Product Profile of Impacting Pneumatic Piston Vibrator
Impacting Pneumatic Piston Vibrator develops a high amplitude repetitive impulse when the piston strikes the base of the bore sharply on each cycle and is air cushioned at the head plate on the upward stroke. The Vibrator of model name BH 5.00 IGO has the feature that momentum and energy are transmitted efficiently through the bin wall and into the material by each elastic collision between the piston and the vibrator base and the repetitive impacts enable the vibrator to affect material over a large area of influence, overcoming the bulk material strength and reducing the wall friction angle. The Vibrator is suitable for all bulk material flow problems, especially those involving cohesive materials with marginal to poor flow characteristics. The Impacting Pneumatic Piston Vibrator is effective in cleaning adhering material from empty bins and process vessels.
KJN Enterprises is the manufacturer of Impacting Pneumatic Piston Vibrator. KJN Enterprises is the supplier of pneumatic presses, conventional, toggle and impact presses, special purpose machines, pneumatic cylinders, air blowguns, pneumatic control valves, pneumatic accessories and turbine vibrators.
Key Features of Impacting Pneumatic Piston Vibrator
- Designed to provide reliable and effective performance even when exposed to severe adverse elements
- Suitable for solving heavy duty bulk material flow problems
- Nominal 5" piston and bore and during operation compressed air is alternately directed from one end of the piston to the other through internal ports.
- The work or energy generated by it can be directed normal or perpendicular to the flow of the bulk material to address a specific material flow problem
- Used efficiently to reduce the sliding friction angle of the hopper to overcome the strength of the bulk material in the hopper
- Can be applied to the hoppers with 100 to 300 tons of capacity with a wall thickness of 3/8" to 12"
- 1/2" NPT inlet.
- The vibrator mounting plate should be skip welded to the hopper wall using a low hydrogen welding rod.
- Develops a high amplitude repetitive impulse when the piston strikes the base of the bore sharply on each cycle
- Air cushioned at the head plate on the upward stroke.
- Momentum and energy are transmitted efficiently through the bin wall and into the material by each elastic collision between the piston
- The vibrator base and the repetitive impacts enable the vibrator to affect material over a large area of influence, overcoming the bulk material strength and reducing the wall friction angle.
- Suitable for all bulk material flow problems, especially those involving cohesive materials with marginal to poor flow characteristics
- Effective in cleaning adhering material from empty bins and process vessels.