A manner by which to form a thermal barrier upon a surface, utilizes a pneumatic blower to form a layer of thermal insulation material and a layer of radiant barrier material. The pneumatic blower is first charged with the thermal insulation material, and the thermal insulation material is metered u
A manner by which to form a thermal barrier upon a surface, utilizes a pneumatic blower to form a layer of thermal insulation material and a layer of radiant barrier material. The pneumatic blower is first charged with the thermal insulation material, and the thermal insulation material is metered upon the surface. Then, the pneumatic blower is charged with the radiant barrier material, and the radiant barrier material is metered upon the thermal insulation material.
대표청구항▼
1. A method for installing a thermal barrier upon a surface, said method comprising: collecting processed pieces of thermal insulation material;charging a single pneumatic blower with the processed pieces of thermal insulation material;pneumatically metering the processed pieces of the thermal insul
1. A method for installing a thermal barrier upon a surface, said method comprising: collecting processed pieces of thermal insulation material;charging a single pneumatic blower with the processed pieces of thermal insulation material;pneumatically metering the processed pieces of the thermal insulation material to form a thermal insulation layer upon the surface;collecting processed pieces of radiant barrier material; thereaftercharging the single pneumatic blower with the processed pieces of radiant barrier material; andpneumatically metering the processed pieces of the radiant barrier material to form a radiant barrier layer upon the thermal insulation layer;wherein the surface is divided into at least a first area and a second area, and;wherein the pneumatically metering the processed pieces of the thermal insulation material to form a thermal insulation layer upon the surface is first performed on the first area of the surface;wherein the pneumatically metering the processed pieces of the radiant barrier material to form a radiant barrier layer is performed on the first area after the thermal insulation is metered on the first area of the surface; and the method further comprising:charging the single pneumatic blower a second time with additional processed pieces of thermal insulation material;pneumatically metering the additional processed pieces of the thermal insulation material to form a thermal insulation layer upon the second area of the surface;thereafter charging the single pneumatic blower a second time with additional processed pieces of radiant barrier material; andpneumatically metering the additional processed pieces of the radiant barrier material to form a radiant barrier layer in the second area of the surface after the thermal insulation is metered on the second area of the surface. 2. The method of claim 1, wherein the processed pieces of radiant barrier material comprise low emissivity (low-e) material. 3. The method of claim 2, wherein the processed pieces of radiant barrier material comprise bits of aluminum foil. 4. The method of claim 1, wherein said method for installing a thermal barrier upon a surface is to be practiced by two workers. 5. The method of claim 4, further comprising employing wireless communication between the two workers. 6. The method of claim 4, further comprising employing wired communication between the two workers. 7. The method of claim 1, wherein said method is to be practiced by at least two remote workers, a first worker positioned so as to be able to charge the pneumatic blower and a second worker positioned so as to be able to pneumatically meter the thermal insulation material and radiant barrier material upon the surface, the surface being remote from the blower such that the first and second workers may not effectively communicate via unassisted speaking, wherein the first and second workers are in wired or wireless electrical communication using an electrical communication system, the method further comprising: the second worker to repeatedly provide instructions to the first worker via the electrical communication system when to switch from charging the blower with thermal insulation material to charging the blower with radiant barrier material and vice versa. 8. The method of claim 1, wherein said method is to be practiced by at least two remote workers, a first worker positioned so as to be able to charge the pneumatic blower and a second worker positioned so as to be able to pneumatically meter the thermal insulation material and radiant barrier material upon the surface, the surface being remote from the blower such that the first and second workers may not effectively communicate via unassisted speaking, wherein the first and second workers are in wired or wireless electrical communication using an electrical communication system, the method further comprising: the second worker to repeatedly provide instructions to the first worker via the electrical communication system when to switch from charging the blower with thermal insulation material to charging the blower with radiant barrier material and vice versa. 9. A method to apply thermal barrier to a substrate, said method comprising: applying thermal insulation charged in a single pneumatic blower to the substrate;thereaftercollecting a radiant barrier material, which reflects more than the thermal insulation, in the single pneumatic blower; andapplying the radiant barrier material to the top of the applied thermal insulation with blown air;wherein during the applying thermal insulation charged in the single pneumatic blower to the substrate, the thermal insulation is first applied to a first area of the substrate; andwherein during the applying the radiant barrier material to the top of the thermal insulation with blown air, the radiant barrier material is applied to the first area of the substrate; and further comprising thereafter:applying additional thermal insulation charged in the single pneumatic blower to a second area of the substrate;thereafter applying additional radiant barrier material to the top of the thermal insulation with blown air on the second area of the substrate using the single pneumatic blower. 10. The method of claim 9, wherein the radiant barrier material that reflects more than the thermal insulation also emits less than the thermal insulation. 11. The method of claim 10, wherein the radiant barrier material that emits less and reflects more than the thermal insulation comprises aluminum foil. 12. The method of claim 11, wherein the aluminum foil comprises loose bits and pieces of aluminum foil. 13. The method of claim 9, wherein said method is to be practiced by at least two remote workers, a first worker positioned so as to be able to charge the pneumatic blower and a second worker positioned so as to be able to pneumatically meter the thermal insulation material and radiant barrier material upon the substrate, the substrate being remote from the blower such that the first and second workers may not effectively communicate via unassisted speaking, wherein the first and second workers are in wired or wireless electrical communication using an electrical communication system, the method further comprising: the second worker to repeatedly provide instructions to the first worker via the electrical communication system when to switch from charging the blower with thermal insulation material to charging the blower with radiant barrier material and vice versa. 