Twin-screw extruder, gear box and method for extrusion

1 . A twin-screw extruder comprising: two screws that extend in parallel to each other, wherein each screw has a cylindrical upstream screw and a downstream screw, wherein the upstream screw has a shaft hole that extends in a longitudinal direction and a screw flight on an outer circumferential surface thereof, and the downstream screw includes a large diameter portion having a screw flight on an outer circumferential surface thereof and a small diameter shaft portion that has a smaller diameter than the large diameter portion, wherein the small diameter shaft portion of the downstream screw is inserted into the shaft hole of the upstream screw, and the upstream screw and the downstream screw can be independently rotated; an upstream rotating mechanism that rotates the upstream screws of the two screws; and a downstream rotating mechanism that is provided independent of the upstream rotating mechanism and that rotates the downstream screws of the two screws. 2 . The twin-screw extruder according to claim 1 , wherein the screw flights of the respective upstream screws of the two screws at least partially mesh with each other, and the screw flights of the respective downstream screws of the two screws at least partially mesh with each other. 3 . The twin-screw extruder according to claim 1 , wherein each upstream screw of the two screw constitutes a kneading portion, and each downstream screw of the two screw constitutes a metering portion. 4 . The twin-screw extruder according to claim 1 , wherein labyrinth grooves are formed on an outer circumferential surface of the small diameter shaft portion of the downstream screw of at least one of two screws. 5 . The twin-screw extruder according to claim 1 , wherein the upstream screw includes a cylindrical member having the shaft hole, as well as a screw piece that has the screw flight on an outer circumferential surface thereof and that is fitted onto the cylindrical member, and the screw piece of the upstream screw is removable from the cylindrical member. 6 . The twin-screw extruder according to claim 1 , wherein the downstream screw has the small diameter shaft portion, as well as a screw piece that is fitted onto the small diameter shaft portion so as to constitute the large diameter portion, and the screw piece of the downstream screw is removable from the small diameter shaft portion. 7 . The twin-screw extruder according to claim 1 , comprising: an upstream input shaft; a downstream input shaft; a first upstream output shaft that is connected to the upstream screw of one of the screws and that has a shaft hole; a second upstream output shaft that is connected to the upstream screw of the remaining screw and that has a shaft hole; a first downstream output shaft that penetrates through the shaft hole of the first upstream output shaft and that is connected to the downstream screw of the one of screws; a second downstream output shaft that penetrates through the shaft hole of the second upstream output shaft and that is connected to the downstream screw of the remaining screw; an upstream transmission element that transmits rotation of the upstream input shaft to the first upstream output shaft and to the second upstream output shaft; and a downstream transmission element that transmits rotation of the downstream input shaft to the first downstream output shaft and to the second downstream output shaft. 8 . The twin-screw extruder according to claim 7 , wherein the second upstream output shaft extends parallel to a portion of the first upstream output shaft, the upstream transmission element includes: an upstream intermediate shaft that is connected to the upstream input shaft; a first upstream gear that connects the upstream intermediate shaft to a portion of the first upstream output shaft where the first upstream output shaft is not adjacent to the second upstream output shaft; a second upstream gear that connects the upstream intermediate shaft to the second upstream output shaft and that has a smaller diameter than the first upstream gear; and a plurality of upstream intermediate transmission elements that are independent of each other, wherein each upstream intermediate transmission element connects the upstream intermediate shaft to the second upstream gear. 9 . The twin-screw extruder according to claim 7 , wherein the second downstream output shaft extends parallel to a portion of the first downstream output shaft, the downstream transmission element includes: a plurality of downstream intermediate transmission elements that are independent of each other and that connect a portion of the first downstream output shaft, where the first downstream output shaft is not adjacent to the second downstream output shaft, to the second downstream output shaft; a first downstream gear that connects the downstream input shaft to the first downstream output shaft, and a second downstream gear that connects the plurality of downstream intermediate transmission elements to the second downstream output shaft and that has a smaller diameter than the first downstream gear. 10 . A method of extrusion using a twin-screw extruder, wherein the extruder includes two screws that extend in parallel to each other, wherein each screw has a cylindrical upstream screw and a downstream screw, wherein the upstream screw has a shaft hole that extends in a longitudinal direction and a flight on an outer circumferential surface thereof, and the downstream screw includes a large diameter portion having a flight on an outer circumferential surface thereof and a small diameter shaft portion that has a smaller diameter than the large diameter portion, wherein the small diameter shaft portion of the downstream screw is inserted into the shaft hole of the upstream screw, and the upstream screw and the downstream screw can be independently rotated, the method comprising the steps of: supplying raw material to the upstream screws of the two screws, rotating the upstream screws of the two screws by means of an upstream rotating mechanism; and rotating the downstream screws of the two screws by means of a downstream rotating mechanism that is provided independent of the upstream rotating mechanism, wherein the downstream screws are rotated at a rotational speed different from a rotational speed of the upstream screws. 11 . The method of extrusion according to claim 10 , wherein the upstream rotating mechanism includes: an upstream input shaft; a first upstream output shaft that is connected to the upstream screw of one of the screws and that has a shaft hole; a second upstream output shaft that is connected to the upstream screw of the remaining screw and that has a shaft hole; and an upstream transmission element that transmits rotation of the upstream input shaft to the first upstream output shaft and the second upstream output shaft, wherein the downstream rotating mechanism includes: a downstream input shaft; a first downstream output shaft that penetrates through the shaft hole of the first upstream output shaft and that is connected to the downstream screw of the one of screws; a second downstream output shaft that that penetrates through the shaft hole of the second upstream output shaft and that is connected to the downstream screw of the remaining screw; and a downstream transmission element that transmits rotation of the downstream input shaft to the first downstream output shaft and to the second downstream output shaft, wherein the upstream output shafts of the two screws are rotated by transmitting rotation from the upstream input shaft to the first upstream output shaft and to the second upstream output shaft through the upstr