CA2363221A1 - Super fast jet valve - Google Patents
Super fast jet valve Download PDFInfo
- Publication number
- CA2363221A1 CA2363221A1 CA002363221A CA2363221A CA2363221A1 CA 2363221 A1 CA2363221 A1 CA 2363221A1 CA 002363221 A CA002363221 A CA 002363221A CA 2363221 A CA2363221 A CA 2363221A CA 2363221 A1 CA2363221 A1 CA 2363221A1
- Authority
- CA
- Canada
- Prior art keywords
- container
- water
- valve
- energy
- super fast
- Prior art date
- 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
Links
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16K—VALVES; TAPS; COCKS; ACTUATING-FLOATS; DEVICES FOR VENTING OR AERATING
- F16K47/00—Means in valves for absorbing fluid energy
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/20—Hydro energy
Landscapes
- Engineering & Computer Science (AREA)
- General Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Lift Valve (AREA)
Abstract
The Super Fast Jet Valve is a device used to open and close fluid movement with additional operation abilities, making it completely different from all other valves.
All other valves are made to open and close at speed to avoid the 'destructive' force caused by over-pressure known as water hammer effect. The SUPER FAST JET VALVE
operates, intentionally, to produce the water hammer effect. It uses it to increase the potential compression energy into a column of water by fast closing, then opens fast to convert the increase potential compression energy into kinetic energy of a jet. Between the closing and opening, the potential energy is renewed by pressure waves.
The SFJ valve operation is required to let water expand due to the pressure waves developed by the water hammer. If the valve does not open fast enough, the over-pressure either cracks the container or makes the pressure waves bounce up an down in the container producing turbulences in lieu of increase kinetic energy of a jet.
All other valves are made to open and close at speed to avoid the 'destructive' force caused by over-pressure known as water hammer effect. The SUPER FAST JET VALVE
operates, intentionally, to produce the water hammer effect. It uses it to increase the potential compression energy into a column of water by fast closing, then opens fast to convert the increase potential compression energy into kinetic energy of a jet. Between the closing and opening, the potential energy is renewed by pressure waves.
The SFJ valve operation is required to let water expand due to the pressure waves developed by the water hammer. If the valve does not open fast enough, the over-pressure either cracks the container or makes the pressure waves bounce up an down in the container producing turbulences in lieu of increase kinetic energy of a jet.
Description
Name of the Invention: SUPER FAST JET VALVE.
DESCRIPTION.
Background.
The SUPER FAST JET VALVE, SFJ for short, is one of many devices to stop or let flow a fluids from a container. There are several very important differences between SFJ an all other devices controlling the flow of fluids. It combines the following characteristics:
1 ) Super fast speed of operation;
DESCRIPTION.
Background.
The SUPER FAST JET VALVE, SFJ for short, is one of many devices to stop or let flow a fluids from a container. There are several very important differences between SFJ an all other devices controlling the flow of fluids. It combines the following characteristics:
1 ) Super fast speed of operation;
2) Reaches the full size port in record time, without lead-in crack;
3) The fluid moves through the valve without tortuous path and restrictions;
4) For the simplest operation system, uses compressed air for on/off operation controlled by remote sensors.
These characteristics are necessary to achieve the unique functions of the SFJ
contained in the CLAIMS.
Components.
The main components of the SFJ indicated in the Drawing and "Simplest Super Fast Jet Valve Components List and Features"
Inside the Metal Body (A) a Piston Like Plunger Shaft (B) moves back and forth pushed by compressed air, from an independent source, through an inlet in front or one behind a Plunger Head (C) attached to the shaft. The conical tip of the shaft at the opposite end from the Plunger Head, when is pushed back ward opens a conical opening in the Nozzle (D) to let water expand through the nozzle. The conical opening in the nozzle is design to concentrate the jet exiting the valve to stay compact when delivers the kinetic energy to an impulse turbine. When the shaft is pushed forward, it closes the path of the water through the nozzle. REMARK: The travel back and forth of the plunger sha$ is very short and the compressed air makes the movement very fast, exactly what the SFJ is supposed to do.
The Metal Body of the valve is also provided with Cylindrical Bearing (E) to maintain the plunger shaft in the proper movement. A Rear Cover {F) closes the air chamber behind the Plunger Head and allows the Plunger shaft to be inserted into the valve body without removing the Nozzle.
The mechanism to move back and forth the Plunger Shaft in the embodiment present here with is by compressed air for simplicity and economy. Other mechanisms, such as the operation of internal combustion engines valve lifter or even 'punch press' style moving rhythmically the shaft back and forth by the cam of a flywheel can be easily conceived.
The application for which this invention was made, requires fastest possible operation.
Air access can be provided with adjustable means to slow down the opening or/and closing of the SFJ, for other applications in the industry.
SIMPLEST SUPER FAST JET VALVE
COMPONENTS LIST AND FEATURES.
