Izdelki za stroji za rezanje (314)

width 56 cm age 2018 computer control with monitor light barrier 2 side tables rear table cover Ref: PO240175A Please ask for price. We ship and install worldwide!

When using high-performance CO2 lasers for welding applications, metal mirrors are usually preferred for beam guidance. Depending on the desired application, the configuration of the machining head is composed of modular individual components according to customer requirements. The possibilities are almost unlimited, ranging from the simplest welding head to complex 3D machining heads. The FH40/C focusing heads are used for laser power up to 5 KW and raw beam diameters up to max. 30mm, the FH60 focusing head for laser power up to 15 KW and raw beam diameters up to max. 50mm. All optical units have connections for direct water cooling, are available with different coatings and are generally available from stock. In addition to the cross-jet for the efficient reduction of splashes and smell on the mirror optics, protective gas feeds with a lateral or coaxial flow direction are also offered for targeted coverage of the welding torch.

RSD is our short name for a laser head consisting of a total of 2 motorized axes for use in large-format laser machines in gantry design for 3-dimensional laser cutting / laser welding of components. The horizontal main axis of the laser head permits endless movement, even during the rotary movement the axes below are permanently supplied with cooling water, process gases and all electrical signals. Suitable optics are used for the laser source used, either directly water-cooled metal mirrors with coatings of least absorption, or alternatively glass optics. The use of an adaptive optics optionally allows the freely programmable focus position for cutting and piercing. The exclusive use of torque motors reduces mechanically moving components and thus guarantees consistently high machining accuracy and best machining results over a long service life, against mechanical damage reliably protects our proven 3D collision protection.

ZINSER GmbH offers first-class environmental technology solutions to complete your cutting systems. Our extraction and filter systems have been specially developed for applications such as plasma, oxyacetylene and laser cutting and set new standards in filtration performance and productivity. We offer you tailor-made solutions for systematic air purification to maximize the efficiency and safety of your cutting processes. Extraction and filter systems ZINSER extraction systems offer the highest performance and effectiveness. Our filter systems are available in various sizes and can be tailored to your specific requirements. They offer plug-and-go functionality, a closed design, quiet operation and high-performance filter cartridges that ensure improved cleaning efficiency and energy cost savings. ZINSER cutting tables Our cutting tables are the optimal solution for air purification during the cutting process.

TEPROSA GmbH has specialized for many years in the manufacture of sophisticated, precisely fitting laminated cores of exceptionally high quality. In the field of electrical steel sheet, we manufacture individual laminations and sheets for stators and rotors, as well as entire sheet packages stator- or rotor packages) from various steel grades. We process grain oriented electrical steel for generators, transformers and other electrical machinery. Our most common method for packaging the individual laminations is baked enamel technology. Alternatives are welding or bolting of laminations. As a long-standing supplier to various OEMs, the quality of our work is particularly important to us. Therefore, we work according to uniform processes and thus ensure consistent quality and complete traceability of each individual production step.

Baking varnish is a special joining technology for sheet metal packages. After the individual lamellas have been cut, electrical steel with a baking varnish coating is baked into a sheet metal package in a two-stage temperature step. The result is a full-surface, solid connection between the individual sheets with complete insulation. Sheet metal packages manufactured in this way have high precision and perfect magnetic properties. Advantages of the Backlack process: The Backlack process offers several advantages over alternative packaging processes, which we will discuss in detail below. Precision – Sheets coated with baking varnish are baked over the entire surface. This means that even delicate slats can be assembled precisely.

We are specialized in performing thermal shock testing of electronic and mechanical assemblies and have a lot of experience with the requirements of the automotive industry and medical technology. On behalf of our customers, we perform environmental and climatic tests according to customer specifications and applicable standards, thus uncovering optimization potential. We will be happy to advise you with regard to your testing tasks and, together with you, transfer the entire testing process into a specification sheet. OUR OPPORTUNITIES 2-chamber system air-air Test chamber volume up to 130 liters Temperature range hot chamber 50°C to 200°C Temperature range cold chamber -80°C to -100°C Change between chambers <15 seconds Maximum test material weight 25 kg State monitoring of the test specimens during the test

