UNISIG

Menomonee Falls, WI 53051

COMPANY OVERVIEW

About UNISIG

Headquartered in Menomonee Falls, Wisconsin, UNISIG is a world leader in the manufacture of deep-hole drilling systems and technologies for precision-focused metalcutting industries, including aerospace, automotive, energy and medical.

Contact

N58 W14686 Shawn Circle
Menomonee Falls, WI 53051
USA
http://www.unisig.com/
(262) 252-3802

More Info on UNISIG

6667062d74c1d40008e37ebf 160 160

Headquartered in Menomonee Falls, Wisconsin, UNISIG is a world leader in the manufacture of deep-hole drilling systems and technologies for precision-focused metalcutting industries, including aerospace, automotive, energy and medical. A stateof- the-art production facility and reliable network of local suppliers allow the company to design and manufacture its BTA, gundrilling, trepanning and skiving machines as well as its tooling solutions and automation in the United States.

All content from UNISIG

830 350
Machine Tools & Metalworking

Deep Hole Drilling and Mold Machines

June 13, 2018
UNISIG's drill and mold machines combine up to 120 tools in a single, guarded machine.
830 350
Machine Tools & Metalworking

Machine Tool Incorporates Technology Advances

Jan. 24, 2017
Newly launched B850 machine includes technological advances that substantially improve performance.
830 350
Machine Tools & Metalworking

Dedicated Deep Hole Drilling System

Dec. 27, 2016
UNE 12-2 compact gundrilling system brings new levels of manufacturing capacity to a variety of industries, including automotive, medical and firearms.
830 350
Drills

B700 Drop Bed Drilling System

April 1, 2016
UNISIG, the leading manufacturer of deep hole drilling systems and technologies, engineered its new B700 Drop Bed machine to effectively generate the critical, high-precision ...
830 350
Metal Cutting

UNI Series of Deep Hole Drilling Machines

Feb. 22, 2016
UNISIG has added the new versatile, high-precision UNI-50BTA to its UNI series of deep hole drilling machines. The machine extends production range by enabling operators to rapidly...