US20030083137A1 - Oscillatory amusement ride - Google Patents
Oscillatory amusement ride Download PDFInfo
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- US20030083137A1 US20030083137A1 US10/039,903 US3990301A US2003083137A1 US 20030083137 A1 US20030083137 A1 US 20030083137A1 US 3990301 A US3990301 A US 3990301A US 2003083137 A1 US2003083137 A1 US 2003083137A1
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- Prior art keywords
- housing
- piston
- oscillatory
- recited
- amusement ride
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- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63G—MERRY-GO-ROUNDS; SWINGS; ROCKING-HORSES; CHUTES; SWITCHBACKS; SIMILAR DEVICES FOR PUBLIC AMUSEMENT
- A63G31/00—Amusement arrangements
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63G—MERRY-GO-ROUNDS; SWINGS; ROCKING-HORSES; CHUTES; SWITCHBACKS; SIMILAR DEVICES FOR PUBLIC AMUSEMENT
- A63G31/00—Amusement arrangements
- A63G2031/002—Free-fall
Definitions
- This invention relates to an amusement ride for accelerating and decelerating a participant where the initial force provided for the ride is generated by downward movement of the participant.
- U.S. Pat. No. 5,203,744 utilizes the force of a downward moving participant to stretch a resilient band, commonly termed a bungee cord, to provide the power for oscillating a participant.
- RAPID RISER an amusement ride termed RAPID RISER which used a hydraulic system to stretch a resilient band attached to a participant while the participant initially remained on the ground and then lifted the participant with the resilient band.
- the lifting force produced by the hydraulic system generated the requisite power for then accelerating and decelerating the participant.
- Both U.S. Pat. No. 5,632,686 and U.S. Pat. No. 5,704,841 introduce compressed gas into a bore of a housing to accelerate a piston attached to a cable and thereby accelerate and decelerate a participant.
- the device of U.S. Pat. No. 5,704,841 can raise a participant slowly when gas is slowly injected into the bore.
- the device of U.S. patent application Ser. No. 09/923269 which was filed on Aug. 3, 2001, introduces fluid into a housing to propel a piston connected to a cable to create the initial force to propel a carrier containing one or more participants.
- U.S. Pat. No. 5,893,802 is very similar to U.S. Pat. No. 5,632,686, and U.S. Pat. No. 6,001,022 is highly pronounced of U.S. Pat. No. 5,704,841.
- U.S. Pat. No. 6,083,111 does involve controlled rotation of a passenger chair (also termed a “support”) for an amusement ride.
- the degree of rotation is, however, purposefully limited; the limited rotation that is possible apparently occurs only over a restricted, fixed portion of a course upon a tower; and only downward movement occurs when the chair has been rotated from its initial substantially vertical position.
- the device of U.S. Pat. No. 5,593,368 suspends two resilient bands (or bungee cords) from columns and attaches the free ends of the resilient bands to a participant, preferably near the participant's center of gravity.
- the columns are placed around a trampoline; and as the participant bounces higher, the point of attachment on the columns is automatically raised. Oscillations are produced primarily by bouncing on the trampoline.
- the resilient bands do, though, permit a participant to rotate through the participant's own power.
- the present invention employs the force of a downward moving participant to provide the initial power to accelerate and decelerate the participant in an oscillatory manner without the need for a resilient band or bungee cord.
- a housing preferably, but not necessarily, a cylindrical housing, having a bore has a piston slidably mounted within the bore.
- a means preferably a cable, for transferring force between the piston and a holder for a participant is connected to the piston and to the holder.
- the force transferring means exits the housing through an aperture in a closed first end of the housing.
- the housing is capable of retaining a compressed fluid between the closed first end and the piston for at least one oscillation of the piston.
- a compressible fluid preferably—but not necessarily—a gas and most preferably—but not necessarily—air, is introduced through a fluid supply valve between the piston and the closed first end of the housing.
- a second end of the housing may be either open or closed.
- additional fluid can be introduced into the bore of the housing to cause an even greater acceleration of the participant. If sufficient fluid is introduced, the participant is raised beyond the position from which the participant initially began his or her descent.
- an aperture or, preferably, but not necessarily, a valve is in a side of the housing.
- This aperture or valve communicates with the bore of the housing and with the atmosphere.
- fluid may escape from the bore, permitting the piston and the participant to accelerate with less resistance.
- the cable is continuous.
