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The Microtrak II is a state of the art CMOS laser triangulation sensor for precise measurements of displacement, position, vibration and thickness. It is unaffected by surface texture, color or stray light. Measurement ranges are up to 40 mm at a standoff distance of 120 mm.
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Line through-beam sensors are applied where precise positioning is required or where the dimensions of an object have to be determined with high accuracy (e.g. diameter of a wire). The L-LAS-TB sensors (available in split shape or fork shape) offer various operating widths with a resolution of up to 1024 pixel (4098 subpixel).
An analog output (voltage output or current output) informs about position and size of the object. Furthermore, a digital output is available that offers information about quality and position of the object.
The laser through-beam sensor can be easily parameterised with the Windows® user interface L-LAS-TB-Scope.
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LC-120 series
The LC-120 series is suitable for high precision detection. Choose between versions with background suppression or polarised retroreflective types. This laser class 2 sensor with background suppression allows objects to be detected regardless of colour. The LC-120 features a very small laser spot and short response time with excellent repeatability, making it ideal to detect very small objects or slight movements.
Characteristics:
Trigonometric sensors with 150mm and 350mm rated sensing distance
Excellent price-performance ratio
Retroreflective types with polarising filter (20m)
Diffuse reflective type with background suppression available
Rotary connector available
Accessories:
Cable
Reflectors
Mounting brackets
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M18-L series
The M18-L series offers all optical functions for a wide range of applications within an M18 housing. A visible laser light spot makes aligning the sensor easy. The M18-L is easy to install and requires very little space thanks to its ultra compact size. You can choose between thru-beam, reflective and retroreflective types.
Characteristics:
Visible red laser diode, laser class 1 (650nm)
Long-range type for up to 60m
Two transistor outputs (light ON / dark ON)
Axial and radial light emission types
M12 connector or cable connection
Metal or plastic housing
Accessories:
Cable
Reflectors
Mounting brackets
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F NEPTUNE LASER
Spread : 2 to 120 mm
Depth : 42 to 95 mm
Supply : 10 to 30 VDC
Outputs : PNP et NPN independent
High sensitivity
Ultra high-speed detection : 10 kHz
Description :
LASER : modulated red Class I 670 nm
Potentiometric set-up type (green keyboard)
Teach-in set-up type background / object (yellow keyboard)
Keyboard locking
Direct / inverse (L/D)
Independent PNP and NPN outputs
Output indicator
Function indicator
M8 connector
Metal and polyamid/glass housing
Applications:
Detection of marks
Detection on a conveyor
Detection on a vibrating rail
Detection of transparent object
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Parallel laser light with homogeneous light distribution in round or rectangular cross-section is used for measuring, positioning, and detection of objects starting from a size of 0.01 mm.
Measuring principle: Partial covering of the laser beam leads to a voltage at the analog output that is proportional to the degree of covering.
The laser light beam that is emitted by a high-precision optical unit (aspherical surface made of glass) allows the detection of smallest objects (e.g. threads) even in case of a large transmitter/receiver distance (distances up to 100 m, depending on model and aperture). The use of high-precision apertures in the transmitters ensures optimum adaptation to the respective application. The aperture guarantees a homogeneous light distribution on the beam and a sharp beam limitation.
Apart from a large variety of standard apertures special apertures can also be realised.
The non-contacting measurement of fast-moving objects by means of analog laser light barriers of the A-LAS series now is further supported by the new A-LAS-CON1 control unit. Up to two A-LAS sensors can be connected to this control unit. The included A-LAS-CON1-Scope software allows a selection from several evaluation algorithms. Furthermore, an external signal for triggering also can be selected with the operating software, or one of the two analog light barriers functions as a trigger device, while the other laser sensor is used for measurement. This also makes it possible to measure larger objects while they are moving and, among others, allows the performing of measuring tasks such as the width of plug contacts, *gap-size* measurement of stamping parts, etc.
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FLDK 110
(Laser, sensitivity 0,2 mm)
Copy counters plastic 60 mm - counting of up to 600'000 copies/hour, standard connector M12x1, compact design, IP 54
FLDK 110
(Laser, sensitivity 1,5 mm)
Copy counters plastic 55 mm - Plug & Play, counting of up to 280'000 copies/hour, compact design, IP 54
FLDM 170
(Laser, with serial and CAN interface)
Copy counters metal 120 mm - counting of up to 3 million copies/hour, integrated copy counter, CAN interface, IP 54
FLDM 170
(Laser, with serial interface)
Copy counters metal 90 mm - counting of up to 3 million copies/hour, integrated copy counter, IP 54
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The Proximity Laser Scanner FLSC is a scanning distance sensor. With it, persons and objects can be recognized inside a defined protection field.
