Forward Plate Compactor

Forward Plate Compactor

Its compact size and maneuverability make the Bobcat® FP10.33 forward vibratory plate compactor especially suitable for compaction work in tight-fitting areas.  

  • A wide range of compaction applications 
  • Standard water tank and sprinkler system 
  • Durable Honda engine  
  • Easy to maintain and transport 

FP10.33 Overview

  • Equipped with a durable and efficient Honda engine, the FP10.33 forward plate compact delivers reliable starts, maximum power and low fuel consumption. 
  • The versatile FP10.33 forward plate delivers efficient compaction of a wide range of materials including granular soils, crushed aggregates and hot mix asphalt. 
  • The FP10.33 forward plate compactor is designed to provide industry-leading forward movement for great compaction results and less operator fatigue. 
  • The one-piece cast base plate is designed with no connection points that can weaken over time. The base plate is also thicker in the rear, where most wear occurs. 
  • Designed to isolate plate vibrations from the operator’s handle, Bobcat forward plate compactors minimize hand-arm vibration and fatigue. 

FP10.33 Specifications

FP10.33 Key Specifications
Engine Model
Engine Make
3.5 hp
Machine Length
26 in
Machine Width
13 in
Machine Height
20 in
Centrifugal Force
2360 lbf
Compaction Forces

FP10.33 Features


WARNING: This product can expose you to chemicals including engine exhaust (including diesel engine exhaust when equipped), lead and lead compounds, mineral oils, soots, phthalates, and carbon monoxide which are known to the State of California to cause cancer and birth defects or other reproductive harm. For more information go to www.P65Warnings.ca.gov.

Certain specification(s) are based on engineering calculations and are not actual measurements. Specification(s) are provided for comparison purposes only and are subject to change without notice. Specification(s) for your individual equipment will vary based on normal variations in design, manufacturing, operating conditions, and other factors.