US20200094377A1 - Abrasive blast system - Google Patents
Abrasive blast system Download PDFInfo
- Publication number
- US20200094377A1 US20200094377A1 US16/621,539 US201816621539A US2020094377A1 US 20200094377 A1 US20200094377 A1 US 20200094377A1 US 201816621539 A US201816621539 A US 201816621539A US 2020094377 A1 US2020094377 A1 US 2020094377A1
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- United States
- Prior art keywords
- blast
- control
- line
- air
- flow
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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
- B24C7/0038—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
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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
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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
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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
- B24C7/0084—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
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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
- B24C7/003—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 means for preventing clogging of the equipment
Definitions
- This disclosure relates generally to abrasive blast systems. More specifically, this disclosure relates to an abrasive blast system eliminating an on/off flow control valve downstream of the pressure pot.
- 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 pot 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 flow of media and water into the compressed air stream is typically controlled by a valve located downstream of the pressure pot. The valve is in direct contact with the mixture of media and water, and is thus subject to wear. As such, the valve requires frequent maintenance and/or replacement.
- an abrasive blast system includes a water pump, a pressure pot, an air supply line extending from an air source, a media line extending from the pressure pot to the air supply line, a blast line extending downstream from a junction of the media line and the air supply line to a nozzle, a control valve, and a blast control switch.
- the water pump is configured to pump a flow of water from a water source to the pressure pot through a water line.
- the control valve is configured to shift between an open state and a closed state to control the flow of water to the pressure pot to control the flow of blast slurry from the pressure pot to the media line.
- the blast control switch is controllable between an activated state and a deactivated state and is configured to actuate the control valve between the open state and the closed state.
- a method includes generating a compressed air flow and directing the compressed air flow to an air supply line; pumping, with a water pump, a pressurizing water flow; and controlling with a blast control switch, actuation of a control valve between an open state and a closed state to thereby control the pressurizing water flow to the pressure pot and the blast slurry flow through the media line.
- the air supply line extends to a junction with a media line that extends from a pressure pot.
- the media line is configured to convey a blast slurry flow to the junction from the pressure pot.
- the water pump is configured to pump the pressurizing water flow to the pressure pot through a water line extending between the water pump and the pressure pot.
- a control system is for a vapor abrasive blast system having a pressure pot that stores a supply of blast slurry, a compressor for providing a flow of compressed air through an air supply line to a blast line, and a water pump for pumping water to the pressure pot to thereby pressurize the pressure pot and drive the blast slurry downstream out of the pressure pot.
- the blast slurry is driven through a media line to the blast line where the blast slurry is entrained in the compressed air and carried out of a nozzle.
- the control system includes a control valve, a blast air controller, and a blast control switch.
- the control valve is configured to shift between an open state and a closed state to control the water flow to the pressure pot from the water pump.
- the control valve is configured to prevent the water from flowing to and pressurizing the pressure pot when in the closed state and to allow the water to flow to and pressurize the pressure pot when in the open state.
- the blast air controller is disposed on the air supply line upstream of the blast line.
- the blast air controller is configured to shift between an open controller state and a closed controller state to control the compressed air flow to the blast line.
- the blast air controller is also configured to prevent the compressed air from flowing to the blast line when in the closed controller state and to allow the compressed air to flow to the blast line when in the open controller state.
- the blast control switch actuates the control valve between the open state and the closed state and actuates the blast air controller between the open controller state and the closed controller state.
- the flow of blast slurry out of the pressure pot is activated and deactivated by the water flow to the pressure pot.
- FIG. 1 is a block diagram of a vapor blast system.
- FIG. 2 is a schematic diagram of a vapor blast system with a control valve configured to control the flow of water to the pressure pot.
- FIG. 3 is a schematic diagram of a vapor blast system with a control valve configured to control the flow of air to the water pump.
- FIG. 4 is a schematic diagram of a vapor blast system with a control valve configured to control the water pump.
- FIG. 1 is a simplified schematic diagram of vapor blast system 10 , which is a system that entrains a blast slurry of water and blast media (e.g. garnet, walnut shells, or any other suitable blasting media) in a flow of compressed air to perform coating removal and surface preparation.
- Vapor blast system 10 includes compressor 12 , blast air controller 14 , water source 16 , water pump 18 , pressure pot 20 , control valves 22 a - 22 c , blast control switch 24 , nozzle 26 , control logic 28 , communication lines 29 , air supply line 30 , system line 32 , water inlet line 34 , pressurization line 36 , media line 38 , blast line 40 , and junction 42 .
- a blast slurry of water and blast media e.g. garnet, walnut shells, or any other suitable blasting media
- Vapor blast system 10 includes compressor 12 , blast air controller 14 , water source 16 , water pump 18 , pressure pot 20 , control valves 22 a
- Compressor 12 is an air compressor that generates a flow of compressed air to entrain the blast slurry and to power various components of vapor blast system 10 .
- Compressor 12 is configured to generate the flow of compressed air whenever vapor blast system 10 is operating.
- Air supply line 30 extends from compressor 12 to junction 42 .
- Junction 42 is the location where media line 38 and air supply line 30 join to form blast line 40 .
- Blast line 40 extends from junction 42 of air supply line 30 and media line 38 to nozzle 26 .
- Nozzle 26 ejects a spray of entrained blast slurry for application to a surface.
- System line 32 branches from air supply line 30 upstream of blast air controller 14 and extends to water pump 18 .
- the compressed air from compressor 12 flows into air supply line 30 .
- a blast portion of the compressed air (“blast air”) flows downstream through air supply line 30 to nozzle 26 , and a system portion of the compressed air (“system air”) flows into system line 32 .
- System line 32 provides the system air to water pump 18 , and the system air powers water pump 18 .
- Water pump 18 includes a shuttle valve that directs the system air to power reciprocation of the piston of water pump 18 . While water pump 18 is described as a pneumatically powered pump, it is understood that water pump 18 can be of any desired configuration, such as an electric pump or a hydraulic pump.
- Blast air controller 14 is disposed on air supply line 30 and is controllable between an open state, in which blast air controller 14 allows the blast portion to flow downstream to junction 42 , and a closed state, in which blast air controller 14 prevents the compressed air from flowing downstream to junction 42 . Blast air controller 14 is thereby configured to control blasting by controlling the flow of blast air to nozzle 26 .
- Water inlet line 34 extends from water source 16 to water pump 18 .
- Pressurization line 36 extends from water pump 18 to pressure pot 20 and supplies the pumped water to pressure pot 20 .
- Water source 16 stores a supply of water that water pump 18 pumps to pressure pot 20 through pressurization line 36 .
- the pumped water pressurizes pressure pot 20 and generates the blast slurry.
- Media line 38 extends from pressure pot 20 to junction 42 .
- Media line 38 conveys the blast slurry from pressure pot 20 to junction 42 where the blast slurry is entrained in the blast air from air supply line 30 .
- the entrained blast slurry is driven out of nozzle 26 by the blast air.
- Junction 42 is located at a higher elevation than the maximum fill level of pressure pot 20 to prevent the blast media from being gravity fed through media line 38 to blast line 40 .
- Control valves 22 a - 22 c are configured to control the flow of pumped water to pressure pot 20 to thereby control the flow of blast slurry out of pressure pot 20 .
- Control valve 22 a is disposed on pressurization line 36 between water pump 18 and pressure pot 20 .
- Control valve 22 b is disposed on system line 32 upstream of water pump 18 .
- Control valve 22 c is disposed on water pump 18 .
- Control valve 22 c directly interfaces with water pump 18 and mechanically controls pumping by water pump 18 .
- Control valves 22 a - 22 c are controllable between an open state, where control valves 22 a - 22 c allow the pumped water to flow to pressure pot 20 , and a closed state, where control valves 22 a - 22 c prevent the pumped water from flowing to pressure pot 20 .
- Control valves 22 a - 22 c are disposed upstream of pressure pot 20 such that control valves 22 a - 22 c do not interface directly with either the blast media or the blast slurry.
- vapor blast system 10 is shown as including control valve 22 a , control valve 22 b , and control valve 22 c , it is understood that vapor blast system 10 need include only one of control valve 22 a , control valve 22 b , and control valve 22 c to control the flow of pumped water to pressure pot 20 .
- Control valves 22 a - 22 c are of any suitable configuration for controlling the flow of pumped water to pressure pot 20 .
- Control valve 22 a is a water valve on pressurization line 36 that controls the flow of pumped water to pressure pot 20 . As such, control valve 22 a directly controls the flow of pressurized water to pressure pot 20 .
- Control valve 22 b is an air valve on system line 32 that controls the flow of system air to water pump 18 . Control valve 22 b controls the flow of water to pressure pot 20 by controlling activation of water pump 18 .
- Control valve 22 c mechanically interfaces with water pump 18 to control the flow of water to pressure pot 20 .
- control valve 22 c is a mechanical device configured to restrict reciprocation of the shuttle of the shuttle valve that directs the system air within water pump 18 to power water pump 18 .
- control valve 22 c can include a pin that control valve 22 c extends and retracts to inhibit and allow reciprocation of the shuttle.
- Blast control switch 24 is connected to blast air controller 14 and control valves 22 a - 22 c .
- Blast control switch 24 controls blast air controller 14 and control valves 22 a - 22 c between their respective open states and closed states.
- Blast control switch 24 is configured to be switched between an activated state and a deactivated state by the user to control the flow of the entrained blast slurry out of nozzle 26 .
- Blast control switch 24 can communicate with and control blast air controller 14 and control valves 22 a - 22 c in any suitable manner.
- blast control switch 24 can include a trigger that the user depresses to place blast control switch 24 in the activated state and that the user releases to place blast control switch 24 in the deactivated state.
- Communication lines 29 extend from blast control switch 24 and provide commands to blast air controller 14 , control valves 22 a - 22 c , and control logic 28 from blast control switch 24 .
- Communication lines 29 can be of any suitable form for communicating commands from blast control switch 24 , such as electronic or pneumatic lines.
- blast control switch 24 is a pneumatic switch and blast air controller 14 and control valves 22 a - 22 c are pneumatically actuated.
- system line 32 can extend to both blast air controller 14 and control valves 22 a - 22 c to provide compressed air to blast air controller 14 and control valves 22 a - 22 c to actuate blast air controller 14 and control valves 22 a - 22 c between their respective states.
- Blast control switch 24 directs the flow of compressed air to both blast air controller 14 and control valves 22 a - 22 c to control the respective states of blast air controller 14 and control valves 22 a - 22 c.
- blast air controller 14 communicates electronically through either wired or wireless communication links, such as communication lines 29 , with both blast air controller 14 and control valves 22 a - 22 c .
- Blast air controller 14 provides an activation signal to blast air controller 14 and control valves 22 a - 22 c to cause blast air controller 14 and control valves 22 a - 22 c to shift to their respective open states.
- Blast air controller 14 provides a deactivation signal to blast air controller 14 and control valves 22 a - 22 c to cause blast air controller 14 and control valves 22 a - 22 c to shift to their respective closed states.
- Control logic 28 is in communication, via communication lines 29 , with blast control switch 24 , blast air controller 14 , and control valves 22 a - 22 c .