- the cable exits the housing through the aperture in the first end of the housing; re-enters the housing either through the open second end of the housing or, if the second end is closed, through an aperture in the second end; and is attached to the piston.
- a first end of a second cable is attached to the cable outside the housing. A second end of this second cable is connected to the holder.
- the housing can either be above or below the position from which the participant initially begins his or her descent. Preferably, but not necessarily, the housing is below this point.
- a means, preferably, but not necessarily, a pulley is employed to change the direction of force exerted by the piston. In the first embodiment, the cable goes across this pulley; in the second embodiment, the second cable goes across this pulley.
- the Oscillatory Amusement Ride utilizes a single holder but two housings, each having all the components described above with respect to the ride, except, as stated, for the holder.
- the fluid for each housing is supplied from a common source.
- a separate line goes to each housing and contains a blocking valve.
- a sensor is preferably, but not necessarily, employed to indicate the loss of pressure caused by the escaping fluid. Preferably, but not necessarily, this is done by having a sensor that measures the speed of the pulley associated with each housing.
- a computer or microprocessor in communication with the sensor and with the blocking valves will cause the line to the housing leaking fluid to close so that the non-leaking housing will not lose fluid and will decelerate the participant.
- the participant jumps or falls from a movable platform.
- the platform can be moved by any means that is well known in the art, such as pneumatics, hydraulics, or an electrical or gas-powered motor. If desired, it could be balanced so that it is normally away from the jump position and must be moved into position.
- a sensor in communication with the computer or microprocessor detects whether the platform has been moved from the jump position.
- the computer or microprocessor is in communication with the injection valve and will not allow additional fluid to be injected into a housing until the platform has been moved away from the jump position. This is intended to preclude a participant from being accelerated upward into the platform.
- fluid can be injected slowly into the bore of the housing to raise a participant to the platform prior to the participant's jumping or falling from the platform.
- the cable (the second cable, in the case of the optional embodiment) is rotatably attached to the holder.
- the holder may be either a harness or a seat.
- the center of gravity for the seat is kept a sufficient distance below the point of attachment that the seat will not rotate unless a participant rocks it but is also kept sufficiently close to the point of attachment that a participant can rock the seat and thereby rotate it.
- FIG. 1 illustrates the housing which has a non-continuous cable.
- FIG. 2 portrays the housing with a continuous cable.
- FIG. 3 shows the Oscillatory Amusement Ride employing two housings.
- FIG. 4 exhibits blocking valves in the supply lines for two housings of an Oscillatory Amusement Ride.
- FIG. 5 depicts a harness
- FIG. 6 demonstrates a seat used in one embodiment of the Oscillatory Amusement Ride.
- the Oscillatory Amusement Ride in a first embodiment, has a housing 1 , preferably, but not necessarily, a cylindrical housing, having a bore 2 with a piston 3 slidably mounted within the bore 2 .
- the housing 1 has a closed first end 4 containing an aperture 5 through which a cable 6 passes.
- a first end 7 of the cable 6 is connected to the piston 3 , and a second end 8 if the cable 6 is attached to a holder 9 .
- the housing 1 is capable of substantially retaining a compressed fluid between the closed first end 4 and the piston 3 for at least one oscillation of the piston 3 .
- a compressible fluid preferably—but not necessarily—a gas and most preferably—but not necessarily—air, is introduced through a fluid supply valve 10 between the piston 3 and the closed first end 4 of the housing 1 .
- the fluid supply valve 10 is not necessary, since, during the interval between operation of the ride, air would slowly but sufficiently enter the bore 2 through the aperture 5 .
- the housing 1 is capable of retaining a compressed fluid between the closed first end 4 and the piston 3 for at least one oscillation of the piston 3 .
- a second end 11 of the housing 1 may be either open or closed.
- an aperture or valve 12 communicating with the atmosphere and with the bore 2 is in a side 13 of the housing 1 .
- the cable 6 is continuous. As described above, in this embodiment, the cable 6 exits the housing 1 through the aperture 5 in the closed first end 4 of the housing 1 ; re-enters the housing 1 either through the open second end 11 of the housing 1 or, if the second end 11 is closed, through an aperture 14 in the second end 11 ; and is attached to the piston 3 . With this embodiment, a first end 15 of a second cable 16 is attached to the cable 6 outside the housing 1 . A second end 17 of this second cable 16 is connected to the holder 9 .
