ACSYS是您用于工业激光系统的专业解决方案提供商。
Whether a standard laser machine or a customized solution. Customer value is the central element during the selection of a suitable machine configuration.
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这个紧凑的系统提供了对激光标记的经济条件。该表系统为各个零件提供了出色的结果,并为各种不同的材料提供了小规模系列。每当要快速,灵活地标记或雕刻小零件时,都会使用牡蛎®。
Due to the table layout, the machine can easily be set up at any workstation. Areas of application for the OYSTER® are predominantly the jewelry, medical and tool industries, advertising and wherever it had not been possible to use laser marking and/or engraving in the past for reasons of available space or cost.
可选的牡蛎可以配备X轴。处理区域显着扩大,而机器的外部尺寸仍然紧凑。
The PEARL laser table system from ACSYS combines top-quality, high-precision laser marking and engraving on filigree precision tools and jewelry with excellent ergonomics and fast setup.
The PEARL system has been specifically designed to meet the needs of workshops, labs and manufactories as regards ergonomics. The PEARL combines a variety of practical innovations in a newly developed housing that was designed to a complete workstation.
The innovative operating Concept is based on the flexible single-piece machining system with the unique LAS - Live Adjust System from ACSYS. The high-resolution camera preview reveals every little detail of the workpiece, allowing for the positioning of layouts, logos, texts and graphics with micrometer accuracy.
This machine at the top of the ACSYS product range offers high performance and quality with a minimum footprint. Fiber laser systems with exceptional beam quality make the PIRANHA a unique production machine for laser marking and engraving. For high-precision marking such as punch marks, fine engraving or 3D micro laser engraving, the system offers high-resolution camera systems, precision packages and A multi-axis system with up to five movable linear and rotary axes, consisting of linear moving columns or cross tables and rotary and swiveling dividing heads. With its rotary tables, tag feeders, foil handling or special attachments, the PIRANHA offers optimized adjustment options for any task. Perfect laser engraving by ACSYS.
Based on the PIRANHA III we have created a machine, which is a symbiosis of fully automated processing and OPR - Optical Parts Recognition. The two side loading and unloading lift stations each have a capacity of 20 trays, in which the workpieces are placed. The parts are prepositioned using a grate. The system moves one tray at a time from the loading lift station under the laser camera head.
Initially the optical parts recognition by the ACSYS OPR was carried out. The workpieces were detected with regard to their position and rotational angle. Then they were automatically processed with the laser. After the entire tray has been marked, it is automatically moved to the unloading lift station, and the system continues with the processing of the next tray.
Piranhaμ和新的PiranhaμUSP是专门为高精度应用而设计的。Piranhaμ虽然配备了最新一代的纤维激光系统,但PiranhaμUSP具有当前的PICO-或femtsecond Laser。
The PIRANHA®μ USP is also capable of being equipped with a second laser source as a dual laser system. With a footprint of less than 2.5 square meters, both laser system solutions are extremely compact and flexible. The construction of the PIRANHA®μ and PIRANHA®μ USP consist of an extremely temperature-stable and low-vibration granite design, which allows an axis positioning accuracy of + - 10μm.
The PIRANHA cut is an entirely new development. A compact machine for sheet metal sizes up to 600 x 600 mm², a high contour accuracy and suitable for sheet thicknesses of up to 3 mm. The cutting systems are equipped with air-cooled fiber lasers of different power ratings depending on the required application and are suitable for laser burn cutting and laser fusion cutting.
