DISPENSING SYSTEM AND METHOD OF USE
First Claim
1. A DOT-39 compliant dispensing system for dispensing a polyurethane foam component under constant pressure, the system comprising:
- a compressor having an outlet through which air is supplied;
a booster coupled to the outlet of the compressor, being configured to compress the air output from the compressor to provide, via a high pressure outlet, a supply of compressed air at a pressure of between about 160 and about 200 pounds per square inch;
at least two bladderless tanks, each of which have an internal volume that is sized less than 1,526 cubic inches to comply with DOT-39 specification for non-reusable, non-refillable cylinders, in which is disposed a quantity of a polyurethane foam component that is sufficient to fill at least 70 percent of the internal volume of the bladderless tanks, each which further includea first valve that is connected to the high pressure outlet of the booster for communicating the pressurized air into said bladderless tank to pressurize the bladderless tank, anda second valve adjacent the bottom of each bladderless tank, for connecting to a hose associated with a dispenser; and
a dispenser for dispensing the polyurethane foam component from each of the at least two bladderless tanks, the dispenser being connected via at least two hoses to the second valve adjacent the bottom of each of the at least two bladderless tanks to enable dispensing of substantially all the polyurethane foam component disposed within each of the at least two bladderless tanks, to minimize any remnant of polyurethane foam component left therein;
wherein the compressor and booster provide a continuously replenished source of pressurized air for pressurizing the at least two bladderless tanks to enable substantially all polyurethane foam component within the bladderless tanks to be dispensed at constant pressure through the second valve adjacent the bottom of the bladderless tanks.
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Accused Products
Abstract
A system for dispensing polyurethane foam from DOT-39 compliant tank, includes a compressor having an outlet through which air is supplied, and a booster coupled to the outlet of the compressor. The booster provides a supply of compressed air at a pressure of between about 160 and about 200 pounds per square inch. At least two bladderless tanks having an internal volume sized less than 1,526 cubic inches to comply with DOT-39 specifications each contain a quantity of a polyurethane foam component that is sufficient to fill at least 70 percent of the internal volume of the bladderless tanks. A first valve on the bladderless tanks connects to the high pressure outlet of the booster. A second valve is adjacent the bottom of each bladderless tank. A dispenser for dispensing the polyurethane foam component is connected to the second valve on each of the bladderless tanks.
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Citations
20 Claims
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1. A DOT-39 compliant dispensing system for dispensing a polyurethane foam component under constant pressure, the system comprising:
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a compressor having an outlet through which air is supplied; a booster coupled to the outlet of the compressor, being configured to compress the air output from the compressor to provide, via a high pressure outlet, a supply of compressed air at a pressure of between about 160 and about 200 pounds per square inch; at least two bladderless tanks, each of which have an internal volume that is sized less than 1,526 cubic inches to comply with DOT-39 specification for non-reusable, non-refillable cylinders, in which is disposed a quantity of a polyurethane foam component that is sufficient to fill at least 70 percent of the internal volume of the bladderless tanks, each which further include a first valve that is connected to the high pressure outlet of the booster for communicating the pressurized air into said bladderless tank to pressurize the bladderless tank, and a second valve adjacent the bottom of each bladderless tank, for connecting to a hose associated with a dispenser; and a dispenser for dispensing the polyurethane foam component from each of the at least two bladderless tanks, the dispenser being connected via at least two hoses to the second valve adjacent the bottom of each of the at least two bladderless tanks to enable dispensing of substantially all the polyurethane foam component disposed within each of the at least two bladderless tanks, to minimize any remnant of polyurethane foam component left therein; wherein the compressor and booster provide a continuously replenished source of pressurized air for pressurizing the at least two bladderless tanks to enable substantially all polyurethane foam component within the bladderless tanks to be dispensed at constant pressure through the second valve adjacent the bottom of the bladderless tanks. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A DOT-39 compliant dispensing system for dispensing a polyurethane foam component under constant pressure, the system comprising:
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a compressor having an outlet through which air is supplied; a booster coupled to the outlet of the compressor, being configured to compress the air output from the compressor to a pressure of between about 160 and 200 pounds per square inch, the booster including a regulator for regulating the booster output to provide, via a high pressure outlet, a supply of pressurized air at an operating pressure range within 10 pounds per square inch that is adjustable between about 160 and about 200 pounds per square inch, to thereby enable control over the density and dispensing rate of polyurethane foam component to allow for various conditions; a first bladderless tank and a second bladderless tank, each having an internal volume that is sized less than 1,526 cubic inches to comply with DOT-39 specifications for non-reusable, non-refillable cylinders, the first and second bladderless tanks having a quantity of a first polyurethane foam component and a second polyurethane foam component that is sufficient to fill at least 70 percent of the internal volume of the first and second bladderless tanks, respectively; the first and second bladderless tanks each having a first valve connected to the high pressure outlet of the booster for communicating the pressurized air into the bladderless tank, and a second valve adjacent the bottom of the bladderless tank, for connecting to a hose associated with a dispenser; a dispenser for dispensing the first and second polyurethane foam components from the first and second bladderless tanks, the dispenser being connected via a hose to the second valve adjacent the bottom of each of the first and second bladderless tanks so as to enable dispensing of substantially all of the first and second polyurethane foam component disposed within the first and second bladderless tanks, to minimize any remnant of polyurethane foam component left within the at least two bladderless tanks; and wherein the compressor with the booster and regulator provide a continuously replenished source of pressurized air for pressurizing the first and second bladderless tanks to an adjustable pressure between about 160 and about 200 pounds per square inch, to thereby provide control over the density and dispensing rate of polyurethane foam and to enable substantially all of the first and second polyurethane foam component within the first and second bladderless tanks to be dispensed at constant pressure through the second valve adjacent the bottom of each of the first and second bladderless tanks. - View Dependent Claims (9, 10, 11, 12, 13)
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14. A method for the pressure dispensing of a polyurethane foam component material at a remote location, the method comprising:
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filling first and second bladderless tanks having an internal volume that is sized less than 1,526 cubic inches to comply with DOT 39 specifications for non-refillable cylinders, with a quantity of a first polyurethane foam component and second polyurethane foam component that is sufficient to fill at least 70 percent of the internal volume of the first and second bladderless tanks respectively, transporting the first and second bladderless tanks and quantity of first and second polyurethane foam components to a remote worksite location;
generating a supply of compressed air at a pressure of between about 160 and 200 pounds per square inch, via a booster coupled to the outlet of a compressor, that is communicated to a first valve disposed in each of the first and second bladderless tanks to pressurize the first and second bladderless tanks;connecting a dispenser via a hose to a second valve in each of the first and second bladderless tanks that is disposed adjacent the bottom of the bladderless tank; and dispensing the first and second polyurethane foam components from the first and second bladderless tanks that are supplied with pressurized air such that the first and second polyurethane foam components are dispensed under constant pressure, wherein the first and second polyurethane foam components are dispensed while the compressor and booster provide a continuously replenished supply of compressed air to pressurize the first and second bladderless tanks, to enable substantially all of the first and second polyurethane foam components within the first and second bladderless tanks to be dispensed at constant pressure through the second valve adjacent the bottom of each of the first and second bladderless tanks, to thereby minimize any remnant of polyurethane foam component left within the first and second bladderless tanks. - View Dependent Claims (15, 16, 17, 18, 19, 20)
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Specification