US20190270181A1 - Vapor blast system with fixed pot pressure - Google Patents
Vapor blast system with fixed pot pressure Download PDFInfo
- Publication number
- US20190270181A1 US20190270181A1 US16/419,383 US201916419383A US2019270181A1 US 20190270181 A1 US20190270181 A1 US 20190270181A1 US 201916419383 A US201916419383 A US 201916419383A US 2019270181 A1 US2019270181 A1 US 2019270181A1
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- United States
- Prior art keywords
- water
- pressure
- flow
- blast
- line
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- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Abandoned
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B24—GRINDING; POLISHING
- B24C—ABRASIVE OR RELATED BLASTING WITH PARTICULATE MATERIAL
- B24C7/00—Equipment for feeding abrasive material; Controlling the flowability, constitution, or other physical characteristics of abrasive blasts
- B24C7/0007—Equipment for feeding abrasive material; Controlling the flowability, constitution, or other physical characteristics of abrasive blasts the abrasive material being fed in a liquid carrier
- B24C7/0015—Equipment for feeding abrasive material; Controlling the flowability, constitution, or other physical characteristics of abrasive blasts the abrasive material being fed in a liquid carrier with control of feed parameters, e.g. feed rate of abrasive material or carrier
- B24C7/0023—Equipment for feeding abrasive material; Controlling the flowability, constitution, or other physical characteristics of abrasive blasts the abrasive material being fed in a liquid carrier with control of feed parameters, e.g. feed rate of abrasive material or carrier of feed pressure
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B08—CLEANING
- B08B—CLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
- B08B3/00—Cleaning by methods involving the use or presence of liquid or steam
- B08B3/02—Cleaning by the force of jets or sprays
- B08B3/022—Cleaning travelling work
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B08—CLEANING
- B08B—CLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
- B08B5/00—Cleaning by methods involving the use of air flow or gas flow
- B08B5/02—Cleaning by the force of jets, e.g. blowing-out cavities
- B08B5/023—Cleaning travelling work
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B24—GRINDING; POLISHING
- B24C—ABRASIVE OR RELATED BLASTING WITH PARTICULATE MATERIAL
- B24C7/00—Equipment for feeding abrasive material; Controlling the flowability, constitution, or other physical characteristics of abrasive blasts
- B24C7/0007—Equipment for feeding abrasive material; Controlling the flowability, constitution, or other physical characteristics of abrasive blasts the abrasive material being fed in a liquid carrier
- B24C7/0038—Equipment for feeding abrasive material; Controlling the flowability, constitution, or other physical characteristics of abrasive blasts the abrasive material being fed in a liquid carrier the blasting medium being a gaseous stream
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B24—GRINDING; POLISHING
- B24C—ABRASIVE OR RELATED BLASTING WITH PARTICULATE MATERIAL
- B24C7/00—Equipment for feeding abrasive material; Controlling the flowability, constitution, or other physical characteristics of abrasive blasts
- B24C7/0084—Equipment for feeding abrasive material; Controlling the flowability, constitution, or other physical characteristics of abrasive blasts the abrasive material being fed in a mixture of liquid and gas
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B08—CLEANING
- B08B—CLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
- B08B2230/00—Other cleaning aspects applicable to all B08B range
- B08B2230/01—Cleaning with steam
Definitions
- Vapor blast systems use a mixture of air, water, and an abrasive media—such as garnet or walnut shells—to provide the desired surface treatment.
- Vapor blast systems often include a pump and a pressure vessel containing an abrasive media having a density greater than water. Pumping water to the pressure pot pressurizes it and allows the abrasive media and water to mix. The pressurized media and water mixture is then plumbed into a conduit of a high flowing air stream to mix the two streams before expelling the mixture from a hose and nozzle.
- the pressure inside the pressure pot must be higher than the pressure in the air stream.
- Existing designs need the user to set the pressure in the air stream and to set the pressure in the pressure pot. Users typically set a desired air stream pressure and then have to set the pressure pot pressure. If the differential is too low, there will be no influx of the media and water mixture into the air stream, or there could be a backflux of air into the pressure pot.
- a blasting system includes a pressure vessel, a water line extending from a water source and connected to the pressure vessel, a water pump disposed on the water line, a water regulator disposed on the water line, and a blast line.
- the pressure vessel is configured to house a blast media and water mixture.
- the water line provides water to the pressure vessel.
- the water pump drives a flow of water from the water source to the pressure vessel.
- the water regulator is configured to receive the flow of water and to output a pressure regulated water flow having a regulated flow pressure.
- the regulated flow pressure pressurizes the pressure vessel to a pressure vessel pressure.
- the blast line conveys a compressed air flow at an air pressure, and the compressed air flow is configured to receive a flow of the media and water mixture from the pressure vessel.
- the pressure vessel pressure is greater than the air pressure.
- a method of blasting a substrate with a media includes regulating a water flow pressure with a water regulator to generate a regulated water flow, pumping the regulated water flow to a pressure vessel to pressurize the pressure vessel to a pressure vessel pressure having a fixed pressure point, compressing an air stream to a blast pressure and flowing the air stream through a blast line and to a blasting apparatus, and flowing media and water from the pressure vessel and into the air stream within the blast line and applying the combined flow of media, water, and air to a substrate.
- the blast pressure is within a range between a minimum blast pressure and a maximum blast pressure.
- the fixed pressure point is greater than the maximum blast pressure.
- a vapor blast assembly includes a pressure vessel mounted to a support structure, an enclosure mounted to the support structure, and a water regulator disposed within the enclosure and configured to generate a regulated water flow.
- the enclosure is configured to receive a flow of compressed air from a compressed air source, to receive a flow of water from a water source and to provide the regulated water flow to the pressure vessel, to receive a combined flow of media and water from the pressure vessel, and to output a combined flow of compressed air, water, and media.
- a regulated water flow pressure maintains a pressure vessel pressure above a compressed air pressure such that a pressure differential between the pressure vessel pressure and the compressed air pressure drives the combined flow of media and water into the flow of compressed air to generate the combined flow of compressed air, water, and media.
- FIG. 1 is a schematic view of a vapor blast system.
- FIG. 2A is a side elevation view of a vapor blast assembly.
- FIG. 2B is a front elevation view of the vapor blast assembly of FIG. 2A .
- FIG. 3A is a hose side facing isometric view of an enclosure.
- FIG. 3B is a control side facing isometric view of the enclosure of FIG. 3A .
- FIG. 3C is a schematic view showing tubing connections within the enclosure of FIG. 3A .
- FIG. 1 is a schematic view of vapor blast system 10 .
- Vapor blast system 10 includes compressor 12 , air supply line 14 , system line 16 , manifold line 18 , water pump 20 , water regulator 22 , water inlet line 24 , pumped water line 26 , selector valve 28 , pressurizing line 30 , accessory line 32 , pressure vessel 34 , media line 36 , blast line 38 , and applicator 40 .
- Air supply line 14 extends from compressor 12 and receives compressed air from compressor 12 .
- System line 16 extends from air supply line 14 and to water pump 20 to provide compressed air to water pump 20 to power water pump 20 .
- Manifold line 18 extends from air supply line 14 and to blast line 38 .
- Blast line 38 extends from manifold line 18 and to applicator 40 .
- Water inlet line 24 is connected to water pump 20 .
- Water pump 20 is also connected to pumped water line 26 and drives water downstream through water regulator 22 and pumped water line 26 .
- Water regulator 22 is connected to pumped water line 26 , and pumped water line 26 extends to selector valve 28 .
- Pressurizing line 30 and accessory line 32 extend from selector valve 28 .
- Accessory line 32 extends to an accessory, such as a rinse hose.
- Pressurizing line 30 extends from pumped water line 26 and to pressure vessel 34 .
- Media line 36 extends from pressure vessel 34 and intersects manifold line 18 .
- Pressure vessel 34 contains a blast mixture, comprised of media and water, which is applied to a substrate to remove a coating from the substrate and to condition the substrate for future coating applications.
- the media may be of any suitably abrasive material such as walnut shells, crushed glass, garnet, or any other heavier-than-water particulate, and may be applied to any desired substrate, such as wood, concrete, and steel, to clean the substrate.
- Compressor 12 provides compressed air to air supply line 14 .
- a blasting air portion of the compressed air flows through manifold line 18 , downstream past the intersection of manifold line 18 and media line 36 , and through blast line 38 to applicator 40 .
- a system air portion of the compressed air flows through system line 16 and is provided to water pump 20 .
- the system air portion of the compressed air flows through system line 16 and to water pump 20 to power water pump 20 .
- Water pump 20 draws water from a water source (not shown) through water inlet line 24 and drives the pumped water flow downstream through pumped water line 26 .
- the pumped water is driven through water regulator 22 and continues downstream through pumped water line 26 and to selector valve 28 . While water regulator 22 is shown downstream of water pump 20 , it is understood that water regulator 22 may be at any desired position downstream of water pump 20 and before pressure vessel 34 , such as on pumped water line 26 between water pump 20 and selector valve 28 or on pressurizing line 30 downstream of selector valve 28 .
- Water regulator 22 regulates a water pressure of any water pumped downstream of water pump 20 through water regulator 22 .
- water pump 20 draws water through water inlet line 24 and pumps the pumped water downstream at a pumped water pressure higher than a maximum blast air pressure required for vapor blast system 10 operation.
- Water regulator 22 generates a regulated water flow, having a fixed water pressure, such that a pressure downstream of water regulator 22 is fixed.
- the regulated water flow flows downstream from water regulator 22 through pumped water line 26 and to selector valve 28 .
