Claims
- 1. The system for coating a work piece with particulate coating material comprising:
- means includng a chamber for producing hot gases within the chamber, the chamber having an open outlet for directing the hot gases against the work piece,
- an elongated tape having a predetermined quantity of particulate coating material encapsulated therein per unit length of the tape, and
- stripping means outside the chamber for stripping the particulate material from the tape outside the chamber and then pneumatically transporting and injecting the particulate material into the chamber whereby the particulate materials will be heated by the gases in the chamber and accelerated by the gases escaping through the outlet and impacted against the surface of the work piece.
- 2. The system of claim 1 wherein
- the elongated tape forms a plurality of discrete capsules each containing a predetermined quantity of particulate material,
- the means including the chamber produces a series of pressure pusles within the chamber which causes the hot gases to exit through the outlet opening,
- the stripping means includes
- an inlet manifold having an inlet port and an outlet manifold having an outlet port communicating with the chamber for sequentially forming a seal around each of capsules when the tape is clamped between the manifolds,
- a source of pneumatic pressure greater than the maximum pressure reached in the chamber,
- first valve means between the source of pneumatic pressure and the inlet port for applying a pneumatic pulse to the inlet port whereby the pneumatic pulse will pass through the capsule and inject the particulate material into the chamber, and
- control means for operating the valve to apply the pulse of pneumatic pressure to the inlet port in a predetermined time relationship to the pressure pulses produced in the chamber such that particulate material is injected into the chamber during each pressure pulse.
- 3. The system of claim 2 wherein:
- the chamber is a combustion chamber, and further characterized by
- means for feeding a combustible mixture to the combustion chamber comprising means for producing a combustible fuel-air mixture and second valve means for introducing the fuel-air mixture to the combustion chamber,
- means for igniting the combustible mixture, and wherein
- the control means opens the second valve means to charge the combustion chamber with a fuel-air mixture, ignites the fuel-air mixture as the second valve means closes, and opens the first valve means to inject the particulate material into the combustion chamber while the pressure in the chamber is near the maximum pressure resulting from combustion.
- 4. The system of claim 3 wherein:
- the combustion chamber is generally spherical and the outlet opening is a nozzle having a diameter that is small compared to the diameter of the combustion chamber,
- the outlet port of the outlet manifold comprises an elongated tube extending into the interior of the combustion chamber, and
- the end of the tube may be adjustably positioned relative to the outlet opening to control the period of time the particulate material is heated by the gases of combustion.
- 5. The system of claim 1 wherein:
- the chamber is of the type which produces a continuous stream of hot gases passing through the outlet, and
- the stripping means includes means for progressively moving the elongated tape to the stripping station and for progressively pneumatically stripping the particulate material from the tape to thus continuously inject the particulate material into the chamber at a uniform rate.
- 6. The system of claim 5 wherein the stripping means includes means for mechanically progressively opening the elongated tape before the particulate material is progressively pneumatically stripped from the tape.
- 7. The system of claim 6 wherein the elongated tape is comprised of at least two film strips and the means for mechanically opening the tape comprising means for separating two film strips.
- 8. The system of claim 6 wherein the means for mechanically opening the tape comprises means for cutting the tape as the tape is progressively moved to the stripping station.
- 9. The system of claim 6 wherein the means for mechanically opening the tape comprises means for distorting and bursting the tape.
- 10. Apparatus for injecting particulate coating material into the heated gases of a system for coating a work piece with particulate material having means for heating the gases and directing the heated gases as a high velocity stream against a work piece which comprises:
- an elongated tape having a predetermined quantity of particulate coating material encapsulated therein per unit length of the tape, and
- stripping means outside the heated gases for stripping the particulate material from the tape and pneumatically injecting the particulate material into the heated gases by means of a carrier gas whereby the particulate materials will be heated and accelerated by the heated gases as the heated gases are directed against the work piece.
- 11. The apparatus of claim 10 wherein:
- the elongated tape forms a pluality of discrete capsules each containing a predetermined quantity of particulate material, and
- the stripping means includes
- an inlet manifold having an inlet port and an outlet manifold having an outlet port for communicating with a chamber through which the hot gases pass for sequentially forming a seal around each of the capsules when the tape is clamped between the manifolds,
- a source of pneumatic pressure greater than the pressure in the chamber, and
- first valve means for applying a pulse of gas from the pneumatic pressure source to the inlet port whereby the pulse of gas will pass through the capsule and act as a carrier gas to inject the particulate material into the heated gases.
- 12. The system of claim 10 wherein:
- the stripping mens includes means for continuously and progressively moving the elongated tape to the stripping station and for progressively pneumatically stripping the particulate material from the tape for substantially continuously injecting the particulate material into a continuous heated gaseous stream.
- 13. The system of claim 12 wherein the stripping means includes means for mechanically progressively opening the elongated tape before the particulate material is progressively pneumatically stripped from the tape.
- 14. The system of claim 13 wherein the elongated tape is comprised of at least two film strips and the means for mechanically opening the tape comprising means for separating two film strips.
- 15. The system of claim 13 wherein the means for mechanically opening the tape comprises means for cutting the tape as the tape is progressively moved to the stripping station.
- 16. The system of claim 13 wherein the means for mechanically opening the tape comprises means for distorting the tape until it bursts open.
