Adhesive dispensing module and method of spraying a plurality of droplets of a liquid adhesive

What is claimed is: 1. An adhesive dispensing module, comprising: a dispensing assembly having a liquid supply passage configured to receive a liquid adhesive and a gas supply passage configured to receive a pressurized gas; and a nozzle connected to said dispenser assembly and including: a nozzle body including a nozzle outlet fluidly connected to said liquid supply passage for discharging the liquid adhesive therefrom, said nozzle body at least partially defining a gas inlet, a gas outlet, and a gas passage extending therebetween, said gas inlet fluidly connected to said gas supply passage to receive the pressurized gas therefrom, and said gas outlet positioned proximate to said nozzle outlet for directing the pressurized gas toward the liquid adhesive discharged from said nozzle outlet; a dispersion baffle positioned within said gas passage to define a dispersion chamber and a consolidation chamber, said dispersion chamber configured to receive the pressurized gas from said gas inlet as an asymmetrical flow of gas with respect to a central axis of said dispersion chamber, and said consolidation chamber fluidly connected to said gas outlet; and at least one channel extending through said dispersion baffle to fluidly connect said dispersion chamber to said consolidation chamber, said at least one channel configured to restrict the pressurized gas received within said dispersion chamber and distribute the pressurized gas into said consolidation chamber according to a predetermined flow distribution for spraying a plurality of droplets of the liquid adhesive according to a predetermined pattern. 2. The adhesive dispensing module of claim 1 , wherein said predetermined flow distribution is a generally equalized flow distribution throughout said consolidation chamber for spraying the plurality of droplets according to a generally circular pattern. 3. The adhesive dispensing module of claim 1 , wherein said dispersion baffle is an annular ring dispersion baffle, and said annular ring dispersion baffle generally surrounds said nozzle body. 4. The adhesive dispensing module of claim 3 , wherein said annular ring dispersion baffle is integral and unitarily formed with said nozzle body. 5. The adhesive dispensing module of claim 1 , wherein said at least one channel is configured to restrict the pressurized gas received within said dispersion chamber to generally equalize a pressure of the pressurized gas therein and distribute the pressurized gas into said consolidation chamber according to a generally uniform flow distribution. 6. The adhesive dispensing module of claim 1 , further comprising: a nozzle cap configured to cover at least a portion of said nozzle body and further define said gas passage therebetween. 7. The adhesive dispensing module of claim 6 , wherein said nozzle cap is configured to further define said at least one channel extending along said dispersion baffle. 8. The adhesive dispensing module of claim 6 , wherein said dispenser assembly includes a fluid body and said nozzle includes a retainer removably connected to said fluid body such that said nozzle cap and said nozzle body are captured between said fluid body and said retainer to removably secure and fluidly seal said nozzle body and said nozzle cap against said fluid body. 9. The adhesive dispensing module of claim 1 , wherein said dispersion baffle includes a first key element and said dispensing assembly includes a second key element, and said first key element cooperates with said second key element to position said dispersion baffle relative to said dispensing assembly in a predetermined position for distributing said pressurized gas according to the predetermined flow distribution. 10. The adhesive dispensing module of claim 1 , wherein said gas inlet is offset from said central axis of said dispersion chamber. 11. A nozzle for an adhesive dispensing module, the nozzle comprising: a nozzle body including a nozzle outlet for discharging a liquid adhesive therefrom, said nozzle body at least partially defining a gas inlet, a gas outlet, and a gas passage extending therebetween, said gas outlet positioned proximate to said nozzle outlet for directing a pressurized gas toward the liquid adhesive discharged from said nozzle outlet; a dispersion baffle positioned within said gas passage to define a dispersion chamber and a consolidation chamber, said dispersion chamber configured to receive the pressurized gas from said gas inlet as an asymmetrical flow of gas with respect to a central axis of said dispersion chamber, and said consolidation chamber fluidly connected to said gas outlet; and at least one channel extending through said dispersion baffle to fluidly connect said dispersion chamber to said consolidation chamber, said at least one channel configured to restrict the pressurized gas received within said dispersion chamber and distribute the pressurized gas into said consolidation chamber according to a predetermined flow distribution for spraying a plurality of droplets of the liquid adhesive according to a predetermined pattern. 12. The nozzle of claim 11 , wherein said predetermined flow distribution is a generally equalized flow distribution throughout said consolidation chamber for spraying the plurality of droplets according to a generally circular pattern. 13. The nozzle of claim 11 , wherein said dispersion baffle is an annular ring dispersion baffle, and said annular ring dispersion baffle generally surrounds said nozzle body. 14. The nozzle of claim 13 , wherein said annular ring dispersion baffle is integral and unitarily formed with said nozzle body. 15. The nozzle of claim 11 , wherein said at least one channel is configured to restrict the pressurized gas received within said dispersion chamber to generally equalize a pressure of the pressurized gas therein and distribute the pressurized gas into said consolidation chamber according to a generally uniform flow distribution. 16. The nozzle of claim 11 , further comprising: a nozzle cap configured to cover at least a portion of said nozzle body and further define said gas passage therebetween. 17. The nozzle of claim 16 , wherein said nozzle cap further configured to define said at least one channel extending along said dispersion baffle. 18. The nozzle of claim 11 , wherein said dispersion baffle includes a first key element configured to cooperate with a second key element of a dispensing assembly and position and said dispersion baffle relative to the dispensing assembly in a predetermined position for distributing said pressurized gas according to the predetermined flow distribution. 19. The nozzle of claim 11 , wherein said gas inlet is offset from said central axis of said dispersion chamber. 20. A method of spraying a plurality of droplets of a liquid adhesive with a pressurized gas from a nozzle according to a predetermined pattern, the nozzle including a nozzle body and a dispersion baffle, the nozzle body and the dispersion baffle defining a dispersion chamber and a consolidation chamber within a gas passage, and at least one channel extending through the dispersion baffle to fluidly connect the dispersion and consolidation chambers, the method comprising: restricting the pressurized gas flowing through the gas passage as an asymmetrical flow of gas with respect to a central axis of said dispersion chamber with the at least one channel extending through the dispersion baffle; distributing the pressurized gas within the dispersion chamber and introducing the pressurized g