- a pulley 18 is located outside the housing 1 near the first end 4 of the housing 1 ; and another pulley 19 is placed outside the housing 1 near the second end 11 of the housing 1 .
- the cable 6 passes around the pulleys 18 , 19 .
- a pulley 20 is employed to change the direction of force exerted by the piston 3 .
- the cable 6 goes across this pulley 20 ; in the second embodiment, the second cable 16 goes across this pulley 20 .
- the Oscillatory Amusement Ride utilizes a single holder 9 but two housings 1 , each having all the components described above with respect to the ride, except, as stated, for the holder 9 .
- the fluid for each housing 1 is supplied from a common source 21 which can be any source that is well known in the art, such as a tank or a compressor.
- a separate line 22 goes to each housing 1 and contains a blocking valve 23 .
- a sensor 24 is preferably, but not necessarily, employed to indicate the loss of pressure caused by the escaping fluid. Preferably, but not necessarily, this is done by having a sensor 24 that measures the speed of the pulley 20 associated with each housing 1 , when the housings 1 are located below the position from which the participant initially begins his or her descent.
- a computer or microprocessor 25 in communication with the sensor 24 and with the blocking valves 23 will cause the line 22 to the housing 1 leaking fluid to close so that the non-leaking housing 1 will not lose fluid and will decelerate the participant.
- the participant jumps or falls from a movable platform 26 .
- the platform 26 can be moved by any means that is well known in the art, such as pneumatics, hydraulics, or an electrical or gas-powered motor. If desired, it could be balanced so that it is normally away from the jump position and must be moved into position.
- a sensor 27 in communication with the computer or microprocessor 25 detects whether the platform 26 has been moved from the jump position.
- the computer or microprocessor 25 is in communication with the fluid supply valve 10 and will not allow additional fluid to be injected into a housing 1 until the platform 26 has been moved away from the jump position. This is intended to preclude a participant from being accelerated upward into the platform 26 .
- fluid can be injected by the fluid supply valve 10 or a separate supply valve 28 , located between the piston 3 and the first end 4 of the housing 1 , slowly into the bore 2 of the housing 1 to raise a participant to the platform 26 prior to the participant's jumping or falling from the platform 26 .
- the participant could be so raised; and then the fluid supply valve 10 or separate supply valve 28 could permit the fluid between the piston 3 and the first end 4 of the housing 1 to escape so that the participant would fall without ever being on a platform 26 .
- the cable 6 (the second cable 16 , in the case of the optional embodiment) is rotatably attached to the holder 9 .
- the holder 9 may be either a harness, as shown in FIG. 5, or a seat, as depicted in FIG. 6.
- the center of gravity for the seat 9 is kept a sufficient distance below the point of attachment to the cables 6 (or the second cables 16 , in the case of the optional embodiment) that the seat 9 will not rotate unless a participant rocks it but is also kept sufficiently close to the point of attachment to the cables 6 (or the second cables 16 , in the case of the optional embodiment) that a participant can rock the seat and thereby rotate it.
- any means well known in the art such as a harness or belt, would be used releasably to retain the participant in the seat 9 .
- the housings 1 and the movable platform 26 are attached to a structural tower 29 .
- the Oscillatory Amusement Ride could be fastened to the ground; a permanent structure; or a mobile support, such as a truck or a trailer.
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Abstract
An oscillatory amusement ride having a housing containing a slidably mounted piston. A cable attaches the piston to a holder for a participant. A first end of the housing is closed except for an aperture through which the cable passes. Optionally, the side of the housing contains an aperture or a valve to assist initial movement of the piston when a participant jumps or falls. The second end of the housing can either be open or closed. Optionally, a fluid supply valve can provide compressible fluid between the piston and the first end of the housing. Also optionally, the housing can have a continuous cable that is attached to a second cable which supports the participant. Preferably, two cylinders are utilized, a movable platform is available from which the participant can jump or fall, and the holder can be rotated by the participant.
Description
- 1. Field of the Invention
- This invention relates to an amusement ride for accelerating and decelerating a participant where the initial force provided for the ride is generated by downward movement of the participant.
- U.S. Pat. No. 5,203,744 utilizes the force of a downward moving participant to stretch a resilient band, commonly termed a bungee cord, to provide the power for oscillating a participant.
