Customer Benefits

• TITAN interval-tensioning, i.e. equal tension along the strap
• very short strapping cycles
• robust and field-proven design

Technical Features

• thermo welded joint up to 19mm | 3/4” strap
• one designated motor per function
• embedded boost and clean program for the heater blade

Would you like to have it one size bigger?
Many things characterise VK10 heads by TITAN. A powerful argument is the wide range of products offering the right solution for each intended use of polyester strap.
The VK10-K100-19 is the third of the series. The larger brother of the sub-type VK10-K50-13 and VK10-K85-16 further increases performance. In plain language this means: higher strap tension for larger packages such as slit coils, pipes and profiles.
The minimum contact surface is 100 mm. This head is suitable for a strap width from 16 to 19 mm at a maximum thickness of 1.23 mm.
The VK10-100-19 has proven its durability in practical use worldwide.

Technical Data
Kind of drive Electric
Tension force max. 3,200 N (depending on strap)
Mains voltage 400 V AC / 50 Hz
Control voltage 24 V DC
Connected load 0.9 kW
Current consumption 4 A
Strap conveying speed approx. 2.5 m/s (depending on strap thickness)

approx. 4,5 m/s (depending on strap thickness) – optional

approx. 8.2 ft/s (depending on strap thickness)

approx. 14.8 ft/s (depending on strap thickness) – optional

Dimensions 453 x 640 x 450 mm (L x W x H)

17.8 x 25.2 x 17.7″ (L x W x H)

Weight 80 kg
176.4 lb
Type of strap Plastic strap
Strap PP
Strap width 16 mm
16, 19 mm
5/8″ ; 3/4″
Strap thickness 0.75 – 1.35 mm
0.030 – 0.053″
0.7 – 1.35 mm
0.028 – 0.053″
Kind of seal Thermo-weld joint
Sealing strength
(depending on strap quality, strap dimensions)
up to 60% of the strap breaking load
(depending on the use of the heating control)
Minimum bearing area
Expansive package 90 mm
Slit coil ring 100 mm
Hexagon pipe bundle 110 mm
Round package Ø 500 mm
Ø 19.7″
Coil strapping of small packages like coils, slit coils, pipes, wire, etc. with high strap tension and material strength