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A compact dedusting apparatus induces air flow through the housing by a vacuum generator mounted within the housing. The discharge of dust and debris can be passed through a conduit to a remote location without losing air flow velocity to facilitate the use of the compact dedusting apparatus within

A compact dedusting apparatus induces air flow through the housing by a vacuum generator mounted within the housing. The discharge of dust and debris can be passed through a conduit to a remote location without losing air flow velocity to facilitate the use of the compact dedusting apparatus within a clean room. The metering device is formed from stainless steel and mounted on a spring-loaded mounting plate to permit vertical movement of the metering device when a jam of the particulate material is encountered. The metering device can be driven by a low torque stepper motor operable at selectively variable speeds to control the flow rate of the particulate material. The discharge transition is formed with an enlarged cross-sectional area compared to the shape of the Venturi zone so that carryover pellets can be returned to the product flow instead of being lost with the dirty air discharge.

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1. A dedusting apparatus for cleaning contaminates from particulate material, comprising: a housing defining a dedusting area for removing contaminates from particulate material and having a product discharge opening;a motor mounted on a mounting plate configured to be vertically movable relative to

1. A dedusting apparatus for cleaning contaminates from particulate material, comprising: a housing defining a dedusting area for removing contaminates from particulate material and having a product discharge opening;a motor mounted on a mounting plate configured to be vertically movable relative to the housing, said mounting plate being engagable with an adjustable stop member that defines a lowermost position of said mounting plate;an infeed opening located at an upper portion of said housing to receive a supply of particulate material, said infeed opening including a sloped floor to direct particulate material downwardly toward an infeed port;a metering device located within said infeed opening and being operable to control the flow of particulate material through said infeed port, said metering device including a conical member formed from stainless steel and being mounted on an output shaft of said motor such that said conical member is vertically adjustable with said motor so that the lowermost position thereof can be located above said sloped floor of said infeed opening;a Venturi chamber positioned to receive particulate material passing through said infeed port and to remove dust and debris from the particulate material by a flow of air passing upwardly through the product discharge opening into the Venturi chamber, while cleaned particulate material falls through the product discharge opening; anda discharge conduit positioned above the Venturi chamber to receive dust and debris laden air moving upwardly from said Venturi chamber, said discharge conduit moving said dust and debris laden air remotely from said dedusting area. 2. The dedusting apparatus of claim 1 wherein said stop member is a thumb screw mounted in a stop bracket affixed to said housing below said mounting plate, tension springs interconnect said mounting plate and said stop bracket to bias the position of said mounting plate toward engagement with said thumb screw. 3. The dedusting apparatus of claim 1 wherein said flow of air through said Venturi chamber is induced by a vacuum generator mounted in a fixed location relative to said dedusting apparatus, said vacuum generator being in flow communication with said discharge conduit to draw air from said product discharge opening through said Venturi chamber and into said discharge conduit. 4. The dedusting apparatus of claim 3 further comprising a discharge transition chamber in flow communication with and being located between said Venturi chamber and said discharge conduit, said discharge transition chamber having a larger cross-section area than the Venturi chamber below said discharge transition chamber and said discharge conduit above said discharge transition chamber so that said air flow reduces velocity before entering said discharge conduit. 5. The dedusting apparatus of claim 4 wherein said housing defines an auxiliary clean air port that can be opened selectively to provide a flow of air through the housing to exit through an opening adjacent said product discharge opening so that when said product discharge opening is sealed to prevent air to be drawn through said product discharge opening from externally of said housing, said auxiliary clean air port can be opened to provide a source of clean air from externally of said housing. 6. The dedusting apparatus of claim 1 wherein said dedusting area further includes a first chamber that includes a vertical portion and a sloped portion, said vertical portion being in flow communication with said infeed port to receive particulate material therefrom, said sloped portion including a sloped floor that engages the particulate material falling through said vertical portion and directs the particulate material laterally into said Venturi chamber. 