A pencilled LASER beam is deflected by a rotating mirror. With it, a
circular area with a aperture angle of 180o and a radius of approx. 15 m is scanned.
The semicircular area is divided in two recognition areas:
Personal protective recognition area: Radius 4m
Object recognition area: Radius 15 m
In every recognition area a protective field can be fixed.The form of the protective field is independently eligible resp. programmable: The delivered with communication software enables to fix the form of the respective protective field with a PC on your own. The coordinates of the protective fields are saved in the Proximity Laser Scanner FLSC. The Proximity Laser Scanner FLSC compares themeasured datas with the saved protective fields,and recognizes, if a object is in a protective field.
If the emitting beam meets a object inside the working field (person or thing ),he will be reflected. A part of the reflected diffuse radiation is collected by the receiving part of the Proximity Laser Scanner FLSC.
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The new OptoShield OS3101 uses harmless laser light to sense an intrusion into a guarded area. It can be configured for multiple irregular-shaped hazardous areas, making it an excellent choice for safeguarding work cells, transfer lines, robot stations, and automated guided vehicles. It’s the only laser scanner with patented Intrusion Indicators for instant visual feedback. Operators love it for its efficiency, as they can locate the intrusion and clear it immediately. Best of all, our configuration software is so intuitive, you can learn it today and remember it months from now.
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TYPE 3 - SIL 2 SAFETY LASER SCANNER
Safety Laser Scanner, suitable for the protection of workers exposed to risks arising from the use of hazardous machines and automated guidance vehicles (AGVs). Pharo creates horizontal or vertical protection areas through programming or self-teaching, up to an amplitude of 190°
See Pharo´s own site in English
Presentacion de Pharo en Espanol
Conforming to:
- 98/37/EEC Machine Directive
- 89/336/EEC Electromagnetic Compatibility Directive
- 73/23/EEC Low Voltage Directive
- EN 61496-1 and IEC 61496-1-3 Electrosensitive protection devices
- IEC 61508 Functional Safety of Electric and Electronic Programmable Devices
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Optoelectronic safety device are used as entry, danger point or danger zone guards.
LS 30 range safety laser scanners detect invisibly and without physical contact over an angle of 190° and are mainly utilised as hazardous zone guards. The zone to be guarded can be individually definded, i.e. to suit the particular case, by means of user-oriented software. Up to two pairs of protection and warning zones can be monitored without the need for an additional safety monitoring module. By virtue of conventional means to guard the dangerous zone is either only realisable at the cost of high outlay or even completely impracticable, such as on pipe-bending machines, industrial robots and automated guided vehicles (AGV). LS 30 safety laser scanners achieve Control Categroy 3 to EN 954-1.
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The new OptoShield OS3101 uses harmless laser light to sense an intrusion into a guarded area. It can be configured for multiple irregular-shaped hazardous areas, making it an excellent choice for safeguarding work cells, transfer lines, robot stations, and automated guided vehicles. It’s the only laser scanner with patented Intrusion Indicators for instant visual feedback. Operators love it for its efficiency, as they can locate the intrusion and clear it immediately. Best of all, our configuration software is so intuitive, you can learn it today and remember it months from now.
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The ROTOSCAN RS4-4E is a non-contact optical area scanner. Like a radar laser scanners permanently scan the complete field of work in an angle of 190° and a radius of several meters and so monitor a two-dimensional area. Within this work area independent detection and warning zones can be programmed with a PC software. Persons entering the detection zones will be detected and an emergency stop signal will be generated for machinery.
The applications of the ROTOSCAN RS4 4E are the protection of persons by vertically safeguarding danger points and access as well as danger area guarding at stationary machines and mobile systems.
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Laser scanners are used for non-contact monitoring of a freely programmable area. No separate reflectors are required. Installation is simple because the sender and receiver are accommodated in a single housing.
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A special mask welding system with supreme precision.
NOVOLAS TM MICRO welds fine structures as narrow as 100 µm. Any imaginable shape can be welded with a positioning accuracy down to 2 µm. Masks can be exchanged with ease, allowing for high flexibility. NOVOLAS TM MICRO can be operated as a manual workstation or integrated for mass production.
