Belt-type cutting system comprising knives for cutting crops, including means for monitoring the condition of the knives

What is claimed is: 1. A cutting system that is configured to be driven through a field in order to cut plant stalks at a given distance from the ground, the cutting system comprising: a belt-type carrier configured to be guided by a set of pulleys so as to move in a direction transversal to the stalks; a plurality of knives attached to a lateral surface of the carrier; a cutterbar having a plurality of counterknives configured to remain stationary relative to the knives as the knives move past the counterknives to thereby cut the stalks; at least one sensing device mounted at a location along a path of the knives, said location enabling the sensing device to capture a signal or image that is related to one of the knives moving relative to the sensing device; and a processing unit for (i) processing the signal or image, (ii) deriving one or more parameters from the signal or image, and (iii) comparing said one or more parameters to a reference, thereby enabling the cutting system to determine the condition of said one of the knives, wherein the knives each have upper and lower surfaces, wherein the at least one sensing device is configured to detect a presence of said upper or lower surface of the knives, wherein the at least one sensing device comprises a plurality of sensors that are each located at a given distance from the carrier, so that when a knife is not damaged or worn, the respective sensor produces a substantially rectangular signal as a function of time, a length of the rectangular signal being a reference length determined by a speed of the carrier and by a width of the knife at said given distance, so that a comparison of the signals obtained from the knives to said reference during operation of the cutting system enables monitoring of the condition of the knives, wherein the plurality of the sensors are positioned at different distances from the carrier, so that each sensor of said plurality of sensors produces a signal that is to be compared to a different reference length. 2. The cutting system according to claim 1 , wherein the knives have a triangular shape pointing outward from the carrier. 3. The cutting system according to claim 1 , wherein each sensor is selected from the group consisting of an inductive proximity sensor, an optical sensor, a photoelectric sensor and a pneumatic proximity sensor. 4. The cutting system according claim 1 , wherein each sensor is a camera configured to capture an image of at least part of each knife passing before said camera. 5. The cutting system according to claim 1 , wherein the system further comprises a knife position sensing system to relate the parameters derived from the signal or image to a specific knife. 6. The cutting system according to claim 1 , wherein at least one of the sensors is positioned in a vicinity of one of the pulleys that changes a direction of the knives from a first direction to a second direction that is opposite the first direction. 7. An agricultural implement comprising the cutting system according to claim 1 . 8. A combine harvester comprising a header and the cutting system according to claim 1 , with the knives and the cutterbar mounted at a front end of the header. 9. The combine harvester according to claim 8 , further comprising an interface configured to communicate data related to the knife condition to an operator using the cutting system. 10. The combine harvester according to claim 8 , further comprising a communication unit that is configured to communicate data related to the knife condition to an operator that is located outside of a driver's cabin of the combine harvester. 11. The combine harvester according to claim 10 , whereby the data related to the knife condition comprises an average state of wear of the knifes and/or a percentage of damaged knifes. 12. The combine harvester according to claim 8 , further comprising a controller that is configured to either slow or stop the cutting system when said one or more parameters derived from the signal or image captured by the sensing device exceeds a certain threshold for a certain number of knives. 13. A cutting system that is configured to be driven through a field in order to cut plant stalks at a given distance from the ground, the cutting system comprising: a belt-type carrier configured to be guided by a set of pulleys so as to move in a direction transversal to the stalks; a plurality of knives attached to a lateral surface of the carrier; a cutterbar having a plurality of counterknives configured to remain stationary relative to the knives as the knives move past the counterknives to thereby cut the stalks; at least one sensing device mounted at a location along a path of the knives, said location enabling the sensing device to capture a signal or image that is related to one of the knives moving relative to the sensing device; a processing unit for (i) processing the signal or image, (ii) deriving one or more parameters from the signal or image, and (iii) comparing said one or more parameters to a reference, thereby enabling the cutting system to determine the condition of said one of the knives; and a temperature sensor mounted adjacent the sensing device and configured to measure a temperature of one of the knives as said one of the knives passes the sensing device. 14. A combine harvester comprising: (a) a header; (b) a cutting system that is configured to be driven through a field in order to cut plant stalks at a given distance from the ground, the cutting system comprising: (i) a belt-type carrier configured to be guided by a set of pulleys so as to move in a direction transversal to the stalks, (ii) a plurality of knives attached to a lateral surface of the carrier, (iii) a cutterbar having a plurality of counterknives configured to remain stationary relative to the knives as the knives move past the counterknives to thereby cut the stalks, wherein the plurality of knives and the cutterbar are mounted at a front end of the header, (iv) at least one sensing device mounted at a location along a path of the knives, said location enabling the sensing device to capture a signal or image that is related to one of the knives moving relative to the sensing device, and (v) a processing unit for (i) processing the signal or image, (ii) deriving one or more parameters from the signal or image, and (iii) comparing said one or more parameters to a reference, thereby enabling the cutting system to determine the condition of said one of the knives; and (c) an interface configured to communicate data related to the knife condition to an operator using the cutting system, whereby the data related to the knife condition comprises an average state of wear of the knifes and/or a percentage of damaged knifes.