- Control logic 28 is configured to implement a delay in actuation between blast air controller 14 and control valves 22 a - 22 c .
- Control logic 28 can be of any suitable configuration for implementing a delay between actuation of blast air controller 14 and control valves 22 a - 22 c .
- control logic 28 can include any one or more of a microprocessor, a controller, a digital signal processor (DSP), an application specific integrated circuit (ASIC), a field-programmable gate array (FPGA), or other equivalent discrete or integrated logic circuitry.
- DSP digital signal processor
- ASIC application specific integrated circuit
- FPGA field-programmable gate array
- control logic 28 is an air logic controller such that compressed air from compressor 12 is the control medium.
- control logic 28 is configured to cause blast air controller 14 to shift to the open state prior to control valves 22 a - 22 c shifting to the open state, and to cause blast air controller 14 to shift to the closed state after control valves 22 a - 22 c shift to the closed state.
- control logic 28 ensures that blast air is flowing through blast line 40 whenever control valves 22 a - 22 c are in the open state, thereby ensuring that the blast slurry flowing out of media line 38 is entrained and carried out of nozzle 26 .
- Blast air controller 14 and control valves 22 are configured to be in a similar state. As such, both blast air controller 14 and control valve are in the open state when blasting is desired, and both blast air controller 14 and control valve 22 are in the closed state when blasting is not desired.
- blast control switch 24 causes both blast air controller 14 and control valves 22 a - 22 c to shift the open state.
- blast air controller 14 in the open state the blast air flows through air supply line 30 to junction 42 , downstream through blast line 40 and out of nozzle 26 .
- control valves 22 a - 22 c in the open state the pumped water from water pump 18 flows through pressurization line 36 and into pressure pot 20 .
- the pumped water causes the pressure in pressure pot 20 to rise and the increased pressure drives the blast slurry out of pressure pot through media line 38 .
- the blast slurry flows through media line 38 to junction 42 where the blast slurry is entrained in the blast air and sprayed out of nozzle 26 .
- Control valves 22 a - 22 c control the flow of pumped water to pressure pot 20 in different manners.
- control valve 22 a is a water valve configured to directly control the water flow through pressurization line 36 .
- control valve 22 a With control valve 22 a in the closed state the pumped water from water pump 18 deadheads at control valve 22 a . With control valve 22 a in the open state, the pumped water flows downstream into pressure pot 20 .
- Control valve 22 b is an air valve configured to control the system air flow to water pump 18 . With control valve 22 b in the closed state the system air cannot flow to water pump 18 to power water pump 18 , so water pump 18 does not generate the pressurizing water flow.
- Control valve 22 b With control valve 22 b in the open state, the system air flows to and powers water pump 18 , and water pump 18 pumps the pressurizing water to pressure pot 20 .
- Control valve 22 c is a mechanical device interacting with water pump 18 to control activation of water pump 18 . With control valve 22 c in the closed state, control valve 22 c physically inhibits the oscillation of the shuttle of water pump 18 , thereby preventing the shuttle from directing the system air that powers water pump 18 such that water pump 18 does not generate the pressuring water flow. With control valve 22 c in the open state, the shuttle can oscillate and direct the system air such that water pump 18 pumps the pressurizing water flow to water pump 18 .
- blast air controller 14 shifts to the open state prior to control valves 22 a - 22 c shifting to the open state.
- blast control switch 24 can be configured to implement of delay between sending the open command to blast air controller 14 and sending the open command to control valves 22 a - 22 c .
- Control logic 28 can also implement the delay. Actuating blast air controller 14 to the open state prior to actuating control valves 22 a - 22 c to the open state ensures that the blast air is already flowing through junction 42 and blast line 40 prior to the blast slurry first reaching junction 42 . A uniform flow of entrained blast slurry is thereby generated at the beginning of the blast operation.
- blast control switch 24 stops the flow of entrained blast slurry by placing blast control switch 24 in the deactivated state. For example, the user can release the trigger of blast control switch 24 .
- blast control switch 24 causes both blast air controller 14 and control valves 22 a - 22 c to shift to their respective closed states.
- the blast air is prevented from flowing to blast line 40 with blast air controller 14 in the closed state.
- the pumped water is prevented from flowing to and pressurizing pressure pot 20 with control valves 22 in the closed state. Preventing the pumped water from flowing to pressure pot 20 causes the pressure within pressure pot 20 to decrease as the blast slurry flows out of pressure pot 20 through media line 38 .
- the pressure drops to a sufficiently low level such that the blast slurry is not driven through media line 38 to junction 42 by the pressure level in pressure pot 20 .
- shutting off the flow of pressurizing water to pressure pot 20 also shuts off the flow of blast slurry out of pressure pot 20 .
- Blast air controller 14 to shift to the closed state after control valves 22 a - 22 c shift to the closed state.
- blast control switch 24 can be configured to implement of delay between sending the close command to blast air controller 14 and sending the close command to control valves 22 a - 22 c .
- Control logic 28 can also implement the delay. Shifting blast air controller 14 to the closed state after shifting control valves 22 a - 22 c to the closed state ensures that the blast air continues to flow through junction 42 and blast line 40 as the pressure drops in pressure pot 20 .
- the blast air carries any excess flow from pressure pot 20 out of nozzle 26 , thereby preventing an undesired plug of blast slurry from forming in blast line 40 when blast control switch 24 is placed in the deactivated state.
- Control valves 22 a - 22 c deactivate the flow of blast slurry out of pressure pot 20 without directly interacting with the blast slurry or the blast media. Instead, control valves 22 a - 22 c directly interface with the flow of pressurizing water, the flow of system air to water pump 18 , or mechanically with water pump 18 . Controlling the flow of blast slurry by controlling the flow of pumped water to pressure pot 20 prevents control valves 22 a - 22 c from experiencing wear caused by directly interfacing with the blast slurry. Vapor blast system 10 does not require any valve in the direct flow of blast media, on either the media line 38 or the blast line 40 . Blasting media flow is instead controlled entirely by controlling the flow of water into pressure pot 20 .
- Eliminating valves in the flowpath of the blast media reduces maintenance requirements for vapor blast system 10 , thereby reducing maintenance costs and downtime.
- positioning junction 42 at a higher elevation than the maximum fill level of pressure pot 20 prevents any undesired flow of blast slurry out of media line 38 to junction 42 when the blast air flow is stopped.
- Control logic 28 also increases efficiency and provides increased spray quality. Control logic 28 ensures that the blast air begins flowing to blast line 40 prior to the blast slurry flowing to blast line 40 , and that the blast air continues to flow to blast line 40 after the blast slurry stops flowing to blast line 40 . Delaying the flow of blast slurry to blast line 40 until after blast air is flowing to blast line 40 ensures an even high-quality spray of entrained blast slurry at nozzle 26 as blasting begins.
- FIG. 2 is a schematic diagram of vapor blast system 100 , which includes compressor 12 , blast air controller 14 , water source 16 , water pump 18 , pressure pot 20 , blast control switch 24 , nozzle 26 , air supply line 30 , system line 32 , water inlet line 34 , pressurization line 36 , media line 38 , blast line 40 , junction 42 , disconnect 44 , system valve 46 , pump pressure regulator 48 , flow valve 50 , check valve 52 , air filter 54 , pressure gauge 56 , pressure relief 58 , system control line 60 a , system control line 60 b , pump control line 62 , blast control line 64 , pressure control line 66 , and control valve 122 .
- Blast air controller 14 includes air pressure regulator 68 and blast air regulator 70 .
- Compressor 12 is an air compressor configured to generate a flow of compressed air and to provide the flow of compressed air to air supply line 30 .
- the compressed air splits as it flows through air supply line 30 .
- Water pump 18 is configured to draw water from water source 16 and pump the water downstream to pressure pot 20 to pressurize pressure pot 20 .
- Pressure pot 20 stores a blast slurry comprised of water and abrasive blasting media. The pressure within pressure pot 20 causes the blast slurry to flow downstream from pressure pot 20 through media line 38 and to blast line 40 , where the blast slurry is entrained in the blast air flowing through air supply line 30 .
- the entrained blast slurry is conveyed downstream to nozzle 26 and is sprayed from nozzle 26 and applied to the desired blast surface.
- Air supply line 30 extends from compressor 12 to blast line 40 .
- System line 32 branches off of air supply line 30 and receives a portion of the compressed air flow from air supply line 30 .
- a blast portion of the compressed air (“blast air”) flows downstream through air supply line 30 and a system portion of the compressed air (“system air”) flows through system line 32 .
- Blast air controller 14 controls the flow of the blast air through air supply line 30 .
- Blast air regulator 70 is disposed on air supply line 30 and controls the flow of blast air downstream through air supply line 30 .
- Blast air regulator 70 is positionable at any desired position between a fully open position, allowing a maximum flow of blast air through air supply line 30 , and a fully closed position, preventing any air from flowing downstream through air supply line 30 .
- Blast air regulator 70 is normally-closed and is actuated to the open state by the system air when blasting is desired.
- Air pressure regulator 68 controls the flow of system air to blast air regulator 70 , and the pressure provided by the system air determines the degree that blast air regulator 70 opens. The user controls the blast air pressure via air pressure regulator 68 .
- air pressure regulator 68 controls the flow of system air to blast air regulator 70
- blast air regulator 70 controls the flow of blast air through air supply line 30 .
- Air filter 54 is disposed on system line 32 and is configured to remove contaminants from the compressed air flowing in system line 32 .
- Disconnect 44 is disposed on system line 32 .
- Disconnect 44 is a flow control valve that controls the flow of compressed air into system line 32 , and in some examples provides an emergency stop for vapor blast system 100 .
- disconnect 44 With disconnect 44 in an open state, the compressed air in system line 32 can flow downstream through disconnect 44 to power and control various components of vapor blast system 100 .
- disconnect 44 With disconnect 44 in a closed state, the compressed air in system line 32 cannot flow downstream past disconnect 44 to power the components of vapor blast system 100 and vapor blast system 100 is thereby prevented from blasting.
- System line 32 extends downstream from disconnect 44 to system valve 46 and pump pressure regulator 48 .
- Pump control line 62 is a portion of system line 32 that extends from pump pressure regulator 48 to water pump 18 .
- Pump pressure regulator 48 controls the flow of system air to water pump 18 to thereby control the speed of and the pressure generated by water pump 18 .
- Water pump 18 is configured to draw water from water source 16 through water inlet line 34 and to pump the water downstream to pressurization line 36 .
- Flow valve 50 is disposed on pressurization line 36 and is configured to regulate the flow rate of water from water pump 18 to pressure pot 20 .
- Flow valve 50 can be of any suitable form for regulating the water flow, such as one or more needle valves.
- the user sets the position of internal components of flow valve 50 to set the flow rate of the pressurizing water flowing to pressure pot 20 .
- the flow rate of the pressurizing water to pressure pot 20 is directly related to the flow rate of the blast slurry out of pressure pot 20 , such that the flow rate of the blast slurry is controlled by controlling the flow through flow valve 50 .
- Check valve 52 is disposed on pressurization line 36 between control valve 122 and pressure pot 20 . Check valve 52 prevents water and media from backflowing out of pressure pot 20 to pressurization line 36 .
