Controlled air pulse metering apparatus for an agricultural planter and related systems and methods

What is claimed is: 1. An apparatus for metering seed on an agricultural planter comprising: (a) a housing; (b) a seed chamber defined within the housing, the seed chamber comprising: (i) a seed launching position configured to sequentially receive seeds; and (ii) a seed ejection lumen in fluidic communication with the seed launching position; (c) a seed receiving lumen defined within the housing in fluidic communication with the seed chamber, wherein the seed receiving lumen is disposed adjacent to the seed launching position; (d) a first air source in fluidic communication with the seed chamber, wherein the first air source is constructed and arranged to provide a continuous stream of air; and (e) an air pulse source associated with the housing, the air pulse source comprising: (i) a second air source; and (ii) a repeating air pulse generator operably coupled to the second air source, wherein the air pulse generator is in fluidic communication with the seed chamber, wherein the repeating air pulse generator is constructed and arranged to generate repeating air pulses from the second air source, wherein: (i) the first air source is in fluidic communication with the seed chamber via a first air intake lumen, and wherein the repeating air pulse generator is in fluidic communication with the seed chamber via a second air intake lumen disposed adjacent to the seed receiving lumen such that each of the repeating air pulses is configured to urge a seed from the seed receiving lumen toward the seed launching position, and (ii) seeds sequentially disposed on the seed launching position are ejected via the ejection lumen in a serial fashion. 2. The apparatus of claim 1 , wherein the seed receiving lumen is coupleable with a bulk seed container. 3. The apparatus of claim 1 , wherein the seed ejection lumen is coupleable with a seed delivery apparatus. 4. The apparatus of claim 1 , wherein the second air intake lumen and the seed chamber form a main air path such that repeating air pulses from the air pulse generator pass through the second air intake lumen, the seed launching position, and the seed ejection lumen. 5. The apparatus of claim 4 , wherein the main air path is disposed substantially horizontally. 6. The apparatus of claim 1 , wherein the second air source is configured to provide pressurized air ranging from about 20 to about 60 psi. 7. The apparatus of claim 1 , wherein the repeating air pulse generator is a valve. 8. The apparatus of claim 1 , wherein the seed receiving lumen is disposed at an angle in relation to a horizontal reference point with respect to the housing. 9. An apparatus for metering seed on an agricultural planter comprising: (a) a housing; (b) a seed chamber defined within the housing, the seed chamber comprising: (i) a seed launching position configured to sequentially receive seeds; and (ii) a seed ejection lumen in fluidic communication with the seed launching position; (c) a seed receiving lumen defined within the housing in fluidic communication with the seed chamber, wherein the seed receiving lumen is disposed adjacent to the seed launching position; (d) a first air source in fluidic communication with the seed chamber, wherein the first air source is constructed and arranged to provide a continuous stream of air; (e) an air pulse source associated with the housing, the air pulse source comprising: (i) a second air source; and (ii) a repeating air pulse generator operably coupled to the second air source, wherein the air pulse generator is in fluidic communication with the seed chamber, wherein the repeating air pulse generator is constructed and arranged to generate repeating air pulses from the second air source; and (f) a seed retention structure disposed across at least a portion of a width of the seed chamber, wherein: (i) the first air source is in fluidic communication with the seed chamber via a first air intake lumen, and wherein the repeating air pulse generator is in fluidic communication with the seed chamber via a second air intake lumen disposed adjacent to the seed receiving lumen such that each of the repeating air pulses is configured to urge a seed from the seed receiving lumen toward the seed launching position, and (ii) the seed retention structure is positioned adjacent to the seed launching position. 10. A system for planting seed comprising: (a) a planter having a plurality of row units, each row unit comprising a furrow opening mechanism, wherein each row unit is operably coupled to a bulk seed supply; and (b) a plurality of seed meters comprising: (i) a housing; (ii) a seed chamber defined within the housing, the seed chamber comprising: (A) a seed launching position configured to sequentially receive seeds; and (B) a seed ejection lumen in fluidic communication with the seed launching position; (iii) a seed receiving lumen defined within the housing in fluidic communication with the seed chamber, wherein the seed receiving lumen is disposed adjacent to the seed launching position; (iv) a first air source in fluidic communication with the seed chamber, wherein the first air source is constructed and arranged to provide a continuous stream of air; and (v) an air pulse source associated with the housing, the air pulse source comprising: (A) a second air source; and (B) a repeating air pulse generator operably coupled to the second air source, wherein the air pulse generator is in fluidic communication with the seed chamber, wherein the repeating air pulse generator is constructed and arranged to generate repeating air pulses from the second air source, (c) a programmable controller operably coupled to the repeating air pulse generator of each of the plurality of seed meters, wherein: (i) the first air source is in fluidic communication with the seed chamber via a first air intake lumen, and wherein the repeating air pulse generator is in fluidic communication with the seed chamber via a second air intake lumen disposed adjacent to the seed receiving lumen such that each of the repeating air pulses is configured to urge a seed from the seed receiving lumen toward the seed launching position, and (ii) the programmable controller is configured to control the repeating air pulse generator based on input air pressure, desired seed spacing, ground speed, and turning radius. 11. The system of claim 10 , further comprising at least one sensor disposed on each of the plurality of the seed meters, wherein the at least one sensor is operably coupled to the programmable controller. 12. The apparatus of claim 1 , wherein the first and second air sources are configured to provide pressurized air ranging from about 0.5 to about 5 psi. 13. The apparatus of claim 9 , wherein the second air source is configured to provide pressurized air ranging from about 20 to about 60 psi. 14. The apparatus of claim 9 , wherein the seed receiving lumen is coupleable with a bulk seed container. 15. The apparatus of claim 9 , wherein the seed ejection lumen is coupleable with a seed delivery apparatus. 16. The apparatus of claim 9 , wherein the second air intake lumen and the seed chamber form a main air path such that repeating air pulses from the air pulse generator pass through the second air intake lumen, the seed launching position, and the seed ejection lumen. 17. The apparatus of claim 16 , wherein the main air path is disposed substantially horizontally. 18. The system of claim 10 , wherein the second air source is configured to provide pressurized air ranging from