Method for spraying two-component compositions
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IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B05B-007/24
B05D-001/02
B05B-001/30
B05B-012/00
B29B-007/74
G01P-013/00
B05B-007/06
B05B-007/08
출원번호
US-0574293
(2010-10-20)
등록번호
US-9186688
(2015-11-17)
국제출원번호
PCT/US2010/053310
(2010-10-20)
§371/§102 date
20120720
(20120720)
국제공개번호
WO2011/100004
(2011-08-18)
발명자
/ 주소
Larson, John Charles
출원인 / 주소
AXALTA COATING SYSTEMS IP CO., LLC
대리인 / 주소
Ingrassia Fisher & Lorenz, P.C.
인용정보
피인용 횟수 :
0인용 특허 :
13
초록▼
This invention is directed to a method for producing a coating layer of a coating composition comprising two or more components. The two or more components are mixed post atomization. This invention is further directed to a method for producing a layer of a coating composition comprising a first com
This invention is directed to a method for producing a coating layer of a coating composition comprising two or more components. The two or more components are mixed post atomization. This invention is further directed to a method for producing a layer of a coating composition comprising a first component and a second component on a substrate using the spray gun.
대표청구항▼
1. A method for producing a layer of a coating composition comprising a first component and a second component on a substrate, said method comprising the steps of: i) providing a spray gun comprising: (A) a spray gun body comprising a carrier inlet, a first inlet connected to a first connection path
1. A method for producing a layer of a coating composition comprising a first component and a second component on a substrate, said method comprising the steps of: i) providing a spray gun comprising: (A) a spray gun body comprising a carrier inlet, a first inlet connected to a first connection path;(B) a tubular nozzle casing having a nozzle, said tubular nozzle casing being housed within said spray gun body;(C) a hollow spray needle having a longitudinal channel therein, a channel opening at one end of said hollow spray needle, and a second inlet at the other end of said hollow spray needle distal to said channel opening, wherein said hollow spray needle is partially positioned and is slidable in said tubular nozzle casing between a spray position and a closed position;(D) an inlet valve for controlling said second inlet; and(E) a detachable coupling assembly affixed externally to said spray gun body distal to said nozzle, wherein said detachable coupling assembly comprises a wedge valve coupling, wherein a sloped surface of said wedge valve coupling urges a seal pin upwards to open said second inlet as said wedge valve coupling moves relative to said seal pin, and wherein at least a portion of said seal pin is seated within said second inlet; wherein said second inlet, said inlet valve and said detachable coupling assembly are configured so that said second inlet is open at said spray position and is closed at said closed position; wherein:said first component and said second component are maintained separated in said spray gun;said first inlet is configured to receive said first component by gravity and connected to said first connection path that is further connected to a spray passage defined by said tubular nozzle casing and said hollow spray needle for conveying said first component to said nozzle; andsaid second inlet is configured to receive said second component by gravity and connected to said longitudinal channel for conveying said second component to said nozzle when said hollow spray needle is at said spray position;ii) providing the first component of said coating composition to the first inlet and the second component of said coating composition to said second inlet;iii) producing atomized said first component and atomized said second component to form an atomized coating mixture by supplying a pressurized carrier to a carrier outlet through said carrier inlet and sliding said hollow spray needle to said spray position; andiv) applying said atomized coating mixture over said substrate forming said layer thereon. 2. The method of claim 1 wherein said coating composition is selected from a lacquer coating composition, a chemical curable coating composition, a radiation curable coating composition, or a chemical and radiation dual-cure coating composition. 3. The method of claim 1, wherein said first component comprises a crosslinkable and a crosslinking component and said second component comprises a catalyst or a latent catalyst. 4. The method of claim 1, wherein said first component comprises a crosslinkable component and a crosslinking component and said second component comprises an activator, wherein the crosslinkable component comprises protected crosslinkable groups, wherein the activator comprises water, an acid, or a combination thereof, and wherein the activator deprotects the protected crosslinkable groups. 5. The method of claim 1, wherein said first component comprises a crosslinkable component, and wherein the crosslinkable component comprises aspartate. 6. The method of claim 1, wherein said first component comprises a crosslinkable component and said second component comprises a crosslinking component, wherein the crosslinking component comprises crosslinking functional groups, and wherein the crosslinking functional groups comprise isocyanate. 7. The method of claim 1, wherein said first component comprises a radiation curable component and a crosslinkable component, and said second component comprises a crosslinking component. 8. The method of claim 1, wherein said first component comprises protected crosslinkable groups and a crosslinking component, and wherein said second component comprises water and optionally an acid. 9. The method of claim 1, wherein said first component comprises protected crosslinkable groups, and said second component comprises a crosslinking component, water, and optionally an acid. 10. The method of claim 1, wherein said second component is selected from a catalyst, an initiator, an activator, a radiation activator, a curing agent, or a combination thereof. 