- Selector valve 28 directs the regulated water to pressurizing line 30 and accessory line 32 .
- Accessory line 32 provides the regulated water to an accessory, such as a rinse hose.
- Pressurizing line 30 provides the regulated water to pressure vessel 34 .
- the regulated water enters pressure vessel 34 through pressurizing line 30 . Because the regulated water has the fixed water pressure flowing the regulated water to pressure vessel maintains a fixed pot pressure within pressure vessel 34 .
- the blast mixture disposed within pressure vessel 34 exits pressure vessel 34 through media line 36 , and flows through media line 36 to manifold line 18 .
- the blast mixture enters manifold line 18 through media line 36 and is combined with the blast air portion in manifold line 18 to generate an applicator flow.
- the blast air portion carries the blast mixture downstream to blast line 38 , and downstream through blast line 38 to applicator 40 .
- the applicator flow is then accelerated through applicator 40 , such as by flowing the mixture through a nozzle, and applied to a substrate.
- the media impacts the substrate and is configured to remove material, such as paint, from the substrate and to condition the substrate for subsequent application of material to the substrate.
- pressure vessel 34 During operation, media and water are loaded into pressure vessel 34 to generate the blast mixture, and pressure vessel 34 is sealed. Compressor 12 is activated, and the system portion of compressed air flows to water pump 20 through system line 16 to power water pump 20 . With water pump 20 powered, water pump 20 drives the pumped water downstream through pumped water line 26 and water regulator 22 , and water regulator 22 outputs the regulated water flow. The regulated water flow flows downstream to selector valve 28 , and selector valve 28 directs the regulated water flow through pressurizing line 30 and into pressure vessel 34 . Because the regulated water flow has a fixed water pressure, the fixed water pressure pressurizes pressure vessel 34 to a fixed pot pressure, with the fixed pot pressure being controlled by the fixed water pressure.
- applicator 40 With pressure vessel 34 loaded and pressurized, applicator 40 is triggered and air supply line 14 is able to provide the blast air portion of compressed air to manifold line 18 . Because the fixed pot pressure is greater than the maximum blast air pressure, the blast mixture exits pressure vessel 34 through media line 36 and flows to manifold line 18 . In addition to opening air supply line 14 , triggering applicator 40 causes media line 36 to open such that the blast mixture may flow from pressure vessel 34 and to manifold line 18 through media line 36 . A pressure differential between the blast air portion flowing through manifold line 18 and the fixed pot pressure causes the media and water mixture to flow from pressure vessel 34 and into manifold line 18 .
- the pressure differential must be maintained such that the fixed pot pressure is higher than the blast air pressure. If the pot pressure is below the blast air pressure, then the blast mixture would be prevented from entering manifold line 18 due to the higher blast air pressure.
- the regulated water continues to flow to pressure vessel 34 to maintain a pot pressure above the blast air pressure. With applicator 40 triggered, the pot pressure will drop to a level proximate the blast air pressure, but the regulated water continues to flow to pressure vessel 34 to replace the blast mixture flowing out of pressure vessel 34 and to continue pressurizing pressure vessel 34 . As such, the regulated water maintains the pot pressure higher than the blast air pressure regardless of the level that the blast air pressure is set.
- Water regulator 22 maintains the fixed pot pressure higher than the maximum blast air pressure. In addition, water regulator 22 maintains the pot pressure greater than the operational blast air pressure during operation. Water regulator 22 may be set to output regulated water at a fixed water pressure point, dependent on the dimensions and particular arrangement of the components of vapor blast system 10 , such that the fixed water pressure point is always higher than the maximum blast air pressure. More specifically, water regulator 22 is configured to maintain the fixed pot pressure safely above the maximum blast air pressure, and to maintain the pot pressure above the blast air pressure during operation. In this way, water regulator 22 thereby ensures that the pressure differential causes the blast mixture to flow into manifold line 18 from pressure vessel 34 .
- Water regulator 22 maintaining the fixed pot pressure provides significant advantages. Utilizing water regulator 22 eliminates a step in the setup process, whereby the user was required to set the pot pressure and compare the pot pressure against the blast air pressure to discern whether the differential was sufficient. Water regulator 22 instead ensures that the pot pressure will be sufficiently high for vapor blast system 10 operation, thereby allowing the user to set the desired blast air pressure without being concerned about the pot pressure and eliminating potential user error and a time-consuming step. Moreover, positioning water regulator 22 downstream of water pump 20 further eliminates user misconceptions, as water regulator 22 will dampen any pressure fluctuations that may occur due to water pump 20 changing stroke or the inherent differential between an upstroke and a downstroke.
- water regulator 22 further provides a consistent blast mixture flow, because the pot pressure will be maintained at a steady pressure throughout the blasting process. Providing a steady blast mixture flow increases the consistency of the blast pattern, which improves the consistency of the surface finish created by the media blasting on the substrate. Water regulator 22 also thereby eliminates misconceptions of poor blasting performance due to the user observing natural fluctuations in the pot pressure and interpreting the fluctuations as malfunctions or errors. Instead, water regulator 22 maintains the pot pressure at a steady pressure relative to the blast pressure during blasting, and at the fixed pot pressure when vapor blast system 10 idles.
- FIG. 2A is a side elevation view of vapor blast system 10 .
- FIG. 2B is a front elevation view of vapor blast system 10 .
- FIGS. 2A and 2B are substantially similar and will be discussed together.
- Vapor blast system 10 includes air supply line 14 , water inlet line 24 , pressure vessel 34 , media line 36 , blast line 38 , frame 42 , enclosure 44 , and pot pressure gauge 46 .
- Pressure vessel 34 includes pressure pot 48 and fill inlet 50 .
- Pressure pot 48 includes media outlet port 52 .
- Enclosure 44 includes first side 54 , second side 56 , front 58 , back 60 , top 62 , and bottom 64 .
- Vapor blast system 10 further includes selector valve 28 , air inlet port 66 , blast outlet port 68 , control ports 70 a and 70 b , media inlet port 72 , disconnect 74 , blast air control 76 , blast pressure gauge 78 , inlet air pressure gauge 80 , accessory outlet port 82 , water inlet port 84 , control line 86 a and control line 86 b.
- Pressure vessel 34 and enclosure 44 are mounted to frame 42 .
- Fill inlet 50 extends from a top of pressure pot 48 .
- Media inlet port 72 extends into enclosure 44 and is configured to receive a blast mixture flow from media line 36 .
- Media line 36 extends between media outlet port 52 and media inlet port 72 and connects pressure vessel 34 and enclosure 44 .
- Pot pressure gauge 46 is disposed between pressure vessel 34 and enclosure 44 , and the regulated water flows through pot pressure gauge 46 between enclosure 44 and pressure vessel 34 .
- Air supply line 14 is connected to air inlet port 66 to provide compressed air to enclosure 44 .
- Air inlet port 66 extends through first side 54 of enclosure 44 .
- Inlet air pressure gauge 80 extends through first side 54 of enclosure 44 and is configured to provide a reading of the inlet air pressure entering enclosure 44 through air inlet port 66 .
- Blast line 38 is connected to blast outlet port 68 , which extends from first side 54 of enclosure, and is configured to receive an applicator flow from enclosure 44 .
- Accessory outlet port 82 extends from back 60 of enclosure 44 and is configured to receive an accessory hose.
- Water inlet port 84 extends from bottom 64 of enclosure 44 , and water inlet line 24 connects to water inlet port 84 .
- Control ports 70 a and 70 b extend from first side 54 of enclosure 44 .
- Control line 86 a extends from control port 70 a
- control line 86 b extends from control port 70 b .
- Control line 86 a and control line 86 b extend to applicator 40 (shown in FIG. 1 ) and are normally disconnected.
- control line 86 a is connected to control line 86 b to provide compressed air from control line 86 a to control line 86 b and back to enclosure 44 to actuate vapor blast system 10 between an active state and an idle state.
- Selector valve 28 extends into second side 56 of enclosure 44 and is configured to direct a regulated water flow through enclosure 44 .
- Disconnect 74 extends through second side 56 of enclosure 44 and is connected to pneumatic lines disposed within enclosure 44 .
- Disconnect 74 is a knob that is configured to be extended during operation, and may be depressed to disconnect the compressed air flow through enclosure 44 , thereby deactivating vapor blast system 10 .
- Blast air control 76 extends through second side 56 of enclosure 44 and is connected to pneumatic lines disposed within enclosure 44 to control the blast air pressure.
- Blast pressure gauge 78 extends through second side 56 of enclosure 44 and provides a blast air pressure reading to the user.
- Pressure pot 48 of pressure vessel 34 is filled with a media and water through fill inlet 50 .
- Air supply line 14 is connected to air inlet port 66 and provides compressed air to the pneumatic lines (shown in FIG. 3C ) disposed within enclosure 44 .
- the compressed air enters enclosure 44 , and blast air control 76 is utilized to control a blast air portion flow between air inlet port 66 and blast outlet port 68 .
- the user pulls disconnect 74 to the disengaged position. With disconnect 74 disengaged, the system air portion is able to flow to and power water pump 20 (best seen in FIGS. 3A-3C ).
- Triggering applicator 40 connects control line 86 a extending from control port 70 a with control line 86 b extending from control port 70 b , and control line 86 a and control line 86 b cause both air supply line 14 and media line 36 to open such that both compressed air and media flow to and through enclosure 44 .
- Water pump 20 pulls water into enclosure 44 through water inlet line 24 and water inlet port 84 .
- Water pump 20 drives the water downstream through water regulator 22 (best seen in FIGS. 3A-3C ), and water regulator 22 discharges regulated water at a fixed water pressure.