ACSYS的激光切割系统在激光切割领域提供了创新 - 用于激光切割应用的相机系统。ACSYS的LAS切割(实时调整系统切割,申请专利)显示了屏幕上激光切割系统的内部区域。这样,切割布局可以完美地定位。NC控制或手动控制的旋转轴和旋转轴可用于圆柱工件的精确加工。
ACSYS的另一种新颖性是自动距离控制功能。ADC(自动距离控制)允许激光切割曲面金属。激光的焦点通过自动距离控制设置为整个工作空间的理想距离。这样,材料表面不均匀就会自动平整。
来自ACSYS的Allrounder凭借其宽敞,非常易于访问的工作区域为大型或托盘工件提供了空间。高强度的钢,并且可以选择地与无振动和温度稳定的花岗岩结合使用,使梭子鱼非常适合工业用途。
Due to its flexible layout, the BARRACUDA is the ideal basis for customized solutions. Powerful fiber lasers or diode-pumped lasers with high-speed writing heads guarantee maximum precision and minimum processing times. Multi-axis solutions extend the BARRACUDA, thereby turning it into a partially or fully automated production machine.
The unique 5-axis laser processing center by ACSYS has been specifically designed for the µ-range. A vibration-free granite bed, which is embedded in polymer concrete, forms the basis for ensuring maximum precision for laser machining.
The special traversing axes with glass scales are fitted in a granite portal in order to guarantee maximum accuracy in every position. As an option, the BARRACUDA®µ can be fitted with an EAGLE EYE laser scanning unit, which allows the user the contact-free digitization of a wide range of very different surfaces.
This flagship of the ACSYS product range offers impressive performance and maximum precision. It is ideally suited for fast marking, deep engraving, relief structuring, filigree texturing or for producing 3D molds with the highest surface quality. The SHARK is also the basis for the SHARK cut - the laser cutting center by ACSYS. Precision laser sources of up to 1000 Watt ensure adequate power levels for all applications.
Up to 5 movable axes with portal axes and additional rotary / swiveling axes for the galvo head or workpiece offer maximum flexibility even for large or palletized workpieces and custom parts. Optional extensions, including image recognition, depth control, precision package and customized attachments, fulfill all customer requirements and make the SHARK an ideal tool for industrial production.
现在,激光切割比以往任何时候都更加有效,更容易。由于其紧凑的设计和高度的灵活性,ACSYS激光切割中心属于自己的一类,并且正在设定新的基准测试。Automatic distance control and highly dynamic linear motors guarantee extremely precise machining results in minimum time for sheet metal sizes up to 1250 x 1250 mm².
此外,可以将软件控制的划分作为第四旋转轴和手动可调的第五轴可用于插值激光切割。这允许加工圆形零件。
This large-capacity system by ACSYS offers maximum flexibility with regard to the size and weight of a wide range of very different workpieces. Due to the flexible workspace, even large and heavy workpieces can be loaded easily and marked and/or engraved in any location. The wide-opening doors also allow the loading of workpieces using a crane.
Palletized workpieces can be processed automatically. With up to five NC- controlled axes, the ORCA has a machining surface of at least 2900 x 1000 mm, thus providing maximum flexibility even for fully automated operations.
The ORCA in this film offers three axes and an electric Galvokopfschwenkung (optional, more or less axes are possible) that allows a multi-machining of most different components.
在710 x 710毫米的处理区域上,总重量为6,5吨总重量。Orcaμ已专门用于高精度应用。
与花岗岩Z轴相互作用的大量无振动花岗岩床为激光加工中最高精度的基础是基础。具有精度驱动器和玻璃尺度的高精度横台可确保任何位置的最高精度。
The ORCA μ can be optionally equipped with electrical precision dividing heads and thus provides μ-precise laser machining in all 3 dimensions.
灵活且多才多艺的模块化系统提供了一个wide variety of configuration options for laser marking, engraving, cutting and welding.
系统有许多接口和具体ally designed for integration into individual workstations and automated systems. "Marking on the fly" is an excellent application for the INLINER system in the area of conveyor belt production. Multi-head systems, precision packages and multi-axis systems with linear and rotary axes make the INLINER the ideal integration solution for all applications.
