TH69306B - Low-pressure, high-speed sprayer device - Google Patents

Abstract

------ 15/01/2018 ------ (OCR) page 1 of the number 1 page summary of application A nebulizer for atomizing liquids and discharging the resulting liquid. To flow in the gas stream has been revealed The spray device has a nozzle with an outlet that faces the refractor surface.The nozzle emits a stream of spray against the refractor surface. The spray device has a hose with exit holes. Next to the outlet of the nozzle The liquid is released from the hole and is made to flow through the gas stream. It is atomized. The method of operation of the spray device has also been revealed. The method consists of inducing a face between the outlet and the refractor surface. Bump at Two close to the surface of the refractor And the rhombus of the number of shocks in the current Liquid - gas released by the nebulizer ------------ A nebulizer for atomizing liquids and releasing the incoming liquid. Mixed with gas stream was revealed. The nebulizer has a spray mouth with an outlet facing the reflector surface.The spout allows a stream of gas to strike against the reflector surface. Spray device on pipes with holes The outlet is attached to the outlet of the spray mouth. The liquid is released from the cavity and is mixed with A stream of gas that has been aerosolized Methods for the spraying device work. Was revealed as well Methods include inducing the first impact line between the outlet and the Reflector surface, line of second impact is aligned with the reflector surface. And a quadrilateral The mortar of the small impact in the liquid-gas stream that is released by the spraying equipment.

Claims (6)

Disclaimer (all) which will not appear on the advertisement page. : ------ 15/01/2018 ------ (OCR) Page 1 of 7 pages. Disclaimer 1. Nebulization device for atomization and liquid discharge. Flowing into the gas stream The spray device can be connected in the interface of the A fluid with a pressurized source of such fluid And a pressurized source of such gas. A nozzle with an inlet and outlet and an open hole between the inlet and outlet has a diameter. Such entrances can be connected to the fluid coordination with Gas source with such pressurization The nozzle is separated from the nozzle and can be connected in the fluid interface. With such a pressurized liquid source Such pipes have exit holes that are separated from them and placed on them. With the nozzle outlet and the positioned refractive surface facing the nozzle outlet. Rancidity, surface refraction That are positioned relative to the spacing with the outlet of the said nozzle and with the The left surface, consisting of a flat surface, is positioned perpendicular to the nozzle, and the second surface, which consists of an angled surface, surrounds the flat surface. Such flat surface Song has a wet area, defined with a minimum diameter of approximately equal to The center line of the said exit. The liquid can be released from the hole and the gas It can be released from the said nozzle exit. The liquid was made flowing. The gas flows together with the gas and is then atomized, creating a liquid-gas stream that is refracted by The area is wet of the aforementioned refractive surface and flows straight outward. 2. The spray device according to claim 1 at the name of the aforementioned nozzle is a convergent nozzle. Rights No. 1 at the said exit diameter Between approximately 1/8 inch and approximately 1 inch 4. Nebulizer according to claim 1, where the hole is between approximately 1/32 inch and approximately 1/8 inch, page 2 of number 7 5. The nebulizer according to claim 1, where the surface of the deflector is spaced. There is a distance between approximately 1/10 inch and about 3/4 inch. 6. Spray device according to claim No. 1, where the exit holes are spaced from. There is a distance between approximately 1/64 inch and approximately 1/8 inch. 7. Spray device according to claim No. 1, where the nozzle is adjusted to operate. On a gas pressure range between approximately 29 psia and approximately 60 psia. 8. The spray device, according to claim 1, at which the hose is adjusted to operate on Proposition No. The fluid pressure is between approximately I psig and approximately 50 psig 9. The spray device according to claim 1, at such an angle, has a sweep back angle between approximately 15 degrees and approximately 45 degrees left. Measured on such a flat surface, 1 0. The nebulizer according to claim 1 also consists of one of the aforementioned outlet holes. 1. 1. The nebulizer for atomization and liquid discharge is discharged. Go in the gas stream The spray device can be connected in the fluid coordination interface. With a pressurized source of the said liquid And pressurized sources of such gas Repair the spray device The fuzz contains A nozzle with an inlet and outlet and an open hole between the inlet and outlet, the outlet has a diameter. Such entrances can be connected to the fluid coordination with Gas source with such pressurization The pipe is separated from the nozzle and can be connected to the fluid interface. With such a pressurized liquid source Such pipes have exit holes that are separated from them and placed on them. With the outlet of the said nozzle and page 3 of the number 7, the surface of the deflector is positioned facing the outlet of the said nozzle. Refractive