- the regulated water flows through selector valve 28 , which the user sets to direct the regulated water to either pot pressure gauge 46 and then on to pressure pot 48 , or to accessory outlet port 82 .
- the selector valve 28 With vapor blast system 10 in a blast mode, the selector valve 28 is set to direct the regulated water through pot pressure gauge 46 and to pressure pot 48 .
- the regulated water has the fixed water pressure and flows to pressure pot 48 to pressurize pressure pot 48 to a fixed pot pressure.
- Pressure pot 48 is initially charged to the fixed pot pressure.
- the regulated water flows into pressure pot 48 through pot pressure gauge 46 , and pot pressure gauge 46 provides a pot pressure reading to the user.
- the regulated water pressurizes pressure pot 48 to the fixed pot pressure, at a level configured to be above a maximum blast air pressure.
- the pot pressure reading indicates to the user that pressure pot 48 is pressurized for blasting.
- the fixed water pressure is described as being fixed above a maximum blast air pressure, it is understood that water regulator 22 may be set such that any desired fixed water pressure is provided downstream of water regulator 22 .
- water regulator 22 is generally set to provide the fixed water pressure prior to a user receiving vapor blast system 10 , it is understood that water regulator 22 may be configured to be either fixed before user operation or adjustable by the user.
- the pot pressure drops from the fixed pot pressure to a level proximate, though still above, the blast air pressure.
- a pressure differential between the blast air pressure and the pot pressure causes the blast mixture to flow out of pressure pot 48 through media outlet port 52 and into media line 36 .
- the pressure differential further causes the blast mixture to enter enclosure 44 through media inlet port 72 , and to flow into manifold line 18 to combine with the blast air portion and form the applicator flow.
- the applicator flow exits enclosure 44 through blast outlet port 68 and flows through blast line 38 to applicator 40 , where the applicator flow is applied to a substrate.
- pot pressure gauge 46 will indicate to the user that the pot pressure has dropped below the fixed pot pressure, but the pot pressure reading will also indicate that the pot pressure is being maintained at a level proximate, but still above, the blast air pressure, which is set by the user.
- Water regulator 22 maintains the regulated water flow throughout the blast process.
- the regulated water flows to pressure pot 46 and maintains the pot pressure above the blast air pressure. Maintaining the pot pressure above the blast air pressure ensures a consistent flow of blast mixture to applicator 40 .
- the regulated water flow returns the pot pressure to the fixed pot pressure when applicator 40 is deactivated such that vapor blast system 10 is idling. With applicator 40 deactivated, the regulated water flow maintains the pot pressure at the fixed pot pressure, preferably above a maximum blast air pressure, which ensures that the blast mixture will flow to manifold line 18 and downstream through blast line 38 regardless of the blast air pressure set by the user.
- FIG. 3A is a hose side facing front isometric view of enclosure 44 .
- FIG. 3B is a control side facing front isometric view of enclosure 44 .
- FIG. 3C is a schematic view showing tubing connections within enclosure 44 .
- Enclosure 44 includes first side 54 , second side 56 , front 58 , back 60 , top 62 , and bottom 64 .
- a pneumatic portion includes air supply line 14 , system line 16 , air inlet port 66 , control ports 70 a and 70 b , disconnect 74 , blast air control 76 , blast pressure gauge 78 , inlet air pressure gauge 80 , air regulator 88 , filter 90 , pump control line 92 , control line 86 a , control line 86 b , control valve 94 , air regulator line 96 , blast pressure gauge line 98 , inlet pressure gauge line 100 , and flow valve line 102 .
- a hydraulic portion includes water pump 20 , water regulator 22 , water inlet line 24 , pumped water line 26 , selector valve 28 , pressurizing lines 30 , accessory line 32 , accessory outlet port 82 , water inlet port 84 , needle valves 104 , pot supply outlet ports 106 , and wash line 112 .
- Water pump 20 includes pump inlet 108 and pump outlet 110 .
- a blast portion includes manifold line 18 , media line 36 , blast line 38 , blast outlet port 68 , media inlet port 72 , and valve 114 .
- Media line 36 includes conveying hose 116 and flow hose 118 .
- Air inlet port 66 extends through first side 54 of enclosure 44 and is connected to air supply line 14 .
- Air supply line 14 extends to air regulator 88 , through which compressed air flows.
- Manifold line 18 extends from air regulator 88 and to blast outlet port 68
- blast outlet port 68 extends through first side 54 of enclosure 44 .
- Blast line 38 extends from blast outlet port 68 and to applicator 40 (shown in FIG. 1 ).
- System line 16 is connected to and extends from air supply line 14 upstream of air regulator 88 .
- System line 16 extends to filter 90 , to disconnect 74 , to pump control line 92 , and to control valve 94 .
- Pump control line 92 extends from system line 16 upstream of control valve 94 and to water pump 20 .
- Pump control line 92 conveys a part of the system air portion to water pump 20 to power water pump 20 .
- Control line 86 a extends from pump control line 92 and to control port 70 a .
- Control line 86 a extends outside of enclosure 44 from control port 70 a and to applicator 40 .
- Control line 86 b extends from control valve 94 and to control port 70 b . Similar to control line 86 a , control line 86 b also extends outside of enclosure 44 from control port 70 b to applicator 40 .
- Triggering applicator 40 connects control line 86 a and control line 86 b such that the system air portion may flow through control line 86 a , to control line 86 b , and to control valve 94 to actuate control valve 94 based on a trigger position.
- Air regulator line 96 extends from control valve 94 and to flow valve 114 .
- Air regulator line 96 extends from control valve 94 and to air regulator 88 .
- Blast air control 76 is connected to air regulator line 96 and is configured to control the air flow to air regulator 88 through air regulator line 96 , to thereby control the volume and pressure of the blast air portion allowed to flow downstream through air regulator 88 .
- triggering applicator 40 causes control valve 94 shift between a first position and a second position to control an airflow through flow valve line 102 and air regulator line 96 .
- control valve 94 may direct air through flow valve line 102 to flow valve 114 , thereby actuating flow valve 114 to the closed position. At the same time, control valve 94 prevents air from flowing through air regulator line 96 , thereby maintaining air regulator 88 in a normally closed position.
- air regulator 88 is opened by the airflow through air regulator line 96 and flow valve 114 is opened because flow valve line 102 is depressurized.
- Water inlet port 84 extends through bottom 64 of enclosure 44 .
- Water inlet port 84 receives water inlet line 24 at pump inlet 108
- pumped water line 26 extends from pump outlet 110 and downstream to selector valve 28 .
- Water regulator 22 is disposed on pumped water line 26 between water pump 20 and selector valve 28 . While water regulator 22 is described as disposed between water pump 20 and selector valve 28 , it is understood that water regulator may be placed at any desired location downstream of water pump 20 and upstream of pressure vessel 34 , such as on pumped water line 26 or pressurizing lines 30 .
- Accessory line 32 extends from selector valve 28 and to accessory outlet port 82 .
- Pressurizing lines 30 extends from selector valve 28 and to needle valves 104
- pressurizing lines 30 extends from needle valves 104 and to pot supply outlet ports 106 .
- Wash line 112 extends from selector valve 28 to media inlet port 72 . While two pressurizing lines 30 are shown, it is understood that vapor blast system 10 may include as few or as many pressurizing lines 30 for conveying regulated water to pressure vessel 34 (best seen in FIGS. 2A and 2B ). Pressurizing lines 30 extend through needle valves 104 , and needle valves 104 control a regulated water flow into pressure vessel 34 .
- needle valves 104 are utilized to control the flow of regulated water into pressure vessel 34 thereby controlling a blast mixture flow out of pressure vessel 34 . Therefore, while water regulator 20 controls a water pressure of the regulated water, needle valves 104 control a flow of the regulated water.
- Media inlet port 72 extends through bottom 64 of enclosure 44 .
- Manifold line 18 extends from air regulator 88 and to blast outlet port 68 , and blast outlet port 68 extends through first side 54 of enclosure 44 , similar to air inlet port 66 .
- Blast line 38 extends from blast outlet port 68 and to applicator 40 .
- Media line 36 extends from pressure vessel 34 , through media inlet port 72 , and to manifold line 18 to provide a blast mixture to manifold line 18 to generate an applicator flow comprised of compressed air, media, and water. More specifically, conveying hose 116 extends from pressure pot 48 and to media inlet port 72 , and flow hose 118 extends from media inlet port 72 and to manifold line 18 .
- Flow valve 114 is configured to the blast mixture flow through flow hose 118 , such that the blast mixture flow is prevented from entering manifold line 18 when flow valve 114 is in a first position and the blast mixture flow flows to manifold line 18 when flow valve 114 is in a second position.
- flow valve 114 may be a pinch valve and flow hose 118 may be a pinch hose, such that in the first position flow valve 114 compressed flow hose 118 to close any flow opening through flow hose 118 , and in the second position flow valve 114 disengages from flow hose 118 to allow the blast mixture flow through flow hose 118 .
- Pressure vessel 34 is loaded with a supply of media and water by a user, thereby generating the blast mixture.
- the user disengages disconnect 74 , thereby permitting the system air portion to flow through system line 16 between air supply line 14 and control valve 94 .
- Compressor 12 (shown in FIG. 1 ) provides a compressed air flow to air regulator 88 through air inlet port 66 and air supply line 14 .
- Air regulator 88 controls a compressed air flow through blast line 38 , and is configured to be positionable at any desired position between a closed position, fully preventing compressed air from flowing through air regulator 88 , and an open position, allowing a maximum blast air pressure through air regulator 88 .