• An intelligent adjustment system guarantees high
welding precision
• Simple parameterization and visualization with the graphical
user interface
• Seated operation and easy handling
• Novolas TM Micro is configured for clean room applications
• Masks are produced via photo lithography according to
customer specifications
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3/4 axes machining center for LASER welding of mechanical components of small-mid size.
The open-connection system of the installation allows to use LASER Nd : YAG CW impulse, CO2, Disk or Diode direct or fiber delivered, with fixed optics (up to 3 together) or galvanometric technology.
The high technical content, the ease of use, versatility, large range of use make of it a revolutionary, unique means for technological welding.
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Versatile: the head can mount clamps for traditional and special components, paste or resin batchers or specific working systems.
Fast: the multiple 4 tool head can load the components in sequence (transfer time saved).
Qualitative: thanks to the precision, repeatability and insertion control.
Low costs: combination of assembly functions for non-standard components and the performance of accessory operations (ex. fluid batching) make NEOPLACE an optimal investment.
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Laser transmission welding belongs to the established processes in mass production today. It allows, plastic parts to be welded without creating any debris or shocks. In general, small and larger, soft and flexible joining parts can be processed, from micro-parts used in high-tech applications to mass production.
* Laser welding machines working with the quasi-simultanous and contour welding techniques.
* Complete automated welding lines including parts management by feeding systems, handling solutions.
* Machine concepts in all variations, e.g. rotary table or linear transfer design.
* Robots can be integrated depending on application.
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Branson offers two standard models of Radiance controls: 3G and 3I. These units include DC laser power supplies, CANopen laser bank bus network, 6" LCD touch screen interface, and the ability to control a Branson 2000X Series actuator. The advanced controls include:
Time and distance welding modes (both collapse and absolute)
Force measurement
Process limits with alarms
Multiple preset memory
Graphing and weld history data
Multiple languages
The 3G is a compact bench-top controller. It is designed to interface with a single 2000X actuator and up to two Radiance laser banks capable of delivering up to 250 Watts of laser power. This unit is designed to be operated with an external chiller.
The 3I is a free-standing controller. It is designed to interface with a single 2000X actuator and up to four Radiance laser banks capable of delivering up to 500 Watts of laser power. This unit features an internal chiller for laser cooling.
IRAM 200 and 300
The IRAM 200 is a modular system that can be configured in multiple ways. The base machine includes a laser safe enclosure, PLC controls and operator interface, an integrated chiller for laser cooling, and one laser bank which generates 125 Watts of power at 808 nm or 100 Watts at 980 nm. Options include a smart actuator with force transducer and linear encoder for weld-by-distance functionality, wide beam scanning system with servo slide for welding large surface areas, and up to two additional laser banks providing for a total power of 375 Watts at 808 nm or 300 Watts at 980 nm.
The IRAM 300 operates at 600 Watts at 980 nm and features global intensity control, individual laser diode control, extensive data logging and system monitoring, light enclosure with pneumatic door and safety interlocks, water flow controls, switches, and temperature monitoring, laser active indicator, safety light curtain, and an interior work light.
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With our new Laser-Distance Sensors DLS-B you measure absolute distances up to 500 meters. Thanks to state of the art laser technology the DLS-B device measures with a precision of 1.5 millimeters. It represents a cost efficient solution even at extreme environment temperatures as low as -40° C.
The DLS-B is an optical measuring device. You can measure, maintenance-free, distances on natural and reflective surfaces. You determine positions on objects difficult to access or with very high surface temperatures. Just as well you can measure distances in an aggressive environment in an easy and accurate way.
Serial, analog and digital interfaces are standard features for the complete DLS-B product line. This enables you to easily connect the DLS-B to a control system (SPS, IPC or PC)
The DLS-B device runs in a “Stand-alone-mode” and independently executes all programmed functions. Thanks to the flexible range of functions an external display can be connected directly to the DLS-B device via interface RS232 or RS422. Via a digital input, measurements can also be activated from an external button or switch.
For easy configuration of the DLS-B devices, the necessary software is at your disposal
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Automatically controlling molten metal pouring processes can provide significant returns in terms of reduced cost, improved throughput and quality – as well as the ability to remove operators from dangerous environments.
LMI sensors are broadly used to provide accurate, sub-millimeter level information from the molten metal surface during pouring, in spite of the hostile smoky, high temperature environment
Our Metal applications division works closely with System Integrators & Original Equipment Machine Suppliers to deliver the most effective solutions for their particular sensor vision needs.