- Control valve 122 is disposed on pressurization line 36 between water pump 18 and pressure pot 20 .
- Control valve 122 is controllable between an open state, where the pumped water can flow downstream through control valve 122 to pressure pot 20 , and a closed state, where the pumped water is prevented from flowing to pressure pot 20 .
- Control valve 122 is a normally-open valve such that control valve 122 remains in the open state unless actuated to the closed state.
- Control valve 122 can be any suitable valve for controlling the flow of water through pressurization line 36 , such as a ball valve, a pinch valve, a disk valve, a gate valve, or any other suitable valve.
- Control valve 122 controls the pressurization of pressure pot 20 , thereby controlling the flow of blast slurry out of pressure pot 20 .
- Pressure pot 20 is a pressure vessel configured to store the blast slurry.
- Pressure gauge 56 is configured to provide an indication of the pressure level in pressure pot 20 to the user.
- Pressure relief 58 is a valve that allows the user to relieve the pressure within pressure pot 20 prior to opening pressure pot 20 .
- Media line 38 extends downstream from pressure pot 20 and merges with air supply line 30 at junction 42 .
- Media line 38 provides the blast slurry from pressure pot 20 to junction 42 , where the blast slurry is entrained in the blast air flowing through air supply line 30 .
- Blast line 40 extends from junction 42 to nozzle 26 and conveys the entrained blast slurry to nozzle 26 .
- Nozzle 26 is open and, in some examples, does not contain any internal mechanism for controlling the flow of entrained blast slurry out of nozzle 26 .
- Media line 38 is open between pressure pot 20 and blast line 40 , and no valve is disposed on media line 38 to control the flow of blast slurry through media line 38 . Instead, the flow of blast slurry through media line 38 is controlled by the pressure in pressure pot 20 . Junction 42 of media line 38 and air supply line 30 is located at a higher elevation than the maximum fill level of pressure pot 20 to prevent the blast slurry from being gravity fed from pressure pot 20 to blast line 40 when blasting is not desired. In addition, media line 38 is preferably rigid, which further prevents accumulation of the blast slurry in media line 38 when vapor blast system 100 is deactivated.
- System control line 60 a branches off of system line 32 and extends to blast control switch 24 .
- System control line 60 b extends from blast control switch 24 to system valve 46 .
- a control portion of the compressed air from compressor 12 flows into system control line 60 a .
- Blast control switch 24 is controllable between an activated state, where the control air can flow from system control line 60 a to system control line 60 b through blast control switch 24 , and a deactivated state, where system control line 60 a is disconnected from system control line 60 b to prevent the control air from flowing from system control line 60 a to system control line 60 b .
- blast control switch 24 is integrated with or closely located to nozzle 26 such that the same user can actuate blast control switch 24 and aim nozzle 26 .
- blast control switch 24 can be actuated between the activated state and the deactivated state by the user depressing a trigger of blast control switch 24 .
- blast control switch 24 is described as a pneumatic controller, it is understood that blast control switch 24 can be of any desired form for controlling the state of system valve 46 .
- blast control switch 24 can communicate electronically, though either a wired or wireless connection, with system valve 46 to control the state of system valve 46 .
- blast control switch 24 can directly communicate with blast air controller 14 and control valve 122 to control the respective states of blast air controller 14 and control valve 122 .
- each of blast air controller 14 and control valve 122 can be electrically actuated by a solenoid valve, and blast air controller 14 can provide electrical signals to the respective solenoid valves to actuate blast air controller 14 and control valve 122 between the open and closed states.
- Blast control line 64 and pressure control line 66 extend downstream from system valve 46 .
- Blast control line 64 extends to air pressure regulator 68 and from air pressure regulator 68 to blast air regulator 70 .
- Pressure control line 66 extends to control valve 122 .
- System valve 46 directs the flow of system air to either blast control line 64 or pressure control line 66 depending on the state of system valve 46 .
- System valve 46 directs the system air to blast control line 64 and away from pressure control line 66 when system valve 46 is in a system-on state. Directing the system air to blast control line 64 causes blast air regulator 70 to shift to the open state and causes control valve 122 to return to the open state, as control valve 122 is normally-open.
- System valve 46 directs the system air to pressure control line 66 and away from blast control line 64 when system valve 46 is in a system-off state. Directing the system air to pressure control line 66 causes control valve 122 to shift to the closed state and blast air regulator 70 to return to the closed state, as blast air regulator 70 is normally-closed.
- compressor 12 is activated and generates and provides a compressed air flow to air supply line 30 .
- the user places vapor blast system 100 in operation by shifting disconnect 44 to the open state such that the system portion can flow downstream from disconnect 44 through system line 32 .
- the blast air portion flows downstream through air supply line 30 towards blast line 40 .
- the system air flows through system line 32 to system valve 46 and water pump 18 .
- the control air flows to blast control switch 24 through system control line 60 a .
- Blast control switch 24 is normally-closed such that blast control switch 24 prevents the control air from flowing to system valve 46 through system control line 60 b.
- the system air flowing to pump control line 62 initially flows through pump pressure regulator 48 , which can be set at any desired position by the user to control the water pressure generated by water pump 18 .
- the system air flows to and powers water pump 18 .
- Water pump 18 draws water from water source 16 through water inlet line 34 and pumps the water downstream through pressurization line 36 .
- the water flows through flow valve 50 , which limits the flow rate of the water to thereby limiting the flow rate of the blast slurry leaving pressure pot 20 , and to pressure pot 20 through pressurization line 36 .
- Control valve 122 is disposed on pressurization line 36 and controls the flow of water to pressure pot 20 . With control valve 122 in the closed state, the water deadheads at control valve 122 and does not flow to pressure pot 20 .
- System valve 46 is in the system-off state until blast control switch 24 is actuated to an activated state, where system control line 60 a is connected to system control line 60 b .
- system valve 46 directs the system air to pressure control line 66 .
- the system air flows through pressure control line 66 to control valve 122 and causes control valve to shift to and remain in the closed state.
- control valve 122 prevents the water pumped into pressurization line 36 from flowing to pressure pot 20 .
- pressure pot 20 is not pressurized by the water and the blast slurry does not flow out of pressure pot 20 to media line 38 .
- system-off state system valve 46 prevents the system air from flowing to blast control line 64 .
- Blast air regulator 70 thus remains in the normally-closed state and prevents the blast air from flowing downstream through air supply line 30 .
- both blast air regulator 70 and control valve 122 are in their respective closed states.
- blast control switch 24 To initiate blasting, the user actuates blast control switch 24 to an activated state where system control line 60 a is fluidly connected to system control line 60 b such that the control air flows to system control line 60 b .
- System control line 60 b provides the control air to system valve 46 , where the control air causes system valve 46 to shift to the system-on state.
- system valve 46 directs the system air to blast control line 64 and prevents the system air from flowing to pressure control line 66 .
- the system air flows through blast control line 64 to blast air regulator 70 , where the system air causes blast air regulator 70 to shift to the open state. With blast air regulator 70 in the open state the blast air flows downstream through air supply line 30 past blast air regulator 70 and to blast line 40 . Without the system air to maintain control valve 122 in the closed state, control valve 122 returns to the normally-open state. As such, both blast air regulator 70 and control valve 122 are open with blast control switch 24 in the activated state.
- control valve 122 With control valve 122 in the open state the pumped water from water pump 18 flows through pressurization line 36 to pressure pot 20 .
- the pumped water pressurizes pressure pot 20 , and the increased pressure within pressure pot 20 drives the blast slurry out of pressure pot 20 and downstream through media line 38 to junction 42 .
- the blast slurry is entrained in the blast portion of air at junction 42 , and the entrained blast slurry is driven downstream through blast line 40 and out of nozzle 26 .
- blast control switch 24 To stop blasting the user returns blast control switch 24 to the deactivated state, such as by releasing the trigger of blast control switch 24 .
- blast control switch 24 prevents the control air from flowing to system control line 60 b from system control line 60 a .
- System valve 46 returns to the system-off state.
- system valve 46 prevents the system air from flowing to blast air regulator 70 through blast control line 64 , such that blast air regulator 70 returns to the normally-closed position, and directs the system air to control valve 122 through pressure control line 66 , such that control valve 122 shifts to the closed state.
- Control valve 122 prevents the water from flowing to and pressurizing pressure pot 20 when in the closed state. Without a flow of pressurizing water the pressure in pressure pot 20 drops. The decreased pressure at an insufficient level to drive the blast slurry downstream through media line 38 . Blasting is thus ceased by ceasing the flow of water to pressure pot 20 .
- Vapor blast system 100 includes logic, such as control logic 28 ( FIG. 1 ), to prevent undesired accumulation of blast media in blast line 40 .
- control logic 28 FIG. 1
- the logic ensures that blast air regulator 70 shifts to the open position prior to control valve 122 shifting to the open position.
- the blast air flows to and through blast line 40 prior to the blast slurry beginning to flow to blast line 40 .
- Flowing the blast air through blast line 40 prior to introducing the blast slurry prevents undesired buildup of blast slurry in blast line 40 and ensures a smooth, high-quality flow of the entrained blast slurry out of nozzle 26 .
- control valve 122 shifts to the closed state prior to blast air regulator 70 shifting to the closed state. Shifting control valve 122 to the closed state prior to shifting blast air regulator 70 to the closed state ensures that the blast air continues to flow to blast line 40 as pressure pot 20 depressurizes, thereby preventing undesired accumulation of blast slurry in blast line 40 .
- Vapor blast system 100 provides significant advantages.
- Control valve 122 is disposed upstream of pressure pot 20 and controls the flow of pressurizing water to pressure pot 20 .
- Controlling the flow of pressurizing water to pressure pot 20 controls pressurization of pressure pot 20 and thus controls the flow of blast slurry out of pressure pot 20 .
- Blasting is instead controlled directly by controlling the pressurization of pressure pot 20 .
- Eliminating valves downstream of pressure pot 20 in the flowpath of the blast media reduces maintenance requirements for vapor blast system 100 , thereby reducing maintenance costs and downtime.
- positioning junction 42 at a higher elevation than the maximum fill level of pressure pot 20 prevents undesired flow of blast slurry out of media line 38 .
- the control logic ensures that the blast air begins flowing through blast line 40 prior to the blast slurry flowing to blast line 40 and that the blast air continues to flow through blast line 40 as pressure pot 20 depressurizes, which eliminates clogging and undesired accumulation of blast slurry in blast line 40 .
- FIG. 3 is a schematic diagram of vapor blast system 200 .
- Vapor blast system 200 includes compressor 12 , blast air controller 14 , water source 16 , water pump 18 , pressure pot 20 , blast control switch 24 , nozzle 26 , air supply line 30 , system line 32 , water inlet line 34 , pressurization line 36 , media line 38 , blast line 40 , junction 42 , disconnect 44 , system valve 46 , pump pressure regulator 48 , flow valve 50 , check valve 52 , air filter 54 , pressure gauge 56 , pressure relief 58 , system control line 60 a , system control line 60 b , pump control line 62 , blast control line 64 , pressure control line 66 , and control valve 222 .
- Blast air controller 14 includes air pressure regulator 68 and blast air regulator 70 .