- the compressor 12 When the compressor 12 is activated, the system air portion is provided through system line 16 regardless of the position of air regulator 88 .
- the system air portion flows to control valve 94 and to control line 86 a .
- the system air portion is also provided through pump control line 92 to power water pump 20 , such that pumped water is provided downstream of water pump 20 whenever compressor 12 is activated, regardless of if applicator 40 is triggered.
- the system portion also flows through control line 86 a and to applicator 40 . Before applicator 40 is triggered, a part of the system air portion flows into control valve 94 through system line 16 .
- the part of the system air portion provided to control valve 94 through system line 16 is directed to either flow valve line 102 to shift flow valve 114 to the first position where metering hose 118 is closed, or air regulator line 96 to shift air regulator 88 to an open position to allow the blast air portion to flow to manifold line 18 .
- control line 86 a disconnected from control line 86 b the part of the system air portion is directed to flow valve line 102 , such that both flow valve 114 and air regulator 88 are closed.
- water pump 20 continues to drive water downstream through pumped water line 26 and to water regulator 22 to generate the regulated water.
- the regulated water is provided to pressure vessel 34 through pressurizing lines 30 to pressurize pressure vessel 34 to the fixed pot pressure, which is controlled by the fixed water pressure of the regulated water.
- the regulated water maintains the pot pressure at the fixed pot pressure whenever compressor 12 is activated and flow valve 114 is closed.
- control line 86 a When applicator 40 is triggered, control line 86 a is connected to control line 86 b such that compressed air is provided to control valve 94 through control line 86 b .
- the compressed air flowing through control line 86 b actuates control valve 94 such that compressed air may flow through air regulator line 96 and actuate air regulator 88 to an open position such that compressed air may flow to blast line 38 through air regulator 88 .
- control valve 94 shifting prevents compressed air from flowing to flow valve 114 through flow valve line 102 . As such, the pressure maintaining flow valve 114 in the first position is relieved, and the blast mixture is allowed to flow through flow hose 118 .
- Blast pressure gauge 78 is connected to air regulator 88 by blast gauge line 98 , and blast pressure gauge 78 provides the user with a blast air pressure reading.
- Blast air control 76 allows a user to adjust the air provided through air regulator line 96 , such that the blast air portion allowed through air regulator 88 is set by the user. With air regulator 88 opened, the blast air portion is able to flow downstream through air regulator 88 and to manifold line 18 .
- the blast mixture is combined with the blast air portion in manifold line 18 .
- the combined blast mixture and blast air portion are provided to blast line 38 and downstream to applicator 40 to be applied to a substrate.
- the blast mixture flows out of pressure vessel 34 and water pump 20 drives water into pressure vessel 34 to replace the blast mixture flowing out of pressure vessel 34 .
- the blast mixture flowing to manifold line 18 causes the pot pressure to drop below the fixed pot pressure.
- Water regulator 22 is configured to output regulated water having the fixed water pressure, and the regulated water flows downstream from water regulator 22 , through pumped water line 26 , to selector valve 28 , and through pressurizing lines 30 and needle valves 104 and to pressure vessel 34 .
- the regulated water maintains the pot pressure at a level proximate, but still above, the blast air pressure. As such, the user will notice that the pot pressure has dropped, but that the pot pressure is maintained at a steady level relative to the blast air pressure, such that a differential between the pot pressure and the blast air pressure drives the blast mixture through media line 36 and to manifold line 18 .
- Water regulator 22 regulates the regulated water pressure to maintain the pot pressure at a level greater than the blast air pressure throughout the vapor blast process.
- water regulator 22 may include internal components, such as a diaphragm and poppet valve, configured to shift along with the upstream to downstream pressure differential about water regulator 22 , to allow the regulated water to flow through water regulator 22 to control the pot pressure.
- water regulator 22 eliminates any need for the user to set the pot pressure and ensures that the pot pressure is always safely above the blast air pressure. As such, water regulator 22 ensures that the blast mixture will always flow into manifold line 18 to combine with the blast air portion.
- Disengaging the trigger on applicator 40 disconnects control line 86 a from control line 86 b , thereby disconnecting the airflow to control valve 94 .
- air is prevented from flowing through air regulator line 96 and is directed through flow valve line 102 .
- Flow valve 114 thus closes, preventing the blast mixture flow through flow hose 118 .
- Closing flow hose 118 causes the pot pressure to rise within pressure vessel 34 and thus in pressurizing lines 30 and pumped water line 26 . The pot pressure continues to rise until the pot pressure reaches the fixed pot pressure, which then causes water regulator 22 to cut off any additional water flow through water regulator 22 , thereby ensuring that the fixed pot pressure is maintained at the fixed water pressure.
Abstract
A vapor abrasive blast system includes a pump for pumping a water stream to a pressure vessel for pressurizing the pressure vessel to a pot pressure. A water regulator is disposed to regulate the water stream to a fixed water pressure, such that the water stream entering the pressure vessel has the fixed water pressure. The pressure vessel contains a blasting mixture, comprising an abrasive media and water, for introduction to a compressed air stream and application to a substrate. The water entering the pressure vessel has the fixed water pressure to control the pot pressure. The water regulator is configured to output the water stream such that the fixed water pressure is greater than a compressed air pressure in the compressed air stream.
Description
- This application is a continuation of U.S. application Ser. No. 15/745,013 filed Jan. 15, 2018 for “VAPOR BLAST SYSTEM WITH FIXED POT PRESSURE” by T. C. Gracu, N. K. Studt, B. K. Falkenberg, B. J. Gapinski and J. W. Turner, which in turn claims the benefit of International PCT Application No. PCT/US2016/042585 filed Jul. 15, 2016, which claims priority to U.S. Provisional Application No. 62/193,235 filed on Jul. 16, 2015, and entitled “Vapor Blast System with Fixed Pot Pressure Setting.”
- Blasting systems in the surface preparation industry generally use dry, wet, slurry, vapor abrasive, or ultra-high pressure water blast technologies to remove dirt, paint, or rust from a substrate. Vapor blast systems use a mixture of air, water, and an abrasive media—such as garnet or walnut shells—to provide the desired surface treatment. Vapor blast systems often include a pump and a pressure vessel containing an abrasive media having a density greater than water. Pumping water to the pressure pot pressurizes it and allows the abrasive media and water to mix. The pressurized media and water mixture is then plumbed into a conduit of a high flowing air stream to mix the two streams before expelling the mixture from a hose and nozzle. To ensure that the media and water mixture can be injected into the high flowing air stream, the pressure inside the pressure pot must be higher than the pressure in the air stream. Existing designs need the user to set the pressure in the air stream and to set the pressure in the pressure pot. Users typically set a desired air stream pressure and then have to set the pressure pot pressure. If the differential is too low, there will be no influx of the media and water mixture into the air stream, or there could be a backflux of air into the pressure pot.
- According to an aspect of the disclosure, a blasting system includes a pressure vessel, a water line extending from a water source and connected to the pressure vessel, a water pump disposed on the water line, a water regulator disposed on the water line, and a blast line. The pressure vessel is configured to house a blast media and water mixture. The water line provides water to the pressure vessel. The water pump drives a flow of water from the water source to the pressure vessel. The water regulator is configured to receive the flow of water and to output a pressure regulated water flow having a regulated flow pressure. The regulated flow pressure pressurizes the pressure vessel to a pressure vessel pressure. The blast line conveys a compressed air flow at an air pressure, and the compressed air flow is configured to receive a flow of the media and water mixture from the pressure vessel. The pressure vessel pressure is greater than the air pressure.
- According to another aspect of the disclosure, a method of blasting a substrate with a media includes regulating a water flow pressure with a water regulator to generate a regulated water flow, pumping the regulated water flow to a pressure vessel to pressurize the pressure vessel to a pressure vessel pressure having a fixed pressure point, compressing an air stream to a blast pressure and flowing the air stream through a blast line and to a blasting apparatus, and flowing media and water from the pressure vessel and into the air stream within the blast line and applying the combined flow of media, water, and air to a substrate. The blast pressure is within a range between a minimum blast pressure and a maximum blast pressure. The fixed pressure point is greater than the maximum blast pressure.
- According to yet another aspect of the disclosure, a vapor blast assembly includes a pressure vessel mounted to a support structure, an enclosure mounted to the support structure, and a water regulator disposed within the enclosure and configured to generate a regulated water flow. The enclosure is configured to receive a flow of compressed air from a compressed air source, to receive a flow of water from a water source and to provide the regulated water flow to the pressure vessel, to receive a combined flow of media and water from the pressure vessel, and to output a combined flow of compressed air, water, and media. A regulated water flow pressure maintains a pressure vessel pressure above a compressed air pressure such that a pressure differential between the pressure vessel pressure and the compressed air pressure drives the combined flow of media and water into the flow of compressed air to generate the combined flow of compressed air, water, and media.