激光数字化基于综合全息法,允许创建所有表面,石膏模型,打孔或直接从各种非常不同的工件中工作的所有表面,石膏模型或直接工作的非常精确的3D数字图像。生成的3D文件可用于生产和复制,并且可以在CAD软件中轻松处理。这种非接触方法的优点是高速和小测量的网格距离。可更换透镜系统可以实现2μM的绝对精度。
Conoscopic holography offers the greatest precision and repeatability over a wide range of applications. The EAGLE EYE, the heart of the EAGLE, is also available as a modular option in the ACSYS laser systems.
ACSYS的解决方案投资组合证明了技术限制不是用石头编写的。我们的开发工程师专家团队使用最先进的3D设计工具。他们的长期知识为我们提供了解决问题的独特技术和创造力池,所有其他供应商都远离了这些问题。
From the planning stage to test runs under production conditions - we work closely with our customers to develop tailored solutions and software applications. On that basis, we have developed and built hundreds of customized solutions, all of which perfectly fulfill the customer requirements.
ACSYS产品范围为使用激光器进行材料处理的所有任务提供了优化的系统。由于我们的独特适应性,所有标准机器都可以扩展到作为单个定制解决方案运行。
系统配置将由所需的应用程序确定。根据客户的需求,我们将整合各种激光类型,例如纤维激光器或二氧化碳激光器,具有非常不同的功率等级和波长。线性和旋转运动的多轴功能的扩展以及特殊模块的集成,例如通过LAS进行的摄像机编程 - 实时调整系统,ODC - 在线深度控制或OPR - 光学零件识别,允许我们配置生产系统,该系统该系统该系统该系统该系统完美地根据您的个人要求量身定制。
The ACSYS metal processing department is at the beginning of the production line. Here, the basic frame of the laser system is built from high-strength steel or alternatively in combination with polymer concrete and granite. High-precision production processes form the basis for the high quality and durability of ACSYS laser systems.
Our holistic view of the machine and the workpiece processing task allows us to achieve extremely exact solutions, which are uncompromisingly tailored to specific processes and products. Our vertical range of manufacture forms the basis for maximum flexibility of our laser systems.
The mechanical production department is responsible for ensuring the flexibility of the system. This department fits each laser system individually with traversing axes and optional mechanical extensions.
我们广泛的机器投资组合使我们能够使用适应性的系统解决方案灵活地对产品特定和特定于产品的需求做出反应。
The perfectly prepared mechanical system is then handed over to the electrical department. The department fits each system with the required drive and control electronics and carries out functional tests of the movement modules.
For us, reliability is not just a quality aspect, but a fundamental element of our company and product philosophy.
The intelligent wiring of the individual modules results in a highly efficient, flexible and functional system. Our systems communicate via state-of-the-art bus system technology and periphery.
ACSYSlaser systems have a modular design.
This modular design is the basis, on which each customized solution by ACSYS is developed. The basic systems are designed by our engineers using CAD systems and according to the requirements of the customer. This way, the best possible cost-benefit-factor can be achieved for the customer.
除了模块化设计,激光system solutions by ACSYS also take the ease of maintenance and upgrade capability into consideration. Each ACSYS system can be extended easily at a later stage and adapted to the customer's growing requirements.
ACSYS为各种非常不同的材料和加工过程提供了各种激光源。从0.5到1000瓦的功率额定值可确保我们为您的所有应用程序具有最佳配置。我们的投资组合范围从纤维激光器和二极管泵送系统到二氧化碳激光器,这些激光器作为脉冲或CW激光束源操作。
All laser beam sources, which are used in ACSYS laser systems, require very little maintenance, have a very long service life and most of them are air-cooled. The ACSYS laser experts will consult you on the basis of their comprehensive knowledge. They will carry out extensive tests in order to recommend the suitable laser source or, in certain cases, a combination of several beam sources, which will perfectly fulfill all your requirements. The diagram gives you an overview of the laser beam sources and wavelengths for the respective absorption rates of different materials.