We offer laser direct structuring (LPKF-LDS process) for the production of 3D-MID (so-called three-dimensional circuit carriers) as a service in Magdeburg. 3D-MID stands for Mechatronic Integrated Device (or Molded Interconnected Devices). The MID technology makes it possible to use three-dimensional plastic parts as circuit carriers for electronic or mechatronic assemblies. The LPKF-LDS process is one of the technologically leading and at the same time most economically interesting process for the production of 3D-MID. The LPKF LDS process represents the central process step. The process was developed and patented by the company LPKF Laser & Electronics AG in Hanover. Materials:Plastic (ABS, PC / ABS, PC) Repeat accuracy:± 2 μm

Testing services from a specialist: we are specialized as a testing laboratory for the simulation of specific environmental conditions and the monitoring of the influences of these conditions on electronic assemblies. We offer the following services in our test lab and at your site as contract testing.

With the help of the 3D-MID process, plastic parts can be metallized not only over the entire surface, but also selectively. To do this, the plastic part is activated with a special laser at the points that are to be coated (this is referred to as laser activation or laser direct structuring). The additives contained in the plastic directly under the plastic surface are “exposed” by the laser treatment. In a chemical bath, copper particles can then be deposited specifically only on the activated surfaces. Other metals, e.g. nickel, tin or gold, can then be deposited onto the starting layer of copper. In this way, a selectively coated plastic part is obtained. MID technology thereby makes it possible to selectively coat two-dimensional and also three-dimensional plastic parts and use them, for example, as circuit carriers for electronic or mechatronic assemblies. With the LPKF-LDS process

Mechatronic integrated devices or molded interconnect devices (injection-molded circuit carriers) are spatial electronic assemblies – so-called 3D-MID. A special process is used to apply metallic conductor tracks to a specific substrate material (often plastic), thus creating three-dimensional assemblies that also serve as circuit carriers. These spatial electronic assemblies are manufactured using 3D-MID technology and, compared to conventional assemblies, enable the integration of electronic, mechanical, fluidic, optical and thermal functions. The resulting additional benefits represent advantages that cannot be realized with two-dimensional circuit carriers (printed circuit boards).

We are specialist in strain gage strain measurements on printed circuit boards and all other components. We carry out the application of strain gages and determine for you the actual stresses that occur, or the strain (also strain-rate) on a specific or several components in the manufacturing or assembly process. We perform our DMS measurements with certified measurement technology and according to the specifications of IPC/JEDEC-9704A. Expert advice from TEPROSA When measuring strain, in addition to many factors such as the appropriate measurement technology, it is also important to rperform the strain measurement correctly and to ensure that the sensors record the forces correctly. To ensure that the deformation of an object is correctly determined, it is therefore crucial to select the right strain gauges (also known as measuring strips) and to place them in the correct position on the measured object.

SD is our short cut for a laser head consisting of either the swivel axis only or in combination with a highly dynamic linear axis for laser processing of pipes. Suitable optics are used for the laser source used, either directly water-cooled metal mirrors with coatings of least absorption, or alternatively glass optics. The use of an adaptive optics optionally allows the freely programmable focus position for cutting and piercing. The exclusive use of torque motors reduces mechanically moving components and thus guarantees consistently high machining accuracy and best machining results over a long service life, against mechanical damage reliably protects our proven 3D collision protection. The clear aperture of the current laser swivel head SH35 is 35mm, the larger version SH60 is still available with a clear aperture of 60mm.

Adaptive optics is a special form of high-performance laser mirrors. Their characteristic is that the mirror surface is designed as a membrane, which can be deformed in a controlled manner by pressure change on its back. The shape errors occurring in this case are extremely low; we tolerate them with a maximum of 0.0005 mm. Our adaptive optics are suitable for use with laser power up to 10 KW thanks to integrated direct water cooling and HR coating. Most common types are the adaptive optics with elliptical membrane as these can be used directly to the 90 ° deflection. They are identical to our standard planes of identical aperture and therefore do not need special housings. In addition to the elliptical varieties, LT Ultra also offers round adaptive mirrors. As a rule, these replace the concave spherical mirror of an existing telescopic beam expander directly at the resonator. Round adaptive mirrors can only be used with deflections <10 °. …

Shims, or shims sheets / spacer sheets / shims, are used to compensate for tolerances that occur in manufacturing. In this way, components and products in fixture construction, on machines and in automobiles can be compensated for easily, cost-effectively and with high precision.

