s code • Required mark field size

The sample marking process will confirm the correct basic configuration for an application – laser power, head and lens option.

• Achievable marking distance between marking head and product during installation

The Sample Marking Request Form should be completed in full and returned to either your local sample marking function or preferably Linx sample marking lab.

• Energy density at product

The Sample Marking Request Form can be downloaded from ExtraLinx following this path:

Note: – Sample marking is tasked in finding the best head and lens configuration that meets the customer speed, pitch, substrate and code complexity requirements.

• Line speed and product pitch variables.

Customer Service Tab > Commercial Information > Narrow search by Laser coders > Search ‘Sample’ Key information needed when visiting the customer site for accurate sample marking is: • Maximum linear line speed in metres/minute or feet/minute • Minimum product pitch – the measurement from the leading edge of one product to the next

Product

Conveyor Direction

• Code format: character size, number of characters, number of lines of text • Code position on product • The sample marking lab needs samples to produce on before defining the optimal configuration. Please try to collect at least 10 samples • Samples are completed in the order in which they arrive at Linx, and will be ready for despatch to the Distributor within one week of receipt by Linx.

Product Pitch

LASER SELLING GUIDE LINX SL102 / SL302

LASER SELLING GUIDE LINX SL102 / SL302 18

SAMPLE MARKING

LASER SELLING GUIDE LINX SL102 / SL302

LASER SELLING GUIDE LINX SL102 / SL302 20

LASER MARKING HEAD AND LENS OPTIONS

HEAD AND LENS CONFIGURATION DETERMINE THE SPOT SIZE (BEAM DIAMETER)

There are 3 marking heads available: The spot size determines the energy density on the product. Marking Head

SHC60

SHC100

SHC120

Galvo speed

Fastest

Faster

Fast

Mirror size

6mm

10mm

12mm

$$$

Cost

For example: 30W SHC60 64mm Lens

30W SHC60 127mm Lens

There are 13 lenses available (5 for the SHC60 head and 8 for the SHC100 / SHC120 heads): SHC60

SHC100 / 120

64mm

63.5mm*

95mm

85mm*

127mm

100mm

190mm

150mm

254mm

200mm 300mm 351mm

0.2mm 0.4mm Spot size: 0.2mm

Spot size: 0.4mm The 0.2mm spot is half the diameter of the 0.4mm spot and has x4 more energy density! For example: an application that needs 80% laser intensity with the 0.4mm spot size would need only 20% with the 0.2mm spot size.

400mm *Variable focus – twin lens assembly

Spot size diameter (mm) SHC60 Marking Head

127

190

254

10W Beam Expander x1.5

0.18

0.27

0.35

0.53

0.70

30W Beam Expander x1.0

0.37

0.57

0.78

1.20

1.60

0.20

0.31

0.40

0.60

0.79

30W Beam Expander x2.0

SHC60 Head

SHC100 / 120 Head

SHC100 Marking Head

63.5

100

150

200

300

351

400

10W Beam Expander x2.3

0.12

0.16

0.18

0.28

0.37

0.55

0.64

0.73

30W Beam Expander x3.0

0.14

0.18

0.21

0.32

0.42

0.63

0.74

0.84

SHC120 Marking Head

63.5*

85*

100

150

200

300

351

400

10W Beam Expander x3.0

0.091

0.121

0.142

0.213

0.284

0.425

0.497

0.568

30W Beam Expander x3.6

0.114

0.153

0.180

0.270

0.359

0.563

0.626

0.714

*Variable Focus – Twin Lens Assembly

LASER SELLING GUIDE LINX SL102 / SL302

LASER SELLING GUIDE LINX SL102 / SL302 22

HEAD AND LENS CONFIGURATION DETERMINE THE MARKING FIELD

Marking Field

Marking field is the maximum surface area that can be marked by a particular head-lens combination.

