Air knocker (Indirect impact type)

product enquiry form

This product is used for the following applications:
  • Prevention of clogging in hopper in sewage sludge fuel production facilities
  • Prevention of blockage in dust hopper for dust collector in waste treatment plant
  • Prevention of blockage in the recycle fuel (capsule of compressed wood) supply hopper
  • Prevention of blockage in the glass cullet storage hopper
  • Elimination of clogging of livestock forage silo
  • Facilitation of ejection of silica gel
  • Elimination of adhesion of calcination product raw material on wall surface
  • Knocking off the ash in the recycling plant. Facilitation of ejection of aluminum powder
  • Prevention of adhesion in piping in pharmaceutical planthis product is used for the following applications:
  • Prevention of clogging in hopper in sewage sludge fuel production facilities
  • Prevention of blockage in dust hopper for dust collector in waste treatment plant
  • Prevention of blockage in the recycle fuel (capsule of compressed wood) supply hopper
  • Prevention of blockage in the glass cullet storage hopper
  • Elimination of clogging of livestock forage silo
  • Facilitation of ejection of silica gel
  • Elimination of adhesion of calcination product raw material on wall surface
  • Knocking off the ash in the recycling plant. Facilitation of ejection of aluminum powder
  • Prevention of adhesion in piping in pharmaceutical plant
Operating Principle of the Air Knocker The compressed air flowed into the knocker is first supplied to the valve chamber to depress the mushroom valve and then is stored in the accumulator. When the three-way valve is actuated to exhaust the air from the valve chamber, the compressed air in the accumulator moves the mushroom valve upward. When the mushroom valve moves, the compressed air in the accumulator depresses the piston energetically, which strikes the base surface. That impact force eliminates the adhesion or blockage of powder.

product enquiry form

This product is used for the following applications:
  • Prevention of clogging in hopper in sewage sludge fuel production facilities
  • Prevention of blockage in dust hopper for dust collector in waste treatment plant
  • Prevention of blockage in the recycle fuel (capsule of compressed wood) supply hopper
  • Prevention of blockage in the glass cullet storage hopper
  • Elimination of clogging of livestock forage silo
  • Facilitation of ejection of silica gel
  • Elimination of adhesion of calcination product raw material on wall surface
  • Knocking off the ash in the recycling plant. Facilitation of ejection of aluminum powder
  • Prevention of adhesion in piping in pharmaceutical planthis product is used for the following applications:
  • Prevention of clogging in hopper in sewage sludge fuel production facilities
  • Prevention of blockage in dust hopper for dust collector in waste treatment plant
  • Prevention of blockage in the recycle fuel (capsule of compressed wood) supply hopper
  • Prevention of blockage in the glass cullet storage hopper
  • Elimination of clogging of livestock forage silo
  • Facilitation of ejection of silica gel
  • Elimination of adhesion of calcination product raw material on wall surface
  • Knocking off the ash in the recycling plant. Facilitation of ejection of aluminum powder
  • Prevention of adhesion in piping in pharmaceutical plant
Operating Principle of the Air Knocker The compressed air flowed into the knocker is first supplied to the valve chamber to depress the mushroom valve and then is stored in the accumulator. When the three-way valve is actuated to exhaust the air from the valve chamber, the compressed air in the accumulator moves the mushroom valve upward. When the mushroom valve moves, the compressed air in the accumulator depresses the piston energetically, which strikes the base surface. That impact force eliminates the adhesion or blockage of powder.

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Mayibongwe Minerals is driven by a clear objective which is to help processing operations become more reliable, safer, and more efficient through sound engineering and appropriate technology.

We believe sustainable performance comes from understanding systems properly, applying the right tools, and designing solutions that work long after installation.

tailings reprocessing and valorisation projects

We support tailings reprocessing and valorisation projects, helping clients unlock value from legacy waste while considering environmental and re-use opportunities. This includes sampling, test work, flowsheet development, pilot-scale concepts, and modular plant strategies.

battery minerals and green metals processing

We are also active in battery minerals and green metals processing, supporting early-stage and developing projects through test work, flowsheet development, techno-economic assessments, and processing design for lithium, graphite, cobalt, and related materials.

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As part of modernising processing operations, we assist with digital and automated mineral processing initiatives, including plant audits, digital readiness assessments, sensor integration, data capture, and optimisation strategies aimed at improving control, maintenance, and decision-making.