surface That are positioned relative to the spacing with the outlet of the said nozzle and with the One surface, consisting of a flat surface, is positioned perpendicular to the nozzle, and a second surface, consisting of a curved surface, surrounds it. Such flat surface Which has a defined wet area with the least throttle diameter approx. Throttle through the aforementioned exit 1 2. Spray device according to claim 11 where the pipe is positioned to It is at a straight angle to the nozzle of the said 1 3. How the spray device works. The spray device consists of a nozzle with an open hole between the inlet that can be connected to the fluid interface with the Pressurized gas source and throttle outlet A pipe that can be connected in fluid co-ordination with a pressurized fluid source. A hose with an outlet hole arranged next to it. The refractor surfaces are allocated to face the said exit, spaced relative to each other. The deflector surface, which consists of a flat surface positioned perpendicular to the nozzle, a flat surface with a wet area, which is defined with a throttle diameter. The minimum is about equal to the throttle center of the exit. The method of the above contains The release of the said liquid from the hole. Emissions from the said gas exit. Such gases are supersonic. Causing an impact face between the said outlet and the aforementioned refractive surface where The gas is moving at a slower speed than the speed of sound. Then hit the affected area Such wet The second impact is close to the surface of the deflector. The gas that moves Through such wet areas And increase the speed to the supersonic speed between the pages Impact at the forefront of the second said And slow down after passing through the face The second such shock, page 4 of the number 7, causing the liquid to flow into the gas, at least one in front of the impact. This is done in order to induce the liquid-gas flow and the liquid-gas flow out of the spraying equipment. 1 4. Method of claim 13 consists of a wet rectangle. The mortar of the number of shocks in the liquid-gas stream from the spraying apparatus 1 5. Method of claim 13 consists of creating a gas stream that flows through the spraying device. Excessive expansion after the gas is released from the nozzle 1 6. Method of claim 13 consists of supplying gas to the said inlet at Pressure between approximately 29 psia and approximately 60 psia 1 7. The method of claim 13 consists of supplying liquid to such pipes at The pressure between approximately I psig and approximately 50 psig. 1. 8. The method of claim 13 also consists of the flow of the said liquid. The gas is close to the second shock. 1 9. Method of claim 13 also consists of allowing the liquid to flow. 2 0. Method of claim 13 where the liquid-gas flow is not separated. 2 1. The method of claim 13 consists of no sound energy emitting. The significance of the spray device, in addition to the sound of the gas stream, page 5 of the number 7, page 2 2. The method of claim 13 also consists of creating momentum in the current. 2 3. The method of claim 13 also consists of filing a liquid-gas stream. It is said at a velocity of approximately 1,200 ft / mm at approximately 18 inches from the spraying device. 2. 4. The method of claim 13 that also includes 1 liquid-gas filtration. It is said at a speed of 700 ft / mm at approximately 8 feet from the spray device. 2. 5. The method of claim 13 also consists of creating a flow pattern from Such a spray device with a predetermined aggregate angle by providing an angled portion of the body surface. 2. 6. Method for claim 13 consists of drawing liquid into the spray stream. This gas flows by means of a pressure difference between the pressure in the gas stream. 2 7. Method of claim 11 consists of the flow of the said liquid. In the jet stream flows the gas and makes the liquid a fine mist in the form of water droplets. The diameter of claim is less than 20 micrometers. 2 8. Method for claim 13 consists of emission of inert gas from the said outlet. 2. 9. The method of claim 13 consists of emission of inert gas mixture and. 3 0. Method of claim No. 29 where the mixture of the said gas consists of air, page 6 of the number 7, page 3 1. Method according to Article 29. Clause 13 also consists of pulling down the anaerobic layer of smoke. Into the gas that is released from the said outlet and causes that layer of smoke to flow with the stream. The liquid - gas of the spray device 3 2. How the spray device works. The spray device consists of a nozzle with an open hole between the inlet that can be connected to the fluid interface with the Pressurized gas source and diameter outlet. A pipe that can be connected in fluid co-ordination with a pressurized fluid source, such a pipe with an outlet hole arranged next to it. The refractor surfaces are allocated to face the said exit, spaced relative to each other. Such a refractor surface consists of a flat surface that is positioned perpendicular to the nozzle.Such flat surfaces where the wet surface is fixed with a Dissect The minimum is approximately equal to the said exit diameter. The method consists of The release of the said liquid from the hole. The emissions of the said gas from the said exit. This causes a gas stream to flow to expand. Too much leaves such a nozzle. Where the gas is supersonic. The impact of the gas stream flows onto the wet area. This allows the liquid to flow into the said gas in order to create the liquid-gas stream and the filing of the liquid-gas stream from the sprayer. 