3D-MID are three-dimensional, spatial circuit carriers. The abbreviation MID stands for Molded Interconnect Device, or also for Mechatronic Integrated Devices. The term extension Mechatronic Integrated Devices as opposed to Molded Interconnect Devices (origin Molded = injection molded) is increasingly being used, since the three-dimensional basic bodies are no longer manufactured exclusively through the use of injection molding technology and no longer exclusively from plastic.

eurolaser-Kunden können sich schon lange durch die hohe Verfügbarkeit, Funktionalität und Flexibilität der Systeme auf dem Markt behaupten. Seit einigen Jahren bietet eurolaser mit der „Remote Operation“-Option die Möglichkeit, den Bearbeitungstisch in zwei Bereiche zu teilen. Der Vorteil hierbei ist, dass im vorderen Bereich das platzierte Material geschnitten oder graviert wird, während auf der hinteren Tischhälfte das bearbeitete Material entnommen und das System sofort neu bestückt werden kann. Durch die RO-Funktion wechselt der Laser automatisch zwischen den beiden Bereichen. Das eurolaser-System befindet sich somit nahezu im 100-prozentigen Einsatz.

RSLD is our short cut for a laser head consisting of a total of 3 motorized axes for use in large-format laser machines in gantry design for the 3-dimensional laser cutting of components. The horizontal main axis of the laser head permits endless movement, even during the rotary movement the axes below are permanently supplied with cooling water, process gases and all electrical signals. Suitable optics are used for the laser source used, either directly water-cooled metal mirrors with low-absorption coating or alternatively glass optics. The use of an adaptive optics enables the freely programmable focus position for cutting and piercing. The exclusive use of torque motors reduces mechanically moving components and thus guarantees consistently high machining accuracy and best machining results over a long service life, against mechanical damage reliably protects our proven 3D collision protection.

Auf einer Bearbeitungsfläche von 1.800 x 3.200 mm lassen sich Schneid- und Gravuranwendungen bei Acrylglas durchführen. Diese Lasermaschine gehört zu den größten der eurolaser Cutter-Serie und ist mit zahlreichen Optionen erhältlich. Eine ideale Maschinengröße für alle Anwendungen, bei denen viel Platz benötigt wird. Der bedarfsorientierte, modulare Aufbau der eurolaser Lasersysteme ermöglicht eine an jede Anforderung speziell angepasste Konfiguration und bietet gleichzeitig die erforderliche Flexibilität. Der Aufbau der Maschine orientiert sich vorwiegend an den Erfordernissen, die sich aus der späteren Nutzung ergeben. Arbeitsfläche (BxL)::1.800 mm x 3.200 mm Abmessungen (BxLxH)::3.520 mm x 3.940 mm x 1.600 mm Materialdurchlassbreite::1.880 mm Tischdurchlasshöhe::58 - 80 mm (je nach Materialträger) Laserleistung::60 bis 650 Watt Geschwindigkeit::1 - 1.414 mm/s (in 1 mm Schritten) Beschleunigung::max. 9,1 m/s²

In an environmental simulation, assemblies are subjected to defined environmental conditions to validate their behavior under those conditions. The variables of an environmental simulation test include climatic aspects such as temperature (cold, heat), the air conditions (humidity, wetness), mechanical influences such as dust, vibration, vibration or impacts, and corrosive environmental effects such as salty lift (salt fog). As an environmental simulation laboratory, we simulate these environmental conditions in our climatic chambers and climatic chambers, creating real conditions to investigate the long-term behavior of the test specimens in reality. Environmental simulation and thermal shock testing laboratory for electronic assemblies and printed circuit boards We specialize in performing environmental simulation and temperature shock testing of electronic and mechanical assemblies. With over ten years of experience with the requirements of the automotive industry and medical

