Riddell Power SPK+ OL/DL - Size: Medium 18-19"

Price
379 €

Manufacturer
Riddell

Product code
R482680022

Variant does not exist
In stock
qty.
Size Availability Price  Quantity
Riddell Power SPK+ OL/DL - Size: Medium 18-19" Medium 18-19" In stock 379 €
Riddell Power SPK+ OL/DL - Size: Medium 18-19" Large 19-20" In stock 379 €
Riddell Power SPK+ OL/DL - Size: Medium 18-19" XLarge 20-21" In stock 379 €
Riddell Power SPK+ OL/DL - Size: Medium 18-19" 2XLarge 21-22" In stock 379 €
Riddell Power SPK+ OL/DL - Size: Medium 18-19" 3XLarge 22-23" Not available
Watch availability
379 €

Replacing the Riddell Power SPK OL/DL, the New SPK+ OL/DL features Riddell RipKord Technology, the STAC shoulder system, swivel fronts, biothane STAC straps and belts, a flat pad design, the air management liner system, removable/adjustable bodies, stainless steel hardware, and velvet collars.

KEY PRODUCT INFORMATION:
  • Integrated RipKord Technology (for quick and easy removal in an emergency situation)
  • Swivel Fronts (connects left and right side of the pad with swivels)
  • Biothane STAC Straps and Belts
  • Flat Pad Design
  • Air Management Liner System
  • Removable / Adjustable Channels
  • Removable / Adjustable Deltoid Pads
  • Stainless Steel Hardware
  • Breathable Body and Shell Vents

RIDDELL RIPKORD
The Riddell RipKord Shoulder Pad Removal system utilizes a cord that is strategically integrated into the shoulder pad design, that in an emergency situation, can be pulled out to separate the components for easy access to the player

AIR MANAGEMENT
Shoulder pad liner construction that attenuates impact energy on a cushion of air within semi-sealed chambers. Energy dispersion occurs through spreading the impact forces within a large volume of air slowly released from the liner at a controlled rate.

STAINLESS STEEL HARDWARE
Equipped with stainless steel hardware to prevent corrossion.

FLAT PAD DESIGN
Shoulder pad design that sits low across the player's shoulder, minimizing interference with the rotational range of the helmet. Rigid belts route forces away from the point of impact by converting the entire arch into a large-scale, shock absorbing system.