Load sensor for an agricultural baler

The invention claimed is: 1. An agricultural baler system, comprising: a bale chamber configured to receive crop materials from a gathering device, a compressing device coupled to said bale chamber, said compressing device periodically compressing the crop material in said bale chamber; said bale chamber comprising at least one structural member having a longitudinal direction arranged in a direction of movement of a bale forming in the chamber, said structural member coupled to a first support member and a second support member; and at least one sensor coupled to said at least one structural member between said first support member and said second support member of the bale chamber, said at least one sensor connected to a controller, said at least one sensor configured to detect and transmit information representative of a force on the at least one structural member, wherein the controller is configured to determine therefrom information representative of at least one of a load on said compressing device and a density of the forming bale wherein said at least one structural member has an end that is pivotally coupled to said first support member, said at least one sensor located in a central portion of the structural member between said first support member and said second support member. 2. The agricultural baler system of claim 1 , wherein said bale chamber includes a floor, a ceiling, a first side wall, and a second side wall, said at least one sensor being attached to the at least one structural member which forms at least a portion of at least one of said floor, said ceiling, said first wall and said second wall. 3. The agricultural baler system of claim 1 , wherein said at least one sensor detects at least one of a strain and a deflection in a portion of at least one of said at least one structural member. 4. The agricultural baler system of claim 3 , wherein said at least one sensor is a plurality of sensors including a first sensor and a second sensor, said first sensor being coupled to at least one structural members of one of said floor, said ceiling, said first wall and said second wall said second sensor being coupled to an other of said floor said ceiling, said first wall and said second wall. 5. The agricultural baler system of claim 4 , wherein the crop material is formed into a bale having a general direction of travel, said first sensor and said second sensor being positioned at a substantially similar distance in said direction of travel. 6. The agricultural baler system of claim 3 , wherein said at least one sensor is a plurality of sensors arranged in a plane. 7. The agricultural baler system of claim 6 , wherein said plane is substantially normal to a direction of travel of the forming bale in the bale chamber. 8. The agricultural baler system of claim 1 , further comprising a density ring actuator coupled to said bale chamber, said density ring actuator being controlled by said controller. 9. The agricultural baler system of claim 8 , wherein said detected information is used by said controller to control at least one of said load on said compressing device and said density of the forming bale by changing an attribute of said density ring actuator. 10. The agricultural baler system of claim 9 , wherein said at least one sensor is located upstream from said density ring actuator relative to movement of the forming bale in said bale chamber. 11. The agricultural baler system of claim 1 , wherein said at least one sensor is one of a displacement sensor, a deflection sensor and a strain sensor. 12. A method of monitoring an agricultural baler having a bale chamber, the bale chamber comprising at least one structural member having a longitudinal direction arranged in a direction of movement of a bale forming in the chamber, said structural member coupled to a first support member and a second support member; the method comprising the steps of: gathering crop material into said bale chamber; periodically compressing the crop material with a compressing device operating within said bale chamber; and detecting with a sensor coupled to the at least one structural member and transmitting to a controller information representative of force on the at least one structural member; determining with said controller at least one of a load on said compressing device and a density of the forming bale, wherein the at least one sensor is coupled to said at least one structural member between said first support member and said second support member of the bale chamber and said at least one structural member has an end that is pivotally coupled to said first support member, said at least one sensor located in a central portion of the structural member between said first support member and said second support member. 13. The method of claim 12 , further comprising the step of controlling with the controller at least one of said load on said compressing device and said density of the forming bale by controlling a density ring actuator, said density ring actuator associated with said bale chamber. 14. The method of claim 13 , wherein said at least one sensor is located upstream from said density ring actuator relative to movement of the forming bale in said bale chamber. 15. The method of claim 12 , wherein said at least one sensor is one of a displacement sensor, a deflection sensor and a strain sensor.