A. METAL VALVE BODY
a1 PROVISIONS FOR ATTACHMENT OF VALVE TO LIQUID SUPPLY
a2 PROVISIONS FOR MOUNTING OF NOZZLE TO VALVE
a3 PROVISIONS AND NOZZLE SET SCREW
a4 CAVITY FOR PLUNGER HEAD MOVEMENT
a5 PROVISIONS FOR AIR INTAKE FITTING, #1 CLOSING,#2 OPENING
By controlling the pressure of the intake air, the opening speed of the valve Can be lowered, by controlling the pressure of the outlet air, the closing Speed of the valve can be lowered.
a6 PROVISIONS FOR MOUNTING THE TWO WAY AIR VALVE
a7 PROVISIONS AND CYLINDRICAL SHAFT BEARING
a8 PROVISIONS FOR REAR COVER MOUNTING
B. OPENING I CLOSING PLUNGER SHAFT
b1 PLUNGER SHAFT METAL SECTION
b2 PLUNGER SHAFT PLASTIC SECTION
b3 ATTACHMENT OF b1 TO b2.
b4 PLUNGER CONICAL TIP SLIGHTLY LARGER THAN THE NOZZLE PORT
C. PLUNGER HEAD
c1 PROVISIONS AND PISTON TYPE SEAL
c2 PLUNGER HEAD SET SCREWS
D. NOZZLE.
d1 SELECTED PORT SIZE
d2 PROVISIONS FOR ATTACHMENT OF NOZZLE TO VALVE
d3 GROOVE AND SEAL
d4 PROVISIONS FOR ATTACHMENT OF PIPING FOR REMOTE
DISCHARGE OF LIQUID IF REQUIRED.
E. CYLINDRICAL SHAFT BEARING
e1 GROOVES AND SEALS
F. REAR COVER
f1 GROOVE AND SEAL
f2 MOUNTING PROVISIONS
These characteristics are necessary to achieve the unique functions of the SFJ
contained in the CLAIMS.
Components.
The main components of the SFJ indicated in the Drawing and "Simplest Super Fast Jet Valve Components List and Features"
Inside the Metal Body (A) a Piston Like Plunger Shaft (B) moves back and forth pushed by compressed air, from an independent source, through an inlet in front or one behind a Plunger Head (C) attached to the shaft. The conical tip of the shaft at the opposite end from the Plunger Head, when is pushed back ward opens a conical opening in the Nozzle (D) to let water expand through the nozzle. The conical opening in the nozzle is design to concentrate the jet exiting the valve to stay compact when delivers the kinetic energy to an impulse turbine. When the shaft is pushed forward, it closes the path of the water through the nozzle. REMARK: The travel back and forth of the plunger sha$ is very short and the compressed air makes the movement very fast, exactly what the SFJ is supposed to do.
The Metal Body of the valve is also provided with Cylindrical Bearing (E) to maintain the plunger shaft in the proper movement. A Rear Cover {F) closes the air chamber behind the Plunger Head and allows the Plunger shaft to be inserted into the valve body without removing the Nozzle.
The mechanism to move back and forth the Plunger Shaft in the embodiment present here with is by compressed air for simplicity and economy. Other mechanisms, such as the operation of internal combustion engines valve lifter or even 'punch press' style moving rhythmically the shaft back and forth by the cam of a flywheel can be easily conceived.
The application for which this invention was made, requires fastest possible operation.
Air access can be provided with adjustable means to slow down the opening or/and closing of the SFJ, for other applications in the industry.
SIMPLEST SUPER FAST JET VALVE
COMPONENTS LIST AND FEATURES.
A. METAL VALVE BODY
a1 PROVISIONS FOR ATTACHMENT OF VALVE TO LIQUID SUPPLY
a2 PROVISIONS FOR MOUNTING OF NOZZLE TO VALVE
a3 PROVISIONS AND NOZZLE SET SCREW
a4 CAVITY FOR PLUNGER HEAD MOVEMENT
a5 PROVISIONS FOR AIR INTAKE FITTING, #1 CLOSING,#2 OPENING
By controlling the pressure of the intake air, the opening speed of the valve Can be lowered, by controlling the pressure of the outlet air, the closing Speed of the valve can be lowered.
a6 PROVISIONS FOR MOUNTING THE TWO WAY AIR VALVE
a7 PROVISIONS AND CYLINDRICAL SHAFT BEARING
a8 PROVISIONS FOR REAR COVER MOUNTING
B. OPENING I CLOSING PLUNGER SHAFT
b1 PLUNGER SHAFT METAL SECTION
b2 PLUNGER SHAFT PLASTIC SECTION
b3 ATTACHMENT OF b1 TO b2.
b4 PLUNGER CONICAL TIP SLIGHTLY LARGER THAN THE NOZZLE PORT
C. PLUNGER HEAD
c1 PROVISIONS AND PISTON TYPE SEAL
c2 PLUNGER HEAD SET SCREWS
D. NOZZLE.
d1 SELECTED PORT SIZE
d2 PROVISIONS FOR ATTACHMENT OF NOZZLE TO VALVE
d3 GROOVE AND SEAL
d4 PROVISIONS FOR ATTACHMENT OF PIPING FOR REMOTE
DISCHARGE OF LIQUID IF REQUIRED.
