Apparatus and method for melting and dispensing thermoplastic material

What is claimed is: 1. A method for melting and dispensing a thermoplastic material, said method comprising: supplying particles of a thermoplastic material to an un-heated hopper disposed external of a heated manifold; discharging the particles of the thermoplastic material from the un-heated hopper into the heated manifold; melting the particles of the thermoplastic material into molten thermoplastic material on an upper surface of and within the heated manifold, the heated manifold integrally defining two or more vertically-oriented, spaced apart flow channels extending from the upper surface of the heated manifold; directing the molten thermoplastic material through separate, spaced apart outlets of the two or more flow channels to a collection channel; and dispensing the molten thermoplastic material from the collection channel into a dispenser and then onto a workpiece. 2. The method as recited in claim 1 , wherein the directing further comprises: directing the molten thermoplastic material through the separate, spaced apart outlets of the two or more flow channels to a pump mounted on the heated manifold; and pumping the molten thermoplastic material from the pump through the collection channel to the dispenser. 3. The method as recited in claim 1 , wherein the supplying further comprises: transporting the particles of the thermoplastic material from a supply reservoir of the particles of the thermoplastic material through an un-heated hose to an inlet of the un-heated hopper. 4. The method as recited in claim 3 , wherein the discharging further comprises: discharging the particles of the thermoplastic material from the un-heated hopper into the heated manifold solely by gravity. 5. The method as recited in claim 1 , further comprising: automatically maintaining a pre-determined level of the particles of the thermoplastic material within the un-heated hopper. 6. The method as recited in claim 1 , further comprising: mounting the un-heated hopper on the heated manifold. 7. A method for melting and dispensing a thermoplastic material, said method comprising: supplying particles of a thermoplastic material to an un-heated hopper having an outlet and a longitudinal axis, the un-heated hopper being disposed external of a heated manifold; moving the particles of the thermoplastic material around and along the longitudinal axis of the un-heated hopper to discharge the particles through the outlet of the un-heated hopper and into the heated manifold; melting the particles of the thermoplastic material into molten thermoplastic material on an upper surface of and within the heated manifold, the heated manifold integrally defining two or more vertically-oriented, spaced apart flow channels extending from the upper surface of the heated manifold; directing the molten thermoplastic material through separate, spaced apart outlets of the two or more flow channels to a collection channel; and dispensing the molten thermoplastic material from the collection channel into a dispenser and then onto a workpiece. 8. The method as recited in claim 7 , wherein the moving further comprises: moving the particles of the thermoplastic material around and along the longitudinal axis of the un-heated hopper with an auger disposed in the un-heated hopper. 9. The method as recited in claim 8 , wherein the directing further comprises: directing the molten thermoplastic material through the separate, spaced apart outlets of the two or more flow channels to a pump mounted on the heated manifold; and pumping the molten thermoplastic material from the pump through the collection channel to the dispenser. 10. The method as recited in claim 7 , wherein the supplying further comprises: transporting the particles of the thermoplastic material from a supply reservoir of the particles of the thermoplastic material through an un-heated hose to an inlet of the un-heated hopper. 11. A method for bonding first and second members of a window sash to one another to create a corner of the window sash, the first and second members being disposed in abutting relationship with one another, said method comprising: mounting an apparatus for melting and dispensing a hot melt adhesive on a dedicated automation device, the apparatus comprising a heated manifold, an un-heated hopper disposed external of the heated manifold and mounted on the heated manifold, a pump mounted on the heated manifold and a dispenser mounted on the heated manifold; supplying particles of a hot melt adhesive to the un-heated hopper; discharging the particles of the hot melt adhesive from the un-heated hopper into the heated manifold; melting the particles of the hot melt adhesive into molten hot melt adhesive on an upper surface of and within the heated manifold, the heated manifold integrally defining two or more vertically-oriented, spaced apart flow channels extending from the upper surface of the heated manifold; directing the molten hot melt adhesive through separate, spaced apart outlets of the two or more flow channels to a collection channel; dispensing the molten hot melt adhesive from the collection channel into the dispenser; aligning the dispenser with an aperture formed in a first one of the two members of the window sash, the aperture being in fluid communication with a first channel extending between an interior of the first member of the window sash and an interior of the second member of the window sash; and injecting the molten hot melt adhesive into and through the aperture and into the first channel. 12. The method as recited in claim 11 , wherein the first member of the window sash further comprises a second channel formed therein, the second channel being in fluid communication with the aperture, wherein the injecting further comprises: directing the molten hot melt adhesive into the second channel. 13. The method as recited in claim 11 , wherein the directing further comprises: directing the molten hot melt adhesive to the pump; and pumping the molten hot melt adhesive from the pump through the collection channel to the dispenser. 14. A method for bonding two ends of a filter to one another, the filter being formed into a cylindrical shape with the two ends of the filter being disposed in abutting relationship with one another, said method comprising: mounting an apparatus for melting and dispensing a hot melt adhesive on a dedicated automation device, the apparatus comprising a heated manifold, an un-heated hopper disposed external of the heated manifold and mounted on the heated manifold, a pump mounted on the heated manifold and a dispenser mounted on the heated manifold; supplying particles of a hot melt adhesive to the un-heated hopper; discharging the particles of the hot melt adhesive from the un-heated hopper into the heated manifold; melting the particles of the hot melt adhesive into molten hot melt adhesive on an upper surface of and within the heated manifold, the heated manifold integrally defining two or more vertically-oriented, spaced apart flow channels extending from the upper surface of the heated manifold; directing the molten hot melt adhesive through separate, spaced apart outlets of the two or more flow channels to a collection channel; dispensing the molten hot melt adhesive from the collection channel into the dispenser; aligning the dispenser with the two ends of the filter; and dispensing the molten hot melt adhesive onto at least one of the two ends of the filter to form a seam bonding the two ends together. 15. The method as recited in claim 14 , wherein the directing further compr