- Vapor blast system 200 is substantially similar to vapor blast system 10 shown in FIG. 1 and vapor blast system 100 shown in FIG. 2 , except control valve 222 is located on system line 32 upstream of water pump 18 , similar to control valve 22 b ( FIG. 1 ). While control valve 222 is shown as disposed upstream of pump pressure regulator 48 , it is understood that control valve 222 can disposed at any desired location for controlling the system air flow to water pump 18 , such as on pump control line 62 between pump pressure regulator 48 and water pump 18 .
- Pressure control line 66 extends from system valve 46 to control valve 222 .
- Control valve 222 controls the flow of system air to water pump 18 .
- Control valve 222 is a normally-open valve that shifts to the closed state when system valve 46 is in the system-off state.
- Control valve 222 returns to the open state when system valve 46 is in the system-on state such that system valve 46 directs the system air to blast control line 64 .
- Control valve 222 is controlled between the open state and the closed state to control pressurization of pressure pot 20 .
- Actuating control valve 222 to the closed state stops the flow of system air to water pump 18 , thereby deactivating water pump 18 .
- Deactivating water pump 18 prevents water pump 18 from pumping water to pressure pot 20 through pressurization line 36 , thereby allowing the pressure in pressure pot 20 to drop.
- the decreased pressure in pressure pot 20 is sufficiently low such that the pressure does not drive the blast slurry downstream to blast line 40 through media line 38 .
- Pressure pot 20 remains at the decreased pressure and the blast slurry remains in pressure pot 20 until control valve 222 shifts to the open state.
- System valve 46 causes control valve 222 to shift to the open state when system valve 46 is in the system-on state. In the open state, control valve 222 allows the system air to flow to and power water pump 18 .
- Water pump 18 draws water from water source 16 and pumps the water to pressure pot 20 through pressurization line 36 .
- the pumped water increases the pressure in pressure pot 20 , and the increased pressure drives the blast slurry downstream out of pressure pot 20 through media line 38 to junction 42 , where the blast slurry is entrained in the blast air and driven downstream though blast line 40 and out of nozzle 26 .
- Vapor blast system 200 includes logic, such as control logic 28 ( FIG. 1 ), to prevent accumulation of the blast slurry in blast line 40 .
- control logic 28 FIG. 1
- the logic ensures that blast air regulator 70 shifts to the open state prior to control valve 222 shifting to the open state.
- control valve 222 shifts to the closed state prior to blast air regulator 70 shifting to the closed state.
- Vapor blast system 200 and control valve 222 provide significant advantages.
- Control valve 222 controls the flow of system air to water pump 18 to control the flow of blast slurry out of pressure pot 20 .
- Control valve 222 deactivates water pump 18 by shutting off the flow of system air to water pump 18 .
- Control valve 222 interfaces with only the system air and is not subject to the wear generated by interacting with the blast media in the blast slurry, thereby reducing maintenance and replacement costs and simplifying vapor blast system 200 .
- FIG. 4 is a schematic diagram of vapor blast system 300 .
- Vapor blast system 210 includes compressor 12 , blast air controller 14 , water source 16 , water pump 18 , pressure pot 20 , blast control switch 24 , nozzle 26 , air supply line 30 , system line 32 , water inlet line 34 , pressurization line 36 , media line 38 , blast line 40 , junction 42 , disconnect 44 , system valve 46 , pump pressure regulator 48 , flow valve 50 , check valve 52 , air filter 54 , pressure gauge 56 , pressure relief 58 , system control line 60 a , system control line 60 b , pump control line 62 , blast control line 64 , pressure control line 66 , and control valve 322 .
- Blast air controller 14 includes air pressure regulator 68 and blast air regulator 70 .
- Water pump 18 includes shuttle valve 72
- shuttle valve 72 includes shuttle member 74 .
- Vapor blast system 300 is substantially similar to vapor blast system 10 shown in FIG. 1 , vapor blast system 100 shown in FIG. 2 , and vapor blast system 200 shown in FIG. 3 , except control valve 322 of vapor blast system 300 mechanically interacts with water pump 18 to control the flow of pressurizing water to pressure pot 20 , similar to control valve 22 c ( FIG. 1 ).
- Pressure control line 66 extends from system valve 46 to control valve 322 .
- Water pump 18 includes shuttle valve 72 that includes a reciprocating shuttle member that directs the system air received from pump control line 62 to power water pump 18 .
- Control valve 322 inhibits reciprocation of the shuttle member 74 of shuttle valve 72 when in the closed state to prevent water pump 18 from pumping water to pressure pot 20 .
- control valve 322 can be configured to extend a pin into shuttle valve 72 to mechanically inhibit reciprocation of shuttle member 74 . With control valve 322 in the open position, shuttle member 74 is free to reciprocate and direct the flow of system air to power water pump 18 .
- Control valve 322 is normally-open and shifts to the closed state when system valve 46 is in the system-off state and is directing the system air through pressure control line 66 . Control valve 322 returns to the open state when system valve 46 is in the system-on state and is directing the system air to blast control line 64 .
- Control valve 322 is controlled between the open state and the closed state to control pressurization of pressure pot 20 .
- Actuating control valve 322 to the closed state deactivates water pump 18 .
- Deactivating water pump 18 prevents water pump 18 from pumping water to pressure pot 20 through pressurization line 36 , thereby allowing the pressure in pressure pot 20 to drop.
- the decreased pressure in pressure pot 20 is sufficiently low such that the pressure does not drive the blast slurry downstream to blast line 40 through media line 38 .
- Pressure pot 20 remains at the decreased pressure and the blast slurry remains in pressure pot 20 until control valve 322 shifts to the open state and water pump 18 pumps water to pressure pot 20 .
- Control valve 322 shifts to the open state when system valve 46 is in the system-on state and is directing the system air to blast control line 64 .
- control valve 322 allows shuttle member 74 to reciprocate to direct the system air within water pump 18 to power water pump 18 .
- Water pump 18 draws water from water source 16 and pumps the water to pressure pot 20 through pressurization line 36 .
- the pumped water increases the pressure in pressure pot 20 , and the increased pressure drives the blast slurry out of pressure pot 20 to media line 38 , and downstream through media line 38 to blast line 40 .
- Vapor blast system 300 includes logic, such as control logic 28 ( FIG. 1 ), to prevent undesired accumulation of the blast slurry in blast line 40 .
- control logic 28 FIG. 1
- the logic ensures that blast air regulator 70 shifts to the open state prior to control valve 322 shifting to the open state.
- control valve 322 shifts to the closed state prior to blast air regulator 70 shifting to the closed state.
- Vapor blast system 300 and control valve 322 provide significant advantages.
- Control valve 322 controls the flow of system air to water pump 18 to control the flow of blast slurry out of pressure pot 20 .
- Control valve 322 deactivates water pump 18 by mechanically deactivating water pump 18 .
- Control valve 322 interfaces with only the mechanical components of water pump 18 and is therefore not subject to the wear generated by interacting with the blast media in the blast slurry. Preventing wear to control valve reduces maintenance and replacement costs and simplifies vapor blast system 300 .
Abstract
A vapor abrasive blast system includes a compressor for generating compressed air, a water pump for pumping a water stream to a pressure vessel to pressurize the pressure vessel. A control valve is disposed upstream of the pressure vessel and is configured to control the flow of water from the water pump to the pressure vessel to thereby control the flow of blast slurry downstream out of the pressure vessel.
Description
- This application claims priority to U.S. Provisional Application No. 62/519,235 filed Jun. 14, 2017, and entitled “ABRASIVE BLAST SYSTEM,” the disclosure of which is hereby incorporated in its entirety.
- This disclosure relates generally to abrasive blast systems. More specifically, this disclosure relates to an abrasive blast system eliminating an on/off flow control valve downstream of the pressure pot.
- 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 pot 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 flow of media and water into the compressed air stream is typically controlled by a valve located downstream of the pressure pot. The valve is in direct contact with the mixture of media and water, and is thus subject to wear. As such, the valve requires frequent maintenance and/or replacement.
- According to an aspect of the disclosure, an abrasive blast system includes a water pump, a pressure pot, an air supply line extending from an air source, a media line extending from the pressure pot to the air supply line, a blast line extending downstream from a junction of the media line and the air supply line to a nozzle, a control valve, and a blast control switch. The water pump is configured to pump a flow of water from a water source to the pressure pot through a water line. The control valve is configured to shift between an open state and a closed state to control the flow of water to the pressure pot to control the flow of blast slurry from the pressure pot to the media line. The blast control switch is controllable between an activated state and a deactivated state and is configured to actuate the control valve between the open state and the closed state.
- According to another aspect of the disclosure, a method includes generating a compressed air flow and directing the compressed air flow to an air supply line; pumping, with a water pump, a pressurizing water flow; and controlling with a blast control switch, actuation of a control valve between an open state and a closed state to thereby control the pressurizing water flow to the pressure pot and the blast slurry flow through the media line. The air supply line extends to a junction with a media line that extends from a pressure pot. The media line is configured to convey a blast slurry flow to the junction from the pressure pot. The water pump is configured to pump the pressurizing water flow to the pressure pot through a water line extending between the water pump and the pressure pot.
- According to yet another aspect of the disclosure, a control system is for a vapor abrasive blast system having a pressure pot that stores a supply of blast slurry, a compressor for providing a flow of compressed air through an air supply line to a blast line, and a water pump for pumping water to the pressure pot to thereby pressurize the pressure pot and drive the blast slurry downstream out of the pressure pot. The blast slurry is driven through a media line to the blast line where the blast slurry is entrained in the compressed air and carried out of a nozzle. The control system includes a control valve, a blast air controller, and a blast control switch. The control valve is configured to shift between an open state and a closed state to control the water flow to the pressure pot from the water pump. The control valve is configured to prevent the water from flowing to and pressurizing the pressure pot when in the closed state and to allow the water to flow to and pressurize the pressure pot when in the open state. The blast air controller is disposed on the air supply line upstream of the blast line. The blast air controller is configured to shift between an open controller state and a closed controller state to control the compressed air flow to the blast line. The blast air controller is also configured to prevent the compressed air from flowing to the blast line when in the closed controller state and to allow the compressed air to flow to the blast line when in the open controller state. The blast control switch actuates the control valve between the open state and the closed state and actuates the blast air controller between the open controller state and the closed controller state. The flow of blast slurry out of the pressure pot is activated and deactivated by the water flow to the pressure pot.