14. A method for installing a thermal barrier upon a surface wherein the surface is divided into at least a first area and a second area, said method comprising: charging a single pneumatic blower a first time with pieces of thermal insulation material;pneumatically metering a first set of pieces of the thermal insulation material charged in the single pneumatic blower the first time to form a thermal insulation layer upon the first area of the surface;thereaftercharging the single pneumatic blower a second time with pieces of radiant barrier material; andpneumatically metering a first set of pieces of the radiant barrier material charged in the single pneumatic blower the second time to form a radiant barrier layer upon the thermal insulation layer formed upon the first area of the surface;charging the single pneumatic blower a third time with pieces of thermal insulation material;pneumatically metering a second set of pieces of the thermal insulation material charged in the single pneumatic blower the third time to form a thermal insulation layer upon the second area of the surface;thereafter charging the single pneumatic blower a fourth time with pieces of radiant barrier material; andpneumatically metering a second time a second set of pieces of the radiant barrier material charged in the single pneumatic blower the fourth time to form a radiant barrier layer in the second area of the surface after the thermal insulation material has been metered on the second area. 15. The method of claim 14, wherein the radiant barrier material comprises low emissivity (low-e) material. 16. The method of claim 15, wherein the low-e material comprises foil material. 17. The method of claim 16, wherein the foil material comprises aluminum foil. 18. The method of claim 14, wherein the act of pneumatically metering the thermal insulation material upon the surface to form a thermal insulation layer is performed for repair of compromised thermal insulation. 19. The method of claim 14, wherein the charging acts are to be performed by a first worker and the pneumatically metering acts are to be performed by a second worker. 20. The method of claim 19, further comprising employing a wireless communication system between the first and second workers. 21. The method of claim 19, further comprising employing wired communication between the first and second workers. 22. The method of claim 14, wherein said method is to be practiced by at least two remote workers, a first worker positioned so as to be able to charge the pneumatic blower and a second worker positioned so as to be able to pneumatically meter the thermal insulation material and radiant barrier material upon the surface, the surface being remote from the blower such that the first and second workers may not effectively communicate via unassisted speaking, wherein the first and second workers are in wired or wireless electrical communication using an electrical communication system, the method further comprising: the second worker to repeatedly provide instructions to the first worker via the electrical communication system when to switch from charging the blower with thermal insulation material to charging the blower with radiant barrier material and vice versa. 23. A method for installing a thermal barrier upon a surface, said method comprising: collecting processed pieces of thermal insulation material;charging a single pneumatic blower with the processed pieces of thermal insulation material;pneumatically metering the processed pieces of the thermal insulation material to form a thermal insulation layer upon the surface;collecting processed pieces of radiant barrier material; thereaftercharging the single pneumatic blower with the processed pieces of radiant barrier material; andpneumatically metering the processed pieces of the radiant barrier material to form a radiant barrier layer upon the thermal insulation layer;wherein the surface to which the thermal insulation layer and radiant barrier layer are to be formed is of a size that a worker could not cause a thermal insulation layer to be formed on the entire surface without walking upon a portion of the surface after a layer of thermal insulation has been metered onto the surface in order to meter out a layer of radiant barrier, wherein the surface is divided into at least a first area and a second area, and;wherein the pneumatically metering the processed pieces of the thermal insulation material to form a thermal insulation layer upon the surface is first performed on the first area of the surface;wherein the pneumatically metering the processed pieces of the radiant barrier material to form a radiant barrier layer is performed on the first area after the thermal insulation is metered on the first area of the surface; and the method further comprising:charging the single pneumatic blower a second time with additional processed pieces of thermal insulation material;pneumatically metering the additional processed pieces of the thermal insulation material to form a thermal insulation layer upon the second area of the surface;thereafter charging the single pneumatic blower a second time with additional processed pieces of radiant barrier material; andpneumatically metering the additional processed pieces of the radiant barrier material to form a radiant barrier layer in the second area of the surface after the thermal insulation is metered on the second area of the surface. 24. A method for installing a thermal barrier upon a surface, said method comprising: charging a single pneumatic blower a first time with pieces of thermal insulation material;pneumatically metering a first set of pieces of the thermal insulation material charged in the single pneumatic blower the first time to form a thermal insulation layer upon a first area of the surface;thereaftercharging the single pneumatic blower a second time with pieces of radiant barrier material; andpneumatically metering a first set of pieces of the radiant barrier material charged in the single pneumatic blower the second time to form a radiant barrier layer upon the thermal insulation layer formed upon the first area of the surface;thereafter charging the single pneumatic blower a third time with pieces of thermal insulation material;pneumatically metering a second set of pieces of the thermal insulation material charged in the single pneumatic blower the third time to form a thermal insulation layer upon a second area of the surface;thereafter charging the single pneumatic blower a fourth time with pieces of radiant barrier material; andpneumatically metering a second set of pieces of the radiant barrier material charged in the single pneumatic blower the fourth time to form a radiant barrier layer upon the thermal insulation layer formed upon the second area of the surface.
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