- 17. The system for coating a work piece with particulate coating material contained in an elongated tape having a predetermined quantity of particulate coating material encapsulated therein per unit length of the tape, comprising:
- a chamber for producing hot gases having an open outlet for directing the hot gases against the work piece,
- a stripping station outside the chamber,
- means for feeding the tape to means stripping station at a controlled rate, and
- stripping mens at the stripping station for stripping the particulate material from the tape entraining the particulate material in a carrier gas stream, and injecting the carrier gas stream and particulate material entrained therein into the chamber whereby the particulate materials will be heated and accelerated by the hot gases escaping through the outlet and impacted against the surface of the work piece.
- 18. The system of claim 17 wherein the elongated tape forms a plurality of discrete capsules each containing a predetermined quantity of particulate material, and
- the stripping means comprises:
- an inlet manifold having an inlet port and an outlet manifold having an outlet port communicating with the chamber for sequentially forming a seal around each of capsules when the tape is clamped between the manifolds,
- a source of pneumatic pressure greater than the pressure in the chamber, and
- first valve means for applying a pulse of gas from the pneumatic pressure source to the inlet port whereby the pulse of gas will pass through the capsule to entrain the particulate material and act as a carrier gas to inject the particulate material into the chamber.
- 19. The system of claim 18 wherein the chamber is a combustion chamber, and further characterized by:
- means for feeding a combustible mixture to the combustion chamber comprising means for producing a combustible fuel-air mixture and second valve means for introducing the fuel-air mixture to the combustion chamber,
- means for igniting the combustible mixture, and
- control means for opening the second valve means to charge the combustion chamber with a fuel-air mixture, igniting the fuel-air mixture as the second valve means closes, and opening the first valve means to inject the carrier gas and the particulate material entrained therein into the combustion chamber while the pressure in the chamber is near the maximum pressuring resulting from combustion.
- 20. The system of claim 19 wherein:
- the combustion chamber is generally spherical and the outlet opening is a nozzle having a diameter that is small compared to the diameter of the combustion chamber,
- the outlet port of the outlet manifold comprises an elongated tube extending into the interior of the combustion chamber, and
- the end of the tube may be adjustably positioned relative to the outlet opening to control the period of time the particulate material is heated by the gases of combustion.
- 21. The system of claim 17 wherein:
- the chamber is of the type which produces a continuous stream of hot gases passing through the outlet, and
- the stripping means include means for continuously and progressively moving the elongated tape to the stripping station and for progressively pneumatically stripping the particulate material from the tape and entraining the particulate material in a continuous carrier gas stream to thus continuously inject the particulate material into the chamber at a uniform rate.
- 22. The system of claim 21 wherein the stripping means includes:
- means for mechanically progressively opening the elongated tape before the particulate material is progressively pneumatically stripped from the tape.
- 23. The system of claim 22 wherein the elongated tape is comprised of at least two film strips and the means for mechanically opening the tape comprises:
- means for separating the two film strips.
- 24. The system of claim 22 wherein the means for mechanically opening the tape comprises:
- means for cutting the tape as the tape is progressively moved to the stripping station.
- 25. The system of claim 22 wherein the means for mechanically opening the tape comprises means for distorting and bursting the tape.
- 26. Apparatus for injecting particulate coating material from an elongated tape having a predetermined quantity of particulate coating material encapsulated therein per unit length of the tape into the hot gas stream of a system for coating a work piece with particulate material having a chamber for producing hot gases which escape through an outlet opening at high velocity, said injecting apparatus comprises:
- a stripping station outside the chamber,
- means for feeding the elongated tape to the stripping station at a controlled rate, and
- stripping means for stripping the particulate material from the tape and entraining the particulate material in a carrier gas stream and then injecting the carrier gas stream and the particulate material entrained therein into the chamber whereby the pneumatic stream and particulate materials will be mixed with the hot gas stream and the particulate material will be heated and accelerated by the hot gases escaping through the outlet and impacted against the surface of the work piece.
- 27. The apparatus of claim 26 wherein the elongated tape forms a plurality of discrete capsules each containing a predetermined quantity of particulate material, and the stripping means comprises:
- an inlet manifold having an inlet port and an outlet manifold having an outlet port communicating with the chamber for sequentially forming a seal around each of the capsules,
- a source of pneumatic pressure greater than the pressure in the chamber, and
- first valve means for applying a pulse of gas from the pneumatic pressue source to the inlet port whereby the pulse of gas will pass through the capsule to entrain the particulate material and act as a carrier gas to inject the particulate material into the chamber.
- 28. The system of claim 26 wherein the means for feeding the elongated tape to the stripping station feeds the tape uninterruptively, and the stripping means progressively strips the particulate material from the tape and the carrier gas continuously injects the particulate material into the chamber.
- 29. The system of claim 28 wherein the stripping means includes means for mechanically progressively opening the elongated tape before the particulate material is progressively pneumatically stripped from the tape.
- 30. The system of claim 29 wherein the elongated tape is comprised of at least two film strips and the means for mechanically opening the tape comprising means for separating the two film strips.
- 31. The system of claim 29 wherein the means for mechanically opening the tape comprises means for cutting the tape as the tape is progressively moved to the stripping station.
- 32. The system of claim 29 wherein the means for mechanically opening the tape comprises means for distorting the tape until the tape bursts open.
Parent Case Info
This is a division of application Ser. No. 458,898, filed Apr. 8, 1974. now abandoned.
US Referenced Citations (8)
Divisions (1)
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Number |
Date |
Country |
Parent |
458898 |
Apr 1974 |
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