-
FIG. 1 is a block diagram of a vapor blast system. -
FIG. 2 is a schematic diagram of a vapor blast system with a control valve configured to control the flow of water to the pressure pot. -
FIG. 3 is a schematic diagram of a vapor blast system with a control valve configured to control the flow of air to the water pump. -
FIG. 4 is a schematic diagram of a vapor blast system with a control valve configured to control the water pump. -
FIG. 1 is a simplified schematic diagram ofvapor blast system 10, which is a system that entrains a blast slurry of water and blast media (e.g. garnet, walnut shells, or any other suitable blasting media) in a flow of compressed air to perform coating removal and surface preparation. Vaporblast system 10 includescompressor 12,blast air controller 14,water source 16,water pump 18,pressure pot 20, control valves 22 a-22 c,blast control switch 24,nozzle 26,control logic 28,communication lines 29,air supply line 30,system line 32,water inlet line 34,pressurization line 36,media line 38,blast line 40, andjunction 42. -
Compressor 12 is an air compressor that generates a flow of compressed air to entrain the blast slurry and to power various components ofvapor blast system 10.Compressor 12 is configured to generate the flow of compressed air whenevervapor blast system 10 is operating.Air supply line 30 extends fromcompressor 12 tojunction 42. Junction 42 is the location wheremedia line 38 andair supply line 30 join to formblast line 40. Blastline 40 extends fromjunction 42 ofair supply line 30 andmedia line 38 tonozzle 26.Nozzle 26 ejects a spray of entrained blast slurry for application to a surface. -
System line 32 branches fromair supply line 30 upstream ofblast air controller 14 and extends towater pump 18. The compressed air fromcompressor 12 flows intoair supply line 30. A blast portion of the compressed air (“blast air”) flows downstream throughair supply line 30 tonozzle 26, and a system portion of the compressed air (“system air”) flows intosystem line 32.System line 32 provides the system air towater pump 18, and the system airpowers water pump 18.Water pump 18 includes a shuttle valve that directs the system air to power reciprocation of the piston ofwater pump 18. Whilewater pump 18 is described as a pneumatically powered pump, it is understood thatwater pump 18 can be of any desired configuration, such as an electric pump or a hydraulic pump. -
Blast air controller 14 is disposed onair supply line 30 and is controllable between an open state, in whichblast air controller 14 allows the blast portion to flow downstream tojunction 42, and a closed state, in whichblast air controller 14 prevents the compressed air from flowing downstream tojunction 42.Blast air controller 14 is thereby configured to control blasting by controlling the flow of blast air tonozzle 26. -
Water inlet line 34 extends fromwater source 16 towater pump 18.Pressurization line 36 extends fromwater pump 18 topressure pot 20 and supplies the pumped water topressure pot 20.Water source 16 stores a supply of water that water pump 18 pumps topressure pot 20 throughpressurization line 36. The pumped water pressurizespressure pot 20 and generates the blast slurry. -
Media line 38 extends frompressure pot 20 tojunction 42.Media line 38 conveys the blast slurry frompressure pot 20 tojunction 42 where the blast slurry is entrained in the blast air fromair supply line 30. The entrained blast slurry is driven out ofnozzle 26 by the blast air.Junction 42 is located at a higher elevation than the maximum fill level ofpressure pot 20 to prevent the blast media from being gravity fed throughmedia line 38 toblast line 40. - Control valves 22 a-22 c are configured to control the flow of pumped water to
pressure pot 20 to thereby control the flow of blast slurry out ofpressure pot 20.Control valve 22 a is disposed onpressurization line 36 betweenwater pump 18 andpressure pot 20.Control valve 22 b is disposed onsystem line 32 upstream ofwater pump 18.Control valve 22 c is disposed onwater pump 18.Control valve 22 c directly interfaces withwater pump 18 and mechanically controls pumping bywater pump 18. - Control valves 22 a-22 c are controllable between an open state, where control valves 22 a-22 c allow the pumped water to flow to
pressure pot 20, and a closed state, where control valves 22 a-22 c prevent the pumped water from flowing topressure pot 20. Control valves 22 a-22 c are disposed upstream ofpressure pot 20 such that control valves 22 a-22 c do not interface directly with either the blast media or the blast slurry. Whilevapor blast system 10 is shown as includingcontrol valve 22 a,control valve 22 b, and controlvalve 22 c, it is understood thatvapor blast system 10 need include only one ofcontrol valve 22 a,control valve 22 b, and controlvalve 22 c to control the flow of pumped water to pressurepot 20. - Control valves 22 a-22 c are of any suitable configuration for controlling the flow of pumped water to pressure
pot 20.Control valve 22 a is a water valve onpressurization line 36 that controls the flow of pumped water to pressurepot 20. As such,control valve 22 a directly controls the flow of pressurized water to pressurepot 20.Control valve 22 b is an air valve onsystem line 32 that controls the flow of system air towater pump 18.Control valve 22 b controls the flow of water to pressurepot 20 by controlling activation ofwater pump 18.Control valve 22 c mechanically interfaces withwater pump 18 to control the flow of water to pressurepot 20. In some examples,control valve 22 c is a mechanical device configured to restrict reciprocation of the shuttle of the shuttle valve that directs the system air withinwater pump 18 topower water pump 18. For example,control valve 22 c can include a pin that controlvalve 22 c extends and retracts to inhibit and allow reciprocation of the shuttle. - Blast control switch 24 is connected to blast
air controller 14 and control valves 22 a-22 c. Blast control switch 24 controlsblast air controller 14 and control valves 22 a-22 c between their respective open states and closed states. Blast control switch 24 is configured to be switched between an activated state and a deactivated state by the user to control the flow of the entrained blast slurry out ofnozzle 26. Blast control switch 24 can communicate with and controlblast air controller 14 and control valves 22 a-22 c in any suitable manner. For example,blast control switch 24 can include a trigger that the user depresses to placeblast control switch 24 in the activated state and that the user releases to placeblast control switch 24 in the deactivated state. -
Communication lines 29 extend fromblast control switch 24 and provide commands to blastair controller 14, control valves 22 a-22 c, and controllogic 28 fromblast control switch 24.Communication lines 29 can be of any suitable form for communicating commands fromblast control switch 24, such as electronic or pneumatic lines. - In one example,
blast control switch 24 is a pneumatic switch andblast air controller 14 and control valves 22 a-22 c are pneumatically actuated. In such an example,system line 32 can extend to bothblast air controller 14 and control valves 22 a-22 c to provide compressed air to blastair controller 14 and control valves 22 a-22 c to actuateblast air controller 14 and control valves 22 a-22 c between their respective states. Blast control switch 24 directs the flow of compressed air to bothblast air controller 14 and control valves 22 a-22 c to control the respective states ofblast air controller 14 and control valves 22 a-22 c. - In another example,
blast air controller 14 communicates electronically through either wired or wireless communication links, such ascommunication lines 29, with bothblast air controller 14 and control valves 22 a-22 c.Blast air controller 14 provides an activation signal to blastair controller 14 and control valves 22 a-22 c to causeblast air controller 14 and control valves 22 a-22 c to shift to their respective open states.Blast air controller 14 provides a deactivation signal to blastair controller 14 and control valves 22 a-22 c to causeblast air controller 14 and control valves 22 a-22 c to shift to their respective closed states. -
Control logic 28 is in communication, viacommunication lines 29, withblast control switch 24,blast air controller 14, and control valves 22 a-22 c.Control logic 28 is configured to implement a delay in actuation betweenblast air controller 14 and control valves 22 a-22 c.Control logic 28 can be of any suitable configuration for implementing a delay between actuation ofblast air controller 14 and control valves 22 a-22 c. For example,control logic 28 can include any one or more of a microprocessor, a controller, a digital signal processor (DSP), an application specific integrated circuit (ASIC), a field-programmable gate array (FPGA), or other equivalent discrete or integrated logic circuitry. In some examples,control logic 28 is an air logic controller such that compressed air fromcompressor 12 is the control medium. In each example,control logic 28 is configured to causeblast air controller 14 to shift to the open state prior to control valves 22 a-22 c shifting to the open state, and to causeblast air controller 14 to shift to the closed state after control valves 22 a-22 c shift to the closed state. As such,control logic 28 ensures that blast air is flowing throughblast line 40 whenever control valves 22 a-22 c are in the open state, thereby ensuring that the blast slurry flowing out ofmedia line 38 is entrained and carried out ofnozzle 26. - During operation, the user controls the flow of entrained blast slurry out of
nozzle 26 viablast control switch 24.Blast air controller 14 and control valves 22 are configured to be in a similar state. As such, bothblast air controller 14 and control valve are in the open state when blasting is desired, and bothblast air controller 14 and control valve 22 are in the closed state when blasting is not desired. - When blasting is desired,
blast control switch 24 causes bothblast air controller 14 and control valves 22 a-22 c to shift the open state. Withblast air controller 14 in the open state the blast air flows throughair supply line 30 tojunction 42, downstream throughblast line 40 and out ofnozzle 26. With control valves 22 a-22 c in the open state the pumped water fromwater pump 18 flows throughpressurization line 36 and intopressure pot 20. The pumped water causes the pressure inpressure pot 20 to rise and the increased pressure drives the blast slurry out of pressure pot throughmedia line 38. The blast slurry flows throughmedia line 38 tojunction 42 where the blast slurry is entrained in the blast air and sprayed out ofnozzle 26. - Control valves 22 a-22 c control the flow of pumped water to pressure
pot 20 in different manners. As discussed above,control valve 22 a is a water valve configured to directly control the water flow throughpressurization line 36. Withcontrol valve 22 a in the closed state the pumped water fromwater pump 18 deadheads atcontrol valve 22 a. Withcontrol valve 22 a in the open state, the pumped water flows downstream intopressure pot 20.Control valve 22 b is an air valve configured to control the system air flow towater pump 18. Withcontrol valve 22 b in the closed state the system air cannot flow towater pump 18 topower water pump 18, sowater pump 18 does not generate the pressurizing water flow. Withcontrol valve 22 b in the open state, the system air flows to andpowers water pump 18, andwater pump 18 pumps the pressurizing water to pressurepot 20.Control valve 22 c is a mechanical device interacting withwater pump 18 to control activation ofwater pump 18. Withcontrol valve 22 c in the closed state,control valve 22 c physically inhibits the oscillation of the shuttle ofwater pump 18, thereby preventing the shuttle from directing the system air that powerswater pump 18 such thatwater pump 18 does not generate the pressuring water flow. Withcontrol valve 22 c in the open state, the shuttle can oscillate and direct the system air such thatwater pump 18 pumps the pressurizing water flow towater pump 18. - In some examples,
blast air controller 14 shifts to the open state prior to control valves 22 a-22 c shifting to the open state. For example,blast control switch 24 can be configured to implement of delay between sending the open command to blastair controller 14 and sending the open command to control valves 22 a-22 c.Control logic 28 can also implement the delay. Actuatingblast air controller 14 to the open state prior to actuating control valves 22 a-22 c to the open state ensures that the blast air is already flowing throughjunction 42 andblast line 40 prior to the blast slurry first reachingjunction 42. A uniform flow of entrained blast slurry is thereby generated at the beginning of the blast operation. - The user stops the flow of entrained blast slurry by placing
