Flow control assembly for an agricultural metering system

The invention claimed is: 1. A flow control assembly for an agricultural metering system comprising: a locking assembly comprising: a first plate configured to couple to a first gate control rod, wherein the first gate control rod is configured to couple to a first gate of a seed meter and to move the first gate between a closed position and an open position via translation of the first gate control rod between a first position that corresponds to the closed position of the first gate and a second position that corresponds to the open position of the first gate; a first cam configured to couple to a second gate control rod, wherein the second gate control rod is configured to couple to a second gate of the seed meter and to move the second gate between a closed position and an open position via translation of the second gate control rod between a first position that corresponds to the closed position of the second gate and a second position that corresponds to the open position of the second gate; a first shaft having a first end configured to engage the first cam; a second cam configured to couple to a third gate control rod, wherein the third gate control rod is configured to couple to a third gate of the seed meter and to move the third gate between a closed position and an open position via translation of the third gate control rod between a first position that corresponds to the closed position of the third gate and a second position that corresponds to the open position of the third gate; and a second shaft having a first end configured to engage the second cam; wherein the first plate is configured to contact a second end of the first shaft and a second end of the second shaft at least while the first gate control rod is in the second position to block translation of the second gate control rod from the first position via contact between the first cam and the first end of the first shaft and to block translation of the third gate control rod from the first position via contact between the second cam and the first end of the second shaft. 2. The flow control assembly of claim 1 , wherein the first plate comprises a first opening configured to substantially align with the second end of the first shaft while the first gate control rod is in the first position to facilitate movement of the first shaft through the first plate as the second gate control rod translates from the first position toward the second position. 3. The flow control assembly of claim 2 , wherein the first plate is configured to contact the first shaft while the first shaft extends at least partially through the first opening to block translation of the first gate control rod from the first position. 4. The flow control assembly of claim 1 , wherein the first plate comprises a second opening configured to substantially align with the second end of the second shaft while the first gate control rod is in the first position to facilitate movement of the second shaft through the first plate as the third gate control rod translates from the first position toward the second position. 5. The flow control assembly of claim 4 , wherein the first plate is configured to contact the second shaft while the second shaft extends at least partially through the second opening to block translation of the first gate control rod from the first position. 6. The flow control assembly of claim 1 , wherein the locking assembly comprises a first biasing member coupled to the first shaft, and the first biasing member is configured to urge the first end of the first shaft into contact with the first cam. 7. The flow control assembly of claim 1 , wherein the locking assembly comprises a second biasing member coupled to the second shaft, and the second biasing member is configured to urge the first end of the second shaft into contact with the second cam. 8. The flow control assembly of claim 1 , comprising a second plate configured to selectively engage the first plate to block translation of the first gate control rod from the first position. 9. A flow control assembly for an agricultural metering system comprising: a first gate control rod configured to couple to a first gate of a seed meter, wherein the first gate control rod is configured to move the first gate between a closed position and an open position via translation of the first gate control rod between a first position that corresponds to the closed position of the first gate and a second position that corresponds to the open position of the first gate; a second gate control rod configured to couple to a second gate of the seed meter, wherein the second gate control rod is configured to move the second gate between a closed position and an open position via translation of the second gate control rod between a first position that corresponds to the closed position of the second gate and a second position that corresponds to the open position of the second gate; a third gate control rod configured to couple to a third gate of the seed meter, wherein the third gate control rod is configured to move the third gate between a closed position and an open position via translation of the third gate control rod between a first position that corresponds to the closed position of the third gate and a second position that corresponds to the open position of the third gate; and a locking assembly comprising: a first plate coupled to the first gate control rod; a first cam coupled to the second gate control rod; a first shaft having a first end configured to engage the first cam; a second cam coupled to the third gate control rod; and a second shaft having a first end configured to engage the second cam; wherein the first plate is configured to contact a second end of the first shaft and a second end of the second shaft at least while the first gate control rod is in the second position to block translation of the second gate control rod from the first position via contact between the first cam and the first end of the first shaft and to block translation of the third gate control rod from the first position via contact between the second cam and the first end of the second shaft. 10. The flow control assembly of claim 9 , comprising a first handle coupled to the first gate control rod to facilitate translation of the first gate control rod, a second handle coupled to the second gate control rod to facilitate translation of the second gate control rod, and a third handle coupled to the third gate control rod to facilitate translation of the third gate control rod. 11. The flow control assembly of claim 9 , comprising a support configured to couple the first shaft and the second shaft to a frame of the agricultural metering system, wherein the support is configured to facilitate movement of the first shaft in response to translation of the second gate control rod and to facilitate movement of the second shaft in response to translation of the third gate control rod. 12. The flow control assembly of claim 9 , wherein the first plate comprises a first opening configured to substantially align with the second end of the first shaft while the first gate control rod is in the first position to facilitate movement of the first shaft through the first plate as the second gate control rod translates from the first position toward the second position, and the first plate comprises a second opening configured to substantially align with the second end of the second shaft while the first gate control rod is in the first position to facilitate movement of the second shaft through the first plate as the third gate control rod translates from the first position toward the second position.