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A rotary milling system includes a rotatable cylinder, a discharge grate, a movable flap valve into and out of engagement with the grate, a discharge housing surrounding the grate, and a conveying pipe extending from the discharge housing. The cylinder can include grinding media for abrading a produ

A rotary milling system includes a rotatable cylinder, a discharge grate, a movable flap valve into and out of engagement with the grate, a discharge housing surrounding the grate, and a conveying pipe extending from the discharge housing. The cylinder can include grinding media for abrading a product when the cylinder is rotated. The product can be in either a dry form or within a liquid medium. Upon conclusion of the milling, the flap valve can be opened to allow the milled product to pass through the grate and into the discharge housing. A negative pressure can be applied to draw the milled product through the conveying pipe into a separator tank.

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1. A rotary milling system comprising: a rotatable cylinder defining a cavity and a central longitudinal axis, the cylinder having a first end wall and a second end wall and a sidewall extending therebetween;a discharge grate provided on the sidewall of the cylinder and defining an opening to allow

1. A rotary milling system comprising: a rotatable cylinder defining a cavity and a central longitudinal axis, the cylinder having a first end wall and a second end wall and a sidewall extending therebetween;a discharge grate provided on the sidewall of the cylinder and defining an opening to allow milled product to pass therethrough;a discharge housing attached to an exterior of the cylinder and disposed outside of the cavity, the discharge housing surrounding the discharge grate and defining a cavity therein;a flap disposed within the discharge housing and moveable between a closed position covering the opening of the discharge grate and an open position away from the opening;a conveying pipe having a first end attached to the discharge housing and a second end and a passageway extending between the first and second ends through which milled product is conveyed, wherein the passageway is entirely disposed outside of the cavity of the cylinder, the passageway being in fluid communication with the discharge housing through the first end of the conveying pipe;wherein the conveying pipe includes a laterally outward portion where a central axis of the passageway is laterally displaced from the central longitudinal axis of the cylinder; anda negative pressure producing vacuum member operatively associated with the conveying pipe to create a negative pressure within the conveying pipe, wherein the vacuum member is in fluid communication with the passageway of the conveying pipe through the second end of the conveying pipe;wherein the discharge housing includes an air inlet separate from the discharge grate, the air inlet located downstream from the opening of the discharge grate relative to the cavity of the cylinder;wherein the air inlet is configured to allow sufficient air flow to maintain sufficient velocity to keep solids suspended in an airstream created by the vacuum member such that air can flow through the discharge housing without flowing through the cylinder thereby providing airflow through the conveying pipe;wherein a path of the airstream created by the vacuum member for conveying the milled product begins at the air inlet of the discharge housing and flows through the discharge housing outside of the cavity of the cylinder and into the first end of the conveying pipe, through the passageway, and out of the second end of the conveying pipe, such that milled product passing through the discharge grate from the cavity will enter the airstream after passing into the cavity of the discharge housing and will be conveyed to the second end of the conveying pipe;wherein the discharge housing, conveying pipe, and vacuum member are in fluid communication throughout an entire rotation of the rotatable cylinder such that the airstream will be maintained from the cavity of the housing, through the first end of the conveying pipe, through the passageway, through the second end of the conveying pipe, and to the vacuum member during rotation of the cylinder independent of the rotational position of the cylinder and the conveying pipe;wherein the airstream produced by the vacuum member will flow through the passageway in an uninterrupted manner throughout an entire rotation of the cylinder. 2. The system of claim 1 further comprising a rotary union connected with the conveying pipe. 3. The system of claim 2 further comprising a secondary pipe connected to the rotary union, wherein the rotary union couples the secondary pipe and the conveying pipe and the secondary pipe is disposed between the negative pressure producing vacuum member and the conveying pipe. 4. The system of claim 1 further comprising a separator tank operatively coupled to the conveying pipe, wherein the vacuum member is in fluid communication with the separator tank. 5. The system of claim 1, wherein the flap includes an elastomer face for creating a seal between the flap and the opening of the discharge grate when the flap is in the closed position. 6. The system of claim 1, wherein the flap is pivotable relative to the discharge grate. 7. The system of claim 1 further comprising an actuator for moving the flap between an open and closed position. 8. The system of claim 7, wherein the actuator is pneumatically operated. 9. The system of claim 1 further comprising a transmission portion coupled to the cylinder for rotating the cylinder. 10. The system of claim 1 wherein the air inlet comprises a check valve for regulating the pressure in the system and allowing air to flow into the discharge housing in response to suction applied to the discharge housing via the conveying pipe. 11. The system of claim 4, further comprising a dust filter located upstream of the vacuum member. 12. The system of claim 1, further comprising first and second trunnion members for supporting the cylinder for rotation about the central axis. 13. The system of claim 12, wherein the conveying pipe extends into and through the first trunnion member. 14. A method for discharging milled product from a rotary mill comprising: rotating a cylinder in which a plurality of grinding media and milled product are disposed, wherein the cylinder includes a first end wall and a second end wall and a sidewall extending therebetween, and the cylinder defines a central longitudinal axis about which the cylinder rotates;moving a flap away from a discharge grate provided on the sidewall of the cylinder, wherein the flap and discharge grate are surrounded by a discharge housing attached to an exterior surface of the sidewall and defining a discharge cavity therein;discharging and passing the milled product from the cavity of the cylinder through the discharge grate and into the discharge housing; andapplying a negative pressure to a conveying pipe that is in fluid communication with the discharge housing to convey the product out of the housing and through the conveying pipe, wherein the conveying pipe has a first end attached to the discharge housing and a second end and a passageway extending between the first and second ends, wherein the passageway is entirely disposed outside of the cylinder, wherein the conveying pipe includes a laterally outward portion where a central axis of the passageway is laterally displaced from the central longitudinal axis of the cylinder;wherein air for conveying the product through the conveying pipe is provided through an air inlet disposed on the discharge housing, the air inlet being separate from the discharge grate and located downstream from the discharge grate relative to the cavity of the cylinder, the air inlet configured to allow sufficient air flow to maintain sufficient velocity to keep solids suspended in an airstream created by the vacuum member such that air can flow through the discharge housing without flowing through the cylinder thereby providing airflow through the conveying pipe;creating the airstream beginning at the air inlet disposed on the discharge housing, wherein the airstream has a path extending from the air inlet, though the discharge housing, and into the passageway of the conveying pipe, wherein the milled product enters the airstream after passing through the discharge grate into the housing;wherein the discharge housing, conveying pipe, and vacuum member are in fluid communication throughout an entire rotation of the rotatable cylinder such that the airstream is maintained during rotation of the cylinder independent of a location of the laterally outward portion of the conveying pipe during rotation. 15. The method of claim 14 further comprising rotating the cylinder with the flap in an open position. 16. The method of claim 14, wherein the air inlet comprises a check valve, the method further comprising opening the check valve in the discharge housing to allow air into the discharge housing and to provide sufficient airflow through the conveying pipe. 17. The method of claim 14 wherein the milled product is disposed within a liquid medium.