Down pressure adjustment device and method for use with a disc opener assembly of an agricultural implement

We claim: 1. A method for operating an agricultural implement, the method comprising: controlling an operation of a cylinder to apply a down force on a disc opener unit of the agricultural implement such that a disc of the disc opener unit cuts a trench into the ground at a desired penetration depth; monitoring a load applied through a gauge wheel assembly of the disc opener unit as the disc is being used to cut the trench into the ground, the gauge wheel assembly including a gauge wheel and a depth control arm coupled to the gauge wheel via a crankshaft extending through the disc, the depth control arm including a first end coupled to the crankshaft and a second end opposite the first end, wherein monitoring the load applied through the gauge wheel assembly comprises: monitoring the load applied through the gauge wheel assembly using a load sensor installed on the depth control arm as the depth control arm is engaged with a depth adjustment member of the disc opener unit at a location adjacent to the second end of the depth control arm; and controlling the operation of the cylinder to adjust the down force applied on the disc opener unit when the monitored load increases above or decreases below a given setpoint. 2. The method of claim 1 , wherein monitoring the load applied through the gauge wheel assembly using the load sensor comprises automatically monitoring the load applied through the gauge wheel assembly via a controller coupled to the load sensor, and wherein controlling the operation of the cylinder comprises automatically controlling the operation of the cylinder via the controller, the controller including a processor. 3. The method of claim 1 , wherein monitoring the load applied through the gauge wheel assembly using the load sensor comprises monitoring the load transmitted through the depth control arm of the gauge wheel assembly based on data received from the load sensor, the detected load being indicative of an actual down pressure being applied on the disc opener unit. 4. The method of claim 3 , wherein controlling the operation of the cylinder comprises controlling the operation of the cylinder such that the monitored load is maintained within a given range of load values associated with maintaining the actual down pressure equal or substantially equal to a desired down pressure for the disc opener unit. 5. The method of claim 1 , wherein the crankshaft extends through the disc such that the depth control arm is positioned on a first side of the disc and the gauge wheel is positioned on an opposed second side of the disc, the depth adjustment member being positioned on the first side of the disc, and wherein monitoring the load applied through the gauge wheel assembly using the load sensor comprises monitoring the load applied through the gauge wheel assembly using the load sensor as the depth control arm is engaged with the depth adjustment member along the first side of the disc. 6. The method of claim 5 , wherein the depth adjustment member comprises a plurality depth setting positions, the depth control arm configured to be selectively engaged with the depth adjustment member at one of the plurality of depth setting positions to set a penetration depth of the disc, and wherein monitoring the load applied through the gauge wheel assembly using the load sensor comprises monitoring the load applied through the gauge wheel assembly using the load sensor as the depth control arm is engaged with the depth adjustment member at a first depth setting position of the plurality of depth setting positions to set the penetration depth of the disc. 7. The method of claim 1 , wherein the load sensor is installed on the depth control arm at a location between the first and second ends of the depth control arm, and wherein monitoring the load applied through the gauge wheel assembly using the load sensor comprises monitoring the load applied through the gauge wheel assembly at the location between the first and second ends of the depth control arm. 8. The method of claim 1 , wherein monitoring the load applied through the gauge wheel assembly using the load sensor comprises wherein monitoring the load applied through the gauge wheel assembly using one of a strain gauge or a load cell. 9. A method for operating an agricultural implement, the method comprising: controlling an operation of a cylinder to apply a down force on a disc opener unit of the agricultural implement such that a disc of the disc opener unit cuts a trench into the ground at a desired penetration depth; monitoring a load applied through a gauge wheel assembly of the disc opener unit as the disc is being used to cut the trench into the ground, the gauge wheel assembly including a gauge wheel and a depth control arm coupled to the gauge wheel via a crankshaft extending through the disc such that the depth control arm is positioned on a first side of the disc and the gauge wheel is positioned on an opposed second side of the disc, wherein monitoring the load applied through the gauge wheel assembly comprises: monitoring the load applied through the gauge wheel assembly using a load sensor installed on the depth control arm as the depth control arm is engaged with a depth adjustment member of the disc opener unit along the first side of the disc; and controlling the operation of the cylinder to adjust the down force applied on the disc opener unit when the monitored load increases above or decreases below a given setpoint. 10. The method of claim 9 , wherein monitoring the load applied through the gauge wheel assembly using the load sensor comprises automatically monitoring the load applied through the gauge wheel assembly via a controller coupled to the load sensor, and wherein controlling the operation of the cylinder comprises automatically controlling the operation of the cylinder via the controller, the controller including a processor. 11. The method of claim 9 , wherein monitoring the load applied through the gauge wheel assembly using the load sensor comprises monitoring the load transmitted through the depth control arm of the gauge wheel assembly based on data received from the load sensor, the detected load being indicative of an actual down pressure being applied on the disc opener unit. 12. The method of claim 11 , wherein controlling the operation of the cylinder comprises controlling the operation of the cylinder such that the monitored load is maintained within a given range of load values associated with maintaining the actual down pressure equal or substantially equal to a desired down pressure for the disc opener unit. 13. The method of claim 9 , wherein the depth control arm includes a first end coupled to the crankshaft and a second end opposite the first end, the depth control arm extending between the first and second ends along the first side of the disc, and wherein monitoring the load applied through the gauge wheel assembly using the load sensor comprises monitoring the load applied through the gauge wheel assembly using the load sensor as the depth control arm is engaged with the depth adjustment member at a location adjacent to the second end of the depth control arm. 14. The method of claim 9 , wherein the depth adjustment member comprises a plurality depth setting positions, the depth control arm configured to be selectively engaged with the depth adjustment member at one of the plurality of depth setting positions to set a penetration depth of the disc, and wherein monitoring the load applied through the gauge wheel assembly using the load sensor comprises monitoring the load applied through the gauge wheel assembly using the load s