11. The method of claim 1, wherein said coating mixture has a coating viscosity that is increasing upon time and said first component and said second component are at essentially constant individual viscosity upon time. 12. A method for producing a layer of a coating composition comprising a first component and a second component on a substrate, said method comprising the steps of: i) providing a spray gun comprising: (A) a spray gun body comprising a carrier inlet, a first inlet connected to a first connection path;(B) a tubular nozzle casing having a nozzle, said tubular nozzle casing being housed within said spray gun body;(C) a hollow spray needle having a longitudinal channel therein, a channel opening at one end of said hollow spray needle, and a second inlet at the other end of said hollow spray needle distal to said channel opening, wherein said hollow spray needle is partially positioned and is slidable in said tubular nozzle casing between a spray position and a closed position;(D) an inlet valve for controlling said second inlet; and(E) a detachable coupling assembly affixed externally to said spray gun body distal to said nozzle, wherein said detachable coupling assembly comprises a sliding valve coupling connected to a second connection coupling, wherein said sliding valve coupling moves between an open valve position and a closed valve position, wherein said second connection coupling is misaligned with said second inlet in the closed valve position, and said second connection coupling is aligned with said second inlet in the open valve position; wherein said second inlet, said inlet valve and said detachable coupling assembly are configured so that said second inlet is open at said spray position and is closed at said closed position;wherein:said first component and said second component are maintained separated in said spray gun;said first inlet is configured to receive said first component by gravity and connected to said first connection path that is further connected to a spray passage defined by said tubular nozzle casing and said hollow spray needle for conveying said first component to said nozzle; andsaid second inlet is configured to receive said second component by gravity and connected to said longitudinal channel for conveying said second component to said nozzle when said hollow spray needle is at said spray position;ii) providing the first component of said coating composition to the first inlet and the second component of said coating composition to said second inlet;iii) producing atomized said first component and atomized said second component to form an atomized coating mixture by supplying a pressurized carrier to a carrier outlet through said carrier inlet and sliding said hollow spray needle to said spray position; andiv) applying said atomized coating mixture over said substrate forming said layer thereon. 13. The method of claim 12, wherein said coating composition is selected from a lacquer coating composition, a chemical curable coating composition, a radiation curable coating composition, or a chemical and radiation dual-cure coating composition. 14. The method of claim 12, wherein said first component comprises a crosslinkable component, and wherein the crosslinkable component comprises aspartate. 15. The method of claim 12, wherein said first component comprises protected crosslinkable groups and a crosslinking component, and wherein said second component comprises water and optionally an acid. 16. A method for producing a layer of a coating composition comprising a first component and a second component on a substrate, said method comprising the steps of: i) providing a spray gun comprising: (A) a spray gun body comprising a carrier inlet, a first inlet connected to a first connection path;(B) a tubular nozzle casing having a nozzle, said tubular nozzle casing being housed within said spray gun body;(C) a hollow spray needle having a longitudinal channel therein, a channel opening at one end of said hollow spray needle, and a second inlet at the other end of said hollow spray needle distal to said channel opening, wherein said hollow spray needle is partially positioned and is slidable in said tubular nozzle casing between a spray position and a closed position;(D) an inlet valve for controlling said second inlet; and(E) a detachable coupling assembly affixed externally to said spray gun body distal to said nozzle, wherein said detachable coupling assembly comprises a sliding valve coupling connected to a second connection coupling, wherein said second connection coupling is coupled to a second reservoir, wherein said second reservoir moves relative to a main reservoir as said second connection coupling moves between an open valve position and a closed valve position, wherein said second reservoir is configured to convey said second component to said second inlet and said main reservoir is configured to store said first component; wherein said second inlet, said inlet valve and said detachable coupling assembly are configured so that said second inlet is open at said spray position and is closed at said closed position;wherein:said first component and said second component are maintained separated in said spray gun;said first inlet is configured to receive said first component by gravity and connected to said first connection path that is further connected to a spray passage defined by said tubular nozzle casing and said hollow spray needle for conveying said first component to said nozzle; andsaid second inlet is configured to receive said second component by gravity and connected to said longitudinal channel for conveying said second component to said nozzle when said hollow spray needle is at said spray position;ii) providing the first component of said coating composition to the first inlet and the second component of said coating composition to said second inlet;iii) producing atomized said first component and atomized said second component to form an atomized coating mixture by supplying a pressurized carrier to a carrier outlet through said carrier inlet and sliding said hollow spray needle to said spray position; andiv) applying said atomized coating mixture over said substrate forming said layer thereon. 17. The method of claim 16, wherein said coating composition is selected from a lacquer coating composition, a chemical curable coating composition, a radiation curable coating composition, or a chemical and radiation dual-cure coating composition. 18. The method of claim 16, wherein said first component comprises a crosslinkable component, and wherein the crosslinkable component comprises aspartate. 19. The method of claim 16, wherein said first component comprises protected crosslinkable groups and a crosslinking component, and wherein said second component comprises water and optionally an acid.
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이 특허에 인용된 특허 (13)
Nordeen Melvin A. (11053 Stout La. Coulterville CA 95311), Compartmentalized paint cup with selector valve for spray guns.
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