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The industrial laser safety housing LSG100 enables to mark workpieces inside the marking area of the laser (110 x 110–180 x 180 mm) according to laser protection class 1. The laser cell eliminates any risk of laser radiation to the operator’s skin or eyes.The integrated focus finder used to adjust the focal length ensures a fast setup time for marking products of different sizes. Focus finder adjustment is controlled by means of a stepper motor driven Z-axis from two push buttons in the integrated operation panel or by a serial interface at the PC. Backlash free z-axis adjustment with ball bearing spindle and guide is ensured. The laser marking area may be internally illuminated for user observation. The laser cell includes integrated vacuum piping for extraction of particles and contaminants created during laser marking. Different accessories required during the marking process may be clamped right-angled to the marking area on the base plate. Furthermore, the working area is optionally air-conditioned. The housing is made out of solid sheet metal and may be moved either on rollers or placed on machine mounting pads.The machine’s substructure includes an integrated 19” PC. Moreover, a swinging arm provides support of keyboard and monitor for the operator’s ease and convenience.
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The industrial laser safety housing LSG65 enables to mark workpieces inside the marking area of the laser (110 x 110 ) according to laser protection class 1. The laser cell eliminates any risk of laser radiation to the operator’s skin or eyes.The integrated focus finder used to adjust the focal length ensures a fast setup time for marking products of different sizes. Focus finder adjustment is controlled by means of a stepper motor driven Z-axis from two push buttons in the integrated operation panel or by an interface at the PC. Backlash free z-axis adjustment with ball bearing spindle and guide is ensured. The laser marking area may be internally illuminated for user observation. The laser cell includes integrated vacuum piping for extraction of particles and contaminants created during laser marking. Different accessories required during the marking process may be clamped right-angled to the marking area on the base plate. Furthermore, the working area is optionally air-conditioned. The housing is made out of solid sheet metal. Moreover, a swinging arm provides support of keyboard and monitor for the operator’s ease and convenience.
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The cab laser typeplate marker transports and marks flat and inflexible workpieces with a thickness of up to 3 mm. Maximum size of the type plate is limited to 100 x 50 mm. The laser marker is most suitable for marking materials like aluminum, steel, copper, glass or plastics. The workpieces are conveyed in a fully automatic manner from the input magazine to the marking area and from there to an output magazine. If different sizes of workpieces are marked the magazines and slide-in unit must be interchanged. The logical order of the typeplates is kept during transport. Individual orders may be worked off and ejected in a separate output device. The handling system is controlled by an integrated Siemens S7 PLC. All transport and marking functions are controlled from the PLC operator control panel with integral digital display. The system requires r compressed air supply. The laser’s operational status is indicated by an indicator light. A separate machine table may be supplied, if required.
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cab has expanded it's product range in the area of laser systems with focus on the development of the Ytterbium fiber laser systems FL10 and FL20 which can mark on most diverse materials like steel, aluminum, precious metals and plastics.The laser marking systems consist of a laser source and a fiber-coupled galvo head.Different F-Theta Lenses are available. (100/160/254)The development of the FL series especially focuses on industrial use. The diodes have a MTBF of more than 50.000 hours.The high focused laser beam and first pulse suppression provide marking results up 1000 dpi - perfect conditions for marking two-dimensional codes. Even at high ambient temperatures the laser systems are working most precise and fast. Fiber laser systems are adjustment-insensible and maintenance-free. The integrated diagnostic system shows the device's status. Either modules or the whole device can be exchanged fast and easily.cablase provides both a multilingual user interface and a freely programmable COM interface. In addition the possibility to control and to supervise external NC axes and digital in- and outputs is provided.