3 3. Methods of claim 32 also include: This causes an impact between the exit and the refractive surface in the gas chamber, slowing down from supersonic speed to slower than the speed of sound. Causing a second impact close to the surface of the deflector Such gases increase speed. It is supersonic between the shocks at the shocks and the second shocks, and slows down after passing through the second shocks and page 7 of the 7 pages, causing the liquid to flow in the gas. 3 4. The method of claim 32 also consists of the formation of a wet square. The mortar of the number of shocks in the liquid-gas stream from the spray device 3 5. The method of claim 32 also consists of the removal of the anaerobic layer of smoke. Into the gas that is released from the said outlet and causes that layer of smoke to flow with the stream. The liquid-gas of the sprayer ------------ 1. A spray device for atomizing and discharging the liquid into the gas stream. Continued in the coordination of fluid with The pressurized source of such liquid And pressurized sources of such gas Spray device Such includes A spray mouth with an inlet that can be connected in connection with a pressurized gas source. As mentioned with the exit; Pipes that can be connected in connection with such a pressurized liquid source. Such a pipe with an outlet hole positioned next to it; And reflector surface That was placed facing the said exit in the gap at In relation to the aforementioned reflector surfaces, the first surface is positioned perpendicular to the spout and the second surface attached to the first surface. And is placed in Not perpendicular to the said mouthpiece The liquid can escape from the mouth and the gas can be released from the mouthpiece outlet. The liquid is mixed. With the gas and is aerosolized, which creates a liquid-gas stream that hits it. On the surface of the aforementioned reflector and flows from there.2.Spray device according to claim 1, where the aqueous mouthpiece is a convergent spout 3. Which the aforementioned outlet has a diameter Between approximately 1/8 and approximately 1 inch 4. Sprayer according to claim 1, where the hole diameter is between approximately 1/32 and approximately 1/8 inch. 5. Sprayer equipment according to claim No. 1 where the reflector surface Such was omitted The gap from the exit with a distance of approximately 1/10 and approximately 3/4 inch. 6. Spray device according to claim 1, where the first surface consists of. The flat surface and the second surface consist of an angular surface surrounding the flat surface. 7. Spray device according to claim 6, where the flat surface has Its diameter is approximately equal to the diameter of the said outlet. 8. Spray device according to claim 6, where the angled surface has an arrow-shaped corner. Between approximately 15 degrees and approximately 45 degrees as measured from such a flat surface 9. The spraying device according to claim 1, where the first part consists of The flat surface and the second surface consists of a curved, notched, flat surface 1 0. Spray device according to claim 1, where the reflector surface. Such includes Closed-end vibrator with open end positioned face-to-face in relation to the outlet 1 1. Nebulizer according to claim 10, where the first surface is not scratched 1 2. Spray device according to claim 11, where the second surface is all around. The first surface part 1 3. The spray device according to claim 1, where the exit hole is left blank. From the exit with a distance of approximately 1/64 and approximately 1/8 inch 1 4. The spray device according to claim 1, where the mouthpiece was adjusted for operation. On a gas pressure range between approximately 29 psia and approximately 60 psia 1. 5. Spray device according to claim 1, where the hose is adjusted for operation on the Liquid pressure ranges between approx. 1 psig and approx. 50 psig 1 6. Sprayer equipment for atomizing and discharging liquids into the gas stream. The pressurized source of such liquid And pressurized sources of such gas Spray device It includes: a spray mouth with an inlet that can be connected in contact with a pressurized gas source. As mentioned with the exit; Pipes that can be connected in connection with such a pressurized liquid source. Such a pipe with an outlet hole positioned next to it; And reflector surface That is placed facing the said exit at a correlated gap, the reflector surface It is positioned where the line of the first impact occurs. Between the aforementioned outlet and the reflector surface and the line of the second impact is aligned. With reflector surface For a predetermined pressure of the said gas is supplied to Such spraying equipment And was released from the outlet of the spray mouth 1 7. The spray device according to claim 16, where the pipe is positioned and Orientate where the liquid released from the channel is mixed with the gas. Close to one of the lines of the impact. 