RU96100549A - PARTICLE CATCHER FOR PNEUMATIC TOOL - Google Patents

Claims (11)

1. A converter receiving a gas supply under gas pressure and an electric control input signal for issuing an adjustable pneumatic output as a function of an electric control input signal, characterized in that it comprises a housing with a channel formed therein, which has an inlet for receiving at least gas supply parts under pressure and an outlet, a gas regulator including a regulator nozzle for receiving gas from the outlet and a biased deflector responsive to electrical control yayuschy input and cooperating with the regulator nozzle to provide the regulated pneumatic output, and a particle trap disposed in the channel and including a trap plate and a trap nozzle, the trap nozzle directing gas to provide the catcher plate.  2. The Converter according to claim 1, characterized in that the nozzle of the trap is made of such a size as to separate unwanted trapped particles from the gas by depositing them on the trap plate in order to reduce the number of particles reaching the gas regulator.  3. The Converter according to claim 1, characterized in that the nozzle of the regulator has an outlet with a first cross-sectional area, and the trap nozzle has an outlet with a second cross-sectional area, the second area being 1 to 2 times the first area.  4. The Converter according to claim 1, characterized in that the particle trap includes a liner located in the channel and including a trap nozzle, the channel including a first hole and a second hole that is wider than the first hole, the housing includes a shoulder between the first and second holes, the trap nozzle is at least partially located in the first hole, and the trap plate is pressed against the shoulder.  5. The Converter according to claim 4, characterized in that the trap plate is made with the possibility of removal from the housing.  6. The Converter according to claim 4, characterized in that the trap plate is x-shaped.  7. The Converter according to claim 4, characterized in that the liner further comprises a flange pressed against the shoulder, and a sleeve connecting the flange to the trap nozzle.  8. The Converter according to claim 1, characterized in that the particle trap further comprises a trap nozzle matrix including a trap nozzle and having a plurality of trap nozzle outlets, wherein the plurality of outlet traps of the trap nozzle have a total first area and the regulator nozzle has an outlet with a second area, while the total first area is 1 - 2 times larger than the second area.  9. The converter according to claim 1, characterized in that the housing has a second channel connected to the first channel through a connection element, and the pneumatic output has the ability to control the gas pressure in the second channel, the biased deflector interacts with the regulator nozzle to change the gas pressure in the second channel and thereby changing the pneumatic stroke of the transducer, and said connecting element is located between the trap nozzle and the regulator nozzle, while the trap nozzle has dimensions that ensure its function ation as a flow limiter.  10. A converter that receives a gas supply under pressure and an electric control input signal for issuing an adjustable pneumatic output as a function of an electric control input signal, characterized in that it comprises a housing with a channel formed therein, which has an inlet for receiving at least a portion gas supply under pressure and an outlet, a gas regulator, including a regulator nozzle for receiving gas from the outlet and a biased deflector responsive to electrical control th input and cooperating with the regulator nozzle to provide the regulated pneumatic output dispensing surface catcher nozzle and the catcher, arranged in the channel and guiding the gas to the surface of the catcher.  11. The Converter according to claim 10, characterized in that the trap nozzle is positioned relative to the surface of the trap and is sized to separate unwanted trapped particles from the gas by depositing them on the surface of the trap to reduce the number of particles reaching the gas regulator.