- Additionally, the present inventor created an amusement ride termed RAPID RISER which used a hydraulic system to stretch a resilient band attached to a participant while the participant initially remained on the ground and then lifted the participant with the resilient band. The lifting force produced by the hydraulic system generated the requisite power for then accelerating and decelerating the participant.
- The RAPID RISER patent application was Ser. No. 08/012,358; was filed on Feb. 1, 1993; and resulted in a Notice of Allowance; but the inventor chose not to obtain a patent, even though the RAPID RISER was commercially produced.
- Both U.S. Pat. No. 5,632,686 and U.S. Pat. No. 5,704,841 introduce compressed gas into a bore of a housing to accelerate a piston attached to a cable and thereby accelerate and decelerate a participant. In one mode of operation, the device of U.S. Pat. No. 5,704,841 can raise a participant slowly when gas is slowly injected into the bore.
- And, in one embodiment, the device of U.S. patent application Ser. No. 09/923269, which was filed on Aug. 3, 2001, introduces fluid into a housing to propel a piston connected to a cable to create the initial force to propel a carrier containing one or more participants.
- U.S. Pat. No. 5,893,802 is very similar to U.S. Pat. No. 5,632,686, and U.S. Pat. No. 6,001,022 is highly reminiscent of U.S. Pat. No. 5,704,841.
- Of the preceding, only U.S. Pat. No. 5,203,744 simply utilizes the force of a downward moving participant to provide the initial power to oscillate the participant; and it employs resilient bands or bungee cords.
- Several patents, e.g., U.S. Pat. Nos. 5,421,783; 5,649,866; and 5,810,671 have a passenger carrier that is accelerated upward by bungee cords and can relatively freely swing about the ends of such cords. There is, however, no control over any rotation of the carrier that does occur.
- U.S. Pat. No. 6,083,111 does involve controlled rotation of a passenger chair (also termed a “support”) for an amusement ride. The degree of rotation is, however, purposefully limited; the limited rotation that is possible apparently occurs only over a restricted, fixed portion of a course upon a tower; and only downward movement occurs when the chair has been rotated from its initial substantially vertical position.
- And United States patent application Ser. No. 09/922,548, which was filed on Aug. 3, 2001, covers a machine-powered seat for an amusement ride that can rotate through a substantial range.
- Finally, the device of U.S. Pat. No. 5,593,368 suspends two resilient bands (or bungee cords) from columns and attaches the free ends of the resilient bands to a participant, preferably near the participant's center of gravity. The columns are placed around a trampoline; and as the participant bounces higher, the point of attachment on the columns is automatically raised. Oscillations are produced primarily by bouncing on the trampoline. The resilient bands do, though, permit a participant to rotate through the participant's own power.
- The present invention employs the force of a downward moving participant to provide the initial power to accelerate and decelerate the participant in an oscillatory manner without the need for a resilient band or bungee cord.
- A housing, preferably, but not necessarily, a cylindrical housing, having a bore has a piston slidably mounted within the bore. A means, preferably a cable, for transferring force between the piston and a holder for a participant is connected to the piston and to the holder.
- In a first embodiment, the force transferring means exits the housing through an aperture in a closed first end of the housing. The housing is capable of retaining a compressed fluid between the closed first end and the piston for at least one oscillation of the piston. A compressible fluid, preferably—but not necessarily—a gas and most preferably—but not necessarily—air, is introduced through a fluid supply valve between the piston and the closed first end of the housing.
- A second end of the housing may be either open or closed.
- As a participant jumps or falls and thereby allows his or her body to be pulled downward by gravity, the piston is pulled toward the first end of the housing, compressing fluid therein. Eventually the compression of the fluid will stop the downward motion of the housing. Momentum, however, causes the piston to compress the fluid more than is necessary to stop the participant. Therefore, when this momentum is overcome, the fluid is compressed to such an extent that it expands with sufficient force to accelerate the piston away from the first end of the housing and to accelerate the participant upward.
- If desired, additional fluid can be introduced into the bore of the housing to cause an even greater acceleration of the participant. If sufficient fluid is introduced, the participant is raised beyond the position from which the participant initially began his or her descent.
- Preferably, but not necessarily, an aperture or, preferably, but not necessarily, a valve is in a side of the housing. This aperture or valve communicates with the bore of the housing and with the atmosphere. As the piston approaches the aperture or the valve (when it is open), fluid may escape from the bore, permitting the piston and the participant to accelerate with less resistance. Once the piston has passed the aperture or valve on its path toward the first end of the housing, the piston begins to compress the fluid as described above.
