Rotary tablet press

The invention claimed is: 1. A rotary tablet press comprising: a rotatably driven rotor having a die plate with die bores, the die plate including an upper face; a plurality of upper and lower punches configured to rotate with the die plate and produce tablets within the die bores; a deflector configured to deflect satisfactory tablets from the upper face of the die plate into a satisfactory channel; an ejection apparatus configured to eject reject tablets into a reject channel, the reject channel positioned upstream of the satisfactory channel; a monitoring apparatus configured to monitor at least one property of the tablets, the monitoring apparatus configured to produce a reject signal when the at least one property of the tablets deviates inadmissibly from a reference value; a control apparatus configured to receive the reject signal from the monitoring apparatus and actuate the ejection apparatus for ejecting the reject tablets; a first detector apparatus positioned in the reject channel, the first detector apparatus configured to detect reject tablets passing through the reject channel; a second detector apparatus positioned in the satisfactory channel, the second detector apparatus configured to detect satisfactory tablets flowing through the satisfactory channel; a first vacuum apparatus positioned in the reject channel and configured to produce a first vacuum; the first vacuum configured to discharge reject tablets through the reject channel; and a second vacuum apparatus positioned in the satisfactory channel and configured to produce a second vacuum; the second vacuum configured to suction satisfactory tablets deflected by the deflector in a direction of the satisfactory channel from the die plate and through the satisfactory channel, wherein the second detector apparatus is further configured to detect gaps in the satisfactory tablets flowing through the satisfactory channel, and wherein the gaps correspond to the reject tablets that were previously ejected. 2. The rotary tablet press according to claim 1 , wherein at least one of the first detector apparatus and the second detector apparatus comprises a light barrier. 3. The rotary tablet press according to claim 1 , wherein at least one of the first vacuum apparatus and the second vacuum apparatus is a Venturi nozzle. 4. The rotary tablet press according to claim 1 , wherein the first detector apparatus is arranged in the first vacuum apparatus and the second detector apparatus is arranged in the second vacuum apparatus. 5. The rotary tablet press according to claim 1 , further comprising a vacuum control apparatus configured to control the first vacuum produced by the first vacuum apparatus and the second vacuum produced by the second vacuum apparatus, the vacuum control apparatus configured to adjust the first vacuum and the second vacuum independently of one another. 6. A rotary tablet press comprising: a rotatably driven rotor having a die plate with die bores, the die plate including an upper face; a plurality of upper and lower punches configured to rotate with the die plate and produce tablets within the die bores; a deflector configured to deflect satisfactory tablets from the upper face of the die plate into a satisfactory channel; an ejection apparatus configured to eject reject tablets into a reject channel, the reject channel positioned upstream of the satisfactory channel; a monitoring apparatus configured to monitor at least one property of the tablets, the monitoring apparatus configured to produce a reject signal when the at least one property of the tablets deviates inadmissibly from a reference value; a control apparatus configured to receive the reject signal from the monitoring apparatus and actuate the ejection apparatus for ejecting the reject tablets; a first detector apparatus positioned in the reject channel, the first detector apparatus configured to detect reject tablets passing through the reject channel; and a second detector apparatus positioned in the satisfactory channel, the second detector apparatus configured to detect satisfactory tablets flowing through the satisfactory channel, wherein the second detector apparatus is further configured to detect gaps in the satisfactory tablets flowing through the satisfactory channel, and wherein the gaps correspond to the reject tablets that were previously ejected. 7. The rotary tablet press of claim 6 , further comprising: a first vacuum apparatus positioned in the reject channel and configured to produce a first vacuum; the first vacuum configured to discharge reject tablets through the reject channel; and a second vacuum apparatus positioned in the satisfactory channel and configured to produce a second vacuum; the second vacuum configured to suction satisfactory tablets deflected by the deflector in a direction of the satisfactory channel from the die plate and through the satisfactory channel. 8. The rotary tablet press according to claim 6 , wherein at least one of the first detector apparatus and the second detector apparatus comprises a light barrier. 9. The rotary tablet press according to claim 7 , wherein at least one of the first vacuum apparatus and the second vacuum apparatus is a Venturi nozzle. 10. The rotary tablet press according to claim 7 , wherein the first detector apparatus is arranged in the first vacuum apparatus and the second detector apparatus is arranged in the second vacuum apparatus. 11. The rotary tablet press according to claim 7 , further comprising a vacuum control apparatus configured to control the first vacuum produced by the first vacuum apparatus and the second vacuum produced by the second vacuum apparatus, the vacuum control apparatus configured to adjust the first vacuum and the second vacuum independently of one another.