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FIG. 1 is a schematic view of a vapor blast system. -
FIG. 2A is a side elevation view of a vapor blast assembly. -
FIG. 2B is a front elevation view of the vapor blast assembly ofFIG. 2A . -
FIG. 3A is a hose side facing isometric view of an enclosure. -
FIG. 3B is a control side facing isometric view of the enclosure ofFIG. 3A . -
FIG. 3C is a schematic view showing tubing connections within the enclosure ofFIG. 3A . -
FIG. 1 is a schematic view ofvapor blast system 10. Vaporblast system 10 includescompressor 12,air supply line 14,system line 16,manifold line 18,water pump 20,water regulator 22,water inlet line 24, pumpedwater line 26,selector valve 28,pressurizing line 30,accessory line 32,pressure vessel 34,media line 36,blast line 38, andapplicator 40. -
Air supply line 14 extends fromcompressor 12 and receives compressed air fromcompressor 12.System line 16 extends fromair supply line 14 and towater pump 20 to provide compressed air towater pump 20 topower water pump 20. Manifoldline 18 extends fromair supply line 14 and toblast line 38. Blastline 38 extends frommanifold line 18 and toapplicator 40.Water inlet line 24 is connected towater pump 20.Water pump 20 is also connected to pumpedwater line 26 and drives water downstream throughwater regulator 22 and pumpedwater line 26.Water regulator 22 is connected to pumpedwater line 26, and pumpedwater line 26 extends toselector valve 28. Pressurizingline 30 andaccessory line 32 extend fromselector valve 28.Accessory line 32 extends to an accessory, such as a rinse hose. Pressurizingline 30 extends from pumpedwater line 26 and topressure vessel 34.Media line 36 extends frompressure vessel 34 and intersectsmanifold line 18. -
Pressure vessel 34 contains a blast mixture, comprised of media and water, which is applied to a substrate to remove a coating from the substrate and to condition the substrate for future coating applications. The media may be of any suitably abrasive material such as walnut shells, crushed glass, garnet, or any other heavier-than-water particulate, and may be applied to any desired substrate, such as wood, concrete, and steel, to clean the substrate.Compressor 12 provides compressed air toair supply line 14. A blasting air portion of the compressed air flows throughmanifold line 18, downstream past the intersection ofmanifold line 18 andmedia line 36, and throughblast line 38 toapplicator 40. A system air portion of the compressed air flows throughsystem line 16 and is provided towater pump 20. The system air portion of the compressed air flows throughsystem line 16 and towater pump 20 topower water pump 20.Water pump 20 draws water from a water source (not shown) throughwater inlet line 24 and drives the pumped water flow downstream through pumpedwater line 26. The pumped water is driven throughwater regulator 22 and continues downstream through pumpedwater line 26 and toselector valve 28. Whilewater regulator 22 is shown downstream ofwater pump 20, it is understood thatwater regulator 22 may be at any desired position downstream ofwater pump 20 and beforepressure vessel 34, such as on pumpedwater line 26 betweenwater pump 20 andselector valve 28 or on pressurizingline 30 downstream ofselector valve 28. -
Water regulator 22 regulates a water pressure of any water pumped downstream ofwater pump 20 throughwater regulator 22. As such,water pump 20 draws water throughwater inlet line 24 and pumps the pumped water downstream at a pumped water pressure higher than a maximum blast air pressure required forvapor blast system 10 operation.Water regulator 22 generates a regulated water flow, having a fixed water pressure, such that a pressure downstream ofwater regulator 22 is fixed. The regulated water flow flows downstream fromwater regulator 22 through pumpedwater line 26 and toselector valve 28.Selector valve 28 directs the regulated water to pressurizingline 30 andaccessory line 32.Accessory line 32 provides the regulated water to an accessory, such as a rinse hose.Pressurizing line 30 provides the regulated water topressure vessel 34. - The regulated water enters
pressure vessel 34 through pressurizingline 30. Because the regulated water has the fixed water pressure flowing the regulated water to pressure vessel maintains a fixed pot pressure withinpressure vessel 34. Whenapplicator 40 is triggered, the blast mixture disposed withinpressure vessel 34exits pressure vessel 34 throughmedia line 36, and flows throughmedia line 36 tomanifold line 18. Whenapplicator 40 is triggered, the blast mixture entersmanifold line 18 throughmedia line 36 and is combined with the blast air portion inmanifold line 18 to generate an applicator flow. The blast air portion carries the blast mixture downstream toblast line 38, and downstream throughblast line 38 toapplicator 40. The applicator flow is then accelerated throughapplicator 40, such as by flowing the mixture through a nozzle, and applied to a substrate. The media impacts the substrate and is configured to remove material, such as paint, from the substrate and to condition the substrate for subsequent application of material to the substrate. - During operation, media and water are loaded into
pressure vessel 34 to generate the blast mixture, andpressure vessel 34 is sealed.Compressor 12 is activated, and the system portion of compressed air flows towater pump 20 throughsystem line 16 topower water pump 20. Withwater pump 20 powered,water pump 20 drives the pumped water downstream through pumpedwater line 26 andwater regulator 22, andwater regulator 22 outputs the regulated water flow. The regulated water flow flows downstream toselector valve 28, andselector valve 28 directs the regulated water flow through pressurizingline 30 and intopressure vessel 34. Because the regulated water flow has a fixed water pressure, the fixed water pressure pressurizespressure vessel 34 to a fixed pot pressure, with the fixed pot pressure being controlled by the fixed water pressure. - With
pressure vessel 34 loaded and pressurized,applicator 40 is triggered andair supply line 14 is able to provide the blast air portion of compressed air tomanifold line 18. Because the fixed pot pressure is greater than the maximum blast air pressure, the blast mixture exitspressure vessel 34 throughmedia line 36 and flows tomanifold line 18. In addition to openingair supply line 14, triggeringapplicator 40causes media line 36 to open such that the blast mixture may flow frompressure vessel 34 and tomanifold line 18 throughmedia line 36. A pressure differential between the blast air portion flowing throughmanifold line 18 and the fixed pot pressure causes the media and water mixture to flow frompressure vessel 34 and intomanifold line 18. To ensure thatvapor blast system 10 operates correctly, the pressure differential must be maintained such that the fixed pot pressure is higher than the blast air pressure. If the pot pressure is below the blast air pressure, then the blast mixture would be prevented from enteringmanifold line 18 due to the higher blast air pressure. Whenapplicator 40 is applying the blast mixture, the regulated water continues to flow topressure vessel 34 to maintain a pot pressure above the blast air pressure. Withapplicator 40 triggered, the pot pressure will drop to a level proximate the blast air pressure, but the regulated water continues to flow topressure vessel 34 to replace the blast mixture flowing out ofpressure vessel 34 and to continue pressurizingpressure vessel 34. As such, the regulated water maintains the pot pressure higher than the blast air pressure regardless of the level that the blast air pressure is set. - When
applicator 40 is deactivated, the blast air portion is prevented from flowing tomanifold line 18 and the blast mixture is also prevented from flowing tomanifold line 18. Withmedia line 36 closed andwater pump 20 continuing to pump water, the pot pressure rises to the fixed pot pressure, becausewater regulator 22 continues to supply the regulated water topressure vessel 34. Once the pot pressure reaches the fixed pot pressure, the pressure downstream ofwater regulator 22 will cause internal components ofwater regulator 22 to shift to prevent the pot pressure from continuing to rise. Water regulator will then allow additional flow when the pot pressure drops due toapplicator 40 being triggered. -
Water regulator 22 maintains the fixed pot pressure higher than the maximum blast air pressure. In addition,water regulator 22 maintains the pot pressure greater than the operational blast air pressure during operation.Water regulator 22 may be set to output regulated water at a fixed water pressure point, dependent on the dimensions and particular arrangement of the components ofvapor blast system 10, such that the fixed water pressure point is always higher than the maximum blast air pressure. More specifically,water regulator 22 is configured to maintain the fixed pot pressure safely above the maximum blast air pressure, and to maintain the pot pressure above the blast air pressure during operation. In this way,water regulator 22 thereby ensures that the pressure differential causes the blast mixture to flow intomanifold line 18 frompressure vessel 34. -
Water regulator 22 maintaining the fixed pot pressure provides significant advantages. Utilizingwater regulator 22 eliminates a step in the setup process, whereby the user was required to set the pot pressure and compare the pot pressure against the blast air pressure to discern whether the differential was sufficient.Water regulator 22 instead ensures that the pot pressure will be sufficiently high forvapor blast system 10 operation, thereby allowing the user to set the desired blast air pressure without being concerned about the pot pressure and eliminating potential user error and a time-consuming step. Moreover, positioningwater regulator 22 downstream ofwater pump 20 further eliminates user misconceptions, aswater regulator 22 will dampen any pressure fluctuations that may occur due towater pump 20 changing stroke or the inherent differential between an upstroke and a downstroke. As such,water regulator 22 further provides a consistent blast mixture flow, because the pot pressure will be maintained at a steady pressure throughout the blasting process. Providing a steady blast mixture flow increases the consistency of the blast pattern, which improves the consistency of the surface finish created by the media blasting on the substrate.Water regulator 22 also thereby eliminates misconceptions of poor blasting performance due to the user observing natural fluctuations in the pot pressure and interpreting the fluctuations as malfunctions or errors. Instead,water regulator 22 maintains the pot pressure at a steady pressure relative to the blast pressure during blasting, and at the fixed pot pressure whenvapor blast system 10 idles. -
