Claims
- 1. A modular jet spray device for producing a spray of carbon dioxide snow for cleaning submicron sized particles and molecular films, said device comprising:
- a valve body having first and second ends and a gas input for receiving a CO.sub.2 cleaning agent and having a generally circular cross section and a hole extending axially therethrough, and wherein the valve body comprises:
- a first.sub.-- relatively large internally threaded coupling adjacent one end to which the sleeve assembly is secured;
- an orifice disposed through a wall of the valve body that provides an inlet for the CO.sub.2 cleaning agent;
- a second relatively small diameter internally threaded coupling adjacent the center of the valve body that mates with the jet spray nozzle;
- a hole adjacent the other end of the valve body that is larger in diameter than the second threaded coupling; and
- a compression seal disposed at the end of the valve body that seals the nozzle to the valve body;
- a jet spray nozzle removably secured to the first end of the valve body and comprising an inlet orifice and an output orifice;
- a sleeve assembly removably secured to the second end of the valve body;
- a needle assembly removably secured to the sleeve assembly and having a needle that inserts into the inlet orifice of the nozzle;
- a micrometer removably secured to the sleeve assembly distal from the valve body and coupled to the needle assembly for adjusting the position of the needle relative to the inlet orifice of the jet spray nozzle; and
- a CO.sub.2 gas source coupled to the gas input of the valve body.
- 2. The device of claim 1 further comprising a filter coupled between the CO.sub.2 gas source and the gas input of the valve body.
- 3. The device of claim 1 wherein the jet spray nozzle comprises an elongated tube having an axial hole disposed therethrough that tapers to form the inlet orifice at one end thereof, and wherein the axial hole forms the output orifice at an end of the nozzle opposite the inlet orifice, and wherein the jet spray nozzle comprises a threaded coupling disposed adjacent the inlet orifice that mates with the threaded coupling in the valve body.
- 4. The device of claim 1 wherein the needle assembly comprises:
- a relatively small cross section solid body that is pointed at one end to form a needle;
- a threaded coupling disposed adjacent its center that is larger than the nominal diameter of the body that is used to mate with an internal threaded coupling in the sleeve assembly;
- a sealing section that comprises a relatively large diameter portion of the body that has a plurality of O-rings disposed in grooves formed in the sealing section, which O-rings form a needle shaft seal between the needle assembly and the sleeve assembly.
- 5. The device of claim 1 wherein the sleeve assembly comprises: a body having an axial hole therethrough into which the needle assembly is inserted;
- an internal threaded coupling disposed within the axial hole that mates with a threaded coupling of the needle assembly;
- an outer threaded coupling that mates with threaded coupling of the valve body;
- a shoulder for limiting insertion of the sleeve assembly into the valve body; and
- a second outer threaded coupling to which the micrometer is secured.
BACKGROUND
The present invention was developed under Contract No. N00030-93-C-0002 awarded by the Department of the Navy. The U.S. government has certain rights in this invention.
US Referenced Citations (4)
Foreign Referenced Citations (2)
Number |
Date |
Country |
0288263 |
Oct 1988 |
EPX |
0590495 |
Apr 1994 |
EPX |