Coating apparatus – Projection or spray type – Applying solid particulate material
Reexamination Certificate
2001-12-04
2003-05-27
Crispino, Richard (Department: 1734)
Coating apparatus
Projection or spray type
Applying solid particulate material
C118S302000, C239S427500, C239S079000, C239S418000, C239S428000
Reexamination Certificate
active
06569245
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The invention relates to the technology of applying a coating of powder materials by spraying. More specifically, the present invention relates to applying a coating of metals, their mechanical blends and dielectrics.
2. Discussion of the Related Art
Applying a powder coating using a gas-carrier flow to entrain powder particles and spraying the powder to a surface is known in the art. The powder is mixed with gas-carrier flow and the formed gas-powder flow is accelerated in a nozzle and directed to an article. Two prior art patents discussed below describe the current state of the art.
In U.S. Pat. No. 4,815,414, a method is disclosed which utilizes an apparatus consisting of a compressed air supply connected to a powder feeder equipped with a powder bunker and a dosing device and a mixing chamber. The inlet of the mixing chamber is connected to the dosing feeder, and its outlet is connected to the group of accelerating nozzles via a distributing collector.
The method of the '414 Patent is limited in that it is capable of only producing powder coatings having small thickness, since the gas-powder jet directed to an article has the temperature nearly equal to the temperature of the environment. In this case the efficiency of this method is limited to the group of thermoplastic polymers, which are applied to an article at cold state. In order to achieve a better cohesion of powders with the surface, it is required to heat the article to the temperature of the melting point of the applied material. It makes this process considerably difficult to implement and limits its application. In addition, the utilization of a distributing collector in the apparatus inevitably causes unequal distribution of the gas-powder mixture between the nozzles. Furthermore redistribution of the main gas-carrier flow between the nozzles severely reduces the energy of the flow in each nozzle, which involves reduction of the discharge of the carried gas-powder mixture, and accordingly reduces the efficiency of the process.
In WTO Patent 91/19016, a method of applying powder coatings is disclosed comprising a heated gas-carrier flow, a powder selected from a group of metals, their blends and dielectrics, with the particle size 1-50 &mgr;m, mixing with a gas-carrier flow, where the generated gas-powder flow is accelerated inside a nozzle and then a supersonic jet of the preset profile is formed and directed to a surface. In this case the supersonic jet of the preset profile is generated by the way of linear gas expansion. The apparatus for implementing the above method contains a compressed air supply connected by a gas pipe with a heating unit; a mixing chamber is connected to the powder feeder equipped with a powder bunker and a dosing device. The inlet of the mixing chamber is connected to the intermediate nozzle, and its outlet to the accelerating nozzle.
The disadvantage of this method is that it is efficient only for the particles of the small size, in particular 1-50 &mgr;m. Generation of the preset profile of the gas-powder jet by the way of the linear expansion of the gas is reasonable only for the small size particles, since the unbalance of the profiles of the gas jet and powder parameters dramatically increases as the particles size increasing. Moreover, a problem with the prior art device is that small powder particles are quickly oxidized in active gas surrounding. Thus, when the gas jet temperature increases, the produced coatings have high-porous, heterogeneous and thermally stressed structure, which reduces the quality of the applied coating. Therefore, the generation of the preset profile of the gas-powder jet becomes no more efficient than the prior art. Further, generation of the profile of gas-powder jet by the way of linear expansion requires the accelerating nozzle of considerable length, within the limits of which particles of gas-powder jet are accelerated until their threshold value, at which particles deposit and cohere to an article. The increase of the size of the accelerating nozzle thereby causes the increase of the size of the apparatus itself, and therefore limits its application (e.g. in case of applying coatings to inner surface of articles).
Thus, there is a need in the art to provide improved method and apparatus of applying a coating of powder material with a wider range of particle sizes, improving the quality of the applied coating, and reducing the size of the spraying apparatus to allow for increased applicability.
SUMMARY OF THE INVENTION
The invention describes a method for applying to an article a coating of powder material from powder particles. The method comprises the steps of generating a first gas-carrier flow, entraining and mixing powder particles into the first gas-carrier flow, accelerating the generated gas-powder flow in the nozzle, generating a preset profile for the mixed gas-powder flow; generating a second gas-carrier flow, heating the second gas-carrier flow, generating a preset profile for the second gas-carrier flow, accelerating it in the nozzle, superimposing of the gas-powder flow over the second gas-carrier flow, and directing the superimposed flows to the article.
Independent generation and acceleration of the gas-powder and gas-carrier flows enables to shape profiles of gas and gas-powder flows due to their uniformity. And their following superimposition one over the other provides acceleration of the cumulative gas-powder jet, directed to an article, with a wide range velocity.
The above method is utilized by an apparatus consisting of a supply of compressed air connected to a heating unit; a mixing chamber is connected to a powder dosing feeder, equipped with a powder bunker and dosing equipment; the inlet of the mixing chamber is connected to the intermediate nozzle; an ejection cap and a nozzle unit, which has two accelerating nozzles. The accelerating nozzles are connected together so their outlet sections are in same plane, and the ejection cap is placed in the outlet of the nozzle unit. Each accelerating nozzle is equipped with a sprayer, capable of rotating in the sub-critical part of the nozzle. Furthermore the sprayer of the first accelerating nozzle is connected by the gas pipe to the outlet of the mixing chamber, and the sprayer of the second accelerating nozzle is connected to the compressed air supply via the heating unit.
In further embodiments, each accelerating nozzle is equipped with a profile-shaping plate fixed to the inner surface of the nozzle. It provides generation of the necessary profile of the gas-powder and gas-carrier flows at a small distance, essentially reducing the length of each accelerating nozzle.
REFERENCES:
patent: 3958758 (1976-05-01), Piorkowski
patent: 4815414 (1989-03-01), Duffy et al.
patent: 5302414 (1994-04-01), Alkhimov et al.
patent: 5876267 (1999-03-01), Kanda
patent: 6017591 (2000-01-01), Popoola et al.
patent: 6283386 (2001-09-01), Van Steenkiste et al.
Krysa Valery Korneevich
Mukhamedzyanov Aley Galeevich
Semenchenko Vladislav Kuzmich
Crispino Richard
Lee & Hong
Rus Sonic Technology, Inc.
Tadesse Yewebdar T.
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