- In an alternate embodiment, the cable is continuous. In this embodiment, the cable exits the housing through the aperture in the first end of the housing; re-enters the housing either through the open second end of the housing or, if the second end is closed, through an aperture in the second end; and is attached to the piston. With this embodiment, a first end of a second cable is attached to the cable outside the housing. A second end of this second cable is connected to the holder.
- In either embodiment, the housing can either be above or below the position from which the participant initially begins his or her descent. Preferably, but not necessarily, the housing is below this point. In such a case, a means, preferably, but not necessarily, a pulley, is employed to change the direction of force exerted by the piston. In the first embodiment, the cable goes across this pulley; in the second embodiment, the second cable goes across this pulley.
- Preferably, but not necessarily, the Oscillatory Amusement Ride utilizes a single holder but two housings, each having all the components described above with respect to the ride, except, as stated, for the holder.
- Preferably, but not necessarily, the fluid for each housing is supplied from a common source. A separate line goes to each housing and contains a blocking valve.
- In the unlikely event that an uncontrolled leak of fluid should arise in a housing between the piston and the first end of the housing, the retarding force of the fluid would be less; so, the cable would move more rapidly. A sensor is preferably, but not necessarily, employed to indicate the loss of pressure caused by the escaping fluid. Preferably, but not necessarily, this is done by having a sensor that measures the speed of the pulley associated with each housing.
- When the pressure difference between the two housings exceeds a predetermined range, a computer or microprocessor in communication with the sensor and with the blocking valves will cause the line to the housing leaking fluid to close so that the non-leaking housing will not lose fluid and will decelerate the participant.
- Preferably, but not necessarily, the participant jumps or falls from a movable platform. The platform can be moved by any means that is well known in the art, such as pneumatics, hydraulics, or an electrical or gas-powered motor. If desired, it could be balanced so that it is normally away from the jump position and must be moved into position.
- Preferably, but not necessarily, a sensor in communication with the computer or microprocessor detects whether the platform has been moved from the jump position. The computer or microprocessor is in communication with the injection valve and will not allow additional fluid to be injected into a housing until the platform has been moved away from the jump position. This is intended to preclude a participant from being accelerated upward into the platform.
- If desired, fluid can be injected slowly into the bore of the housing to raise a participant to the platform prior to the participant's jumping or falling from the platform.
- Preferably, but not necessarily, the cable (the second cable, in the case of the optional embodiment) is rotatably attached to the holder.
- The holder may be either a harness or a seat.
- If the holder is a seat, the center of gravity for the seat is kept a sufficient distance below the point of attachment that the seat will not rotate unless a participant rocks it but is also kept sufficiently close to the point of attachment that a participant can rock the seat and thereby rotate it.
- FIG. 1 illustrates the housing which has a non-continuous cable.
- FIG. 2 portrays the housing with a continuous cable.
- FIG. 3 shows the Oscillatory Amusement Ride employing two housings.
- FIG. 4 exhibits blocking valves in the supply lines for two housings of an Oscillatory Amusement Ride.
- FIG. 5 depicts a harness.
- FIG. 6 demonstrates a seat used in one embodiment of the Oscillatory Amusement Ride.