FIG. 2A is a side elevation view ofvapor blast system 10.FIG. 2B is a front elevation view ofvapor blast system 10.FIGS. 2A and 2B are substantially similar and will be discussed together.Vapor blast system 10 includesair supply line 14,water inlet line 24,pressure vessel 34,media line 36,blast line 38,frame 42,enclosure 44, andpot pressure gauge 46.Pressure vessel 34 includespressure pot 48 and fillinlet 50.Pressure pot 48 includesmedia outlet port 52.Enclosure 44 includesfirst side 54,second side 56,front 58, back 60, top 62, and bottom 64.Vapor blast system 10 further includesselector valve 28,air inlet port 66,blast outlet port 68,control ports media inlet port 72,disconnect 74,blast air control 76,blast pressure gauge 78, inletair pressure gauge 80,accessory outlet port 82,water inlet port 84,control line 86 a andcontrol line 86 b. -
Pressure vessel 34 andenclosure 44 are mounted to frame 42. Fillinlet 50 extends from a top ofpressure pot 48.Media inlet port 72 extends intoenclosure 44 and is configured to receive a blast mixture flow frommedia line 36.Media line 36 extends betweenmedia outlet port 52 andmedia inlet port 72 and connectspressure vessel 34 andenclosure 44.Pot pressure gauge 46 is disposed betweenpressure vessel 34 andenclosure 44, and the regulated water flows throughpot pressure gauge 46 betweenenclosure 44 andpressure vessel 34.Air supply line 14 is connected toair inlet port 66 to provide compressed air toenclosure 44.Air inlet port 66 extends throughfirst side 54 ofenclosure 44. Inletair pressure gauge 80 extends throughfirst side 54 ofenclosure 44 and is configured to provide a reading of the inlet airpressure entering enclosure 44 throughair inlet port 66.Blast line 38 is connected to blastoutlet port 68, which extends fromfirst side 54 of enclosure, and is configured to receive an applicator flow fromenclosure 44.Accessory outlet port 82 extends from back 60 ofenclosure 44 and is configured to receive an accessory hose.Water inlet port 84 extends from bottom 64 ofenclosure 44, andwater inlet line 24 connects to waterinlet port 84. -
Control ports first side 54 ofenclosure 44.Control line 86 a extends fromcontrol port 70 a, and controlline 86 b extends fromcontrol port 70 b.Control line 86 a andcontrol line 86 b extend to applicator 40 (shown inFIG. 1 ) and are normally disconnected. Whenapplicator 40 is triggered,control line 86 a is connected to controlline 86 b to provide compressed air fromcontrol line 86 a to controlline 86 b and back toenclosure 44 to actuatevapor blast system 10 between an active state and an idle state.Selector valve 28 extends intosecond side 56 ofenclosure 44 and is configured to direct a regulated water flow throughenclosure 44.Disconnect 74 extends throughsecond side 56 ofenclosure 44 and is connected to pneumatic lines disposed withinenclosure 44.Disconnect 74 is a knob that is configured to be extended during operation, and may be depressed to disconnect the compressed air flow throughenclosure 44, thereby deactivatingvapor blast system 10.Blast air control 76 extends throughsecond side 56 ofenclosure 44 and is connected to pneumatic lines disposed withinenclosure 44 to control the blast air pressure.Blast pressure gauge 78 extends throughsecond side 56 ofenclosure 44 and provides a blast air pressure reading to the user. -
Pressure pot 48 ofpressure vessel 34 is filled with a media and water throughfill inlet 50.Air supply line 14 is connected toair inlet port 66 and provides compressed air to the pneumatic lines (shown inFIG. 3C ) disposed withinenclosure 44. The compressed air entersenclosure 44, and blastair control 76 is utilized to control a blast air portion flow betweenair inlet port 66 andblast outlet port 68. Before activatingvapor blast system 10, the user pullsdisconnect 74 to the disengaged position. Withdisconnect 74 disengaged, the system air portion is able to flow to and power water pump 20 (best seen inFIGS. 3A-3C ). Triggeringapplicator 40 connectscontrol line 86 a extending fromcontrol port 70 a withcontrol line 86 b extending fromcontrol port 70 b, and controlline 86 a andcontrol line 86 b cause bothair supply line 14 andmedia line 36 to open such that both compressed air and media flow to and throughenclosure 44. -
Water pump 20 pulls water intoenclosure 44 throughwater inlet line 24 andwater inlet port 84.Water pump 20 drives the water downstream through water regulator 22 (best seen inFIGS. 3A-3C ), andwater regulator 22 discharges regulated water at a fixed water pressure. The regulated water flows throughselector valve 28, which the user sets to direct the regulated water to eitherpot pressure gauge 46 and then on topressure pot 48, or toaccessory outlet port 82. Withvapor blast system 10 in a blast mode, theselector valve 28 is set to direct the regulated water throughpot pressure gauge 46 and to pressurepot 48. The regulated water has the fixed water pressure and flows to pressurepot 48 to pressurizepressure pot 48 to a fixed pot pressure. -
Pressure pot 48 is initially charged to the fixed pot pressure. The regulated water flows intopressure pot 48 throughpot pressure gauge 46, andpot pressure gauge 46 provides a pot pressure reading to the user. The regulated water pressurizespressure pot 48 to the fixed pot pressure, at a level configured to be above a maximum blast air pressure. The pot pressure reading indicates to the user that pressurepot 48 is pressurized for blasting. While the fixed water pressure is described as being fixed above a maximum blast air pressure, it is understood thatwater regulator 22 may be set such that any desired fixed water pressure is provided downstream ofwater regulator 22. As such, whilewater regulator 22 is generally set to provide the fixed water pressure prior to a user receivingvapor blast system 10, it is understood thatwater regulator 22 may be configured to be either fixed before user operation or adjustable by the user. - With
media line 36 and manifold line 18 (best seen inFIGS. 3A-3C ) open, the pot pressure drops from the fixed pot pressure to a level proximate, though still above, the blast air pressure. A pressure differential between the blast air pressure and the pot pressure causes the blast mixture to flow out ofpressure pot 48 throughmedia outlet port 52 and intomedia line 36. The pressure differential further causes the blast mixture to enterenclosure 44 throughmedia inlet port 72, and to flow intomanifold line 18 to combine with the blast air portion and form the applicator flow. The applicator flow exitsenclosure 44 throughblast outlet port 68 and flows throughblast line 38 toapplicator 40, where the applicator flow is applied to a substrate. During operation,pot pressure gauge 46 will indicate to the user that the pot pressure has dropped below the fixed pot pressure, but the pot pressure reading will also indicate that the pot pressure is being maintained at a level proximate, but still above, the blast air pressure, which is set by the user. -
Water regulator 22 maintains the regulated water flow throughout the blast process. The regulated water flows to pressurepot 46 and maintains the pot pressure above the blast air pressure. Maintaining the pot pressure above the blast air pressure ensures a consistent flow of blast mixture toapplicator 40. In addition, the regulated water flow returns the pot pressure to the fixed pot pressure whenapplicator 40 is deactivated such thatvapor blast system 10 is idling. Withapplicator 40 deactivated, the regulated water flow maintains the pot pressure at the fixed pot pressure, preferably above a maximum blast air pressure, which ensures that the blast mixture will flow tomanifold line 18 and downstream throughblast line 38 regardless of the blast air pressure set by the user. -
FIG. 3A is a hose side facing front isometric view ofenclosure 44.FIG. 3B is a control side facing front isometric view ofenclosure 44.FIG. 3C is a schematic view showing tubing connections withinenclosure 44.Enclosure 44 includesfirst side 54,second side 56,front 58, back 60, top 62, and bottom 64. A pneumatic portion includesair supply line 14,system line 16,air inlet port 66,control ports disconnect 74,blast air control 76,blast pressure gauge 78, inletair pressure gauge 80,air regulator 88,filter 90,pump control line 92,control line 86 a,control line 86 b,control valve 94,air regulator line 96, blastpressure gauge line 98, inletpressure gauge line 100, and flowvalve line 102. A hydraulic portion includeswater pump 20,water regulator 22,water inlet line 24, pumpedwater line 26,selector valve 28, pressurizinglines 30,accessory line 32,accessory outlet port 82,water inlet port 84,needle valves 104, potsupply outlet ports 106, and washline 112.Water pump 20 includespump inlet 108 andpump outlet 110. A blast portion includesmanifold line 18,media line 36,blast line 38,blast outlet port 68,media inlet port 72, andvalve 114.Media line 36 includes conveyinghose 116 and flowhose 118. -
Air inlet port 66 extends throughfirst side 54 ofenclosure 44 and is connected toair supply line 14.Air supply line 14 extends toair regulator 88, through which compressed air flows.Manifold line 18 extends fromair regulator 88 and to blastoutlet port 68, andblast outlet port 68 extends throughfirst side 54 ofenclosure 44.Blast line 38 extends fromblast outlet port 68 and to applicator 40 (shown inFIG. 1 ).System line 16 is connected to and extends fromair supply line 14 upstream ofair regulator 88.System line 16 extends to filter 90, to disconnect 74, to pumpcontrol line 92, and to controlvalve 94.Pump control line 92 extends fromsystem line 16 upstream ofcontrol valve 94 and towater pump 20.Pump control line 92 conveys a part of the system air portion towater pump 20 topower water pump 20. -
Control line 86 a extends frompump control line 92 and to controlport 70 a.Control line 86 a extends outside ofenclosure 44 fromcontrol port 70 a and toapplicator 40.Control line 86 b extends fromcontrol valve 94 and to controlport 70 b. Similar to controlline 86 a,control line 86 b also extends outside ofenclosure 44 fromcontrol port 70 b toapplicator 40. Triggeringapplicator 40 connectscontrol line 86 a andcontrol line 86 b such that the system air portion may flow throughcontrol line 86 a, to controlline 86 b, and to controlvalve 94 to actuatecontrol valve 94 based on a trigger position. -