Marking field (mm x mm) 64

127

190

254

44 x 44

66 x 66

88 x 88

133 x 133

177 x 177

63.5*

85*

100

150

200

300

351

400

31 x 38

47 x 62

73 x 102

110 x 151

146 x 202

220 x 303

257 x 355

294 x 407

63.5*

85*

100

150

200

300

351

400

29 x 36

44 x 58

73 x 87

110 x 131

146 x 174

220 x 262

257 x 306

294 x 350

SHC60 Marking Head

SHC100 Marking Head

SHC120 Marking Head

*Variable Focus – Twin Lens Assembly

Notes: – For stationary marking only, sample marking would be required to determine whether the code actually fits into the marking field – For marking moving products, sample marking would need to consider the marking field length in direction of movement, line speed, and the minimum product pitch – The longer the marking field in the direction of movement, the longer ‘available time to mark’, but more time is needed for the galvos to return to their start position to code the next product so the minimum pitch value increases.

127mm LENS: 88 x 88mm mark field

LENS AND MARK FIELDS (SHC100 HEAD)

150mm LENS: 152 x 110mm mark field

95mm LENS: 66 x 66mm mark field

64mm LENS: 44 x 44mm mark field

100mm LENS: 101 x 73mm mark field

85mm LENS: 63 x 47mm mark field

63.5mm LENS: 38 x 31mm mark field

LASER SELLING GUIDE LINX SL102 / SL302

LASER SELLING GUIDE LINX SL102 / SL302 24

LENS AND MARK FIELDS (SHC60 HEAD)

LASER WAVELENGTHS CO2 lasers work in the infrared part of the electromagnetic spectrum between 9 and 11µm.

Marking distance (mm) 64

127

190

254

96.5

125

182

236

63.5*

85*

100

150

200

300

351

400

142

191

278

338

385

63.5*

85*

100

150

200

300

351

400

142

191

278

338

385

SHC60 Marking Head

SHC100 Marking Head

SHC120 Marking Head

*Variable Focus – Twin Lens Assembly

wavelength wavelength wavelength

Radio waves

Micro waves 1 mm

Infrared Light 25 um

10.6µm CO2 Laser Light

Working Distance

UV Light

Visible Spectrum 700 nm

500 nm

400 nm

X Rays

1 nm

Gamma Rays 1 pm

Wavelength

Linx lasers are available with a number of tube wavelength options:

SL102 AND SL302 Notes: – The marking distance varies as each lens has a different focal point – The laser beam must be in focus on the product in order to generate an effective mark – Marking distance is an important piece of information in integrating the laser into the customer production line – Linx offers a range of accessories: Beam Extension Units (BEU) and Beam Turning Units (BTU) to work around production line constraints and make sure the laser beam is in focus on the product.

• 10.6µm – Standard CO2 laser wavelength, suitable for most applications • 9.3µm – Suitable for improved marking characteristics on PET. Has around 20% less power than an equivalent 10.6µm laser tube.

SL302 • 10.2µm – Suitable for laminated cardboard or film coding applications

LASER SELLING GUIDE LINX SL102 / SL302

HEAD AND LENS CONFIGURATION DETERMINE THE MARKING DISTANCE (WORKING DISTANCE)

SAFETY GUARDING INTERLOCKS

BEAM TURNING UNIT (BTU)

ENCODERS

200mm and 300mm Beam Turning Unit gives flexibility in adapting the Linx lasers to the customer production line constraints.

Linx standard 5v 2500ppr encoder with 9-pin d-type connector.

Linx recommends Ferrogard® non contact interlock switches utilising magnetic actuators and tamper proof housings.

MOUNTING STAND Linx has developed a mounting system with X and Y axis movement that comes in three components: • Vertical adjustment (floor mountable) • Horizontal adjustment (requires vertical adjustment) • T- Foot with lockable castors.

LASER SELLING GUIDE LINX SL102 / SL302

ACCESSORY OPTIONS

29 LASER FUME EXTRACTION SENSORS BEAM EXTENSION UNIT (BEU) 100mm Beam Extension Unit enables the laser head to be turned and fixed at any angle (360°).

Note: – A BEU is necessary if a side or up shooting mount position is required for the SL102.

Linx standard range of trigger sensors with 9-pin d-type connector.

