Laser Safety; Section I: Introduction To Laser Safety; Section Ii: Types Of Safety Interlocks - InfoSight LabeLase 28 Series Basic Operations & Maintenance Manual

LASER SAFETY

04/23/03

Section I: Introduction to Laser Safety

Lasers, like arc welders, are sources of intense light that require certain precautions to insure a safe,
comfortable and compliant working environment. This is especially true since the laser included in this
marking equipment operates in the infrared (invisible) portion of the light spectrum. The enclosure
surrounding the marking area is designed to prevent human exposure to the light emitted by the laser. The
following information covers the procedures taken to design a safe, efficient environment for laser marking
equipment.
Laser products are categorized into one of four classes based upon the power of the laser light that is
accessible to any person during normal operation. These classes range from Class 1, the lowest class
requiring no additional safeguards other than those provided by the manufacturer, to Class 4, the highest
class that requires additional operator and working environment safeguards for safe operation.
Class 1 laser marking systems include enclosures integral to the workstation that are constructed to prevent
human access to the laser beam. Class 1 systems are safe in all working environments; they are installed
and operated as any other industrial machine tool. Class 1 laser systems do not require the use of any special
laser safety equipment by operators or bystanders during their normal operation.
Class 4 laser marking systems do not incorporate protective enclosures. Extra precautions are required.
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The LabeLase 28XX Tag Printer complies with Class 1 during normal use because of the numerous
interlocks provided as detailed in section II.
During service and/or alignment the LabeLase
should be performed only by a Qualified Laser Service/Safety Technician! Because of the Class 4
classification, InfoSight will provide such a person to be available to the end user of this marker.
The nominal power output of the laser used is 60,80 or 100 watts, with a maximum peak power output of 110
watts. It is a CO infrared (invisible) laser with a wavelength of 10.57 to 10.63 microns. The radiant energy
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and the wavelength are less than Class 1 requirements during normal operation.

Section II: Types of safety interlocks.

There are several types of safety features provided on the InfoSight LabeLase
Type 1 includes Mechanical Switches. These switches are located atop the marker and on the rear of the
marker. These switches remove power supplied to the laser marker, as shown in electrical drawings.
Switch A -- Large Red, easily accessible, E-STOP operator Emergency Stop Push Button.
Switch B -- Key switch
Type 2 includes Optical Sensors. Sensors monitor whether tag material is in place and the marker is able to
move the tag material. These two sensors are monitored by the marking microprocessor.
Type 3 includes Mechanical Design. Here, narrow slots are provided to minimize the release of laser
radiation. The beam path from laser tube to final pass through lens is entirely enclosed in a metal shield, with
suitable material that will absorb the heat produced by the beam emitting from the CO
Type 4 includes Password Security Access. The Software requires a supervisor password to change
layout of tags or to alter the operating parameters of the marker itself.
The features and precautions described above are designed with the safety of the user in mind. Should you
have any questions or suggestions please contact InfoSight directly.
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28XX Tag Printer becomes a Class 4 device. Servicing
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28XX Tag Printer:
laser.
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LL28XX Tag Printer