Efficient warehousing solutions for the storage metal products up to 12m long, sheets, and small pieces.

Through this forging process we can lower manufacturing prices by forging only part of the piece. Unlike previous forging methods that are made by hot processes, this also can be done by cold forging. It consists on accumulating material in a specific and limited area of a piece (usually in bar form). Therefore, a direct consequence of this forging process is that it decreases the length of the initial bar and increases the cross-section thereof in the depressed area. If the process is done by cold forging and at the ends of the pieces it is called cold heading.

WEICON Urethane 90 SF is a fast-curing and self-levelling casting compound, which cures practically without shrinkage. In addition to its high curing speed as well as high adhesive strength, it also shows permanently high static strength. The compound is especially suitable for highly precise grouting works, like the casting of ground anchors, sensors, fixing devices or position markings for laser measurement. Urethane 90 SF adheres to many different materials, such as metal, concrete, rubber, wood, fibreglass as well as many other materials, and it can be used in various areas of industry.

Distribuidor Autorizado en Exclusiva para el utillaje de plegado, WILA

Utillaje de Punzonado para máquinas Finn Power, Trumpf, Amada, Goiti-Danobat, Euromac, Salvagnini, Wiedemann, Boschert...

Utillaje de Plegadora, para todas las marcas, Promecan, Europeo, Amada, Prima Power, Axial, Wila, Trumpf, Baikal, Durma, Ermaksan...

Ultra-resistant composite reinforced patch activated by UV rays. Multiple applications in plumbing, boating, DIY, maintenance, industry, agriculture, and more! Resistant up to 200°C, 20 bar pressure, chemicals, and adverse weather conditions. Can be cut before application and is sandable and paintable once cured.

The UV laser is the marking option with the widest spectrum of materials that can be processed. It is compatible with a variety of metals, plastics, glass, and even unusual materials like fruits, silicone, and precious metals. Another great advantage is that it is highly respectful of the materials: it has a shorter wavelength, therefore, the marking tasks are carried out with less power, applying a lower temperature to the part. This factor eliminates microfractures and other deformations in the immediate area of marking. For this reason, one of the most interesting applications of this type of laser is the marking of medical instruments. Marking being the area of interest of the UV laser, its typical applications would cover industries as diverse as automotive parts, casings for electronic/electrical elements, semiconductors, glass, optics, etc.

Gripping heads for pick&place of packs, bags, and flexible containers Designed to facilitate robot integrators in one of the most difficult tasks in the field of handling in the packaging sector, they are perfect for picking up bags and flow packs, which are difficult to take by traditional rubber suction cups due to their flexibility.

The vacuum area gripping systems FXP and FMP guarantee maximum flexibility during automated handling processes. This universal gripper makes automated palletizing, depalletizing, order picking and sorting of the most varied goods in varying dimensions with only one gripper possible. Workpieces made from the most varied materials, such as carton, wood, metal sheets (dry) and plastic, both with and without cut-outs, can be handled.

The area gripping system FXCB/FMCB is ideal for stationary handling tasks with collaborative robots. It is suitable for handling workpieces regardless of size and geometry The area gripping system is equipped with an integrated pneumatic vacuum generation. Its extremely low weight and rounded shape make this gripper particularly well suited for HRC operation. Thanks to the innovative product design featuring increased contact surface and reduced impact forces, the gripper fulfills the requirements of ISO TS 15066.

Airtech vacuum bags are an essential component in lamination and curing processes, especially in the aerospace and composites industry. These bags are designed to withstand high temperatures and pressures, providing secure containment during processes such as the manufacture of carbon fibre parts or advanced composite materials. The durability and strength of Airtech vacuum bags ensure reliable performance, minimising the risk of leakage or failure in critical applications. In addition, they are available in various sizes and configurations, adapting to a wide range of projects and industrial needs. Another important feature of Airtech vacuum bags is their compatibility with different types of resins and curing processes, making them a versatile choice for manufacturers. By maintaining a controlled environment during curing, these bags allow for even pressure distribution, resulting in parts with fewer defects and higher surface quality. In addition, the company offers customised options according to customer specifications, ensuring that each project can benefit from tailored solutions that improve process efficiency and results.

The Vacuum casting technology allows us to create polyurethane resin parts by using a silicone mould. To manufacture this mould, we usually use a pattern made by stereolithography. Nevertheless, we can build a silicone mould almost using any piece made with other technologies as a master piece: sintering, FDM, machined, modified old part... We can produce a short set of serial parts with polyurethane resin with characteristics like flexibility, transparency, high temperature resistance, fiber load or flame retardant (V0), similar to the final product: ABS, PX, PC There are also FDA-approved polyurethanes suitable for food use.