发现激光处理的新尺寸。AC激光软件是激光材料加工的理想软件包。AC-LASER为您提供在同质直观环境中工作的所有基本工具 - 从制作简单标记到制造用于单个单元制造或系列生产的复杂的3D版画。
基于摄像机的LA-实时调整系统大大简化了设置过程,甚至可以精确地定位最小的工件。连续的数字变焦功能揭示了工件的详细功能。这样,可以以高精度放置布局。精确的预览显示屏幕上的目标结果。可以直接在工件上创建新的布局,而无需进行其他测量。
The optical part recognition enables the fully automated processing of non-palletized loose parts. The software recognizes the position and rotational angle of the workpieces and marks or engraves in the previously trained location.
The Material Parameter Assistant allows for easy searching for laser parameters that are suitable for a wide variety of materials. The automatic parameter scale creation on the respective material and subsequent comparison within the software produce outstanding results quickly and easily.
The 3D Assistant enables a comfortable design of complex 3D engravings and micro engravings. A graphical preview simplifies the setup of the workpiece. Due to the automated readjustment of the laser focus, very deep, premium quality 3D engravings can be realized. The specific laser parameterization results in a premium surface finish.
选择激光系统的重要标准是要处理的材料。在ACSYS图片库中查找您的应用程序,除以材料。
激光几乎能够标记,雕刻,切割和焊接几乎所有常用的金属材料。
这包括铁基材料和合金(钢和不锈钢)以及铜,铝,黄铜等的非铁金金属,以及贵金属,例如银,金和铂。此外,可以处理由铅,锡,锌和镍等金属制成的工件以及涂层的工件(Chrome,锌)。
For technical reasons, but mainly for chemical reasons, it is not possible to make a general statement regarding the processability of plastic materials. Apart from the basic material, the color (pigments) and other additives (fillers, additives, flame-retardant agents) play an important role when choosing the right laser system for your application. In principle, it is necessary to carry out detailed tests with the respective plastics.
Using specific parametrization, the laser is able to precisely remove and carbonize extremely thin paint layers from a wide variety of different materials. The best known example for selective lacquer abrasion from switches and buttons in the automotive industry is the night/day design.
Markable laser foils can be used for creating robust markings for heavy wear. This is possible due to an extremely wear-resistant acrylate coating, which is available in various contrasting colors. This special material is resistant against wear, weather and chemicals. Areas of application for laser foils are the marking of engines, machines or equipment. Laser foils are available both unicolored and multi-colored and can be cut easily and precisely into any desired shape using the laser.
In principle, metalloids and non-metals can be processed with the laser. However, the most important question is, which result you want to achieve. A CO2 laser can be used for engraving most ceramics, although there will be no color alteration in the material. However, a color contrast results, for example, when a colored glaze is removed so that the actual ceramic becomes visible.
如果需要高对比度标记(即材料的颜色改变),则实际上只有ND:YAG(例如纤维激光器)能够完成这项工作。以与塑料相同的方式,金属和非金属也必须在实验室中进行应用测试,以确定各个材料的鲁棒性。
The CO2 laser is excellent for "organic" materials such as glass, leather, wood and paper, whereas the Nd:YAG laser (e.g. fiber laser) does not normally deliver satisfactory results for these materials.
The laser can be used for a variety of materials, processes and desired results. In recent years, the laser has become THE tool for processing PCD and CVD. We have been manufacturing high-precision laser systems for machining the step chip breakers of cutting tools for several years. Our know-how and experience make an important contribution to the continued development of the 3D micro laser engraving technology. The fiber laser technology covers a wide range of different materials.
去年我们年代tarted with the continued development of this technology and are also using ultra-short pulse lasers for the machining of cutting edges and step chip breakers. Initial results have been promising, because the picosecond lasers cannot only machine PCD and CVD free from burrs, but also carbide.
Whether laser marking, laser engraving, laser cutting or laser welding - here you will find many examples of different applications classified by the laser process.
Laser markings are water-proof and wipe-proof and extremely durable. They can be created quickly, automatically and for individual applications.
When metal is heated, its color is altered due to an annealing effect. The laser allows the creation of areas and structures / textures on the workpiece surface in different colors without the use of additives.