7. The dedusting apparatus of claim 6 wherein said vertical portion of said first chamber includes ionizing pins mounted in a sidewall thereof to induce negative ions onto said particulate material to separate dust particles from pellets to facilitate the removal of said dust particles from said pellets in said Venturi chamber. 8. A dedusting apparatus for cleaning contaminates from particulate material, comprising: a housing defining a dedusting area for removing contaminates from particulate material;an infeed opening located at an upper portion of said housing to receive a supply of particulate material, said infeed opening including a sloped floor to direct particulate material downwardly toward an infeed port;a metering device located within said infeed opening and being operable to control the flow of particulate material through said infeed port;a Venturi chamber positioned to receive particulate material passing through said infeed port and to remove dust and debris from the particulate material by a flow of air passing upwardly through the product discharge opening into the Venturi chamber, while cleaned particulate material falls through the product discharge opening;a discharge conduit positioned above the Venturi chamber to receive dust and debris laden air moving upwardly from said venture chamber, said discharge conduit moving said dust and debris laden air remotely from said dedusting area; anda discharge transition chamber located between said Venturi chamber and said discharge conduit and being in flow communication with both said Venturi chamber and said discharge conduit, said discharge transition chamber having a large cross-sectional area than either said Venturi chamber or said discharge conduit to create a drop in velocity of air flow from said Venturi chamber before entering said discharge conduit. 9. The dedusting apparatus of claim 8 wherein said flow of air through said Venturi chamber is induced by a vacuum generator mounted in a fixed location relative to said dedusting apparatus, said vacuum generator being in flow communication with said discharge conduit to draw air from said product discharge opening through said Venturi chamber and said discharge transition chamber and into said discharge conduit. 10. The dedusting apparatus of claim 9 wherein said housing defines an auxiliary clean air port that can be opened selectively to provide a flow of air through the housing to exit through an opening adjacent said product discharge opening so that when said product discharge opening is sealed to prevent air to be drawn through said product discharge opening from externally of said housing, said auxiliary clean air port can be opened to provide a source of clean air from externally of said housing. 11. The dedusting apparatus of claim 8 wherein said dedusting area further includes a first chamber that includes a vertical portion and a sloped portion, said vertical portion being in flow communication with said infeed port to receive particulate material therefrom, said sloped portion including a sloped floor that engages the particulate material falling through said vertical portion and directs the particulate material laterally into said Venturi chamber. 12. The dedusting apparatus of claim 11 wherein said vertical portion of said first chamber includes ionizing pins mounted in a sidewall thereof to induce negative ions onto said particulate material to separate dust particles from pellets to facilitate the removal of said dust particles from said pellets in said Venturi chamber. 13. The dedusting apparatus of claim 8 wherein said metering device includes a conical member formed from stainless steel and being vertically adjustable so that the lowermost position thereof can be located above said sloped floor of said infeed opening. 14. The dedusting apparatus of claim 13 wherein said conical member is mounted on the output shaft of a motor, said motor being mounted on a mounting plate configured to be vertically movable relative to the housing, said mounting plate being engagable with an adjustable stop member that defines a lowermost position of said mounting plate and, in turn, the corresponding lowermost position of said conical member. 15. The dedusting apparatus of claim 14 wherein said stop member is a thumb screw mounted in a stop bracket affixed to said housing below said mounting plate, tension springs interconnect said mounting plate and said stop bracket to bias the position of said mounting plate toward engagement with said thumb screw. 16. A dedusting apparatus for cleaning contaminates from particulate material, comprising: a housing defining a dedusting area for removing contaminates from particulate material;an infeed opening located at an upper portion of said housing to receive a supply of particulate material, said infeed opening including a sloped floor to direct particulate material downwardly toward an infeed port;a metering device located within said infeed opening and being operable to control the flow of particulate material through said infeed port;a Venturi chamber positioned to receive particulate material passing through said infeed port and to remove dust and debris from the particulate material by a flow of air passing upwardly through the product discharge opening into the Venturi chamber, while cleaned particulate material falls through the product discharge opening;a discharge conduit positioned above the Venturi chamber to receive dust and debris laden air moving upwardly from said venture chamber, said discharge conduit moving said dust and debris laden air remotely from said dedusting area; anda vacuum generator