Why you can trust HVR MAG magnetic workholding system
- Tailor-made solution for the best automation result
- Lightweight with maximized end-of-arm gripping capacity
- No damage or deformation of the workpiece when clamped by a magnetic gripper
- Less energy consumption
- Electropermanent magnetic Technology offers the safest transport method
- Maintenance-free in use
Magnetic workholding system we make
In metal processing, such as cutting, stamping and other processes, magnetic workholding system can provide stable gripping force. For steel plates, the magnetism can tightly adhere to the surface of the plates, preventing slipping during transportation.
Magnetic Workholding Solution can greatly improve the efficiency of plate cutting. In automated cutting production lines, Magnetic Workholding Solution can grasp and fix the plate in seconds, while traditional fixtures may require manual operation for complex clamping steps, which takes more time.
Magnetic Workholding Solution has many applications in bending.The clamping speed of Magnetic solution is faster compared to traditional mechanical fixtures. In the bending process, operators or automated equipment can use Magnetic Workholding Solution to quickly fix the sheet on the workbench.
During the Stamping Part Holding process, the Magnetic Workholding Solution can accurately position the metal sheet to be stamped in the correct position on the stamping die. In the stamping process of large-scale production, the Magnetic Workholding Solution can complete the clamping actions within seconds.
During the Stamping Part Holding process, the Magnetic Workholding Solution can accurately position the metal plate to be stamped in the correct position on the stamping die. In the stamping process of large-scale production, the Magnetic Workholding Solution can complete the clamping actions within seconds.
Magnetic Workholding Solution
By using automated Magnetic Workholding Solution, the dependence on manual labor has been reduced in the metal processing process, resulting in lower labor intensity for workers.And the production efficiency is improved, which is very important for the development of enterprises.
What is HVRMAG Magnetic Workholding Solution
Magnetic Workholding Solution is a transfer device for industrial automation and robotics, utilizing electro permanent magnetic gripper for manipulation, clamping and moving of workpieces with various shapes and weight.
Magnetic Workholding Solution improves efficiency, safety, and flexibility in the field of Metal Processing. Therefore, it has been applied in many working applications such as:
- Резка пластин • Гибка
- Штамповка • Паллетирование
Why Magnetic Workholding Is Essential for Modern Automation
Концевые инструменты, обладающие уникальными преимуществами, стали ключевой движущей силой процесса промышленной автоматизации.
Электричество используется только в фазах MAG и DEMAG, что позволяет экономить энергию до 95%.
Короткое время цикла, намагничивание/размагничивание за 2 секунды.
Легкая конструкция для максимального увеличения пропускной способности конечной части.
Магнитная сила может сохраняться даже при внезапном отключении электроэнергии.
Внутри нет движущихся частей, что практически исключает затраты на техническое обслуживание.
Индивидуальная конструкция для идеального захвата любой заготовки.
Приложение для загрузки и выгрузки пластин
During the loading and unloading process, the Magnetic Workholding Solution with the automation system, can achieve precise gripping and placement of the workpiece. It can quickly grasp and place workpieces as required, significantly reducing the time of each loading and unloading cycle and improving overall loading and unloading efficiency.
Применение гибки
During the bending process, the bending mold exerts tremendous pressure on the plates metal, which may cause displacement of the workpiece. The strong adsorption force of the Magnetic Workholding Solution can effectively prevent the workpiece from deviating during bending.
Применение паллетирования
In the palletizing process, the Magnetic Workholding Solution can accurately place the workpiece in a specific position on the pallet. By cooperating with the automation control system, it can accurately place each workpiece according to the preset stacking mode. It is very advantageous for subsequent storage, transportation, and handling.
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Загрузка ресурсов
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Details of Magnetic Workholding Solution
Magnetic Workholding Solution can quickly grasp and release workpieces, significantly improving production efficiency, especially in high-frequency handling environments.
Magnetic Workholding Solution Applications
Magnetic Workholding Solution can adapt to workpieces of different shapes, sizes, and weights, providing flexible solutions suitable for diverse production needs.
Magnetic Workholding Solution can provide strong and stable magnetic force, ensuring firm grip for metal products (such as metal sheets, metal parts, etc.) in automated palletizing.
Magnetic Workholding Solution can stably grasp workpieces and accurately place them in designated positions, ensuring the accuracy of loading and unloading positions,Can flexibly adapt to workpieces of different shapes.
Yes. Magnetic workholding systems can be easily integrated with robotic arms, gantry systems, and automated production lines for efficient material handling.
No. Electro-permanent magnetic systems maintain holding force without continuous power, helping prevent load drops during unexpected power failure.
Magnetic workholding is suitable for steel plates, pipes, shafts, welded parts, cut pieces, and many other ferrous metal workpieces.
Yes. Customized magnetic pole designs, such as V-type poles or movable magnet layouts, allow stable gripping of irregular and cylindrical materials.
Электропостоянные магниты состоят из двух различных магнитных материалов: одного магнитно-жёсткого, такого как Nd-Fe-B, и одного полужёсткого, такого как альнико. Эти материалы покрыты с обоих концов магнитно-мягким материалом, обычно железом, а затем обернуты катушкой. Когда через катушку протекает импульс тока определённой полярности, он заставляет материалы выравниваться и увеличивает внешний поток магнитного потока. Однако, когда протекает импульс тока противоположной полярности, он меняет намагниченность полужёсткого материала, оставляя жёсткий материал неизменным. Это перенаправляет часть или весь поток, чтобы циркулировать внутри устройства, эффективно уменьшая внешний магнитный поток. Конечным результатом является высококонтролируемый и эффективный метод управления магнитными полями для широкого спектра применений.