Locking assembly for agricultural combine harvesting head

The invention claimed is: 1. A harvesting head for an agricultural combine, the agricultural combine supported on a surface, the harvesting head comprising: a frame configured to move between a raised position in which the frame is spaced from the surface and a lowered position in which the frame engages the surface; a support arm coupled to the frame, the support arm configured to move between an unlocked state in which the support arm is pivotable relative to the frame and a locked state in which the support arm is fixed relative to the frame; cutting teeth supported by the support arm relative to the frame, the cutting teeth configured to move relative to the support arm in a reciprocating motion along a longitudinal axis of the frame; a gauge member coupled to the frame, the gauge member configured to engage the surface and position a height of the frame relative to the surface; and a control assembly configured to move the gauge member relative to the frame, the control assembly also configured to move the support arm into the locked state based on a position of the gauge member relative to the frame, wherein the control assembly includes a first hydraulic actuator coupled to the gauge member and the frame and configured to move the gauge member relative to the frame, wherein the control assembly also includes a second hydraulic actuator coupled to the support arm and the frame and configured to move the support arm into the locked state, and wherein the second hydraulic actuator is configured to be actuated by the first hydraulic actuator to move the support arm relative to the frame. 2. The harvesting head of claim 1 , wherein the support arm is a first support arm of a plurality of support arms, wherein a third hydraulic actuator is coupled to a second support arm of the plurality of support arms, wherein the third hydraulic actuator is in communication with the second hydraulic actuator of the first support arm, and wherein the third hydraulic actuator is configured to be actuated by the second hydraulic actuator to inhibit movement of the second support arm of the plurality of support arms relative to the frame. 3. The harvesting head of claim 1 , wherein the support arm is pivotably coupled to the frame about a pivot axis, and wherein the second hydraulic actuator is engageable with the support arm at a position between the pivot axis and the cutting teeth in a direction transverse to the longitudinal axis of the frame. 4. The harvesting head of claim 3 , wherein the second hydraulic actuator is operable to move the support arm into engagement with a stop of the frame when in the locked state, and wherein the pivot axis is positioned between the stop and the second hydraulic actuator in the direction transverse to the longitudinal axis of the frame. 5. A harvesting head for an agricultural combine, the agricultural combine supported on a surface, the harvesting head comprising: a frame; a support arm pivotably coupled to the frame about a pivot axis, the support arm configured to move between an unlocked state in which the support arm is moveable relative to the frame and a locked state in which the support arm is fixed relative to the frame; cutting teeth supported by the support arm relative to the frame, the cutting teeth configured to move relative to the support arm in a reciprocating motion along a longitudinal axis of the frame; a gauge member coupled to the frame, the gauge member configured to position a height of the frame relative to the surface; and a control assembly including a portion engageable with the support arm at a position between the pivot axis and the cutting teeth in a direction transverse to the longitudinal axis of the frame, the portion of the control assembly configured to move the support arm into the locked state based on the height of the frame relative to the surface. 6. The harvesting head of claim 5 , wherein the control assembly includes a first hydraulic actuator coupled to the gauge member and the frame, and wherein the first hydraulic actuator is configured to move the gauge member relative to the frame. 7. The harvesting head of claim 6 , wherein the portion of the control assembly includes a second hydraulic actuator coupled to the support arm and the frame, and wherein the second hydraulic actuator is configured to be actuated by the first hydraulic actuator. 8. The harvesting head of claim 7 , wherein the support arm is a first support arm of a plurality of support arms, wherein a second support arm of the plurality of support arms includes a third hydraulic actuator in communication with the second hydraulic actuator of the first support arm, and wherein the third hydraulic actuator is configured to be actuated by the second hydraulic actuator. 9. The harvesting head of claim 6 , wherein the portion of the control assembly includes a first linkage coupled between the support arm and the gauge member, and wherein the first linkage is configured to move the support arm into the locked state based on actuation of the first hydraulic actuator. 10. The harvesting head of claim 9 , wherein the support arm is a first support arm of a plurality of support arms, wherein the control assembly includes a second linkage coupled between the first support arm and a second support arm of the plurality of support arms, wherein the second linkage is configured to move the second support arm into a locked state in which the second support arm is fixed relative to the frame based on the first linkage moving the first support arm into the locked state. 11. The harvesting head of claim 5 , wherein the gauge member includes a gauge wheel pivotably coupled relative to the frame. 12. The harvesting head of claim 5 , wherein the portion of the control assembly is operable to move the support arm into engagement with a stop of the frame when in the locked state, and wherein the pivot axis is positioned between the stop and the portion of the control assembly in the direction transverse to the longitudinal axis of the frame. 13. The harvesting head of claim 12 , wherein the control assembly includes a first hydraulic actuator coupled to the gauge member and the frame, and wherein the first hydraulic actuator is configured to move the gauge member relative to the frame. 14. The harvesting head of claim 13 , wherein the portion of the control assembly includes a second hydraulic actuator coupled to the support arm and the frame, and wherein the second hydraulic actuator is configured to be actuated by the first hydraulic actuator. 15. The harvesting head of claim 13 , wherein the portion of the control assembly includes a first linkage coupled between the support arm and the gauge member, and wherein the first linkage is configured to move the support arm into the locked state based on actuation of the first hydraulic actuator. 16. The harvesting head of claim 13 , wherein the portion of the control assembly is a first portion and the support arm is a first support arm of a plurality of support arms, wherein a second support arm of the plurality of support arms includes a second portion of the control assembly in communication with the first portion of the control assembly, and wherein the second portion of the control assembly is configured to be actuated by the first portion of the control assembly. 17. A harvesting head for an agricultural combine, the agricultural combine supported on a surface, the harvesting head comprising: a frame; a support arm coupled to the frame, the support arm configured to move between an unlocked state in which the support