Flow valve line 102 extends fromcontrol valve 94 and to flowvalve 114.Air regulator line 96 extends fromcontrol valve 94 and toair regulator 88.Blast air control 76 is connected toair regulator line 96 and is configured to control the air flow toair regulator 88 throughair regulator line 96, to thereby control the volume and pressure of the blast air portion allowed to flow downstream throughair regulator 88. With both flowvalve line 102 andair regulator line 96 attached to controlvalve 94, triggeringapplicator 40 causes controlvalve 94 shift between a first position and a second position to control an airflow throughflow valve line 102 andair regulator line 96. For example, withapplicator 40 not triggered,control valve 94 may direct air throughflow valve line 102 to flowvalve 114, thereby actuatingflow valve 114 to the closed position. At the same time,control valve 94 prevents air from flowing throughair regulator line 96, thereby maintainingair regulator 88 in a normally closed position. Whenapplicator 40 is triggered, air is directed throughair regulator line 96 and prevented from flowing throughflow valve line 102, and as such,air regulator 88 is opened by the airflow throughair regulator line 96 andflow valve 114 is opened becauseflow valve line 102 is depressurized. -
Water inlet port 84 extends throughbottom 64 ofenclosure 44.Water inlet port 84 receiveswater inlet line 24 atpump inlet 108, and pumpedwater line 26 extends frompump outlet 110 and downstream toselector valve 28.Water regulator 22 is disposed on pumpedwater line 26 betweenwater pump 20 andselector valve 28. Whilewater regulator 22 is described as disposed betweenwater pump 20 andselector valve 28, it is understood that water regulator may be placed at any desired location downstream ofwater pump 20 and upstream ofpressure vessel 34, such as on pumpedwater line 26 or pressurizinglines 30. -
Accessory line 32 extends fromselector valve 28 and toaccessory outlet port 82. Pressurizing lines 30 extends fromselector valve 28 and toneedle valves 104, and pressurizinglines 30 extends fromneedle valves 104 and to potsupply outlet ports 106.Wash line 112 extends fromselector valve 28 tomedia inlet port 72. While two pressurizinglines 30 are shown, it is understood thatvapor blast system 10 may include as few or as many pressurizinglines 30 for conveying regulated water to pressure vessel 34 (best seen inFIGS. 2A and 2B ). Pressurizing lines 30 extend throughneedle valves 104, andneedle valves 104 control a regulated water flow intopressure vessel 34. As such,needle valves 104 are utilized to control the flow of regulated water intopressure vessel 34 thereby controlling a blast mixture flow out ofpressure vessel 34. Therefore, whilewater regulator 20 controls a water pressure of the regulated water,needle valves 104 control a flow of the regulated water. -
Media inlet port 72 extends throughbottom 64 ofenclosure 44.Manifold line 18 extends fromair regulator 88 and to blastoutlet port 68, andblast outlet port 68 extends throughfirst side 54 ofenclosure 44, similar toair inlet port 66.Blast line 38 extends fromblast outlet port 68 and toapplicator 40.Media line 36 extends frompressure vessel 34, throughmedia inlet port 72, and tomanifold line 18 to provide a blast mixture tomanifold line 18 to generate an applicator flow comprised of compressed air, media, and water. More specifically, conveyinghose 116 extends frompressure pot 48 and tomedia inlet port 72, and flowhose 118 extends frommedia inlet port 72 and tomanifold line 18.Flow valve 114 is configured to the blast mixture flow throughflow hose 118, such that the blast mixture flow is prevented from enteringmanifold line 18 whenflow valve 114 is in a first position and the blast mixture flow flows tomanifold line 18 whenflow valve 114 is in a second position. For example, flowvalve 114 may be a pinch valve and flowhose 118 may be a pinch hose, such that in the firstposition flow valve 114compressed flow hose 118 to close any flow opening throughflow hose 118, and in the secondposition flow valve 114 disengages fromflow hose 118 to allow the blast mixture flow throughflow hose 118. -
Pressure vessel 34 is loaded with a supply of media and water by a user, thereby generating the blast mixture. The user disengagesdisconnect 74, thereby permitting the system air portion to flow throughsystem line 16 betweenair supply line 14 andcontrol valve 94. Compressor 12 (shown inFIG. 1 ) provides a compressed air flow toair regulator 88 throughair inlet port 66 andair supply line 14.Air regulator 88 controls a compressed air flow throughblast line 38, and is configured to be positionable at any desired position between a closed position, fully preventing compressed air from flowing throughair regulator 88, and an open position, allowing a maximum blast air pressure throughair regulator 88. When thecompressor 12 is activated, the system air portion is provided throughsystem line 16 regardless of the position ofair regulator 88. - The system air portion flows to control
valve 94 and to controlline 86 a. The system air portion is also provided throughpump control line 92 topower water pump 20, such that pumped water is provided downstream ofwater pump 20 whenevercompressor 12 is activated, regardless of ifapplicator 40 is triggered. The system portion also flows throughcontrol line 86 a and toapplicator 40. Beforeapplicator 40 is triggered, a part of the system air portion flows intocontrol valve 94 throughsystem line 16. The part of the system air portion provided to controlvalve 94 throughsystem line 16 is directed to either flowvalve line 102 to shiftflow valve 114 to the first position wheremetering hose 118 is closed, orair regulator line 96 to shiftair regulator 88 to an open position to allow the blast air portion to flow tomanifold line 18. Withcontrol line 86 a disconnected fromcontrol line 86 b, the part of the system air portion is directed to flowvalve line 102, such that both flowvalve 114 andair regulator 88 are closed. - With
flow valve 114 andair regulator 88 closed,water pump 20 continues to drive water downstream through pumpedwater line 26 and towater regulator 22 to generate the regulated water. The regulated water is provided topressure vessel 34 through pressurizinglines 30 to pressurizepressure vessel 34 to the fixed pot pressure, which is controlled by the fixed water pressure of the regulated water. The regulated water maintains the pot pressure at the fixed pot pressure whenevercompressor 12 is activated and flowvalve 114 is closed. - When
applicator 40 is triggered,control line 86 a is connected to controlline 86 b such that compressed air is provided to controlvalve 94 throughcontrol line 86 b. The compressed air flowing throughcontrol line 86 b actuatescontrol valve 94 such that compressed air may flow throughair regulator line 96 and actuateair regulator 88 to an open position such that compressed air may flow to blastline 38 throughair regulator 88. At the same time,control valve 94 shifting prevents compressed air from flowing to flowvalve 114 throughflow valve line 102. As such, the pressure maintainingflow valve 114 in the first position is relieved, and the blast mixture is allowed to flow throughflow hose 118. -
Blast pressure gauge 78 is connected toair regulator 88 byblast gauge line 98, andblast pressure gauge 78 provides the user with a blast air pressure reading.Blast air control 76 allows a user to adjust the air provided throughair regulator line 96, such that the blast air portion allowed throughair regulator 88 is set by the user. Withair regulator 88 opened, the blast air portion is able to flow downstream throughair regulator 88 and tomanifold line 18. - With both flow
valve 114 andair regulator 88 open, the blast mixture is combined with the blast air portion inmanifold line 18. The combined blast mixture and blast air portion are provided to blastline 38 and downstream toapplicator 40 to be applied to a substrate. Withflow valve 114 open, the blast mixture flows out ofpressure vessel 34 andwater pump 20 drives water intopressure vessel 34 to replace the blast mixture flowing out ofpressure vessel 34. The blast mixture flowing tomanifold line 18 causes the pot pressure to drop below the fixed pot pressure.Water regulator 22 is configured to output regulated water having the fixed water pressure, and the regulated water flows downstream fromwater regulator 22, through pumpedwater line 26, toselector valve 28, and through pressurizinglines 30 andneedle valves 104 and topressure vessel 34. The regulated water maintains the pot pressure at a level proximate, but still above, the blast air pressure. As such, the user will notice that the pot pressure has dropped, but that the pot pressure is maintained at a steady level relative to the blast air pressure, such that a differential between the pot pressure and the blast air pressure drives the blast mixture throughmedia line 36 and tomanifold line 18. -
Water regulator 22 regulates the regulated water pressure to maintain the pot pressure at a level greater than the blast air pressure throughout the vapor blast process. For example,water regulator 22 may include internal components, such as a diaphragm and poppet valve, configured to shift along with the upstream to downstream pressure differential aboutwater regulator 22, to allow the regulated water to flow throughwater regulator 22 to control the pot pressure. By controlling the pot pressure such that the pot pressure is always greater than the blast air pressure,water regulator 22 eliminates any need for the user to set the pot pressure and ensures that the pot pressure is always safely above the blast air pressure. As such,water regulator 22 ensures that the blast mixture will always flow intomanifold line 18 to combine with the blast air portion. - Disengaging the trigger on
applicator 40 disconnects controlline 86 a fromcontrol line 86 b, thereby disconnecting the airflow to controlvalve 94. With the airflow toselector valve 28 throughcontrol line 86 b shut off, air is prevented from flowing throughair regulator line 96 and is directed throughflow valve line 102.Flow valve 114 thus closes, preventing the blast mixture flow throughflow hose 118.Closing flow hose 118 causes the pot pressure to rise withinpressure vessel 34 and thus in pressurizinglines 30 and pumpedwater line 26. The pot pressure continues to rise until the pot pressure reaches the fixed pot pressure, which then causeswater regulator 22 to cut off any additional water flow throughwater regulator 22, thereby ensuring that the fixed pot pressure is maintained at the fixed water pressure. Whenflow valve 114 shifts to the open position, the blast mixture exitspressure vessel 34 leading to a drop in the pot pressure, and the drop in the pot pressure causeswater regulator 22 to allow additional water to flow topressure vessel 34 to maintain the pot pressure above the blast air pressure. Whilewater regulator 22 maintains the fixed pot pressure above the maximum blast air pressure, it is understood that the pot pressure may drop below the maximum blast air pressure during operation, butwater regulator 22 ensures that the pot pressure is always above the blast air pressure actually utilized during blasting. - Although the present invention has been described with reference to preferred embodiments, workers skilled in the art will recognize that changes may be made in form and detail without departing from the spirit and scope of the invention.