- As viewed in FIG. 1, the Oscillatory Amusement Ride, in a first embodiment, has a
housing 1, preferably, but not necessarily, a cylindrical housing, having abore 2 with apiston 3 slidably mounted within thebore 2. - The
housing 1 has a closedfirst end 4 containing anaperture 5 through which acable 6 passes. Afirst end 7 of thecable 6 is connected to thepiston 3, and asecond end 8 if thecable 6 is attached to aholder 9. - As mentioned above, the
housing 1 is capable of substantially retaining a compressed fluid between the closedfirst end 4 and thepiston 3 for at least one oscillation of thepiston 3. A compressible fluid, preferably—but not necessarily—a gas and most preferably—but not necessarily—air, is introduced through afluid supply valve 10 between thepiston 3 and the closedfirst end 4 of thehousing 1. Of course, if the fluid is air, thefluid supply valve 10 is not necessary, since, during the interval between operation of the ride, air would slowly but sufficiently enter thebore 2 through theaperture 5. The terminology “closed” with respect to thefirst end 4 of thehousing 1 means, in this document, that such air can leak into thehousing 1 but that fluid cannot escape rapidly enough from thefirst end 4 of saidhousing 1 substantially to impair the braking action of the fluid upon thepiston 3, i.e., as stated earlier in this paragraph, thehousing 1 is capable of retaining a compressed fluid between the closedfirst end 4 and thepiston 3 for at least one oscillation of thepiston 3.. - A
second end 11 of thehousing 1 may be either open or closed. - Also as discussed above, preferably, but not necessarily, an aperture or
valve 12 communicating with the atmosphere and with thebore 2 is in aside 13 of thehousing 1. - In an alternate embodiment, which is shown in FIG. 2, the
cable 6 is continuous. As described above, in this embodiment, thecable 6 exits thehousing 1 through theaperture 5 in the closedfirst end 4 of thehousing 1; re-enters thehousing 1 either through the opensecond end 11 of thehousing 1 or, if thesecond end 11 is closed, through anaperture 14 in thesecond end 11; and is attached to thepiston 3. With this embodiment, afirst end 15 of asecond cable 16 is attached to thecable 6 outside thehousing 1. Asecond end 17 of thissecond cable 16 is connected to theholder 9. In order to reduce friction, apulley 18 is located outside thehousing 1 near thefirst end 4 of thehousing 1; and anotherpulley 19 is placed outside thehousing 1 near thesecond end 11 of thehousing 1. Thecable 6 passes around thepulleys - In either embodiment, when the
housing 1 is below the position from which the participant initially begins his or her descent, apulley 20 is employed to change the direction of force exerted by thepiston 3. In the first embodiment, thecable 6 goes across thispulley 20; in the second embodiment, thesecond cable 16 goes across thispulley 20. - Preferably, but not necessarily, as seen in FIG. 3, the Oscillatory Amusement Ride utilizes a
single holder 9 but twohousings 1, each having all the components described above with respect to the ride, except, as stated, for theholder 9. - Preferably, but not necessarily, as depicted in FIG. 4, the fluid for each
housing 1 is supplied from acommon source 21 which can be any source that is well known in the art, such as a tank or a compressor. Aseparate line 22 goes to eachhousing 1 and contains a blockingvalve 23. - In the unlikely event that an uncontrolled leak of fluid should arise in a
housing 1 between thepiston 3 and thefirst end 4 of thehousing 1 the retarding force of the fluid would be less; so, thecable 6 would move more rapidly. Asensor 24 is preferably, but not necessarily, employed to indicate the loss of pressure caused by the escaping fluid. Preferably, but not necessarily, this is done by having asensor 24 that measures the speed of thepulley 20 associated with eachhousing 1, when thehousings 1 are located below the position from which the participant initially begins his or her descent. - When the pressure difference between the two
housings 1 exceeds a predetermined range, a computer or microprocessor 25 in communication with thesensor 24 and with the blockingvalves 23 will cause theline 22 to thehousing 1 leaking fluid to close so that thenon-leaking housing 1 will not lose fluid and will decelerate the participant. - As indicated previously, preferably, but not necessarily, the participant jumps or falls from a
movable platform 26. Theplatform 26 can be moved by any means that is well known in the art, such as pneumatics, hydraulics, or an electrical or gas-powered motor. If desired, it could be balanced so that it is normally away from the jump position and must be moved into position. - Preferably, but not necessarily, a sensor27 in communication with the computer or microprocessor 25 detects whether the
platform 26 has been moved from the jump position. The computer or microprocessor 25 is in communication with thefluid supply valve 10 and will not allow additional fluid to be injected into ahousing 1 until theplatform 26 has been moved away from the jump position. This is intended to preclude a participant from being accelerated upward into theplatform 26. - If desired, fluid can be injected by the
fluid supply valve 10 or aseparate supply valve 28, located between thepiston 3 and thefirst end 4 of thehousing 1, slowly into thebore 2 of thehousing 1 to raise a participant to theplatform 26 prior to the participant's jumping or falling from theplatform 26. Alternatively, the participant could be so raised; and then thefluid supply valve 10 orseparate supply valve 28 could permit the fluid between thepiston 3 and thefirst end 4 of thehousing 1 to escape so that the participant would fall without ever being on aplatform 26. - Preferably, but not necessarily, the cable6 (the
second cable 16, in the case of the optional embodiment) is rotatably attached to theholder 9. - The
holder 9 may be either a harness, as shown in FIG. 5, or a seat, as depicted in FIG. 6. - If the
holder 9 is a seat, the center of gravity for theseat 9 is kept a sufficient distance below the point of attachment to the cables 6 (or thesecond cables 16, in the case of the optional embodiment) that theseat 9 will not rotate unless a participant rocks it but is also kept sufficiently close to the point of attachment to the cables 6 (or thesecond cables 16, in the case of the optional embodiment) that a participant can rock the seat and thereby rotate it. And any means well known in the art, such as a harness or belt, would be used releasably to retain the participant in theseat 9. - Preferably, as illustrated in FIG. 3, the
housings 1 and themovable platform 26 are attached to a structural tower 29. - The Oscillatory Amusement Ride could be fastened to the ground; a permanent structure; or a mobile support, such as a truck or a trailer.