mounted in a fixed location relative to said dedusting apparatus, said vacuum generator being in flow communication with said discharge conduit to draw air from said product discharge opening through said Venturi chamber and into said discharge conduit;a dust collector in flow communication with said discharge conduit externally of said vacuum generator, said dust collector being positionable at a desired location by extending said discharge conduit to said dust collector without deteriorating the velocity of the air flow through said Venturi chamber; anda discharge transition chamber in flow communication with and being located between said Venturi chamber and said discharge conduit, said discharge transition chamber having a larger cross-section area than the Venturi chamber below said discharge transition chamber and said discharge conduit above said discharge transition chamber so that said air flow reduces velocity before entering said discharge conduit. 17. The dedusting apparatus of claim 16 wherein said housing defines an auxiliary clean air port that can be opened selectively to provide a flow of air through the housing to exit through an opening adjacent said product discharge opening so that when said product discharge opening is sealed to prevent air to be drawn through said product discharge opening from externally of said housing, said auxiliary clean air port can be opened to provide a source of clean air from externally of said housing. 18. The dedusting apparatus of claim 16 wherein said metering device includes a conical member formed from stainless steel and being vertically adjustable so that the lowermost position thereof can be located above said sloped floor of said infeed opening. 19. The dedusting apparatus of claim 18 wherein said conical member is mounted on the output shaft of a motor, said motor being mounted on a mounting plate configured to be vertically movable relative to the housing, said mounting plate being engagable with an adjustable stop member that defines a lowermost position of said mounting plate and, in turn, the corresponding lowermost position of said conical member. 20. The dedusting apparatus of claim 19 wherein said stop member is a thumb screw mounted in a stop bracket affixed to said housing below said mounting plate, tension springs interconnect said mounting plate and said stop bracket to bias the position of said mounting plate toward engagement with said thumb screw. 21. A dedusting apparatus for cleaning contaminates from particulate material, comprising: a housing defining a dedusting area for removing contaminates from particulate material and having a product discharge opening;an infeed opening located at an upper portion of said housing to receive a supply of particulate material, said infeed opening including a sloped floor to direct particulate material downwardly toward an infeed port;a Venturi chamber positioned to receive particulate material passing through said infeed port and to remove dust and debris from the particulate material by a flow of air passing upwardly through the product discharge opening into the Venturi chamber, while cleaned particulate material falls through the product discharge opening;at least one ionizing pin mounted in a sidewall of said housing below said infeed port to induce negative ions onto said particulate material passing through said infeed port to facilitate the separation of dust particles from pellets to facilitate the removal of said dust particles from said pellets in said Venturi chamber; anda discharge conduit positioned above the Venturi chamber to receive dust and debris laden air moving upwardly from said Venturi chamber, said discharge conduit moving said dust and debris laden air remotely from said dedusting area. 22. The dedusting apparatus of claim 21 further comprising a metering device located within said infeed opening and being operable to control the flow of particulate material through said infeed port, said metering device including a conical member formed from stainless steel and being vertically adjustable so that the lowermost position thereof can be located above said sloped floor of said infeed opening. 23. The dedusting apparatus of claim 22 wherein said conical member is mounted on the output shaft of said motor, said motor being mounted on a mounting plate configured to be vertically movable relative to the housing, said mounting plate being engagable with an adjustable stop member that defines a lowermost position of said mounting plate and, in turn, the corresponding lowermost position of said conical member. 24. The dedusting apparatus of claim 21 wherein said flow of air through said Venturi chamber is induced by a vacuum generator mounted in a fixed location relative to said dedusting apparatus, said vacuum generator being in flow communication with said discharge conduit to draw air from said product discharge opening through said Venturi chamber and said discharge transition chamber and into said discharge conduit. 25. The dedusting apparatus of claim 24 wherein said housing defines an auxiliary clean air port that can be opened selectively to provide a flow of air through the housing to exit through an opening adjacent said product discharge opening so that when said product discharge opening is sealed to prevent air to be drawn through said product discharge opening from externally of said housing, said auxiliary clean air port can be opened to provide a source of clean air from externally of said housing.