1 8. Spray device according to claim 17, where the reflector surface. Such was placed Location where the rhombus of the shock occurs in the said liquid-gas stream 1 9. Spray device according to claim 17, where the hole is positioned. Relative to the said outlet to allow the liquid to be mixed with the said gas in close to 2 0. Spray device according to claim 17, where the pipe is positioned in the direction of A sharp angle is directed to the mouth of the spray to allow the liquid to be mixed with the gas. Close to the line of the first impact. 2 1. The spray device according to claim 16 consists of making the spray mouth size. As required to cause a gas stream that is enlarged more than usual from the mouthpiece for the 2. The spout device according to claim 16 also consists of making the spray mouth of a specified size, so the spout does not produce a significant noise other than sound. of Gas stream 2 3. Spray device according to claim 16, where the reflector surface is Part A flat surface that is positioned in the direction perpendicular to the said exit. And the surface part is the angle around The flat surface. The surface part is the angle that defines the composite angle of the flow pattern from The aforementioned spray equipment. 2 4. How the spray device works. The spray device consists of: a spray mouth with an inlet that can be connected to the fluid-to-gas interface. With pressure and outlet; Pipes that can be connected in fluid interlock with pressurized liquid sources. Such a pipe with an outlet hole arranged next to it; Reflector surface That were arranged to face such exits by relative spacing; The above methods consist of; The release of such liquid from the channel; Emissions of the said gas from the said exit; Induction of the line of the first impact between the outlet and the reflector surface; Induction of the second impact line closer to the reflector surface; Mixing the liquid with the gas to create a liquid-gas stream; And spraying the liquid-gas stream from the aforementioned spray device. 2 5. Method of claim No. 24 consists of creating a rectangular wet shape. The mortar of the bulk of the shock in the liquid-gas stream from the aforementioned spraying equipment. 2 6. The method of claim 24 consists of the creation of an extended gas stream. 2 7. Method of claim No. 24 consists of supplying gas to the said entrance at Pressure between approximately 29 psia and approximately 60 psia 2. 8. The method of claim 24 consists of supplying fluid to such pipes at Pressure between approximately 1 psig and approximately 50 psig 2. 9. Method for claim 24 also consists of mixing the liquid with The gas is aligned with the second shock line. 3 0. The method of claim 24 consists of mixing the liquid with The gas is aligned with the line of the first impact. 3. 1. Method of claim 24, where the liquid-gas flows are not separated. 3 2. The method of claim 24 consists of no significant sounding from Spraying equipment, in addition to the sound of the gas stream. 3. 3. Method of claim 32, where the spray noise has a frequency component of not more than 6 kilohertz. 3 4. Method according to clause. Article 24 consists of creating momentum in the flow. 3 5. Method according to claim 34, where the liquid-gas flow at a speed of approximately 1,200 feet / minute at a distance of approximately 18 inches from the nebulizer. Claim No. 35, where the liquid-gas stream has a speed of 700 feet / minute at approximately 8 feet from the sprayer 3 7. The method of claim 24 also includes a pattern. Flow from The spray device has a predetermined angle by providing an angled portion of the reflector surface. 3 8. The method of claim 24 consists of the gradual drawing of liquid into the nebulizer. The gas jet stream is made by using a pressure difference between the pressure in the gas jet stream. 3. 9. Method of claim No. 24 consists of mixing the said liquid into the atmosphere. The gas stream rises and makes the liquid a fine droplets of water. Diameter less than 20 micrometers 4 0. Method for claim 24 consists of a gradual removal of the smoke layer without Oxygen enters the gas stream. And mix the smoke layer with the liquid-gas stream Of the aforementioned spray device 4 1. Method according to claim 24 consists of emission of inert gas from the said exit 4. 2. Method for claim 24 consists of emission of inert gas mixture and A chemically active gas from the said outlet 4 3. Method according to claim 42, where the said gas mixture consists of air 4. 4. How the spray device works. The spray device consists of: a spray mouth with an inlet that connects the fluid with a gas source. Pressure and outlet; Pipes capable of connecting fluid coupling with pressurized liquid sources. Such a pipe with an outlet hole arranged next to it; Reflector surface That were arranged to face such exits at relative distance; The above methods consist of; The release of such liquid from the channel; The emissions of the said gas from the said exit. Causing an expanding gas stream More than usual from the mouth to spray it; Mixing the liquid with the gas to create a liquid-gas stream; And the spraying of the liquid-gas stream from the spray device 4 5. The method of claim 44 also includes: Induction of the line of the first impact between the said exit and the reflector surface; Induction of the second impact line closer to the reflector surface; The mixing of the liquid in the gas is closer to one of the strokes of the first shock. And the second as mentioned 4 6. The method of claim 44 also consists of creating a quadrilateral. The mortar of numerous bumps in the liquid-gas stream from such a spray device.