blast control switch 24 in the deactivated state. For example, the user can release the trigger ofblast control switch 24. In the deactivated state,blast control switch 24 causes bothblast air controller 14 and control valves 22 a-22 c to shift to their respective closed states. The blast air is prevented from flowing toblast line 40 withblast air controller 14 in the closed state. The pumped water is prevented from flowing to and pressurizingpressure pot 20 with control valves 22 in the closed state. Preventing the pumped water from flowing topressure pot 20 causes the pressure withinpressure pot 20 to decrease as the blast slurry flows out ofpressure pot 20 throughmedia line 38. The pressure drops to a sufficiently low level such that the blast slurry is not driven throughmedia line 38 tojunction 42 by the pressure level inpressure pot 20. As such, shutting off the flow of pressurizing water to pressurepot 20 also shuts off the flow of blast slurry out ofpressure pot 20. -
Blast air controller 14 to shift to the closed state after control valves 22 a-22 c shift to the closed state. For example,blast control switch 24 can be configured to implement of delay between sending the close command to blastair controller 14 and sending the close command to control valves 22 a-22 c.Control logic 28 can also implement the delay. Shiftingblast air controller 14 to the closed state after shifting control valves 22 a-22 c to the closed state ensures that the blast air continues to flow throughjunction 42 andblast line 40 as the pressure drops inpressure pot 20. The blast air carries any excess flow frompressure pot 20 out ofnozzle 26, thereby preventing an undesired plug of blast slurry from forming inblast line 40 whenblast control switch 24 is placed in the deactivated state. - Control valves 22 a-22 c deactivate the flow of blast slurry out of
pressure pot 20 without directly interacting with the blast slurry or the blast media. Instead, control valves 22 a-22 c directly interface with the flow of pressurizing water, the flow of system air towater pump 18, or mechanically withwater pump 18. Controlling the flow of blast slurry by controlling the flow of pumped water to pressurepot 20 prevents control valves 22 a-22 c from experiencing wear caused by directly interfacing with the blast slurry.Vapor blast system 10 does not require any valve in the direct flow of blast media, on either themedia line 38 or theblast line 40. Blasting media flow is instead controlled entirely by controlling the flow of water intopressure pot 20. Eliminating valves in the flowpath of the blast media reduces maintenance requirements forvapor blast system 10, thereby reducing maintenance costs and downtime. In addition, positioningjunction 42 at a higher elevation than the maximum fill level ofpressure pot 20 prevents any undesired flow of blast slurry out ofmedia line 38 tojunction 42 when the blast air flow is stopped. -
Control logic 28 also increases efficiency and provides increased spray quality.Control logic 28 ensures that the blast air begins flowing to blastline 40 prior to the blast slurry flowing to blastline 40, and that the blast air continues to flow toblast line 40 after the blast slurry stops flowing to blastline 40. Delaying the flow of blast slurry to blastline 40 until after blast air is flowing to blastline 40 ensures an even high-quality spray of entrained blast slurry atnozzle 26 as blasting begins. Delaying cessation of the flow of blast air to blastline 40 until after the blast slurry stops flowing to blastline 40 prevents undesired accumulation of blast media inblast line 40, which can lead to accumulation of blast slurry inblast line 40 that can obstruct the flow of material and air and can cause undesired spray qualities when blasting is reinitiated. -
FIG. 2 is a schematic diagram ofvapor blast system 100, which includescompressor 12,blast air controller 14,water source 16,water pump 18,pressure pot 20,blast control switch 24,nozzle 26,air supply line 30,system line 32,water inlet line 34,pressurization line 36,media line 38,blast line 40,junction 42,disconnect 44,system valve 46,pump pressure regulator 48,flow valve 50,check valve 52,air filter 54,pressure gauge 56,pressure relief 58,system control line 60 a,system control line 60 b,pump control line 62,blast control line 64,pressure control line 66, andcontrol valve 122.Blast air controller 14 includesair pressure regulator 68 andblast air regulator 70. -
Compressor 12 is an air compressor configured to generate a flow of compressed air and to provide the flow of compressed air toair supply line 30. The compressed air splits as it flows throughair supply line 30.Water pump 18 is configured to draw water fromwater source 16 and pump the water downstream to pressurepot 20 to pressurizepressure pot 20.Pressure pot 20 stores a blast slurry comprised of water and abrasive blasting media. The pressure withinpressure pot 20 causes the blast slurry to flow downstream frompressure pot 20 throughmedia line 38 and to blastline 40, where the blast slurry is entrained in the blast air flowing throughair supply line 30. The entrained blast slurry is conveyed downstream tonozzle 26 and is sprayed fromnozzle 26 and applied to the desired blast surface. -
Air supply line 30 extends fromcompressor 12 to blastline 40.System line 32 branches off ofair supply line 30 and receives a portion of the compressed air flow fromair supply line 30. A blast portion of the compressed air (“blast air”) flows downstream throughair supply line 30 and a system portion of the compressed air (“system air”) flows throughsystem line 32. -
Blast air controller 14 controls the flow of the blast air throughair supply line 30.Blast air regulator 70 is disposed onair supply line 30 and controls the flow of blast air downstream throughair supply line 30.Blast air regulator 70 is positionable at any desired position between a fully open position, allowing a maximum flow of blast air throughair supply line 30, and a fully closed position, preventing any air from flowing downstream throughair supply line 30.Blast air regulator 70 is normally-closed and is actuated to the open state by the system air when blasting is desired.Air pressure regulator 68 controls the flow of system air to blastair regulator 70, and the pressure provided by the system air determines the degree thatblast air regulator 70 opens. The user controls the blast air pressure viaair pressure regulator 68. As such,air pressure regulator 68 controls the flow of system air to blastair regulator 70, andblast air regulator 70 controls the flow of blast air throughair supply line 30. -
Air filter 54 is disposed onsystem line 32 and is configured to remove contaminants from the compressed air flowing insystem line 32.Disconnect 44 is disposed onsystem line 32.Disconnect 44 is a flow control valve that controls the flow of compressed air intosystem line 32, and in some examples provides an emergency stop forvapor blast system 100. Withdisconnect 44 in an open state, the compressed air insystem line 32 can flow downstream throughdisconnect 44 to power and control various components ofvapor blast system 100. Withdisconnect 44 in a closed state, the compressed air insystem line 32 cannot flow downstreampast disconnect 44 to power the components ofvapor blast system 100 andvapor blast system 100 is thereby prevented from blasting. -
System line 32 extends downstream fromdisconnect 44 tosystem valve 46 andpump pressure regulator 48.Pump control line 62 is a portion ofsystem line 32 that extends frompump pressure regulator 48 towater pump 18.Pump pressure regulator 48 controls the flow of system air towater pump 18 to thereby control the speed of and the pressure generated bywater pump 18.Water pump 18 is configured to draw water fromwater source 16 throughwater inlet line 34 and to pump the water downstream topressurization line 36.Flow valve 50 is disposed onpressurization line 36 and is configured to regulate the flow rate of water fromwater pump 18 to pressurepot 20.Flow valve 50 can be of any suitable form for regulating the water flow, such as one or more needle valves. The user sets the position of internal components offlow valve 50 to set the flow rate of the pressurizing water flowing to pressurepot 20. The flow rate of the pressurizing water to pressurepot 20 is directly related to the flow rate of the blast slurry out ofpressure pot 20, such that the flow rate of the blast slurry is controlled by controlling the flow throughflow valve 50. Checkvalve 52 is disposed onpressurization line 36 betweencontrol valve 122 andpressure pot 20. Checkvalve 52 prevents water and media from backflowing out ofpressure pot 20 topressurization line 36. -
Control valve 122 is disposed onpressurization line 36 betweenwater pump 18 andpressure pot 20.Control valve 122 is controllable between an open state, where the pumped water can flow downstream throughcontrol valve 122 to pressurepot 20, and a closed state, where the pumped water is prevented from flowing topressure pot 20.Control valve 122 is a normally-open valve such thatcontrol valve 122 remains in the open state unless actuated to the closed state.Control valve 122 can be any suitable valve for controlling the flow of water throughpressurization line 36, such as a ball valve, a pinch valve, a disk valve, a gate valve, or any other suitable valve.Control valve 122 controls the pressurization ofpressure pot 20, thereby controlling the flow of blast slurry out ofpressure pot 20. -
Pressure pot 20 is a pressure vessel configured to store the blast slurry.Pressure gauge 56 is configured to provide an indication of the pressure level inpressure pot 20 to the user.Pressure relief 58 is a valve that allows the user to relieve the pressure withinpressure pot 20 prior to openingpressure pot 20.Media line 38 extends downstream frompressure pot 20 and merges withair supply line 30 atjunction 42.Media line 38 provides the blast slurry frompressure pot 20 tojunction 42, where the blast slurry is entrained in the blast air flowing throughair supply line 30.Blast line 40 extends fromjunction 42 tonozzle 26 and conveys the entrained blast slurry tonozzle 26.Nozzle 26 is open and, in some examples, does not contain any internal mechanism for controlling the flow of entrained blast slurry out ofnozzle 26. -
Media line 38 is open betweenpressure pot 20 andblast line 40, and no valve is disposed onmedia line 38 to control the flow of blast slurry throughmedia line 38. Instead, the flow of blast slurry throughmedia line 38 is controlled by the pressure inpressure pot 20.Junction 42 ofmedia line 38 andair supply line 30 is located at a higher elevation than the maximum fill level ofpressure pot 20 to prevent the blast slurry from being gravity fed frompressure pot 20 to blastline 40 when blasting is not desired. In addition,media line 38 is preferably rigid, which further prevents accumulation of the blast slurry inmedia line 38 whenvapor blast system 100 is deactivated. -
System control line 60 a branches off ofsystem line 32 and extends to blastcontrol switch 24.System control line 60 b extends fromblast control switch 24 tosystem valve 46. A control portion of the compressed air fromcompressor 12 flows intosystem control line 60 a. Blast control switch 24 is controllable between an activated state, where the control air can flow fromsystem control line 60 a to system controlline 60 b throughblast control switch 24, and a deactivated state, where system controlline 60 a is disconnected fromsystem control line 60 b to prevent the control air from flowing fromsystem control line 60 a to system controlline 60 b. In some examples,blast control switch 24 is integrated with or closely located tonozzle 26 such that the same user can actuateblast control switch 24 and aimnozzle 26. For example,blast control switch 24 can be actuated between the activated state and the deactivated state by the user depressing a trigger ofblast control switch 24. - While
blast control switch 24 is described as a pneumatic controller, it is understood thatblast control switch 24 can be of any desired form for controlling the state ofsystem valve 46. For example,blast control switch 24 can communicate electronically, though either a wired or wireless connection, withsystem valve 46 to control the state ofsystem valve 46. In some examples,blast control switch 24 can directly communicate withblast air controller 14 andcontrol valve 122 to control the respective states ofblast air controller 14 andcontrol valve 122. For example, each ofblast air controller 14 andcontrol valve 122 can be electrically actuated by a solenoid valve, andblast air controller 14 can provide electrical signals to the respective solenoid valves to actuateblast air controller 14 andcontrol valve 122 between the open and closed states. -
Blast control line 64 andpressure control line 66 extend downstream fromsystem valve 46.Blast control line 64 extends toair pressure regulator 68 and fromair pressure regulator 68 to blastair regulator 70.Pressure control line 66 extends to controlvalve 122.System valve 46 directs the flow of system air to eitherblast control line 64 orpressure control line 66 depending on the state ofsystem valve 46.System valve 46 directs the system air to blastcontrol line 64 and away frompressure control line 66 whensystem valve 46 is in a system-on state. Directing the system air to blastcontrol line 64 causesblast air regulator 70 to shift to the open state and causescontrol valve 122 to return to the open state, ascontrol valve 122 is normally-open.System valve 46 directs the system air to pressurecontrol line 66 and away fromblast control line 64 whensystem valve 46 is in a system-off state. Directing the system air to pressurecontrol line 66 causes controlvalve 122 to shift to the closed state andblast air regulator 70 to return to the closed state, asblast air regulator 70 is normally-closed. - During operation,
