Abstract: A drive system for driving a screen in a fluid screening system comprises an electric gear motor equipped with a mechanical torque limited coupling. The system is sized to provide the torque required to drive the screen throughout the desired speed range, as well as providing additional torque as required to free lodged solids from the screen field. The mechanical torque limited coupling provides overload protection when lodged solids block the rotating rake bar. The coupling operates up to a predetermined torque value before the overload protection is activated. The drive system may be operated in either a manual mode or an automatic mode.
Abstract: A drive system for driving a screen in a fluid screening system comprises a hydraulic or pneumatic motor coupled to a drive shaft of the screen. The system is sized to provide the torque required to drive the screen throughout-the desired speed range, as well as providing additional torque as required to free lodged solids from the screen field. The hydraulic motor provides overload protection when lodged solids block the rotating rake bar. The drive system operates up to a predetermined pressure value before the overload protection is activated. The drive system may be operated in either a manual mode or an automatic mode.
Abstract: A screen system used in fluid channels has a scraper for removing debris from bars in a bar screenfield. The scraper is mounted to a top of a screen system. The scraper is lifted by a rake while simultaneously removing debris from the rake. Once the rake clears the scraper, the scraper returns to an original position. The scraper has arms that have wear plates with curvatures selected to avoid contact with the teeth. The scraper can have a cushioning device to lessen the impact of the scraper as it returns to a rest position.
Abstract: A screen system used in fluid channels has emergency discharge doors. The emergency discharge doors are located within the debris plate of the bar screen system and can be opened, as needed, to prevent fluid from overflowing should the grid screen become obstructed. The emergency discharge doors are located within rectangular openings in the debris plate in which the doors sit flush with the debris plate when closed. The emergency discharge doors can be opened manually, when needed, with handles that are preferably located at the top of the screen system. Lifting the handles releases the locking pins that keep the doors in place, allowing the doors to open freely in response to the fluid pressure on the upstream side of the screen system.
Abstract: A screen system used in fluid channels has individually removable bars in a bar screenfield. The removable bars are connected to the screen system through at least two screenfield bar holders. The screenfield bar holders contain a plurality of slots in which the removable bars insert within. A removably mounted screenfield bar retainer at each screenfield bar holder attaches the removable bars. The retainers have teeth that wedge the bars between them.