POWER OPERATED PORTABLE ELEVATING WORK

Brand Owner Address Description
COTTERMAN MATERIAL CONTROL, INC. 130 Seltzer Road Croswell MI 48422 POWER OPERATED PORTABLE ELEVATING WORK PLATFORMS;HEAVY-DUTY INDUSTRIAL AND COMMERCIAL LADDER SYSTEMS AND LADDERS MADE FROM STEEL, STAINLESS STEEL OR ALUMINUM, NAMELY, ROLLING LADDERS, ROLLING PLATFORMS, WORK PLATFORMS, STOCK PICKING LADDER WITH SHELVES, TILT AND ROLL LADDERS, FOLDABLE SAFETY LADDERS, DUAL ENTRY WORK PLATFORMS, NON-FOLDING ROLLING STEP LADDERS, AERIAL PLATFORMS, MANUAL WINCH PLATFORMS, TRACK LADDER SYSTEMS AND LADDERS SUPPORTED BY OVERHEAD CARRIAGES OR FIXTURES MOUNTED ON TRACKS FOR SIDE TO SIDE, LENGTH AND/OR FOR SWINGING MOVEMENTS, FIXED STEEL LADDERS, FIXED LADDERS WITH SAFETY CAGES, FIXED LADDERS WITH WALK-THROUGH HAND RAILS, FIXED LADDER WITH WALK-THROUGH HAND RAILS AND SAFETY CAGES, WELDED STEEL CAGES FOR LADDERS, WELDED STEEL DOCK LADDERS, STAND-OFF LANDING PLATFORMS WITH OFF-SET CAGE LADDERS, AND ACCESSORIES THEREFOR, NAMELY, SAFETY CHAIN ATTACHMENTS, OVERHEAD GUARDS, TOOL TRAYS, PLATFORM EXTENSIONS, TUBE CADDIES, FOLDING WORK SHELVES, WIRE BASKETS, SKID PLATES, STAND-OFF LANDING PLATFORMS, SECURITY CAGE ENTRY GATES, SECURITY LADDER GUARDS AND CASTERS;OVERHEAD WORK PLATFORMS FOR FORKLIFT TRUCKS;ROLLING, NON-FOLDING, WOOD STEP AND PLATFORM LADDERS, SELF-SUPPORTING WOOD STEP LADDERS; AND SINGLE OR DOUBLE TRACK MOUNTED ROLLING WOOD LIBRARY TYPE LADDERS FOR LENGTHWISE AND/OR SIDE TO SIDE MOVEMENTS;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. A portable computer including, a CPU operable in a maximum performance mode or in a low power consuming mode according to circumstances, supplied power from a fuel cell, the portable computer further including: a primary fuel valve enabling the fuel cell to be supplied fuel from an external source; a signal sensor sensing an external fuel supplying signal from the primary fuel valve; and a controller controlling the CPU to be operated in the maximum performance mode based on the sensed external fuel supplying signal. Thus, the CPU and the peripheral device is operated in the maximum performance mode when the portable computer receives the power from the external fuel tank, and operated in the low power consuming mode when receiving the power from the fuel cartridge in the fuel cell, thereby enabling maximum use time of the fuel cell. Furthermore, the portable computer which can use both of the AC/DC power and the fuel cell as a power source outputs the external power input signal generated when it receives the power from the AC/DC adapter or the fuel from the fuel tank and is operated in the maximum performance mode.