Hydraulicspneumatics 1967 Super Energy Efficient
Hydraulicspneumatics 1967 Super Energy Efficient
Hydraulicspneumatics 1967 Super Energy Efficient
Hydraulicspneumatics 1967 Super Energy Efficient
Hydraulicspneumatics 1967 Super Energy Efficient

Trash Compactor is Designed for Efficiency

March 2, 2012
Trash compactors have always had to be rugged and easy to use. An additional demand has become energy efficiency, which one manufacturer addresses by specifying high-efficiency motors to drive its compactors’ hydraulic systems.

Engineers who design trash compactors have always had two overriding concerns. First, because of the nature of their equipment, they never know what strange objects users may throw into it. Second, it is likely that unskilled or uncaring operators will be put in charge of it. Lately, a third challenge has been added: purchasers want compactors that are energy efficient.

Designers armed the Wastequip 365X self-contained compactor with a charge box twice the size of common compactors and an energy efficient motor, which reduces energy consumption by as much as 65%.

Model 365X self-contained compactors from Wastequip, Charlotte, N.C., are designed for hotels, restaurants, cafeterias, hospitals, and other sites that generate large volumes of waste every week. The company’s engineers began to address the efficiency requirement by building a 4-yd3 unit. Its charge box holds twice the amount of trash as the common 2-yd3compactors. The result: a compactor that only cycles half as often — using up to 65% less energy. Obviously, fewer cycles also extends service life, requiring fewer oil and filter changes and less frequent maintenance.

A compactor with guts
A remote pedestal houses the compactor’s hydraulic power unit (HPU), which consists of an electric motor, pump, hydraulic directional- and pressure-control valves, and reservoir. A cover shields the HPU from hostile weather conditions. There are no high-voltage electrical connections between the power unit and the compactor box — thus, no potential shock hazard with the inevitable liability. The 10-hp, TEFC Super E Series motor from Baldor Electric Co. operates at 93% efficiency, about 10% higher than comparable motors. Wastequip matches the motor with an 11.7 gpm gear pump. The HPU’s 20-gal steel reservoir is offered with an optional heater.

To improve efficiency of Super-E motors, Baldor Electric’s engineers reduced internal losses — from resistance (more copper in windings), stray load losses (higher grade electrical steel), friction, windage (a smaller fan), and other factors.

Two 4-in. bore, 21⁄2-in. rod packing cylinders power the compactor ram. Hydraulic connections to the power unit use dripless 1⁄2- and 3⁄4-in. quick-acting couplings — 33% larger than standard couplings normally used — to accommodate high flow. The system’s normal operating pressure is 1850 psi, with a maximum of 2300 psi.

A cartridge-type, pressure-sequenced valve system controls the packing cycle. A 3-position, 4-port valve is mounted at the power pedestal. Operation is very simple. An operator loads the container, closes the lid securely, then presses the start button for the motor. He or she then can walk away. The control valve routes pressurized fluid to the cylinder cap ends to extend their respective pistons.

This simplified schematic of the 365X’s hydraulic system shows that packing cylinders are isolated from the HPU, keeping high voltage away from the compaction chamber and operator. C

When system pressure reaches 1850 psi, a pressure transducer signals the valve to shift to retract the cylinders. When the cylinders have retracted fully, the pressure transducer automatically turns off the motor. The cylinders complete a cycle in 36 sec.

Even trash compaction can use a touch of high technology these days, so Wastequip includes an infrared zero-lumens digital video camera and video monitor with the Model 365X package. The monitor provides the operator with full visibility of the loading chamber from a remote location, which can even be inside a building, for additional safety and efficiency gains.

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About the Author

Richard Schneider | Contributing Editor

Contributing Editor, has been affiliated with Hydraulics & Pneumatics for more than 30 years and served as chief editor from 1987 through 2000. He received a BSME from Cornell University and also completed additional courses at the Milwaukee School of Engineering. His diverse background in industry includes ten years with a fluid power distributor and a variety of other professional positions. He has also been active with the National Fluid Power Association and Fluid Power Society.

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