A dispensing apparatus includes two cylindrical sleeves, two shuttles slidingly disposed in the sleeves, push rods disposed in operable communication with the shuttles, and a piston, driven by pressurized gas, disposed in operable communication with the push rods. The cylindrical sleeves receive fil
A dispensing apparatus includes two cylindrical sleeves, two shuttles slidingly disposed in the sleeves, push rods disposed in operable communication with the shuttles, and a piston, driven by pressurized gas, disposed in operable communication with the push rods. The cylindrical sleeves receive film pack bags having a common face plate that has an integrally formed discharge nosepiece having an internal partition that maintains separate flow streams from the film pack bags. A holder is disposed proximate a front end of the sleeves and configured to restrain the face plate during dispensing. A mixer is disposed in fluid communication with the film pack bags. A material applicator is disposed in fluid communication with the mixer. A first flexible tube is disposed upstream of and in fluid communication with the mixer. A second flexible tube is disposed in fluid communication with the material applicator for supplying atomization air to the material applicator.
대표청구항▼
1. An apparatus for dispensing a flowable material, comprising: at least two cylindrical sleeves each having a front end and a back end;two flexible film pack bags, each film pack bag being disposed within respective ones of the at least two cylindrical sleeves, the two flexible film pack bags havin
1. An apparatus for dispensing a flowable material, comprising: at least two cylindrical sleeves each having a front end and a back end;two flexible film pack bags, each film pack bag being disposed within respective ones of the at least two cylindrical sleeves, the two flexible film pack bags having an integrally formed common rigid face plate that is bonded to each of the two flexible film pack bags, the face plate having a discharge nosepiece integrally formed therewith, the discharge nosepiece having a partition internally disposed and configured to maintain separate flow streams from respective ones of the two flexible film pack bags;at least two shuttles slidingly disposed internal of and proximate the back end of respective ones of the at least two cylindrical sleeves;at least two push rods disposed in operable communication with respective ones of the at least two shuttles;at least one piston disposed in operable communication with the at least two push rods, the at least one piston configured and adapted to be driven by a pressurized gas;the front end of respective ones of the at least two cylindrical sleeves configured and adapted to receive individual ones of the two flexible film pack bags;a holder disposed proximate the front end of respective ones of the at least two cylindrical sleeves, the holder configured and adapted to restrain the face plate during dispensing of the flowable material;a mixer configured and adapted to be in fluid communication with the flow streams from respective ones of the two flexible film pack bags;a material applicator disposed in fluid communication with and on a downstream side of the mixer;a first flexible tube disposed in fluid communication with and on an upstream side of the mixer;wherein the first flexible tube is disposed in fluid communication with the discharge nosepiece; anda second flexible tube disposed in fluid communication with the material applicator, the second flexible tube configured and adapted for supplying atomization air to the material applicator. 2. The apparatus of claim 1, wherein: each shuttle of the at least two shuttles has a circumference and a plurality of individual flexible fingers disposed around the circumference in sliding engagement with an interior surface of respective ones of the at least two cylindrical sleeves. 3. The apparatus of claim 1, wherein: the at least one piston comprises a piston housing;the at least two cylindrical sleeves are fixedly attached to the piston housing; andthe holder is movable with respect the at least two cylindrical sleeves. 4. The apparatus of claim 2, wherein: adjacent ones of the plurality of individual flexible fingers are spaced apart from each other with gaps therebetween to permit trapped air to escape from inside the at least two cylindrical sleeves as each shuttle slides in its respective sleeve from the back end to the front end. 5. An apparatus for dispensing a flowable material, comprising: at least two cylindrical sleeves each having a front end and a back end;two flexible film pack bags, each film pack bag being disposed within respective ones of the at least two cylindrical sleeves, the two flexible film pack bags having an integrally formed common rigid face plate that is bonded to each of the two flexible film pack bags, the face plate having a discharge nosepiece integrally formed therewith, the discharge nosepiece having a partition internally disposed and configured to maintain separate flow streams from respective ones of the two flexible film pack bags;at least two shuttles slidingly disposed internal of and proximate the back end of respective ones of the at least two cylindrical sleeves;at least two push rods disposed in operable communication with respective ones of the at least two shuttles;at least one piston disposed in operable communication with the at least two push rods, the at least one piston configured and adapted to be driven by a pressurized gas;the front end of respective ones of the at least two cylindrical sleeves configured and adapted to receive individual ones of the two flexible film pack bags;a holder disposed proximate the front end of respective ones of the at least two cylindrical sleeves, the holder configured and adapted to restrain the face plate during dispensing of the flowable material;a mixer configured and adapted to be in fluid communication with the flow streams from respective ones of the two flexible film pack bags;a material applicator disposed in fluid communication with and on a downstream side of the mixer;a first flexible tube disposed in fluid communication with and on an upstream side of the mixer;wherein the first flexible tube is disposed in fluid communication with the discharge nosepiece; anda second flexible tube disposed in fluid communication with the material applicator, the second flexible tube configured and adapted for supplying atomization air to the material applicator;wherein the two flexible film pack bags are formed by a method comprising:mounting a generally tubular flexible synthetic resin film bag on a mandrel;inserting the mandrel and bag into a mold providing a cavity about an end of the mandrel and bag, the cavity being configured to provide the face plate;injecting into the cavity molten synthetic resin of substantially the same composition as that of the bag, melting an exposed end portion of the bag using heat of the molten synthetic resin to cause the end portion of the bag to become molten and intermix with the molten synthetic resin to form a face plate with the end of the bag sealingly adhered thereto with an integrated structure of essentially uniform composition having no distinct layers at the interface, the face plate having a discharge opening therein and the nosepiece about the opening aligned with the end of the bag, the face plate being overmolded on the film bag, the film bag being disposed inwardly of the face plate;removing the face plate, bag and mandrel from the cavity;removing the bag and face plate from the mandrel; andsealing the end of the bag spaced from the face plate. 6. The apparatus of claim 5, wherein: each shuttle of the at least two shuttles has a circumference and a plurality of individual flexible fingers disposed around the circumference in sliding engagement with an interior surface of respective ones of the at least two cylindrical sleeves. 7. The apparatus of claim 5, wherein: the at least one piston comprises a piston housing;the at least two cylindrical sleeves are fixedly attached to the piston housing; andthe holder is movable with respect the at least two cylindrical sleeves. 8. The apparatus of claim 6, wherein: adjacent ones of the plurality of individual flexible fingers are spaced apart from each other with gaps therebetween to permit trapped air to escape from inside the at least two cylindrical sleeves as each shuttle slides in its respective sleeve from the back end to the front end.
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