在此过程中,材料的表面非常粗糙,这在工件上产生了可见的标记。
Deep marking is the selective and slightly sunk marking of the workpiece.
某些类型的塑料可以通过泡沫标记。因此,激光束融合了塑料的表面。在此过程中,在塑料中产生气泡,在冷却阶段中包含在材料中。由于包含的气体,受影响的材料的体积增加了,并且已经进行了激光处理的位置。
Color alteration and bleaching with the laser.
This effect can only be achieved with plastics, certain types of paint and a few technical ceramics. The effect depends on the wave length of the laser beam. The laser beam penetrates into the material and is absorbed by color pigments. When the pigments change chemically, this causes the color of the material to change.
With laser engraving the material is fused and evaporated by using only laser. There is no need to fixate the workpiece in place during processing.
Deep engraving means that the surface of the workpiece is removed to a certain depth, thereby creating a visible marking on the workpiece.
With 2.5D and 3D laser engraving, the surface of the workpiece is removed to a certain depth in a software-controlled process. The material is evaporated layer by layer so that the desired structure gradually appears.
High-precision 3D engraving in the micrometer range ensures the creation of virtually forgery-proof authenticity certification. Today, assay offices and jewelry manufacturers all over the world rely on the exacting quality of premium products by ACSYS Lasertechnik.
激光可以用于定义的结构of tool surfaces. Typically, relatively small structural elements that are repeated continuously, but not necessarily visibly, are engraved in order to create a smooth - and in some cases polished - surface.
现在,激光切割比以往任何时候都更加有效,更容易。由于其紧凑的设计和高度的灵活性,ACSYS激光切割中心属于自己的一类,并且正在设定新的基准测试。在此页面上,您可以看到各种各样的激光切割应用程序。
氧气用作切割气体的切割气体。在分离过程中,由于切割接头中的基本材料的局部氧化,氧气将额外的热量引入工件中,从而加速了切割过程。激光切割非常适合快速有效地制造零件,由于随后的表面精加工过程,其视觉外观将继续改变。
Laser fusion cutting has the advantage of producing a virtually oxide-free cutting edge. The cutting gas is an inert gas. Inert gas blows the molten material out of the separating joint and cools the cutting edge. Laser fusion cutting is used if workpieces must fulfill high visual requirements without further processing. If subsequent alterations of the material are unwanted, then hygiene and laboratory engineering aspects must also be taken into consideration.
Laser remote cutting (sublimation cutting) is the term used for laser cutting of very thin and sensitive materials that are cut without cutting gases. The laser alone vaporizes the material and creates the very fine cutting gap by removing layers of material. This process offers unique solutions for the processing of various composite materials.
ACSYSlaser processing centers are particularly suited for high-precision welding processes. Different processes are used depending on the material. ACSYS welding systems do not add material to the workpieces during the welding process.
If two or more metal parts are to be joined together permanently without any addition of material, then in many cases laser joining is the only viable alternative. The laser's high flexibility allows many application options: from very precise welding points to keyhole-welded seams over many meters with slim seam geometries and minimum warpage. The laser is used by a wide range of very different industries. Whether the application includes precision weld points in the electronics industry, stainless steel bushes for sensors in the automotive industry, membrane welding of highly sensitive pressure sensors in the aerospace industry or super-fine welds in the medical industry - the laser process is quick, precise and flexible.
ACSYSwelding systems do not add material to the workpieces during the welding process. The new fiber laser technology uses a large focal depth. As a result, process-tolerant welding is possible even if the materials have different wall thicknesses or are not entirely square during the welding process.
The basic process of laser plastic welding is seam welding. During this process, the laser beam penetrates the workpiece, which is to be joined and is positioned on top, and is then absorbed by the piece, which is positioned at the bottom.
热量导致增塑,从而导致工件中的间隙桥接。随着热量的进行,将其放在顶部的工件加热。这意味着工件中最小的差距是应用程序成功的决定因素,因为差距起着热屏障的作用。