Planter row unit with load sensing depth stop assembly

What is claimed is: 1. A row unit for a seeding machine operable to plant seeds into soil, the row unit comprising: a frame; a gauge wheel operable to engage the soil and support the frame via a gauge wheel arm connected between the gauge wheel and the frame; a seed dispenser supported by the frame and operable to dispense seeds into the soil; a depth stop assembly including a stop setting an upward travel limit of the gauge wheel with respect to the frame, and a handle that is lockable and releasable to move the stop to select among a plurality of seeding depths; a downforce actuator operable to generate a variable amount of downforce to be applied through the gauge wheel arm and the gauge wheel to the soil; and a downforce sensor incorporated into the depth stop assembly and movable therewith, wherein the depth stop assembly includes a multi-piece body having a first piece receiving the handle, and a second piece defining a pivot joining the depth stop assembly to the frame, and wherein the first piece of the multi-piece body includes a handle-receiving receptacle portion, a fastening portion for fastening to the second piece of the multi-piece body adjacent the pivot, and a portion between the handle-receiving receptacle portion and the fastening portion forming a housing of the downforce sensor. 2. The row unit of claim 1 , further comprising a controller programmed to output a control signal to the downforce actuator to adjust the downforce based at least partially on an output from the downforce sensor. 3. The row unit of claim 2 , wherein the controller is programmed to control the downforce adjustment mechanism to adjust a downforce on the frame by comparing a stored downforce target value to the output from the downforce sensor. 4. The row unit of claim 2 , further comprising an electrical connector for establishing communication between the downforce sensor and the controller, wherein the electrical connector is supported by the second piece of the multi-piece body. 5. The row unit of claim 1 , wherein the downforce sensor is a load cell including at least one strain gauge positioned in a receptacle of the downforce sensor housing. 6. The row unit of claim 1 , wherein the stop is a rocker pivotably supported on the depth stop assembly and presenting two discrete stop surfaces, one of which is positioned to contact the gauge wheel arm supporting the gauge wheel and the other of which is positioned to contact a second gauge wheel arm supporting a second gauge wheel. 7. The row unit of claim 1 , wherein the downforce sensor is offset from the stop and positioned on an opposite side of the pivot from the stop. 8. The row unit of claim 1 , wherein the handle is slidably received by the first piece of the multi-piece body to define a handle axis, and wherein the downforce sensor extends parallel to the handle axis at a position alongside the handle. 9. The row unit of claim 8 , wherein the downforce sensor is a load cell including at least one strain gauge oriented to measure perpendicular to the handle axis. 10. A row unit for a seeding machine operable to plant seeds into soil, the row unit comprising: a depth stop assembly including a stop setting an upward travel limit of a gauge wheel of the row unit, and a handle that is lockable and releasable to move the stop to select among a plurality of seeding depths; a downforce actuator operable to generate a variable amount of downforce to be applied to the soil; and a downforce sensor incorporated into the depth stop assembly and movable therewith, wherein the depth stop assembly includes a multi-piece body having a first piece receiving the handle, and a second piece defining a pivot joining the depth stop assembly to a frame, and wherein the first piece of the multi-piece body includes a handle-receiving receptacle portion, a fastening portion for fastening to the second piece of the multi-piece body adjacent the pivot, and a portion between the handle-receiving receptacle portion and the fastening portion forming a housing of the downforce sensor. 11. The row unit of claim 10 , further comprising a controller programmed to output a control signal to the downforce actuator to adjust the downforce based at least partially on an output from the downforce sensor. 12. The row unit of claim 11 , wherein the controller is programmed to control the downforce adjustment mechanism to adjust a downforce by comparing a stored downforce target value to the output from the downforce sensor. 13. The row unit of claim 11 , further comprising an electrical connector for establishing communication between the downforce sensor and the controller, wherein the electrical connector is supported by the second piece of the multi-piece body. 14. The row unit of claim 10 , wherein the downforce sensor is a load cell including at least one strain gauge positioned in a receptacle of the downforce sensor housing. 15. The row unit of claim 10 , wherein the stop is a rocker pivotably supported on the depth stop assembly and presenting two discrete stop surfaces, one of which is positioned to contact a first gauge wheel arm and the other of which is positioned to contact a second gauge wheel arm. 16. The row unit of claim 10 , wherein the downforce sensor is offset from the stop and positioned on an opposite side of the pivot from the stop. 17. The row unit of claim 10 , wherein the handle is slidably received by the first piece of the multi-piece body to define a handle axis, and wherein the downforce sensor extends parallel to the handle axis at a position alongside the handle. 18. The row unit of claim 17 , wherein the downforce sensor is a load cell including at least one strain gauge oriented to measure perpendicular to the handle axis.