The appearance of advertisements and product information on this site does not constitute an endorsement by Equipment World Magazine, and Equipment World Magazine has not investigated the claims made by any advertiser. Product information is based solely on material received from suppliers.
Allied Construction Products Ho-Pac Compactor Drivers
June 8th, 2009
Have someone from Allied Construction Products LLC
contact you with more information Click Here
Company: Allied Construction Products LLC
Allied Construction pioneered the concept of hydraulically operated Ho-Pac vibratory compactor/drivers. Using an eccentric, rotating weight that creates vibrations and impulse energy, a carrier mounted Ho-Pac provides the needed forces for effective soil compaction. The all-new extreme Ho-Pacs now deliver more impact energy, an errorless four-function valve, a variety of mounting configurations and maintenance-free oil splash bearing lubrication. Because it’s both a compactor and a driver, the Allied Ho-Pac permits even the smallest contractor or municipality to have this dual capability available.
- Four Function Valve
Controls flow, pressure, regenerations and oil flow direction
- Oil Splash Lubrication
Provides maintenance-free (no greasing) bearing lubrication
- Tough Coat Hoses
Prevent cuts and extend wear-life
- Variable Mounting SystemTM (VMS) available
All models available with Allied™s patented VMS mounting system for quick changing between carriers
Ho-Pacs are ideal for trench, slope and excavation compaction. The vibration produced by the Ho-Pac is an ideal force for compacting granular materials since vibration generates stress waves which bring the soil™s air to the surface. As a result, the particles of soil are rearranged and moved closer to each other which reduces voids in the soil. Ho-Pacs compact in densities in excess of 95% Proctor. Ho-Pacs are also used for compacting waste materials and for breaking up frozen coal. An optional swivel-top mounting bracket permits precise positioning of the Ho-Pac without repositioning the carrier.