Load sensor bracket

The invention claimed is: 1. A load sensing bracket for a disk opener assembly of an agricultural implement, the disk opener assembly comprising a disk, a gauge wheel, a fan shaped member having a plurality of notches, and a depth setting arm coupled to the gauge wheel, the load sensing bracket comprising: a body having a cantilevered arm, the body configured to engage with and secure to a portion of the depth setting arm, the cantilevered arm having an upper end with an extending projection, the extending projection received in any one of the plurality of notches of the fan shaped member thereby setting a position of the depth setting arm relative to the fan shaped member which sets a position of the gauge wheel relative to the disk, wherein raising of the gauge wheel relative to the disk increases a cutting depth of the disk into a soil surface and wherein lowering the gauge wheel relative to the disk reduces the cutting depth of the disk into the soil surface; a sensor disposed on the cantilevered arm generating a signal relating to strain in the cantilevered arm which corresponds to a down pressure on the gauge wheel. 2. The load sensing bracket of claim 1 , wherein the cantilevered arm is disposed to one side of a vertical axis of the body. 3. The load sensing bracket of claim 2 , wherein the body includes laterally spaced side plates configured to receive and engage with opposing fore and aft sides of the depth setting arm. 4. The load sensing bracket of claim 3 , wherein a lower end of each of the laterally spaced side plates includes a foot configured to engage with an inward face of the depth setting arm. 5. The load sensing bracket of claim 4 , wherein an upper end of the body is adapted to be secured by a U-bolt to the depth setting arm, whereby the laterally spaced side plates, each foot and the U-bolt cooperate to rigidly, yet removably secure the body to the depth setting arm. 6. The load sensing bracket of claim 1 , wherein the cantilevered arm is disposed in substantial alignment with a vertical axis of the body. 7. The load sensing bracket of claim 6 , wherein the body includes laterally spaced side plates configured to receive and engage with opposing fore and aft sides of the depth setting arm. 8. The load sensing bracket of claim 7 , wherein a lower end of each of the laterally spaced side plates includes a foot configured to engage with an outward face of the depth setting arm. 9. The load sensing bracket of claim 8 , wherein an upper end of the body is adapted to be secured by a U-bolt to the depth setting arm, whereby the laterally spaced side plates, each foot and the U-bolt cooperate to rigidly, yet removably secure the body to the depth setting arm. 10. A disk opener assembly for an agricultural implement, comprising: a) a disk configured to cut a furrow into a soil surface as the agricultural implement travels in a forward direction of travel; b) a gauge wheel; c) a fan shaped member having a plurality of outwardly facing notches; d) a depth setting arm coupled to the gauge wheel; e) a down pressure control system settable to a desired down pressure on the gauge wheel; f) a load sensing bracket comprising: i) a body having a cantilevered arm, the body configured to engage with and secure to a portion of the depth setting arm, the cantilevered arm having an upper end with an extending projection, the extending projection received in any one of the plurality of notches of the fan shaped member thereby setting a position of the depth setting arm relative to the fan shaped member which sets a position of the gauge wheel relative to the disk, wherein raising of the gauge wheel relative to the disk increases a cutting depth of the disk into a soil surface and wherein lowering the gauge wheel relative to the disk reduces the cutting depth of the disk into the soil surface; ii) a sensor disposed on the cantilevered arm generating a signal relating to strain in the cantilevered arm which corresponds to an applied down pressure on the gauge wheel, the sensor in signal communication with the down pressure control system; whereby the down pressure control system automatically adjusts the applied down pressure on the gauge wheel based on the generated signals so the applied down pressure approaches the desired down pressure, thereby maintaining a relatively constant furrow depth and minimizing excessive down pressure on the gauge wheel. 11. The disk opener assembly of claim 10 , wherein the cantilevered arm is disposed to one side of a vertical axis of the body. 12. The disk opener assembly of claim 11 , wherein the body includes laterally spaced side plates configured to receive and engage with opposing fore and aft sides of the depth setting arm. 13. The disk opener assembly of claim 12 , wherein a lower end of each of the laterally spaced side plates includes a foot configured to engage with an inward face of the depth setting arm. 14. The disk opener assembly of claim 13 , wherein an upper end of the body is adapted to be secured by a U-bolt to the depth setting arm, whereby the laterally spaced side plates, each foot and the U-bolt cooperate to rigidly, yet removably secure the body to the depth setting arm. 15. The disk opener assembly of claim 10 , wherein the cantilevered arm is disposed in substantial alignment with a vertical axis of the body. 16. The disk opener assembly of claim 15 , wherein the body includes laterally spaced side plates configured to receive and engage with opposing fore and aft sides of the depth setting arm. 17. The disk opener assembly of claim 16 , wherein a lower end of each of the laterally spaced side plates includes a foot configured to engage with an outward face of the depth setting arm. 18. The disk opener assembly of claim 17 , wherein an upper end of the body is adapted to be secured by a U-bolt to the depth setting arm, whereby the laterally spaced side plates, each foot and the U-bolt cooperate to rigidly, yet removably secure the body to the depth setting arm.