Crop machine with an electronically controlled hydraulic cylinder flotation system

The invention claimed is: 1. A crop machine comprising: a support vehicle for running over ground; a header including at least one ground engaging component for providing a supporting force from the ground as the vehicle runs over the ground so as to cause ground contact; a support apparatus for supporting the header from the vehicle for upward and downward floating movement of the header relative to an intermediate float position of the header so that a proportion of a supporting force to counterbalance a weight of the header is supplied by a lifting force from the support apparatus and a remaining portion is supplied by said at least one ground engaging component; the support apparatus including at least one hydraulic float cylinder having a piston movable in the cylinder defining a control chamber within said at least one hydraulic float cylinder on one side of the piston into which hydraulic fluid under pressure is applied; said control chamber being arranged such that changes in pressure in said hydraulic fluid applied to said control chamber acts to change said lifting force to be applied to the header; a source of hydraulic fluid for supply of the hydraulic fluid to said at least one hydraulic float cylinder at a pressure greater than said hydraulic pressure; a valve arrangement for controlling a pressure of said hydraulic fluid from said source to said at least one hydraulic float cylinder; an electronic control system for supplying a control signal to the valve arrangement to change said pressure in said control chamber in dependence on a value of the signal; said valve arrangement being operable to maintain the pressure of the hydraulic fluid in the control chamber at a value directly dependent on the control signal applied to the valve; a sensor arranged to provide a sensor signal related to at least one of movement, velocity and acceleration of the header to said electronic control system and to cause a change in the sensor signal in response to said upward and downward floating movement of the header caused by a change in said ground contact as the vehicle runs over the ground; said electronic control system being arranged, in response to said change in said sensor signal, to cause a temporary change in the control signal responsive to said change in said ground contact as the vehicle runs over the ground; wherein said electronic control system is arranged to vary the pressure of the hydraulic fluid in the control chamber such that the lifting force from the support apparatus is reduced when the crop header floats upwardly from said intermediate float position. 2. The crop machine according to claim 1 wherein said electronic control system is arranged to provide a set value of said control signal to provide said lifting force at a set value to maintain said proportion of said supporting force and, subsequent to said temporary change in the control signal, in response to further changes in said sensor signal, to revert to the set value of the control signal. 3. The crop machine according to claim 1 wherein said electronic control system and said sensor are arranged in response to said sensor signal to generate a value indicative of velocity and/or acceleration of the header in said upward and downward floating movement of the header. 4. The crop machine according to claim 1 wherein said electronic control system is arranged to vary the pressure such that the lifting force generated by the support apparatus is reduced both when the crop header floats upwardly from said intermediate float position and when the crop header floats downwardly from said intermediate float position. 5. The crop machine according to claim 1 wherein said electronic control system and said sensor are arranged upon detection of acceleration or movement in said downward floating movement to change the control signal to decrease the lifting force to assist the acceleration in said downward floating movement. 6. The crop machine according to claim 5 wherein said electronic control system is arranged upon detection of an end of said acceleration in said downward floating movement to change the control signal to increase the lifting force to dampen said downward movement. 7. The crop machine according to claim 1 wherein said sensor comprises a position sensor for generating as said sensor signal a position signal indicative of a position of the cylinder in said upward and downward floating movement of the header and wherein the electronic control system is arranged to calculate from the position signal a velocity and/or acceleration of the header. 8. The crop machine according to claim 1 wherein said at least one hydraulic float cylinder comprises a lift chamber on a side of the piston opposite to said control chamber where hydraulic fluid under pressure is applied to the lift chamber, and the control chamber is arranged so that said pressure in the control chamber acts to apply a down pressure to the header in said downward floating movement, wherein the pressure in the lift chamber is pre-set and not controlled in response to changes in said sensor signal caused by said changes in said ground contact. 9. The crop machine according to claim 8 wherein said at least one hydraulic float cylinder comprises first and second separate hydraulic float cylinders each on a respective side of a centerline of the header; each of said first and second hydraulic float cylinders having a respective piston, a respective control chamber and a respective lift chamber. 10. A crop machine comprising: a support vehicle for running over ground; a header including at least one ground engaging component for providing a supporting force from the ground as the vehicle runs over the ground so as to cause ground contact; a support apparatus for supporting the header from the vehicle for upward and downward floating movement of the header so that a proportion of a supporting force to counterbalance a weight of the crop header is supplied by a lifting force from the support apparatus and a remaining portion is supplied by said at least one ground engaging component; the support apparatus including at least one hydraulic float cylinder having a piston movable in the cylinder defining a control chamber within said least one hydraulic float cylinder on one side of the piston into which hydraulic fluid under pressure is applied; said control chamber being arranged such that changes in pressure in said hydraulic fluid applied to said control chamber act to change said lifting force to be applied to the header; a source of hydraulic fluid for supply of the hydraulic fluid to said at least one float cylinder at a pressure greater than said hydraulic pressure; a valve arrangement for controlling a pressure of said hydraulic fluid from said source to said at least one hydraulic float cylinder; an electronic control system for supplying a control signal to the valve arrangement to change said pressures in the control chamber in dependence on a value of the control signal; said valve arrangement being operable to maintain the pressure of the hydraulic fluid in the control chamber at a value directly dependent on the control signal applied to the valve; a sensor arranged to provide a sensor signal related to at least one of movement, velocity and acceleration of the header, where a change in the sensor signal is generated in response to said upward and downward floating movement of the header caused by a change in said ground contact as the vehicle runs over the ground; wherein said electronic control system is arranged to provide a set value of said control signal to provide said lifting force at a set value; wherein said electronic control system is arra