Overview
Upgrade your HPI Wheely King's suspension with the Hot Racing 120mm Threaded Aluminum Shock Set. These silver-anodized threaded body shocks deliver precise pre-load and ride-height adjustment, smoother damping, and a major durability upgrade over stock plastic-bodied shocks.
Each shock features Teflon two-hole pistons for consistent oil flow, threaded collars and spring retainers for fine-tuned ride height, and includes both heavy-duty and medium spring rates so you can dial in chassis balance for the way you drive.
Key Features
- Aluminum construction with anodized finish
- Fully threaded shock bodies for precise adjustment
- Teflon two-hole pistons
- Aluminum caps with black accent
- Two spring rate options included
Performance Benefits
- Precise ride-height and pre-load adjustment via threaded collars
- Smoother, more consistent damping than stock shocks
- Major durability upgrade over plastic stock shocks
- Two spring rates allow chassis tuning for any surface
Usage Notes
Requires silicone shock oil for assembly. Built specifically for the HPI Wheely King — installation on other vehicles may require additional or alternate hardware. Re-bleed shocks periodically to maintain consistent damping.
Technical Specs
- Material: Anodized aluminum
- Length (Mounting Point to Mounting Point): 4.2 in (120mm)
- Body Diameter: 1/2 in (13mm)
- Pistons: Teflon, two-hole
- Springs: HD blue (18 coil, 1.2mm wire), medium silver (19 coil, 1.1mm wire)
What's Included
- Two (2) fully assembled aluminum threaded shocks (silver/black)
- Four (4) M3x15mm screws
- Two (2) shock mounting flanges
- Two (2) HD blue 18-coil springs (1.2mm wire)
- Two (2) medium silver 19-coil springs (1.1mm wire)
Fitment
- HPI Wheely King
- Other 1/10 vehicles using 120mm shocks (may require alternate hardware)
Summary
The Hot Racing 120mm Threaded Aluminum Shock Set is the right upgrade for HPI Wheely King owners who want adjustable, durable, race-grade dampers in a clean silver and black package. Bolt them on, dial them in, and feel the suspension transformation.