CO 2-Laser bieten beeindruckende Resultate bei extrem schnellen Markierungen von organischen und anorganischen Werkstoffen. Dabei zeichnen sich die Ergebnisse durch eine sehr hohe Detailgenauigkeit und eine dauerhafte Kennzeichnung aus. Die Vorteile der CO 2-Lasermarkierer im Überblick: Die kompakten Beschriftungslaser von eurolaser benötigen wenig Platz, arbeiten sehr zuverlässig und präzise und sind für die Einzelfertigung bis hin zu Kleinserien konzipiert. Natürlich ist auch die Integration in Fertigungslinien möglich. Maschinenmaße::740 mm x 201 mm x 233 mm Gewicht::20 kg Anschlussspannung::100-240 VAC / 16 A / 50~60 Hz Sicherheit::4, optional Laserschutzklasse 1 Laser::30 W luftgekühlt Beschriftungsfläche::50 mm x 50 mm / 90 mm x 90 mm / 150 mm x 150 mm

CO2 lasers offer impressive results in the marking of organic and inorganic materials. A very high degree of detailed accuracy and long-lasting markings are the outstanding features of this marker. The compact marking lasers from eurolaser require very little space, operate reliably and accurately and are designed for use in made-to-order items through to small series. It goes without saying that they can also be integrated into production lines. Overall dimensions:740 mm x 201 mm x 233 mm (29,1 Weight:20 kg Power supply:100-240 VAC /16 A / 50~60 Hz Safety:4, optional Laser protective class 1 Laser:30 W air cooled Working areas:50 mm x 50 mm (2

Textilies can be cut and engraved on a processing area of 1,800 x 3,200 mm (70.9" x 126"). This CO2 laser machine is one of the largest among the eurolaser cutter series and is available with many optional features. An ideal machine size for all applications requiring plenty of space. Working area (w x l):1,800 mm x 3,200 mm (70.8" x 126.0") DIMENSIONS (W X L X H):3,520 mm x 3,940 mm x 1,600 mm (138,5" x 155,1" x 62,9") Max. material width:1,880 mm (74.0") Material clearance:58 - 80 mm (according to material support) Laser power:60 to 650 watt Speed:1 - 1,414 mm/s (in steps of 1 mm) Acceleration:max. 9.1 m/s² (358"/s²)

Das CO 2-Schneidsystem XL-3200 ist mit einer Bearbeitungsfläche von 2.270 x 3.200 mm das größte Modell der XL-Serie. Die gigantischen Ausmaße erlauben auch die Laserbearbeitung von besonders großflächigem Material. Durch die hohe Beschleunigung des Optikkopfes, aus dem der schneidende Laserstrahl austritt, ist auch bei dieser Tischgröße optimale Wirtschaftlichkeit gewährleistet. Der bedarfsorientierte, modulare Aufbau der eurolaser Lasersysteme ermöglicht eine an jede Anforderung speziell angepasste Konfiguration und bietet gleichzeitig die erforderliche Flexibilität. Der Aufbau der Maschine orientiert sich vorwiegend an den Erfordernissen, die sich aus der späteren Nutzung ergeben. Arbeitsfläche (BxL)::2.270 mm x 3.200 mm Abmessungen (BxLxH)::3,990 mm x 3,940 mm x 1,600 mm Materialdurchlassbreite::2.350 mm Tischdurchlasshöhe::58 - 80 mm (je nach Materialträger) Laserleistung::60 bis 650 Watt Geschwindigkeit::1 - 1.414 mm/s (in 1 mm Schritten) Beschleunigung::max. 9.1 m/s²

Pièces usinées CNC en aluminium.

Le laser CO2 propose des résultats impressionnants pour le marquage extrêmement rapide de matériaux organiques et anorganiques. Les résultats se caractérisent par une très grande précision des détails et la durabilité du marquage. Les lasers de marquage compacts eurolaser nécessitent peu de place, sont très fiables et précis. Ils sont prévus pour des travaux unitaires ou des petites séries. Leur intégration dans des lignes de production est également possible.

