CC-9370D-012300-40-TV is a 12" CC Dynamo (70D) Heavy Duty Forged Kingpin Swivel Caster featuring a 12" x 3" 70 Shore D (+/- 3) Polyurethane on Cast Iron Crown Tread wheel in a Kingpin Swivel rig, with an overall height of 15-1/2". This caster features a 6-1/4" x 7-1/4" top plate, a 6206-RS Ball Bearing and has a weight capacity of 7,000 lbs.
Maximum Hardness and Unyielding Strength
The dense Shore 70 D tread resists deformation under heavy weight, while offering slight compression to handle impact and floor transitions better than rigid materials. While not designed for high-speed or ultra-quiet operation, it excels in power-intensive, slow-speed environments.
CC Dynamo™ 70D uses a hard 70 Shore D polyurethane tread bonded to a solid cast iron core, creating a wheel built for maximum strength under extreme weight. Its hard tread minimizes compression, giving powered towing and slow-speed AGV systems the stability and load capacity needed for the heaviest industrial applications. While less forgiving than the slightly softer 95 Shore A version, CC Dynamo™ 70D prioritizes toughness and load support over vibration dampening, making it the choice when maximum carrying power is required.
Built for Heavy Industrial Demands
CC Dynamo™ 70D is available in 6”, 8”, 10”, and 12” diameters with a 3” width, giving operations the flexibility to match wheel size and strength to their equipment.
Load capacities for each size are:
- 6” × 3”: 2,500 lbs
- 8” × 3”: 3,600 lbs
- 10” × 3”: 5,000 lbs
- 12” × 3”: 7,000 lbs
This ultra-hard 70 Shore D polyurethane tread is permanently bonded to a solid cast iron core for maximum strength under slow-speed towing and AGV operation. CC Dynamo™ 70D can be paired with Caster Connection’s premium rig options, including the CC Brawn™ kingpinless rig and the CC Forge™ forged kingpin rig, while the 6” size is designed for use with the CC Armor™ rig to maintain proper clearance and support. Directional locks, floor locks, and face contact brakes are fully compatible for added control in powered and tugger-driven systems.
