High-tech

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High-tech machines are machines that are equipped with advanced technology and state-of-the-art functions and have usually been developed for special applications and tasks. Here you will find a wide selection of used high-tech machines that you can use for your purposes.

Solar modules

Solar modules are photovoltaic modules that convert light energy into electrical energy. They consist of a large number of photovoltaic cells made from semiconductor elements such as silicon. These cells absorb light energy and convert it into electrical energy, which is transmitted via cables to an inverter that converts the energy into a form suitable for use in electrical devices.

Solar modules are mainly used to generate electricity. They can be installed on houses, buildings, open spaces and even on ships and airplanes. This allows users to generate electricity from renewable energy sources and reduce their dependence on conventional energy sources.

Solar panels have gained popularity in recent years as they are seen as an environmentally friendly and cost-effective alternative to conventional energy sources. In addition, they are easy to install and maintain, making their use even more attractive to homeowners and businesses.

Photovoltaic systems

Photovoltaic systems are systems consisting of solar panels, inverters, batteries and other components used to generate electricity from solar energy.

Photovoltaic systems are mainly used to generate electricity for homes, commercial buildings, farms and other applications. They can be installed on roofs, open spaces and other sunny locations. The electricity generated by a photovoltaic system can be used directly or stored in batteries for use when solar energy is not available. Surplus electricity can be fed into the public grid, reducing dependence on conventional energy sources and avoiding CO2 emissions.

Overall, photovoltaic systems are seen as an environmentally friendly and cost-effective alternative to conventional energy sources and have gained popularity in recent years.

Systems for the semiconductor industry

Equipment for the semiconductor industry is needed to produce diodes, transistors or thyristors as well as complex microelectronics such as integrated circuits and semiconductor memories or microsystem components such as actuators and sensors. The highly complex machines and industrial systems are also essential for the production of microchips and devices for wafer inspection and production monitoring.

Systems from the field of micromechanics

Micromechanics is primarily concerned with the design, manufacture and application of mechanical parts with dimensions that are no longer visible to the eye. This includes systems that produce tiny, simple structures such as holes or grids, as well as complex sensors, actuators and microsystems - which require extremely high precision and technology. The systems make use of technologies that are specialized down to the last detail, such as the electroplating process or laser technology, as well as photolithography or screen printing, thin-film and LIGA technology. Production is automated to perfection and often possible without tools thanks to RMPD techniques. The micromachining machines include, for example, shaft testing systems, parallelism measuring devices, precision lathes and diamond milling machines.

Systems for optics

Optical technologies are primarily used in image processing and measurement technology, production and medical technology as well as lighting and energy technology. Among other things, the industrial systems offer the use of laser technology, which is used in particular for the precise processing of materials. The systems also focus on optical components such as sensors or lenses. The high-end production systems are ideal for precise series production in large quantities, for example of innovative coating designs. The systems include, for example, machines for anti-reflective coatings, anti-scratch coatings or finishing for fine optics and precision optics

3D printers

3D printers are used to create physical objects from digital data by applying and curing layers of material. They are also known as rapid prototyping technology.
A 3D printer usually works according to the principle of additive manufacturing. This means that it builds up material layer by layer to create an object. To do this, it uses either thermoplastic plastic, metal powder, resins or other materials that are available in a liquid or powder form. The data for the object to be printed is fed into 3D CAD software, which controls the layers and the movement of the print head.

3D printers are used in a variety of industries, such as product development, medical technology, architecture, art, entertainment and manufacturing. They produce prototypes, tool molds, spare parts and even final products.

Robots

Robots are automated machines that are programmed to perform specific tasks. In the machinery industry, they are mainly used for the automation of production processes, such as assembly, material handling, soldering, welding, painting and palletizing. They enable higher productivity, more precise manufacturing and higher quality products, and can also be used in hazardous or inaccessible environments.

Overall, high-tech machines are able to achieve maximum precision and speed in production and make it possible to automate complex and difficult tasks that previously had to be carried out manually.