Pin Marking for High Temperature Metals | Hot Marker

MC2000 Hot Marker

Models: MC2000 N34

MC2000 Hot Marker

Mark Red Hot Parts

When your manufacturing process requires part identification while the metal is still hot, traditional marking methods won't work.  The MC2000 Hot Marker was developed to solve this issue and allow operators to mark metals up to 900 degrees Celsius.

Due to the requirements of high temperature applications, unique mechanics are necessary.  This modified version of the N-34 Series is surrounded by several protective mechanisms to impede hot air, sheilding the marking head in order to produce a quality mark.

 


Hot Marker System Features

  • Marks metals up to 900º C
  • Marking speed approximately 1 character/second
  • Stainless steel shell has a small window limited to the marking area, allowing only a small amount of heat to get into the shell
  • A mobile plate fixed to the cylinder covers this remaining area
  • A second stainless steel sheet protects the machine internals from heat and is cooled by water
  • An airflow impedes the hot air from getting to the machine internals by blowing cool air in the opposite direction

Technical Specifications

Marking Area

200MM x 35MM

Weight

48 lbs

Cooling

Water & forced air cooling mechanisms

Marking Speed

1 character/second

Dimensions

13" x 17" x 5"

Software

MC2000 products use the T2 Controller and come with two software programs to assist with faster programming and additional features: MCEdiT2 and MCVector.

We also offer custom Graphical User Interfaces to help ensure that ease-of-use, automation, database integration and vision inspection meet the needs of your project.

Hot Marker Product Resources

Product Resources are available in our Virtual Product Support section, including:
  • Software Files
  • Manuals
  • Integration Guides
  • Engineering Drawings
  • Troubleshooting Videos
  • Software Training Videos

Go To Downloads

Get Pricing

Use the form below to get pricing and details based on the requirements of your project.