Converting machine with fold sensing mechanism

What is claimed is: 1. A converting machine used to convert sheet material into packaging templates for assembly into boxes or other packaging, the converting machine comprising: a converting assembly configured to perform one or more transverse conversion functions and one or more longitudinal conversion functions on the sheet material as the sheet material moves through the converting machine in a feed direction, the one or more transverse conversion functions and the one or more longitudinal conversion functions being selected from the group consisting of creasing, bending, folding, perforating, cutting, and scoring, to create the packaging templates; and a fanfold crease sensing mechanism configured to detect the presence and location of fanfold creases that exist in the sheet material prior to the sheet material entering the converting machine, the fanfold creases comprising depressions or projections in a surface of the sheet material between leading and trailing ends of the sheet material, the fanfold crease sensing mechanism comprising a first sensor and a second sensor, the first sensor and the second sensor being configured to cooperate to detect the presence and location of the fanfold creases and distinguish between the presence and location of a fanfold crease and movement of the sheet material closer to or further away from the first sensor or the second sensor, wherein: the first sensor and the second sensor are offset from one another in the feed direction; or the first sensor is positioned above the sheet material and the second sensor is positioned below the sheet material. 2. The converting machine of claim 1 , wherein the first and second sensors are offset from one another in the feed direction such that only one of the first sensor and the second sensor are positioned above a fanfold crease at a given time and such that the first and second sensors are spaced apart by at least one of the following: a distance of about half of a width of a fanfold crease; or about 7 mm. 3. The converting machine of claim 1 , wherein the first and second sensors comprise lasers. 4. The converting machine of claim 1 , wherein the first and second sensors comprise mechanical, optical, or vision sensors. 5. The converting machine of claim 1 , wherein the first and second sensors are mounted on the converting assembly. 6. The converting machine of claim 1 , wherein both the first and second sensors are positioned above the sheet material. 7. The converting machine of claim 1 , wherein both the first and second sensors are positioned below the sheet material. 8. The converting machine of claim 1 , wherein one of the first and second sensors is positioned above the sheet material and the other of the first and second sensors is positioned below the sheet material. 9. The converting machine of claim 1 , further comprising a control system, the control system being configured to compare a reading from the first sensor to a reading from the second sensor to determine the presence and location of a fanfold crease in the sheet material. 10. The converting machine of claim 9 , wherein the control system causes the converting assembly to cut off the leading end of the sheet material if the sensing mechanism detects the presence of a fanfold crease within a predetermined or user configurable range of a leading edge of the sheet material. 11. The converting machine of claim 9 , wherein the control system causes the converting assembly to cut off the leading end of the sheet material if the control system predicts that a fanfold crease will be within a predetermined or user configurable range of a trailing edge of a packaging template. 12. The converting machine of claim 1 , wherein the first and second sensors are offset from one another in the feed direction such that only one of the first sensor and the second sensor are positioned above a fanfold crease at a given time and such that the first and second sensors are spaced apart by at least one of the following: a distance of about half of a width of a fanfold crease; or about 7 mm. 13. A method of converting sheet material into packaging templates for assembly into boxes or other packaging, the method comprising: detecting with a plurality of offset sensors the presence and location of a fanfold crease in the sheet material, the fanfold crease comprising a depression or projection disposed in a surface of the sheet material between leading and trailing ends of the sheet material, at least two sensors of the plurality of offset sensors being disposed on the same side of the sheet material to detect the fanfold crease; distinguishing between the presence and location of a fanfold crease and movement of the sheet material closer to or further away from the plurality of sensors; determining that the fanfold crease is within a predetermined or user configurable distance of a leading edge of the sheet material; cutting off a predetermined or user configurable length from a leading end of the sheet material to remove the fanfold crease; and performing one or more conversion functions on remaining sheet material to form the packaging template. 14. The method of claim 13 , wherein the predetermined or user configurable distance comprises 25 mm, 50 mm, 75 mm, 100 mm, or 150 mm. 15. The method of claim 13 , wherein the predetermined or user configurable length comprises 25 mm, 50 mm, 75 mm, 100 mm, or 150 mm. 16. The method of claim 13 , wherein detecting with a plurality of offset sensors the presence and location of a fanfold crease in the sheet material comprises comparing a reading from one of the sensors to a reading from another of the sensors. 17. A method of converting sheet material into packaging templates for assembly into boxes or other packaging, the method comprising: detecting with a plurality of offset sensors the presence and location of a fanfold crease in the sheet material; predicting the location of a subsequent fanfold crease in the sheet material; determining that the subsequent fanfold crease would be within a predetermined distance of a trailing edge of a packaging template formed from the sheet material; cutting off a predetermined length from a leading end of the sheet material to move the subsequent fanfold crease further from the trailing edge than the predetermined distance; and performing one or more conversion functions on remaining sheet material to form the packaging template. 18. The method of claim 17 , wherein the predetermined distance comprises 25 mm, 50 mm, 75 mm, 100 mm, or 150 mm. 19. The method of claim 17 , wherein the predetermined length comprises 25 mm, 50 mm, 75 mm, 100 mm, or 150 mm. 20. The method of claim 17 , wherein detecting with a plurality of offset sensors the presence and location of a fanfold crease in the sheet material comprises comparing a reading from one of the sensors to a reading from another of the sensors. 21. A converting machine used to convert sheet material into packaging templates for assembly into boxes or other packaging, the converting machine comprising: a converting assembly configured to perform one or more transverse conversion functions and one or more longitudinal conversion functions on the sheet material as the sheet material moves through the converting machine in a feed direction, the one or more transverse conversion functions and the one or more longitudinal conversion functions being selected from the group consisting of creasing, bending, folding, perforating, cutt