Method of making delivery apparatus

What is claimed is: 1. A method of making a delivery apparatus, comprising: providing a body with an upper mounting surface and a lower end, an interior surface of the body defining a cavity, the cavity including a first inlet and a first outlet in the upper mounting surface and the lower end, respectively, the interior surface including a frustoconical inner surface with a first tapered end that is connected to the first outlet; first inserting an adjustable member within the cavity, the adjustable member defining a singular bore with a second inlet and a second outlet, the singular bore having a first internal diameter that is a uniform diameter from the second inlet to the second outlet, the adjustable member including a frustoconical external surface with a second tapered end that coaxially aligns with the first tapered end, an air chamber with a throat being defined between the frustoconical external surface and the frustoconical inner surface, the adjustable member being configured to be axially movable between the first inlet and the first outlet to adjust a delivery of pressurized gas from the air chamber that passes through the throat and toward the first outlet; and first connecting a funnel with a projecting land to the body, the first connecting including the upper mounting surface receiving the projecting land to coaxially align the first inlet and the second inlet with a third outlet of the funnel, the third outlet having a second internal diameter that is equal to the first internal diameter, a first major surface of the projecting land and a second major surface of the adjustable member defining an annular gap therebetween. 2. The method of claim 1 , wherein the providing includes providing the body with a threaded bore that is defined by the interior surface, the threaded bore directly abutting the frustoconical inner surface; and the first inserting includes an upper portion of the adjustable member having a threaded flange that is configured to engage the threaded bore, the threaded bore and the threaded flange being configured to allow the axial movement of the adjustable member within the cavity. 3. The method of claim 1 , wherein the first connecting includes the projecting land being countersunk within the upper mounting surface. 4. The method of claim 1 , wherein the providing includes the body having an air supply conduit in fluid communication with the air chamber. 5. The method of claim 1 , further comprising: axially moving the adjustable member within the cavity to position the throat to a calibrated position; and fixing the adjustable member in a fixed position within the cavity once the throat is in the calibrated position. 6. The method of claim 1 , wherein the providing and the first inserting includes an entirety of the frustoconical inner surface existing at a first angle relative to an imaginary centerline, and an entirety of the frustoconical external surface existing at a second angle relative to the imaginary centerline, the imaginary centerline being a centerline of the singular bore when the body is holding the adjustable member within the cavity, the first angle being greater than the second angle. 7. The method of claim 1 , wherein the first inserting includes the frustoconical external surface being a polished surface. 8. The method of claim 1 , wherein the providing includes the frustoconical inner surface being a polished surface. 9. The method of claim 1 , further comprising: welding the adjustable member to the body in a calibrated position within the cavity. 10. The method of claim 1 , wherein the providing and the first inserting include the frustoconical external surface and the frustoconical inner surface converging toward each other, from an upper portion of the cavity to the first outlet. 11. The method of claim 10 , wherein the first inserting includes the throat being defined between a distal-most end of the adjustable member and a lower end of the frustoconical inner surface. 12. The method of claim 1 , wherein the providing includes the body further defining a dosing tube connection at the lower end of the body, the dosing tube connection being configured to receive a dosing tube and maintain the dosing tube in fluid communication with the first outlet. 13. The method of claim 12 , further comprising: second connecting the dosing tube to the lower end of the body, the second connecting including one of welding the dosing tube to the lower end, screwing the dosing tube to the lower end via a screw thread connection, or both. 14. The method of claim 1 , wherein the first connecting includes the projecting land surrounding the third outlet. 15. The method of claim 14 , wherein the first connecting includes the funnel having a radially extending flange, the radially extending flange having a lower surface configured to mate with the upper mounting surface of the body. 16. The method of claim 14 , wherein the first connecting includes the third outlet having a first diameter corresponding to a second diameter of the second inlet. 17. A method of making a delivery an apparatus, comprising: providing a body with an upper mounting surface and a lower end, an interior surface of the body defining a cavity, the cavity including a first inlet and a first outlet in the upper mounting surface and the lower end, respectively, the interior surface including a frustoconical inner surface with a first tapered end that is connected to the first outlet; first inserting an adjustable member within the cavity, the adjustable member defining a singular bore with a second inlet and a second outlet, the singular bore having a first internal diameter that is a uniform diameter from the second inlet to the second outlet, the adjustable member including a frustoconical external surface with a second tapered end that coaxially aligns with the first tapered end, an air chamber with a throat being defined between the frustoconical external surface and the frustoconical inner surface, the adjustable member being configured to be axially movable between the first inlet and the first outlet to adjust a delivery of pressurized gas from the air chamber that passes through the throat and toward the first outlet; and first connecting a funnel with a projecting land to the body, the first connecting including the upper mounting surface receiving the projecting land to coaxially align the first inlet and the second inlet with a third outlet of the funnel, a first major surface of the projecting land and a second major surface of adjustable member defining an annular gap therebetween; and second inserting a gasket between an upper end of the frustoconical external surface and an upper portion of the interior surface of the body. 18. A method of making a delivery apparatus, comprising: providing a body with an upper mounting surface and a lower end, an interior surface of the body defining a cavity, the cavity including a first inlet and a first outlet in the upper mounting surface and the lower end, respectively, the interior surface including a frustoconical inner surface with a first tapered end that is connected to the first outlet; first inserting an adjustable member within the cavity, the adjustable member defining a singular bore with a second inlet and a second outlet, the singular bore having a first internal diameter that is a uniform diameter from the second inlet to the second outlet, the adjustable member including a frustoconical external surface with a second tapered end that coaxially aligns with the first tapered end,