Laser Castle

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RT Technologies, Inc. provides laser safety cabins that protect personnel from the dangers of high powered laser beams by absorbing the laser power in the specially designed walls and roof.

All enclosures are sold tested and certified to FDA/CDRH US Regulations or EN 60825-4 (Safety of Laser Products Part 4 – LaserGuards).

These cabins can be rapidly designed, built and installed by RT Technologies.

They are supplied with an interlock control system and high quality, dual message, dual color, low voltage, illuminated LED signs. An audible warning sign (the Audio Alert) can also be installed. A CCTV system covers the operation inside the cabin and provision is made for fume extraction, making this a cost effective and extremely easy method of enclosing the laser system, which then complies to international laser safety standards.

Laser Castle Demo Video

Which Protection do you want for your Employees?

Standard 1/8″ Steel Laser Enclosure Wall ; 5 kW laser burns through in < 5 secs!

Laser Castle Wall; Special Laser Protective 4″ wall NOT penetrated by 5kW laser!

 

Active “Laser Jailer” upgrade option

The passive cabin can be upgraded to an active laser safety cabin by specifying the “Laser Jailer” Active Laser Guarding System (US Patent No. 8 416 820). Modular active tiles cover the internal walls and roof of the cabin to detect high powered laser beam strikes. If this occurs, fail-safe technology isolates the laser safety input in less than 50ms. The laser machine responds to this laser termination signal and the laser radiation is terminated.

Applications

The enclosures are ideal for use with multi kW lasers (laser welding and cutting applications)

Ventilation

Vents are built into the walls of the enclosure to enable fume extraction.

PEL ratings

The PEL ratings for the passive cabin are listed below.

Irradiated Area PEL (T3) 10 s PEL (T2) 100 s
4 mm2 310 MW/m2 170 MW/m2
2000 mm2 3.1 MW/m2 1.7 MW/m2

Specification to the laser safety standards ANSI Z136.1 and IEC 60825-1

To meet the laser safety requirements of ANSI Z136.1 and IEC 60825-1, the enclosure requires a safety interlock control system including appropriate warning signs – both of are designed and manufactured by Lasermet.

Equipment and system designed, manufactured and installed

The system comprises of an enclosure made from panels constructed from passive laser safety compliant material and certified to the Laser Safety Standard EN IEC 60825-4. The panels are connected together (including a roof) to form the enclosure.

Doors

Access into the enclosure is provided by double doors operated by a sliding mechanism to provide maximum access while using minimum space. Single hinged doors are also available. Multiple door options are available upon request.

A dual message, dual color, LED laser warning sign above the door indicates the status of the laser as it is controlled by the interlock controller. The LED sign, including the laser warning triangle, reads “Danger Laser On” illuminated in red when the laser is powered on, and reads “No Hazard Laser Off” illuminated in green when the laser is off.

Closed Circuit TV (CCTV) monitoring system

An optional CCTV system is installed with the enclosure. Either one or two remotely controlled cameras operate inside the enclosure transmitting video to the video monitor(s) outside the enclosure. When two cameras are installed, the video monitors can be controlled to show the view from either camera using a joystick controller.

Electrical system

The electrical wiring system for the enclosure is run in containment channels inside the enclosure ensuring no external wires are visible inside the enclosure. This gives the enclosure a clean, neat appearance.

Relocation

Being a lightweight, modular design, the enclosure can be dismantled, moved to another location, and be re- assembled very quickly. The standard sized panels also enable the enclosure size to be changed. This is an ideal, flexible, lightweight solution for today’s rapidly changing industrial environment.

Control of Substances Hazardous to Health (COSHH)

Fire

Fire can be easily extinguished in the early stages if quickly tackled with a water, CO2, dry powder or BCF extinguisher.

Smoke and Fumes

Burning panels give off carbon monoxide and styrene gas. The amount given off is less than that emitted by wood and other traditional construction materials in comparative tests. The smoke hazard of burning panels is similar to that of any other construction, decorating or packaging material.

Cleaning & Maintenance of Panels

Panels may be washed down with fresh water from a hose or a bucket. Water may be heated to 60°C. A solution of fresh water and Tepol or non-aggressive detergent may be used to remove heavy deposits, followed by a fresh water rinse.

Laser Safety Compliance

The enclosure complies with the standards and directives shown below.

  • Machinery Directive 98/37/EC
  • Low Voltage Directive 2006/95/EC
  • EMC Directive 2004/108/EC
  • ANSI Z136.1 – Safe Use of Lasers
  • IEC 60825-4 Safety of Laser Products Part 4: Laser Guards
  • ISO 13849-1 Safety of Machinery: Safety Related Parts of Control Systems
  • IEC 60947-1 Low Voltage Switchgear and Control gear
  • IEC 61010-1 Safety Requirements for Electrical Equipment

CE Certified Laser Blocking Partitions

We also supply CE certified laser blocking partitions with or without doors, for dividing one laser lab into two or more sections. These semi-permanent partitions are cost effective and extremely quick to install, without the mess and fuss of building a brick or plasterboard wall. As such they offer an alternative to traditional methods of room division, and can also be easily undone at a later date if required. Alternatively they can be left as a permanent installation.

All laser safety partitions are tested and certified to EN 60825-4 with the following specification:

Irradiated Area PEL (T3) 10 s PEL (T2) 100 s
4 mm2 310 MW/m2 170 MW/m2
2000 mm2 3.1 MW/m2 1.7 MW/m2

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