Agricultural implement with pivoting tool frame

The invention claimed is: 1. An agricultural implement comprising: a main frame configured to be coupled to a tow vehicle; a tool frame pivotally coupled to the main frame, wherein the tool frame comprises a forward toolbar and a rearward toolbar rigidly coupled to one another; a linkage member separate from the main frame, wherein the linkage member extends between the forward toolbar and the rearward toolbar and comprises a first connection point directly connected to the forward toolbar and a second connection point directly connected to the rearward toolbar to rigidly couple the forward toolbar and the rearward toolbar to one another; a forward row of ground engaging tools having a first plurality of ground engaging tools coupled to the forward toolbar; a rearward row of ground engaging tools having a second plurality of ground engaging tools coupled to the rearward toolbar; a forward linkage assembly extending between the main frame and the tool frame and comprising a forward rockshaft; a forward actuator configured to drive rotation of the forward rockshaft relative to the main frame, wherein the forward rockshaft is configured to drive the forward row of ground engaging tools upwardly and downwardly relative to the rearward row of ground engaging tools in response to rotation of the forward rockshaft; a rearward linkage assembly extending between the main frame and the tool frame and comprising a rearward rockshaft; and a rearward actuator configured to drive rotation of the rearward rockshaft relative to the main frame, wherein the rearward actuator is configured to drive rotation of the rearward rockshaft independently of the forward rockshaft, and the rearward rockshaft is configured to drive a central portion of the tool frame upwardly and downwardly relative to the main frame in response to rotation of the rearward rockshaft, wherein the central portion of the tool frame is positioned between the forward toolbar and the rearward toolbar. 2. The agricultural implement of claim 1 , comprising a spring assembly coupled to the main frame and configured to bias the tool frame downwardly. 3. The agricultural implement of claim 2 , wherein the spring assembly is rotatably coupled to the rearward actuator. 4. The agricultural implement of claim 1 , wherein the forward actuator comprises a hydraulic cylinder. 5. The agricultural implement of claim 1 , wherein the forward linkage assembly comprises a plurality of pivot joints. 6. The agricultural implement of claim 1 , wherein the rearward linkage assembly comprises a plurality of pivot joints. 7. The agricultural implement of claim 1 , wherein the forward linkage assembly comprises a plurality of members pivotally coupled to one another between the tool frame and the forward rockshaft. 8. The agricultural implement of claim 1 , wherein the rearward linkage assembly comprises a plurality of members pivotally coupled to one another between the tool frame and the rearward rockshaft, and the rearward linkage assembly is coupled to the tool frame between the forward toolbar and the rearward toolbar. 9. An agricultural implement comprising: a frame assembly comprising a main frame and a tool frame pivotally coupled to the main frame, wherein the tool frame comprises a forward toolbar and a rearward toolbar rigidly coupled to one another; a linkage member separate from the main frame, wherein the linkage member extends between the forward toolbar and the rearward toolbar and comprises a first connection point directly connected to the forward toolbar and a second connection point directly connected to the rearward toolbar to rigidly couple the forward toolbar and the rearward toolbar to one another; a forward row of ground engaging tools having a first plurality of ground engaging tools coupled to the forward toolbar; a rearward row of ground engaging tools having a second plurality of ground engaging tools coupled to the rearward toolbar; a forward linkage extending from the main frame to a forward portion of the tool frame, wherein the forward linkage comprises: a first member configured to be nonrotatably coupled to a forward rockshaft; a second member rotatably coupled to the first member; a third member rotatably coupled to the second member and nonrotatably coupled to the frame assembly; a rearward linkage extending from the main frame to a rearward portion of the tool frame, wherein the rearward portion of the tool frame is positioned between the forward toolbar and the rearward toolbar; and a forward actuator configured to drive rotation of the forward rockshaft relative to the main frame, wherein the forward rockshaft is rotatably coupled to the main frame, and the forward rockshaft is configured to drive the forward row of ground engaging tools upwardly and downwardly relative to the rearward row of ground engaging tools in response to rotation of the forward rockshaft; wherein the forward linkage and the rearward linkage enable the tool frame to pivot relative to the main frame during operation of the agricultural implement to facilitate contact between the rearward row of ground engaging tools and a soil surface while the forward row of ground engaging tools is raised above the soil surface via contact with an obstruction, and to facilitate contact between the forward row of ground engaging tools and the soil surface while the rearward row of ground engaging tools is raised above the soil surface via contact with an obstruction. 10. The agricultural implement of claim 9 , wherein the rearward linkage comprises: a first rearward member nonrotatably coupled to a rearward rockshaft; a second rearward member rotatably coupled to the first rearward member; and a third rearward member rotatably coupled to the second rearward member and nonrotatably coupled to the tool frame. 11. The agricultural implement of claim 10 , wherein the third rearward member extends between the forward toolbar and the rearward toolbar. 12. The agricultural implement of claim 9 , comprising a rearward rockshaft configured to rotate to adjust the forward row of ground engaging tools and the rearward row of ground engaging tools upwardly and downwardly upon application of force to the rearward rockshaft by the forward row of ground engaging tools, the rearward row of ground engaging tools, or some combination thereof. 13. The agricultural implement of claim 12 , comprising a rearward actuator configured to drive the rearward rockshaft to rotate, wherein a spring assembly is rotatably coupled to the rearward actuator, and the spring assembly is configured to bias the rearward row of ground engaging tools downwardly relative to the forward row of ground engaging tools. 14. An agricultural implement comprising: a main frame configured to be coupled to a tow vehicle; a tool frame pivotally coupled to the main frame, wherein the tool frame comprises a forward toolbar and a rearward toolbar rigidly coupled to one another; a linkage member separate from the main frame, wherein the linkage member extends between the forward toolbar and the rearward toolbar and comprises a first connection point directly connected to the forward toolbar and a second connection point directly connected to the rearward toolbar to rigidly couple the forward toolbar and the rearward toolbar to one another; a forward row of ground engaging tools having a first plurality of ground engaging tools coupled to the forward toolbar; a rearward row of ground engaging tools having a second plurality of ground engaging tools coupled to the rearward toolbar; a forward linkage assembly extending between the main frame and th