compressor 12 is activated and generates and provides a compressed air flow toair supply line 30. The user placesvapor blast system 100 in operation by shiftingdisconnect 44 to the open state such that the system portion can flow downstream fromdisconnect 44 throughsystem line 32. The blast air portion flows downstream throughair supply line 30 towardsblast line 40. The system air flows throughsystem line 32 tosystem valve 46 andwater pump 18. The control air flows to blastcontrol switch 24 throughsystem control line 60 a. Blast control switch 24 is normally-closed such thatblast control switch 24 prevents the control air from flowing tosystem valve 46 throughsystem control line 60 b. - The system air flowing to pump
control line 62 initially flows throughpump pressure regulator 48, which can be set at any desired position by the user to control the water pressure generated bywater pump 18. The system air flows to andpowers water pump 18.Water pump 18 draws water fromwater source 16 throughwater inlet line 34 and pumps the water downstream throughpressurization line 36. The water flows throughflow valve 50, which limits the flow rate of the water to thereby limiting the flow rate of the blast slurry leavingpressure pot 20, and to pressurepot 20 throughpressurization line 36.Control valve 122 is disposed onpressurization line 36 and controls the flow of water to pressurepot 20. Withcontrol valve 122 in the closed state, the water deadheads atcontrol valve 122 and does not flow to pressurepot 20. -
System valve 46 is in the system-off state untilblast control switch 24 is actuated to an activated state, where system controlline 60 a is connected to system controlline 60 b. In the system-offstate system valve 46 directs the system air to pressurecontrol line 66. The system air flows throughpressure control line 66 to controlvalve 122 and causes control valve to shift to and remain in the closed state. In the closedstate control valve 122 prevents the water pumped intopressurization line 36 from flowing topressure pot 20. As such,pressure pot 20 is not pressurized by the water and the blast slurry does not flow out ofpressure pot 20 tomedia line 38. In the system-offstate system valve 46 prevents the system air from flowing toblast control line 64.Blast air regulator 70 thus remains in the normally-closed state and prevents the blast air from flowing downstream throughair supply line 30. As such, withblast control switch 24 in the deactivated state, bothblast air regulator 70 andcontrol valve 122 are in their respective closed states. - To initiate blasting, the user actuates
blast control switch 24 to an activated state where system controlline 60 a is fluidly connected to system controlline 60 b such that the control air flows to system controlline 60 b.System control line 60 b provides the control air tosystem valve 46, where the control air causessystem valve 46 to shift to the system-on state. In the system-onstate system valve 46 directs the system air to blastcontrol line 64 and prevents the system air from flowing topressure control line 66. The system air flows throughblast control line 64 to blastair regulator 70, where the system air causesblast air regulator 70 to shift to the open state. Withblast air regulator 70 in the open state the blast air flows downstream throughair supply line 30 pastblast air regulator 70 and to blastline 40. Without the system air to maintaincontrol valve 122 in the closed state,control valve 122 returns to the normally-open state. As such, bothblast air regulator 70 andcontrol valve 122 are open withblast control switch 24 in the activated state. - With
control valve 122 in the open state the pumped water fromwater pump 18 flows throughpressurization line 36 to pressurepot 20. The pumped water pressurizespressure pot 20, and the increased pressure withinpressure pot 20 drives the blast slurry out ofpressure pot 20 and downstream throughmedia line 38 tojunction 42. The blast slurry is entrained in the blast portion of air atjunction 42, and the entrained blast slurry is driven downstream throughblast line 40 and out ofnozzle 26. - To stop blasting the user returns
blast control switch 24 to the deactivated state, such as by releasing the trigger ofblast control switch 24. In the deactivated stateblast control switch 24 prevents the control air from flowing to system controlline 60 b fromsystem control line 60 a.System valve 46 returns to the system-off state. In the system-offstate system valve 46 prevents the system air from flowing toblast air regulator 70 throughblast control line 64, such thatblast air regulator 70 returns to the normally-closed position, and directs the system air to controlvalve 122 throughpressure control line 66, such thatcontrol valve 122 shifts to the closed state.Control valve 122 prevents the water from flowing to and pressurizingpressure pot 20 when in the closed state. Without a flow of pressurizing water the pressure inpressure pot 20 drops. The decreased pressure at an insufficient level to drive the blast slurry downstream throughmedia line 38. Blasting is thus ceased by ceasing the flow of water to pressurepot 20. -
Vapor blast system 100 includes logic, such as control logic 28 (FIG. 1 ), to prevent undesired accumulation of blast media inblast line 40. Whensystem valve 46 shifts to the system-on position, the logic ensures thatblast air regulator 70 shifts to the open position prior tocontrol valve 122 shifting to the open position. As such, the blast air flows to and throughblast line 40 prior to the blast slurry beginning to flow toblast line 40. Flowing the blast air throughblast line 40 prior to introducing the blast slurry prevents undesired buildup of blast slurry inblast line 40 and ensures a smooth, high-quality flow of the entrained blast slurry out ofnozzle 26. Whensystem valve 46 shifts to the system-off state, the logic ensures thatcontrol valve 122 shifts to the closed state prior toblast air regulator 70 shifting to the closed state. Shiftingcontrol valve 122 to the closed state prior to shiftingblast air regulator 70 to the closed state ensures that the blast air continues to flow toblast line 40 aspressure pot 20 depressurizes, thereby preventing undesired accumulation of blast slurry inblast line 40. -
Vapor blast system 100 provides significant advantages.Control valve 122 is disposed upstream ofpressure pot 20 and controls the flow of pressurizing water to pressurepot 20. Controlling the flow of pressurizing water to pressurepot 20 controls pressurization ofpressure pot 20 and thus controls the flow of blast slurry out ofpressure pot 20. There are no valves disposed downstream ofpressure pot 20. Blasting is instead controlled directly by controlling the pressurization ofpressure pot 20. Eliminating valves downstream ofpressure pot 20 in the flowpath of the blast media reduces maintenance requirements forvapor blast system 100, thereby reducing maintenance costs and downtime. In addition, positioningjunction 42 at a higher elevation than the maximum fill level ofpressure pot 20 prevents undesired flow of blast slurry out ofmedia line 38. The control logic ensures that the blast air begins flowing throughblast line 40 prior to the blast slurry flowing to blastline 40 and that the blast air continues to flow throughblast line 40 aspressure pot 20 depressurizes, which eliminates clogging and undesired accumulation of blast slurry inblast line 40. -
FIG. 3 is a schematic diagram ofvapor blast system 200.Vapor blast system 200 includescompressor 12,blast air controller 14,water source 16,water pump 18,pressure pot 20,blast control switch 24,nozzle 26,air supply line 30,system line 32,water inlet line 34,pressurization line 36,media line 38,blast line 40,junction 42,disconnect 44,system valve 46,pump pressure regulator 48,flow valve 50,check valve 52,air filter 54,pressure gauge 56,pressure relief 58,system control line 60 a,system control line 60 b,pump control line 62,blast control line 64,pressure control line 66, andcontrol valve 222.Blast air controller 14 includesair pressure regulator 68 andblast air regulator 70. -
Vapor blast system 200 is substantially similar tovapor blast system 10 shown inFIG. 1 andvapor blast system 100 shown inFIG. 2 , exceptcontrol valve 222 is located onsystem line 32 upstream ofwater pump 18, similar to controlvalve 22 b (FIG. 1 ). Whilecontrol valve 222 is shown as disposed upstream ofpump pressure regulator 48, it is understood thatcontrol valve 222 can disposed at any desired location for controlling the system air flow towater pump 18, such as onpump control line 62 betweenpump pressure regulator 48 andwater pump 18. -
Pressure control line 66 extends fromsystem valve 46 to controlvalve 222.Control valve 222 controls the flow of system air towater pump 18.Control valve 222 is a normally-open valve that shifts to the closed state whensystem valve 46 is in the system-off state.Control valve 222 returns to the open state whensystem valve 46 is in the system-on state such thatsystem valve 46 directs the system air to blastcontrol line 64. -
Control valve 222 is controlled between the open state and the closed state to control pressurization ofpressure pot 20.Actuating control valve 222 to the closed state stops the flow of system air towater pump 18, thereby deactivatingwater pump 18. Deactivatingwater pump 18 preventswater pump 18 from pumping water to pressurepot 20 throughpressurization line 36, thereby allowing the pressure inpressure pot 20 to drop. The decreased pressure inpressure pot 20 is sufficiently low such that the pressure does not drive the blast slurry downstream toblast line 40 throughmedia line 38.Pressure pot 20 remains at the decreased pressure and the blast slurry remains inpressure pot 20 untilcontrol valve 222 shifts to the open state. -
System valve 46 causes controlvalve 222 to shift to the open state whensystem valve 46 is in the system-on state. In the open state,control valve 222 allows the system air to flow to andpower water pump 18.Water pump 18 draws water fromwater source 16 and pumps the water to pressurepot 20 throughpressurization line 36. The pumped water increases the pressure inpressure pot 20, and the increased pressure drives the blast slurry downstream out ofpressure pot 20 throughmedia line 38 tojunction 42, where the blast slurry is entrained in the blast air and driven downstream thoughblast line 40 and out ofnozzle 26. -
Vapor blast system 200 includes logic, such as control logic 28 (FIG. 1 ), to prevent accumulation of the blast slurry inblast line 40. Whensystem valve 46 shifts to the system-on state, the logic ensures thatblast air regulator 70 shifts to the open state prior to controlvalve 222 shifting to the open state. Whensystem valve 46 shifts to the system-off state, the logic ensures thatcontrol valve 222 shifts to the closed state prior toblast air regulator 70 shifting to the closed state. -
Vapor blast system 200 andcontrol valve 222 provide significant advantages.Control valve 222 controls the flow of system air towater pump 18 to control the flow of blast slurry out ofpressure pot 20.Control valve 222 deactivateswater pump 18 by shutting off the flow of system air towater pump 18.Control valve 222 interfaces with only the system air and is not subject to the wear generated by interacting with the blast media in the blast slurry, thereby reducing maintenance and replacement costs and simplifyingvapor blast system 200. -
FIG. 4 is a schematic diagram ofvapor blast system 300. Vapor blast system 210 includescompressor 12,blast air controller 14,water source 16,water pump 18,pressure pot 20,blast control switch 24,nozzle 26,air supply line 30,system line 32,water inlet line 34,pressurization line 36,media line 38,blast line 40,junction 42,disconnect 44,system valve 46,pump pressure regulator 48,flow valve 50,check valve 52,air filter 54,pressure gauge 56,pressure relief 58,system control line 60 a,system control line 60 b,pump control line 62,blast control line 64,pressure control line 66, andcontrol valve 322.Blast air controller 14 includesair pressure regulator 68 andblast air regulator 70.Water pump 18 includesshuttle valve 72, andshuttle valve 72 includesshuttle member 74. -
Vapor blast system 300 is substantially similar tovapor blast system 10 shown inFIG. 1 ,vapor blast system 100 shown inFIG. 2 , andvapor blast system 200 shown inFIG. 3 , exceptcontrol valve 322 ofvapor blast system 300 mechanically interacts withwater pump 18 to control the flow of pressurizing water to pressurepot 20, similar to controlvalve 22 c (FIG. 1 ). -
Pressure control line 66 extends fromsystem valve 46 to controlvalve 322.Water pump 18 includesshuttle valve 72 that includes a reciprocating shuttle member that directs the system air received frompump control line 62 topower water pump 18.Control valve 322 inhibits reciprocation of theshuttle member 74 ofshuttle valve 72 when in the closed state to preventwater pump 18 from pumping water to pressurepot 20. For example,control valve 322 can be configured to extend a pin intoshuttle valve 72 to mechanically inhibit reciprocation ofshuttle member 74. Withcontrol valve 322 in the open position,shuttle member 74 is free to reciprocate and direct the flow of system air topower water pump 18. -