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The LMC-F-0050-1 is an opto-electronic level measuring module for industrial application like tank level measurement. The module operates on basis of non-contact comparative phase measurement with amplitude modulation. The laser diode (cw operation) has a divergence of 0.6 mrad for measurement with pinpoint accuracy. The measured result is available on the RS 232 / RS 422 data interface. Optional also Profibus, Canopen, Ethernet or WLan Interface are available. A digital switching output (second as option), an analogue 4..20mA output and optional a Profibus output is also available. The sensor alignment can be easily achieved with the help of the red pilot laser. The Measuring range is on any natural surface between 0,2 to 30m, for 30 to 100m it depends on the surface reflectivity coefficient.
Features:
- Laser class 2 for eye safe operation
- Non-reflector measurement
- Millimetre accuracy measurement on any surface
- Easy installation and commissioning
- Allows field bus integration (Profibus).
- Meets IP 66 protection class for industrial use
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The new Pullmatic 720 Laser integrates laser technology and hydraulic punching. With a combination of Laser cutting, punching, forming and tapping the possibilities will be endless. Complex contouring can be achieved even for one offs without special shaped tools and still producing an excellent edge quality. A system designed not only for prototyping and specials but also for long production runs.
The Fanuc C2000E laser system with its high beam quality and high maximum power, all typical cutting applications, such as cutting of mild steel, stainless steel and aluminium can easily be realised. Same cutting performance as with competitor's 3kW lasers i achieved!
A true multi tasking machine, the Pullmatic 720 Laser enables users to run Just In Time production with higher profitability. Any type of part can be processed through the system without having to move parts in-between other machine tools and therefore decreasing time and cost per part. Just like the other members of the Pullmatic family of punching systems, it can be fully automated for "lights out" environment and 24/7 production.
- Laser cutting, punching, forming, tapping
- J.I.T Just In Time Production
- Faster Return On Investment
- Start to finish process
- Prototyping
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COMBINATION TECHNOLOGY REDEFINED
Punching productivity and laser cutting flexibility is combined in one, cost-effective package
This flexible part processing system marries a 20 ton CNC hydraulic punch press with Fanuc GE fast axial flow CO2 laser
Offers exceptional part quality and accuracy at an affordable investment
Punches conventional round and shaped holes with precision and cuts holes or contours that are impossible for conventional punches and dies
1250 x 2500 mm maximum sheet size
6,35 mm maximum material thickness
Equipped with a low noise/scratch sensitive brush bed system
Ideal for processing lighter gauge components
A 33-station thick tool style turret offers large capacity for a versatile tool mix
Three 50,8 mm direct-drive auto-index stations accept standard, tapping or wheel style tooling
Laser resonator generates up to 2.5 kW of power to cut intricate shapes in metals and non-metals
Small part quantities with special or unusual shapes are produced without the need for special tooling
300mm x 450mm programmable work chute allows easy discharge of laser cut parts
Optional Pick-Sort system for automated sheet loading and unloading and piece-part retrieval and stacking
Key options
Pick-Sort robotic material handling system
CADMAN-P 3D offline software
Models Available:
Strippit LP1225 – 20 ton / 2.5 kW – 1250 x 2500 mm (before reposition)
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EMLZ combinations systems associates high performances prper to electric punching,bottom forming system, tapping unit and laser cutting. Owing to its original design,working zones are clearly separated. Designed to produce complex parts to high level of quality at the lowest cost,The EMLZ can be integrated to an automatic production line.
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FINN-POWER LP - INTEGRATION FOR OUTSTANDING FLEXIBILITY
The essence of FINN-POWER LP is the integration of well-proven C series 300 kN hydraulic punching technology with the latest generation of industrial CO2 Lasers.
LP features new coordinate table design for maximum sheet size of 3,074 mm x 1,565 mm without repositioning.
FINN-POWER's experience in the integration of subsequent work stages in the sheet metal working process is easy to see in our laser-punch combination.
The long list of system features and benefits for fabricating sheet metal components results from experience, continuous development and FINN-POWER's commitment to guarantee our customers´ competitiveness.
The availability of punching, forming, tapping, marking and laser cutting capacity in an integrated machine tool means component manufacturing can be planned for optimum quality and speed of production. Whatever the workpiece, you can choose the most profitable manufacturing method, or the most profitable combination of methods. For example, when laser cutting is required, a pre-punched start hole reduces laser cutting time, no piercing occurs, and lens life is prolonged as there are no harmful reflections from the surface of the material.
This intelligent integration increases productivity and offers flexibility for your today's and tomorrows manufacturing.
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