• Linx recommends a Linx-Bofa AD Oracle – includes pipe work and accessories • Filters (Std. or PVC)

OTHER ACCESSORIES • IP65 QuadMark Splitter Box: enables to connect up to 4 lasers from a single LinxVision • Air Curtain: designed to help prevent any contamination of the output lens • Double Interlock Safety Module: enables to meet performance level d installation requirement according to EN-ISO 13849-1 or the safety category 3 according to the previous standard EN 954-1 • Blower Unit: IP65 laser option requires a blower to provide cool air to the laser.

IP RATINGS EXPLAINED

If the coder is installed correctly and used according to the operating instructions, the system becomes a Class 1 (I) laser system. The coders contain Class 4 (IV) lasers, and the installation must use the correct guards and interlocks to make a Class 1 (I) laser system. The system becomes a Class 4 (IV) laser system during any procedure that requires the removal of covers, guards or safety interlocks.

FIRST DIGIT: REFERS TO PROTECTION AGAINST SOLIDS

Laser Class Description IEC (CDRH)

Hazard potential

1 (I)

Class 1 (I) laser products are defined as safe in normal operations under reasonably foreseeable conditions, including direct viewing of the laser beam with optics that could concentrate the laser output into the eye. In addition to some intrinsically low power lasers and laser products, Class1 (I) laser products also include embedded products that totally enclose a higher class of laser, for example, CD players and most industrial laser processing machines.

No risk to eyes or skin

Class 4 (IV) laser products are defined as those for which direct exposure of the eye and skin is hazardous and scattered laser light may be hazardous to the eyes. Such lasers are also a fire hazard.

High risk to eyes or skin

30 4 (IV)

No protection

Protected against solid objects over 50mm (e.g. accidental touch by the hand)

Protected against water falling vertical

Protected against direct sprays from up to 15 degrees from vertical

Protected against direct sprays up to 60 degrees from vertical

Protected against sprays from all directions. Limited ingress permitted

Protected against solid objects over 12mm (e.g. accidental touch by the finger)

Protected against solid objects over 2.5mm (e.g. tools, wires)

Protected against solid objects over 1mm (e.g. small wires)

Protected against dust – limited ingress (no harmful deposit)

Totally protected against all dust.

GUIDE LINES TO ACHIEVE CLASS 1 WITH GUARDING For industrial production processes, a laser safety enclosure will need to be built around the marking point of the laser output beam. Safety guards prevent access to the laser beam and also contain accidental radiation caused by reflection. If the guard can be opened an interlock switch will need to be incorporated into the installation. The enclosure will transform the Class 4 (IV) laser to Class 1(I) and can be safely used in a production environment without personal eye protection. Recommended construction: • 10mm polycarbonate sheet • Interlocked access door • Restrict access to marking area by operators • Restrict direct view of lens • Laser stop (ceramic tile) opposite lens.

SECOND DIGIT: REFERS TO PROTECTION AGAINST LIQUIDS

For example (IP65): • Totally protected against all dust • Protected against low pressure

jets of water.

Protected against low pressure jets of water from all directions. Limited ingress permitted

Protected against strong jets of water. Limited ingress permitted. For example: acceptable for use on shipdecks.

LASER SELLING GUIDE LINX SL102 / SL302

LASER CLASSIFICATION

NOTES

Parameter

SHC60 Marking Head

SHC100 Marking Head

SHC120 Marking Head

Jump speed

10000

7000

Jump delay

100

250

Marking speed

1000

Marking delay

Stroke delay

120

Marking intensity

SL102: 20000 SL302: 20000

On delay

Off delay

Pulse frequency

LASER SELLING GUIDE LINX SL102 / SL302

LASER SELLING GUIDE LINX SL102 / SL302 32

DEFAULT PARAMETER VALUES FOR SL102 AND SL302

MP40088

Linx Printing Technologies Ltd Burrel Road, St Ives, Cambridgeshire, PE27 3LA, United Kingdom. E sales@linxglobal.com T +44 (0) 1480 302100 F +44 (0) 1480 302116

Linx, LinxVision, Linx QuadMark and LinxDraw are registered trademarks of Linx Printing Technologies Ltd. ÂŠ Linx Printing Technologies Ltd 2013.