The special model ASW 560 for industrial applications offers the latest technology and premium quality: Combine cutting or flattening in conjunction with the Weber automatic initial cut function in one machine. That means that virtually no manual post-processing is required after the processing workflow, even for cheek and very cold material. Can optionally be used with a blade shaft for cutting into the product to be derinded. That leads to an optimal derinding result with a residual rind of less than one percent (temperature dependent) for pork cheek or use with upstream pressure device (roller) instead of the blade roller. Advantages Two work procedures in one machine increase product throughput Almost no more manual post-processing required, even for pork cheeks and highly cooled materials – potential labour savings Options: Operation from left or right Product-specific pressure devices for the derinding process Special sub-frames (height adjustment) Motor output (kW):1,5 Cutting width (mm):500 Cutting thickness (mm):0-4 (optional: 4-8, 6-10, 8-12) Power supply (V/Hz/A):400/50/16 Others:Special voltage on request

Automatische Materialzuführung für die endlose Verarbeitung von Textilien Die Conveyor-Option ist für die Basissystemgrößen M-1200, L-1200, L-3200, XL-1600, XL-3200, 2XL-3200 und 3XL-3200 erhältlich und bietet durch ein umfangreiches Ausstattungspaket eine ideale Lösung für die Serien- und Massenproduktion. Welche Vorteile hat das Conveyor System? * Produktivitätssteigerung durch automatische Materialabwicklung und -zuführung * Werkstückentnahme während des Schneidprozesses auf dem Entnahmetisch * Kein Gewebeverzug durch stressfreie Materialzufuhr * Passgenaue Werkstückplatzierung durch automatische Kantensteuerung beim Abwickelsystem * Optionales Kameraerkennungssystem für den vollautomatischen Bearbeitungsprozess * Optionale Markierungssysteme (z. B Ink Marker) * Verarbeitung von sehr großen Formaten durch ansatzlose Schnittfortführung möglich

Die Lasersystemgröße XL-1600 ist die professionelle Lösung für die Laserbearbeitung von Holz. Wie in den anderen Modellgrößen auch bietet es durch das modulare Konzept und die einfache Handhabung eine zukunftsorientierte und effiziente Investition. Durch Schneid- und Graviertests mit Ihren individuellen Materialien testen wir schon vorab, welche Lasersystemkonfiguration für Sie die optimalen Ergebnisse erzielt. Der bedarfsorientierte, modulare Aufbau der eurolaser Lasersysteme ermöglicht eine an jede Anforderung speziell angepasste Konfiguration und bietet gleichzeitig die erforderliche Flexibilität. Der Aufbau der Maschine orientiert sich vorwiegend an den Erfordernissen, die sich aus der späteren Nutzung ergeben. Arbeitsfläche (BxL)::2.270 mm x 1.600 mm Abmessungen (BxLxH)::3.990 mm x 2.340 mm x 1.600 mmm Materialdurchlassbreite::2.350 mm Tischdurchlasshöhe::58 - 80 mm (je nach Materialträger) Laserleistung::60 bis 650 Watt Geschwindigkeit::1 - 1.414 mm/s (in 1 mm Schritten) Beschleunigung::max. 9,1 m/s²

Das CO 2-Schneidsystem XL-3200 ist mit einer Bearbeitungsfläche von 2.270 x 3.200 mm das größte Modell der XL-Serie. Die gigantischen Ausmaße erlauben auch die Laserbearbeitung von besonders großflächigem Material. Durch die hohe Beschleunigung des Optikkopfes, aus dem der schneidende Laserstrahl austritt, ist auch bei dieser Tischgröße optimale Wirtschaftlichkeit gewährleistet. Der bedarfsorientierte, modulare Aufbau der eurolaser Lasersysteme ermöglicht eine an jede Anforderung speziell angepasste Konfiguration und bietet gleichzeitig die erforderliche Flexibilität. Der Aufbau der Maschine orientiert sich vorwiegend an den Erfordernissen, die sich aus der späteren Nutzung ergeben. Arbeitsfläche (BxL)::2.270 mm x 3.200 mm Abmessungen (BxLxH)::3.990 mm x 3.940 mm x 1.600 mm Materialdurchlassbreite::2.350 mm Tischdurchlasshöhe::58 - 80 mm (je nach Materialträger) Laserleistung::60 bis 650 Watt Geschwindigkeit::1 - 1.414 mm/s (in 1 mm Schritten) Beschleunigung::max. 9.1 m/s²