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The cab Laser type plate module THS4 provides to mark plates of steel, aluminum and plastics.The system’s handling is centralized in one separate unit and is therefore most suitable to be integrated into the cab laser safety housing LSG 100. The handling provides to work off inflexible type plates. They must be with a tolerance, be plane and free of burr. The handling provides an automatically tracked in- and output magazine. While the input stack undertakes an upwards motion the output, i.e. the destacking magazine moves downwards. The laser always marks the top level plate of the stack. After having been marked the plate is removed from stack by means of a vacuum gripper and forwarded to the output magazine by linear drive. Then, the stack is automatically moved up so that the level where the plates are marked remains the same height. Type plates with different thickness are automatically identified by the help of a sensor.The magazine’s side guides are adjusted by slotted holes and locked by cylinder head screws. 2 sides of the magazine remain fixed to maintain the angles’ alignment. The device thus has a fixed zero point in relation to the marking field of the laser system. For shifting the magazines one allen key is required and for modifying a time of maximum 10 minutes is needed. The software of the laser provides the logical control of the type plate marker. This software is included in standard delivery and contains appropriate routines.
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The laser turntable 400 enables to mark single workpieces in the area of the laser according to laser protection class 1. The turntable rotates throughout 180 degrees. New parts may be placed at the front side and at the same time parts may be laser-marked in the back. Release of a rotation is made by two-hand operation on release of the laser after having finished a marking process. The laser irradiation does not cause any danger neither for the operator’s skin nor eyes. The laser may be adjusted by means of a stepper motor driven depth-axis from two push buttons in the external operation panel. The laser safety cover includes integrated vacuum piping for extraction of particles and contaminants created during laser marking. Different accessories needed during the marking process may be clamped right-angled to the marking area on the base plates of the turntable. For positioning workpieces the housing includes at one side a set-up door with integrated laser protection glass. A switched power socket for external accessories is provided at the rear panel of the housing. The laser turntable may be connected to all different standardized voltage supplies. Cable installation between laser and laser safety housing is daisy chained and interlocked to ensure user safety during laser operation. The cover is color-coated in grey.
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As biggest European manufacturer of Thermal Transfer Printing systems cab Produkttechnik GmbH presents a further innovation - the cab laser label marker LM. Based on the cab Ytterbium fiber laser, acrylic labels or colour laser film can be marked in high resolution and be cut optionally in different sizes. Due to the high impulse frequency, fiber lasers can mark with maximum speed. The largest roller diameter of labels and continuous material is 300 mm. There are two machine types available with different marking resolution and marking area.Laser labels are used for security-relevant identification and can be self-destructive as an option. Applications are in the electronic-, automotive industry and in tool building. cab offers a variety of interfaces to databases, ERP systems and SAP. By the use of CCD camera systemn labels can be verified according to DIN/ISO standards.
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SIGNUM MARKING LASERS RANGE
Laser Marking units are available to the user in two configurations:
Single-Block
A compact, all-in-one architecture, containing all system components like the laser source, scanning head as well as control and supply electronics.
This configuration is ideal for the integrators of laser marking stations into automatic production lines or machines, allowing engineering and installation cost savings.
Dual-Block
Two main system components, Marking Head and Power&control Box, linked by a simple sheath containing fiber optics and RF cables.
This configuration is reducing to the minimum the marking head footprint, as well as allowing a better cooling of the Power&Control Box under in case of severe ambient conditions.
Main Features:
Laser Source: DPSS Nd-YV04
Wave length: 1064 nm
Output Power (CW): 5W / 10W / 20W
Pulse Width: from 5 to 25ns
Pulse Frequency: up to 100 KHz (active q-switch)
Cooling: Air/Air (Electrostatic)
Pumping Diode: 808 nm - Class IV
Aiming Diode: 635 nm - Class IIIa
Operating Temperature: 25°C +/-10°C
Humidity: 85% non condensing
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System Overview:
The Lasonall Yag Laser is a Class IV diode-pumped Nd YAG Laser Marking system. High performance in a compact size makes our Yag Laser an ideal choice for integration into production lines. Available in a range of power sizes from 5 to 50 Watts the Lasonall Yag Laser has an unlimited range of application uses. The Lasonall Yag Laser Marking System incorporates the latest features in a Diode Pumped Solid State Yag Laser Marking System.
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General description
Application: Marking control icons on high-end appliance tops
Features:
- 50-watt diode-pumped Nd:YAG laser
- 16-bit high precision galvanometers
- 10"x10" marking field
- Programmable linear laser motion
- Part length sensors for four discrete appliance families
- Manually adjustable Z-axis laser motion with digital position display
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