Control valve 322 is normally-open and shifts to the closed state whensystem valve 46 is in the system-off state and is directing the system air throughpressure control line 66.Control valve 322 returns to the open state whensystem valve 46 is in the system-on state and is directing the system air to blastcontrol line 64. -
Control valve 322 is controlled between the open state and the closed state to control pressurization ofpressure pot 20.Actuating control valve 322 to the closed state deactivateswater pump 18. Deactivatingwater pump 18 preventswater pump 18 from pumping water to pressurepot 20 throughpressurization line 36, thereby allowing the pressure inpressure pot 20 to drop. The decreased pressure inpressure pot 20 is sufficiently low such that the pressure does not drive the blast slurry downstream toblast line 40 throughmedia line 38.Pressure pot 20 remains at the decreased pressure and the blast slurry remains inpressure pot 20 untilcontrol valve 322 shifts to the open state andwater pump 18 pumps water to pressurepot 20. -
Control valve 322 shifts to the open state whensystem valve 46 is in the system-on state and is directing the system air to blastcontrol line 64. In the open state,control valve 322 allowsshuttle member 74 to reciprocate to direct the system air withinwater pump 18 topower water pump 18.Water pump 18 draws water fromwater source 16 and pumps the water to pressurepot 20 throughpressurization line 36. The pumped water increases the pressure inpressure pot 20, and the increased pressure drives the blast slurry out ofpressure pot 20 tomedia line 38, and downstream throughmedia line 38 to blastline 40. -
Vapor blast system 300 includes logic, such as control logic 28 (FIG. 1 ), to prevent undesired accumulation of the blast slurry inblast line 40. Whensystem valve 46 shifts to the system-on state, the logic ensures thatblast air regulator 70 shifts to the open state prior to controlvalve 322 shifting to the open state. Whensystem valve 46 shifts to the system-off state, the logic ensures thatcontrol valve 322 shifts to the closed state prior toblast air regulator 70 shifting to the closed state. -
Vapor blast system 300 andcontrol valve 322 provide significant advantages. -
Control valve 322 controls the flow of system air towater pump 18 to control the flow of blast slurry out ofpressure pot 20.Control valve 322 deactivateswater pump 18 by mechanically deactivatingwater pump 18.Control valve 322 interfaces with only the mechanical components ofwater pump 18 and is therefore not subject to the wear generated by interacting with the blast media in the blast slurry. Preventing wear to control valve reduces maintenance and replacement costs and simplifiesvapor blast system 300. - 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. An abrasive blast system comprising:
a water pump configured to pump a flow of water from a water source to a pressure pot through a water line;
an air supply line extending from an air source;
a media line extending from the pressure pot to the air supply line;
a blast line extending downstream from a junction of the media line and the air supply line to a nozzle;
a control valve configured to shift between an open state and a closed state to control the flow of water to the pressure pot and thereby control the flow of blast slurry from the pressure pot to the media line; and
a blast control switch controllable between an activated state and a deactivated state and configured to actuate the control valve between the open state and the closed state.
2. The abrasive blast system of claim 1 , wherein the media line is connected to the pressure pot at a first location and the media line is connected to the junction at a second location, and wherein the second location is disposed at higher elevation than a maximum water level in the pressure pot.
3. The abrasive blast system of claim 1 , wherein the control valve is disposed on a portion of the water line between the water pump and the pressure pot.
4. The abrasive blast system of claim 1 , wherein the control valve is configured to control activation of the water pump to thereby control the flow of water to the pressure pot.
5. The abrasive blast system of claim 4 , further comprising:
a system line extending from the air supply line to the water pump, the system line configured to provide compressed air from the air supply line to the water pump to power the water pump;
wherein the control valve is a valve disposed on the system line between the air supply line and the water pump, the control valve configured to control the flow of compressed air to the pump.
6. The abrasive blast system of claim 4 , wherein the control valve is configured to mechanically interact with the water pump to prevent the water pump from pumping the flow of water when the control valve is in the closed state.
7. The abrasive blast system of claim 1 , further comprising:
a blast air controller configured to control a blast air flow through the air supply line;
wherein the blast control switch is configured to actuate the blast air controller between an open controller state and a closed controller state.
8. The abrasive blast system of claim 7 , further comprising:
a system valve disposed on a system line branching from the air supply line;
a blast control line extending from the system valve to the blast air controller;
a pressurizing control line extending from the system valve to the control valve;
wherein the system valve is configured to direct the system air flow to the blast control line based on the blast control switch being in the activated state and to direct the system air flow to the pressurizing control line based on the blast control switch being in the deactivated state.
9. The abrasive blast system of claim 8 , further comprising:
a first pneumatic control line extending from the air supply line to the blast control switch;
a second pneumatic control line extending from the blast control switch to the system valve;
wherein the blast control switch fluidly connects the first pneumatic control line to the second pneumatic control line when in the activated state such that compressed air from the air supply line can flow to and actuate the system valve.
10. The abrasive blast system of claim 8 , wherein the blast air controller is normally-closed such that the system air flow actuates the blast air controller to the open controller state, and the control valve is normally-open such that the system air flow actuates the control valve to the closed state.
11. The abrasive blast system of claim 1 , further comprising:
control logic configured to implement a delay between the control valve shifting between the open state and the closed state and the blast air controller shifting between the open controller state and the closed controller state;
wherein the control logic causes the blast air controller to shift to the open controller state before the control valve shifts to the open state; and
wherein the control logic causes the blast air controller to shift to the closed controller state after the control valve shifts to the closed state.
12. The abrasive blast system of claim 1 , wherein there is no valve disposed downstream of the pressure pot to control the flow of blast slurry through any one of the media line, the blast line, and the nozzle during blasting.
13. A method comprising:
generating a compressed air flow and directing the compressed air flow to an air supply line extending to a junction with a media line, the media line extending from a pressure pot and being configured to convey a blast slurry flow to the junction from the pressure pot;
pumping, with a water pump, a pressurizing water flow to the pressure pot through a water line extending between the water pump and the pressure pot; and
controlling, with a blast control switch, actuation of a control valve between an open state and a closed state to thereby control the pressurizing water flow to the pressure pot and the blast slurry flow through the media line.
14. The method of claim 13 , wherein:
the control valve is disposed on the water line; and
the control valve allows the pressurizing water flow to flow to and pressurize the pressure pot when in the open state, and the control valve prevents the pressurizing water flow from flowing to and pressurizing the pressure pot when in the closed state.
15. The method of claim 13 , wherein:
the control valve is disposed on a pump air supply line supplying pump air to the water pump to power the water pump; and
the control valve allows the pump air to flow to and power the water pot when in the open state, and the control valve prevents the pump air from flowing to and powering the water pump when in the closed state.
16. The method of claim 13 , wherein:
the control valve mechanically interacts with the water pump to control pumping by the water pump; and
the control valve restrains reciprocation of a pump component of the water pump when in the closed state to prevent the water pump from pumping water to the pressure pot, and allows reciprocation of the pump component when in the open state to allow the water pump to pump the water to the pressure pot.
17. The method of claim 13 , further comprising:
controlling, with the blast control switch, actuation of a blast air controller disposed on the air supply line between an open controller state, where the blast air controller allows the compressed air to flow to the junction through the air supply line, and a closed controller state, where the blast air controller prevents the compressed air from flowing to the junction through the air supply line;
wherein the blast air controller is configured to be in the open controller state when the control valve is in the open state, and the blast air controller is configured to be in the closed controller state when the control valve is in the closed state.
18. The method of claim 17 , further comprising:
delaying shifting of the control valve to the open state until after the blast air controller shifts to the open controller state; and
delaying shifting of the blast air controller to the closed controller state until after the control valve shifts to the closed state.
19. A control system for a vapor abrasive blast system having a pressure pot that stores a supply of blast slurry, a compressor for providing a flow of compressed air through an air supply line to a blast line, and a water pump for pumping water to the pressure pot to thereby pressurize the pressure pot and drive the blast slurry downstream out of the pressure pot through a media line to the blast line where the blast slurry can be entrained in the compressed air and carried out of a nozzle, the control system comprising:
a control valve configured to shift between an open state and a closed state to control the water flow to the pressure pot from the water pump, wherein the control valve is configured to prevent the water from flowing to and pressurizing the pressure pot when in the closed state and to allow the water to flow to and pressurize the pressure pot when in the open state;
a blast air controller disposed on the air supply line upstream of the blast line, the blast air controller configured to shift between an open controller state and a closed controller state to control the compressed air flow to the blast line, wherein the blast air controller is configured to prevent the compressed air from flowing to the blast line when in the closed controller state and to allow the compressed air to flow to the blast line when in the open controller state; and
a blast control switch configured to control the control valve between the open state and the closed state, and further configured to control the blast air controller between the open controller state and the closed controller state;
wherein the flow of blast slurry out of the pressure pot is activated and deactivated by the water flow to the pressure pot.
20. The control system of claim 19 , wherein there is no valve disposed downstream of the pressure pot to control the flow of blast slurry through any one of the media line, the blast line, and the nozzle during blasting
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US16/621,539 US20200094377A1 (en) | 2017-06-14 | 2018-06-14 | Abrasive blast system |
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US201762519235P | 2017-06-14 | 2017-06-14 | |
US16/621,539 US20200094377A1 (en) | 2017-06-14 | 2018-06-14 | Abrasive blast system |
PCT/US2018/037578 WO2018232141A1 (en) | 2017-06-14 | 2018-06-14 | Abrasive blast system |
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EP (1) | EP3638452A4 (en) |
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US20210046609A1 (en) * | 2019-08-14 | 2021-02-18 | Clean Blast Systems, LLC | Wet Abrasive Blast Machine with Remote Control Rinse Cycle |
GB2594298A (en) * | 2020-04-22 | 2021-10-27 | Elcometer Ltd | A control system for abrasive blasting apparatus and abrasive blasting apparatus |
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- 2018-06-14 CN CN201880040130.4A patent/CN110753602A/en active Pending
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Also Published As
Publication number | Publication date |
---|---|
WO2018232141A1 (en) | 2018-12-20 |
EP3638452A4 (en) | 2021-03-10 |
CA3066928A1 (en) | 2018-12-20 |
CN110753602A (en) | 2020-02-04 |
EP3638452A1 (en) | 2020-04-22 |
AU2018285510A1 (en) | 2020-01-02 |
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