E. CYLINDRICAL SHAFT BEARING
e1 GROOVES AND SEALS
F. REAR COVER
f1 GROOVE AND SEAL
f2 MOUNTING PROVISIONS
Claims
FOR THE SUPER FAST JET VALVE
In addition to controlling the normal ON/OFF flow of a liquid, the invention of the SUPER FAST JET VALVE unique operation makes possible to use the properties of a liquid stored in a high container as a source of power with increase efficiency over the hydraulic power system in use today.
The functions performed by the SUPER FAST JET VALVE attached at the bottom of a high water container are:
.cndot. Opens to covert the potential compression energy from a high container of water into kinetic energy of a high velocity intermittent jets;
.cndot. Close to produce a water hammer effect to increase the pressure and the potential compression energy in the container;
.cndot. Allow the water hammer pressure waves to renew the potential energy in the container, between two consecutive jets.
.cndot. Continue the on/off operation in a rhythmic sequence for an indefinite time.
The result of this operation is the considerable increase per volume of water of the kinetic energy imparted to an impulse turbine, by increasing the velocity of the jet beyond that of fall due to gravity Velocity = RtSq.2gh.
In addition to controlling the normal ON/OFF flow of a liquid, the invention of the SUPER FAST JET VALVE unique operation makes possible to use the properties of a liquid stored in a high container as a source of power with increase efficiency over the hydraulic power system in use today.
The functions performed by the SUPER FAST JET VALVE attached at the bottom of a high water container are:
.cndot. Opens to covert the potential compression energy from a high container of water into kinetic energy of a high velocity intermittent jets;
.cndot. Close to produce a water hammer effect to increase the pressure and the potential compression energy in the container;
.cndot. Allow the water hammer pressure waves to renew the potential energy in the container, between two consecutive jets.
.cndot. Continue the on/off operation in a rhythmic sequence for an indefinite time.
The result of this operation is the considerable increase per volume of water of the kinetic energy imparted to an impulse turbine, by increasing the velocity of the jet beyond that of fall due to gravity Velocity = RtSq.2gh.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CA002363221A CA2363221A1 (en) | 2001-11-19 | 2001-11-19 | Super fast jet valve |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CA002363221A CA2363221A1 (en) | 2001-11-19 | 2001-11-19 | Super fast jet valve |
Publications (1)
Publication Number | Publication Date |
---|---|
CA2363221A1 true CA2363221A1 (en) | 2003-05-19 |
Family
ID=4170562
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CA002363221A Abandoned CA2363221A1 (en) | 2001-11-19 | 2001-11-19 | Super fast jet valve |
Country Status (1)
Country | Link |
---|---|
CA (1) | CA2363221A1 (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2010130054A1 (en) * | 2009-05-14 | 2010-11-18 | Savior Power Corporation | System for discharging water to a turbine to generate power |
-
2001
- 2001-11-19 CA CA002363221A patent/CA2363221A1/en not_active Abandoned
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2010130054A1 (en) * | 2009-05-14 | 2010-11-18 | Savior Power Corporation | System for discharging water to a turbine to generate power |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US20030168618A1 (en) | Passive valve assembly | |
JP5548610B2 (en) | Buffer system for pneumatic cylinder of differential engine | |
SE544218C2 (en) | Pressure fluid controlled actuator | |
EP2157343A3 (en) | Suck-back valve | |
ATE327460T1 (en) | VALVE ACTUATED VIA GAS PRESSURE TANK | |
CN110513514A (en) | A kind of bivalve axial flow type check valve | |
MX9306696A (en) | RECIPROCAL MOVEMENT MOTOR. | |
CA2363221A1 (en) | Super fast jet valve | |
CN109162885A (en) | Booster pump without external reversing mechanism | |
WO2009122087A3 (en) | Internal combustion engine | |
CN204942154U (en) | A kind of pressurizing cylinder of tool New Buffering structure | |
CN204437431U (en) | The gas spray valve that accuracy of spray high response speed is fast | |
CN210105987U (en) | Two-stroke engine | |
RU2377424C1 (en) | Device to force air into diesel engine cylinders | |
JP3538426B2 (en) | Pressure medium drive device that performs linear motion | |
CN206246756U (en) | A kind of big orifice safety valve with diaphragm unit | |
RU212005U1 (en) | DEVICE FOR COLLAPSIBILITY OF POOL MATERIAL | |
CN220160466U (en) | Shock wave generating device | |
CN109681477B (en) | Timing device for vacuum generator | |
TW201843394A (en) | Speed controller | |
CN215566330U (en) | High-pressure pump and engine | |
SU1631245A1 (en) | Liquid shutting pistol | |
US1119323A (en) | Aerating fuel-pump for explosive-motors. | |
CN101666246A (en) | Mechanical tripping device in fluid environment | |
RU2303701C1 (en) | Engine |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
FZDE | Dead |