Claims (20)
1. A blasting system comprising:
a pressure vessel configured to house a blast media;
a water line extending from a water source and connected to the pressure vessel to provide water to the pressure vessel;
a water pump disposed on the water line for driving a flow of water from the water source to the pressure vessel;
a water regulator disposed on the water line and configured to receive the flow of water and output a pressure regulated water flow having a regulated flow pressure, wherein a regulated flow pressure pressurizes the pressure vessel to a pressure vessel pressure; and
a blast line configured to convey a compressed air flow at an air pressure, wherein the compressed air flow is configured to receive a flow of media and water from the pressure vessel;
wherein the pressure vessel pressure is greater than the air pressure.
2. The blasting system of claim 1 , and further comprising:
a media line extending from the pressure vessel and configured to transport the flow of media and water from the pressure vessel to the blast line.
3. The blasting system of claim 1 , wherein the water regulator is located downstream of the water pump.
4. The blasting system of claim 3 , wherein the regulated water pressure is about 1.27 MPa (185 psi).
5. The blasting system of claim 1 , and further comprising:
a media line valve disposed on the media line upstream of the connection of the media line and the blast line, wherein the media line valve is configured to shift between an open position, wherein the media and water mixture is able to flow to the blast line, and a closed position, wherein the media and water mixture is prevented from flowing to the blast line.
6. The blasting system of claim 5 , wherein the media line valve comprises a pinch valve.
7. The blasting system of claim 1 , and further comprising:
a selector valve disposed downstream of the water pump, wherein the selector valve is configured direct the water flow downstream of the selector valve.
8. The blasting system of claim 7 , wherein the selector valve is configured to direct the pressure regulated water flow to one of the pressure vessel and an accessory line.
9. The blasting system of claim 8 , wherein the water regulator is disposed downstream of the selector valve and upstream of the pressure vessel.
10. The blasting system of claim 7 , wherein the selector valve is a three-way valve.
11. The blasting system of claim 1 , and further comprising:
a metering valve positioned downstream of the water regulator and configured to receive the pressure regulated water flow from the water regulator and meter a flow of the pressure regulated water flow to the pressure vessel.
12. A method of blasting a substrate with a media, the method comprising:
regulating a water flow pressure with a water regulator to generate a regulated water flow;
pumping the regulated water flow to a pressure vessel to pressurize the pressure vessel to a pressure vessel pressure having a fixed pressure point;
compressing an air stream to a blast pressure and flowing the air stream through a blast line and to a blasting apparatus, wherein the blast pressure is within a range between a minimum blast pressure and a maximum blast pressure; and
flowing media and water from the pressure vessel and into the air stream within the blast line and applying the combined flow of media, water, and air to a substrate, wherein the fixed pressure point is greater than the maximum blast pressure.
13. The method of claim 12 , wherein a pressure differential between the fixed pressure point and the blast pressure drives the media and water flow into the air stream.
14. The method of claim 12 , wherein the step of pumping a regulated water flow to a pressure vessel to maintain a pressure vessel pressure at a fixed pressure point further comprises:
flowing a water flow to a water regulator, wherein the water regulator generates the regulated water flow; and
wherein the water regulator is disposed downstream of a water pump configured to pump the water to the pressure vessel.
15. The method of claim 14 , wherein the water regulator is disposed downstream of a selector valve configured to direct the water to the pressure vessel.
16. The method of claim 15 , wherein the step of pumping a regulated water flow to a pressure vessel to maintain a pressure vessel pressure at a fixed pressure point further comprises:
flowing a system airflow through an air pressure regulator to generate a regulated system air flow, wherein the regulated system air flow has a maximum air pressure;
flowing the regulated system airflow to a water pump to power the water pump, wherein the maximum air pressure is equal to a maximum water pump operating pressure.
17. The method of claim 12 , wherein the step of pumping a regulated water flow to a pressure vessel to maintain a pressure vessel pressure at a fixed pressure point further comprises:
flowing a system airflow through an air pressure regulator to generate a regulated system air flow, wherein the regulated system air flow has a fixed air pressure;
flowing the regulated system airflow to a water pump to power the water pump, wherein the fixed air pressure causes the water pump to output the regulated water flow.
18. A vapor blast system comprising:
a pressure vessel mounted to a support structure;
an enclosure mounted to the support structure, wherein the enclosure is configured to receive a flow of compressed air from a compressed air source, to receive a flow of water from a water source and to provide a regulated water flow to the pressure vessel, to receive a combined flow of media and water from the pressure vessel, and to output a combined flow of compressed air, water, and media; and
a water regulator disposed within the enclosure and configured to generate the regulated water flow;
wherein a regulated water flow pressure maintains a pressure vessel pressure above a compressed air pressure such that a pressure differential between the pressure vessel pressure and the compressed air pressure drives the combined flow of media and water into the flow of compressed air to generate the combined flow of compressed air, water, and media.
19. The vapor blast system of claim 18 , wherein the enclosure further comprises:
a housing mounted to the frame;
a compressed air line extending into a first side of the housing;
a blast pressure regulator disposed on the compressed air line within the housing;
a blast line extending from the blast pressure regulator and exiting the housing through a blast media outlet extending through the first side;
a blast control line extending from the blast pressure regulator and connected to a control valve, wherein the blast control line controls the blast pressure regulator between a closed position, wherein compressed air is prevented from entering the blast line, and an open position, wherein compressed air is able to enter the blast line;
a pump control line extending from the control valve and connected to a water pump, and configured to power the water pump;
a water inlet line extending to the water pump and configured to provide a flow of water to the water pump;
a pressurization line extending from a water pump outlet and configured to provide the regulated water flow to the pressure vessel;
a blast media inlet extending into the enclosure and configured to receive a media hose extending from the pressure vessel; and
a flow hose extending from the blast media inlet and intersecting the blast line, wherein the flow hose provides the combined flow of media and water to the blast line to generate the combined flow of compressed air, media, and water;
wherein the water regulator is disposed on the pressurization line between the water pump and the pressure vessel, such that the water regulator receives a pump outlet water flow from the water pump and generates the regulated water flow.
20. The vapor blast system of claim 19 , and further comprising:
a flow valve disposed on the flow hose and configured to actuate between a first position, wherein the flow hose is open, and a second position, wherein the flow hose is closed; and
wherein actuating the flow valve to the second position causes the water regulator to close, thereby returning the pressure vessel pressure to the fixed point.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US16/419,383 US20190270181A1 (en) | 2015-07-16 | 2019-05-22 | Vapor blast system with fixed pot pressure |
Applications Claiming Priority (4)
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US201562193235P | 2015-07-16 | 2015-07-16 | |
PCT/US2016/042585 WO2017011780A1 (en) | 2015-07-16 | 2016-07-15 | Vapor blast system with fixed pot pressure |
US201815745013A | 2018-01-15 | 2018-01-15 | |
US16/419,383 US20190270181A1 (en) | 2015-07-16 | 2019-05-22 | Vapor blast system with fixed pot pressure |
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PCT/US2016/042585 Continuation WO2017011780A1 (en) | 2015-07-16 | 2016-07-15 | Vapor blast system with fixed pot pressure |
US15/745,013 Continuation US10875151B2 (en) | 2015-07-16 | 2016-07-15 | Vapor blast system with fixed pot pressure |
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US20190270181A1 true US20190270181A1 (en) | 2019-09-05 |
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US16/419,383 Abandoned US20190270181A1 (en) | 2015-07-16 | 2019-05-22 | Vapor blast system with fixed pot pressure |
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US15/745,013 Active 2037-01-26 US10875151B2 (en) | 2015-07-16 | 2016-07-15 | Vapor blast system with fixed pot pressure |
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US (2) | US10875151B2 (en) |
EP (1) | EP3322545A4 (en) |
KR (1) | KR20180020313A (en) |
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AU (1) | AU2016291680B2 (en) |
CA (1) | CA2991982A1 (en) |
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US10875151B2 (en) | 2015-07-16 | 2020-12-29 | Graco Minnesota Inc. | Vapor blast system with fixed pot pressure |
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US11565372B2 (en) * | 2019-08-14 | 2023-01-31 | Cleaner Blast, LLC | Dry to wet abrasive blast machine conversion kit and method |
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-
2016
- 2016-07-15 US US15/745,013 patent/US10875151B2/en active Active
- 2016-07-15 CN CN201680041518.7A patent/CN107847985B/en active Active
- 2016-07-15 KR KR1020187004152A patent/KR20180020313A/en not_active Application Discontinuation
- 2016-07-15 CA CA2991982A patent/CA2991982A1/en active Pending
- 2016-07-15 EP EP16825270.8A patent/EP3322545A4/en active Pending
- 2016-07-15 AU AU2016291680A patent/AU2016291680B2/en active Active
- 2016-07-15 WO PCT/US2016/042585 patent/WO2017011780A1/en active Application Filing
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2019
- 2019-05-22 US US16/419,383 patent/US20190270181A1/en not_active Abandoned
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US10875151B2 (en) | 2020-12-29 |
CA2991982A1 (en) | 2017-01-19 |
WO2017011780A1 (en) | 2017-01-19 |
AU2016291680B2 (en) | 2021-10-14 |
CN107847985A (en) | 2018-03-27 |
KR20180020313A (en) | 2018-02-27 |
CN107847985B (en) | 2021-06-25 |
EP3322545A1 (en) | 2018-05-23 |
US20180207769A1 (en) | 2018-07-26 |
EP3322545A4 (en) | 2019-03-27 |
AU2016291680A1 (en) | 2018-02-01 |
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