Method and apparatus for vacuum drying granular resin material

I claim the following: 1. In a method for drying granular resin material prior to processing thereof by molding or extrusion including the steps of heating granular resin material in a heating hopper by application of heating air thereto, releasing heated granular resin material from the heating hopper for flow downwardly into a vacuum chamber, and drawing vacuum in the vacuum chamber to dry granular resin material resident therein, the improvement comprising: a) monitoring the temperature of heated air released to ambient at the top of the heating hopper; b) simultaneously regulating heat input to the heating hopper, so that monitored air temperature of air released to ambient at the top of the heating hopper does not exceed a preselected temperature, and periodically purging the vacuum chamber with dry air while the vacuum chamber contains granular resin material under vacuum; c) draining dried granular resin material from the vacuum chamber past a vacuum sealing slide gate into a retention hopper; and d) dynamically blanketing dried granular resin material in the retention hopper with dry air. 2. A method for drying granular resin material prior to processing thereof by molding or extrusion, comprising: a) heating granular material in a heating hopper by introduction of heated ambient air at a bottom portion of the heating hopper; b) monitoring air temperature at the top of the heating hopper; c) regulating heat input to the heating hopper from the heated ambient air by regulating speed of air passing through a cylindrical heater so that monitored air temperature escaping to ambient at the top of the heating hopper does not exceed a preselected temperature; d) releasing heated granular material from the heating hopper for flow downwardly into a vacuum chamber and replenishing the heating hopper from above with fresh granular resin material in an amount substantially equal to that released into the vacuum chamber; e) drawing vacuum in the vacuum chamber to dry granular resin material therein while periodically purging the vacuum chamber with dry air having first passed along a membrane dryer by introducing the dry air into the bottom of the vacuum chamber; f) draining granular resin material from the vacuum chamber into a retention hopper; and g) continuously blanketing granular resin material in the retention hopper with dry air. 3. Apparatus for drying granular resin material prior to molding or extrusion processing thereof, comprising: a) a stationary heating hopper having an air outlet to ambient at the top; b) a stationary vacuum chamber spaced apart from and positioned below the heating hopper; c) a stationary retention hopper spaced apart from and positioned below the vacuum chamber; d) an adjustable blower having a variable frequency drive for blowing heated ambient air ; e) a heating conduit connecting the blower with the heating hopper at the heating hopper bottom, the heating conduit having a heater for heating ambient air therewithin prior to introduction into the heating hopper, the heater comprising a hollow cylindrical housing disposed for flow therethrough of air to being heated and an electrical heating element within the housing; f) a first drying conduit for periodically introducing dry purge air into the vacuum chamber while granular resin material is being dried therein under vacuum; g) a second drying conduit for periodically introducing blanketing dry air into the retention hopper; h) a sensor for detecting temperature of heated air released to ambient at the top of the heating hopper; and i) a control for adjusting speed of the blower in response to the detected air temperature. 4. Apparatus of claim 3 wherein the housing is metal. 5. Apparatus of claim 3 further comprising: a) a first vacuum sealing gate between the heating hopper and the vacuum chamber, movable horizontally perpendicular to the direction of granular material downward flow between open and closed positions, for controlling downward granular material flow from the heating hopper into the vacuum chamber; b) a second vacuum sealing gate between the vacuum chamber and the retention hopper, movable horizontally perpendicular to the direction of granular material downward flow between open and closed positions, for controlling downward granular material flow from the vacuum chamber into the retention hopper. 6. Apparatus of claim 3 further comprising: a) a plurality of first vacuum gates between the heating hopper and the vacuum chamber, movable between open and closed positions, for controlling downward granular material flow from the heating hopper into the vacuum chamber; b) a plurality of second vacuum gates between the vacuum chamber and the retention hopper, movable between open and closed positions, for controlling downward granular material flow from the vacuum chamber into the retention hopper. 7. Apparatus of claim 5 wherein the first and second vacuum sealing gates are connected to the vacuum chamber. 8. Apparatus of claim 7 wherein the first and second vacuum sealing gates are slide gates. 9. Apparatus of claim 3 further comprising: a) a first support bearing the weight of the heating hopper; b) a second support bearing the weight of the vacuum chamber; c) a third support bearing the weight of the retention hopper; and d) a sensor connected to the second support for sensing weight of the vacuum chamber and any granular material therein. 10. Apparatus of claim 9 further comprising: a) a sensor connected to the third support bearing, for sensing weight of the retention hopper and any granular material therein. 11. Apparatus of claim 10 wherein the sensors are load cells. 12. A method for drying granular resin material prior to processing thereof by molding or extrusion, comprising: a) heating granular material in a stationary heating hopper by introduction of heated air at the hopper bottom, the air being heated by blower-forced passage through a heater comprising a cylindrical housing having an electrical heating element within the housing, the heated air being released to ambient at the hopper top; b) monitoring heated air temperature as the heated air is released to ambient at the top of the heating hopper; c) controlling heat input to the heating hopper supplied by the heated ambient air by regulating the speed at which air passes through the heater, so that monitored air temperature at the top of the heating hopper does not exceed a preselected temperature; d) releasing heated granular resin material from the heating hopper for flow downwardly into a vacuum chamber and replenishing the heating hopper from above with fresh granular resin material in an amount substantially equal to that released into the vacuum chamber; e) drawing vacuum in the vacuum chamber to dry the heated granular resin material therein while periodically purging the vacuum chamber with dry air; f) draining dried granular resin material from the vacuum chamber into a retention hopper; g) continuously blanketing dried granular resin material in the retention hopper with dry air. 13. The method of claim 12 wherein regulating heat input to the heating hopper further comprises regulating speed of air passing through the heater. 14. The method of claim 12 wherein purging the vacuum chamber with dry air further comprises: a) passing compressed air along a membrane dryer; b) introducing the dried compressed air into the vacuum chamber at the bottom of the chamber. 15. Apparatus for drying granular resin material prior to molding or extrusion processing thereof, comprising: a) a heating hop