Telesis TMP6100 Dot Peen Marking Machine
Great for cylindrical marking where a rotary device can add efficiency and practicality. The TMP6100 is the most versatile PINSTAMP® automated dot peen marker, with durable components that can withstand tough manufacturing environments. Not only can it serve a wide range of marking applications, but it integrates seamlessly into factory automation networks. Not sure which version is right for you? Reach out for a free visit from your local CPS Technical Rep.
The Telesis TMP6100 Dot Peen Marking System is a versatile device designed for industrial marking applications. It’s capable of marking a variety of materials, including steel, aluminum, and plastic, with precise dot matrix characters. The system is known for its durability and can integrate seamlessly into factory automation networks, offering features like serial number generation, date coding, and automated character marking at speeds of up to six characters per second. With the Telesis TMP6100 robotic design, it can perform cylindrical marking efficiently, and its interchangeable marking pins allow for a wide range of marking applications.
Industries that use the Telesis TMP6100 Dot Peen Marking System
Dot density marking technology is commonly used in a variety of industries due to its versatility and reliability. Here are some of the sectors that frequently employ this method:
- Aerospace: For part numbering and traceability.
- Automotive: Used in the manufacturing process for serialization and date coding.
- Electronics: To mark components with serial numbers or other identification codes.
- Heavy machinery: For durable marking of parts that must withstand harsh conditions.
- Defense: To ensure traceability and compliance with strict industry standards.
- Manufacturing: To create permanent, legible marks on products for tracking and quality control purposes.
This technology is favored for its precision, permanence, and ability to integrate into automated production lines, making it a staple in modern industrial processes.
