MAGNETIC FILTER TRAP (TRAP)
Advantages
- High-quality and high-tech magnetic arms easily separate unwanted materials from solid and liquid raw materials.
- Powerful reinforcement with 10,000 to 12,000 gauss per point, based on international HACCP or ISO 22000 standards
- They are used to clean metals and metal-based materials in raw materials that can damage the finished product or devices during the production process
- They are cleaned manually without energy consumption.
- Easy to install on the production line.
- A secure working system.
- Easy to maintain.
- It provides high efficiency for the installation.
- All magnetic rods (arms) are waterproof
- Can be designed in customized dimensions according to customer’s request
Description
It is used to separate substances and materials processed in production from liquid raw materials. The strong magnetic arms remove unwanted metal from the process with their filtering feature. The construction can be connected in a very simple way. The separated unwanted substances are quickly and easily cleaned. Once the cover is opened and the magnetic rods are removed, they can be cleaned without interrupting production for a very long time, which ensures that your raw material achieves the purity you want.
Technical specifications
- The technical specifications of the magnetic arms manufactured by our company are as follows.
- The magnetic trap frame material is stainless steel AISI304, AISI316L and AISI316 (suitable for food industries)
- The magnetic rod material is AISI304 or AISI316L
- The magnets we use in the arms are made of Neodymium alloy. Optionally we also have Neodymium magnets that can withstand temperatures up to 200°C
- The power of the permanent magnet can reach 14000 Gauss. The magnetic rods we produce are capable of holding all kinds of particles that have magnetic properties thanks to the special arrangement of magnets with high field strength. It is possible to capture metals containing iron, iron oxides and stainless steel of small size, thanks to the special arrangement of the magnets.