- When communication with the atmosphere is mentioned herein, it is sufficient if such communication is with a tank so large that fluid passing through the element communicating with the tank will not change the pressure within the tank sufficiently as to have an appreciable negative impact upon the operation of the ride.
Claims (50)
1. An oscillatory amusement ride, which comprises:
a housing having a bore, a closed first end containing an aperture, a second end, and a side;
a piston slidably mounted within the bore;
a holder for a participant; and
a means for transferring force between said piston and said holder passing through the aperture in the closed first end of said housing, wherein said housing is capable of retaining a compressed fluid between the closed first end and the piston for at least one oscillation of the piston.
2. The oscillatory amusement ride as recited in claim 1 , wherein:
said housing contains an aperture in the side of said housing communicating with the atmosphere and with the bore of said housing.
3. The oscillatory amusement ride as recited in claim 2 , further comprising:
a fluid supply valve between said piston and the first end of said housing.
4. The oscillatory amusement ride as recited in claim 3 , further comprising:
a separate supply valve located between the piston and the first end of said housing.
5. The oscillatory amusement ride as recited in claim 1 , further comprising:
a fluid supply valve between said piston and the first end of said housing.
6. The oscillatory amusement ride as recited in claim 5 , further comprising:
a separate supply valve located between the piston and the first end of said housing.
7. The oscillatory amusement ride as recited in claim 2 , further comprising:
a second housing having a bore, a closed first end containing an aperture, a second end, and a side;
a piston slidably mounted within the bore of said second housing; and
a means for transferring force between said piston and said holder passing through the aperture in the closed first end of said second housing, wherein said second housing is capable of retaining a compressed fluid between the closed first end of said second housing and the piston within said second housing for at least one oscillation of the piston within said second housing and wherein said second housing contains an aperture in the side of said second housing communicating with the atmosphere and with the bore of said second housing.
8. The oscillatory amusement ride as recited in claim 7 , wherein:
said force transferring means associated with said housing and said force transferring means associated with said second housing are rotatably attached to said holder.
9. The oscillatory amusement ride as recited in claim 4 , further comprising:
a second housing having a bore, a closed first end having an aperture, a second end, and a side;
a piston slidably mounted within the bore of said second housing; and
a means for transferring force between said piston within said second housing and said holder passing through the aperture in the closed first end of said second housing, wherein said second housing is capable of retaining a compressed fluid between the closed first end of said second housing and the piston within said second housing for at least one oscillation of the piston within said second housing and wherein said second housing contains an aperture in the side of said second housing communicating with the atmosphere and with the bore of said second housing;
a fluid supply valve between said piston within the bore of said second housing and the first end of said second housing; and
a separate supply valve located between the piston within the bore of said second housing and the first end of said second housing.
10. The oscillatory amusement ride as recited in claim 9 , further comprising:
a movable platform from which a participant can jump or fall.
11. The oscillatory amusement ride as recited in claim 10 , further comprising:
a sensor which indicates a loss of pressure within said housing or said second housing;
a sensor which indicates whether said movable platform is in the jump position;
a source of compressible fluid;
a supply line between said source and said fluid supply valve associated with said housing;
a blocking valve in said supply line;
a second supply line between said source and said fluid supply valve associated with said second housing;
a blocking valve in said second supply line;
a sensor for detecting whether the movable platform is in the jump position; and
a microprocessor in communication with said sensors and with said fluid supply valves that will activate the blocking valve in the appropriate supply line if an unacceptable loss of pressure occurs within said housing or said second housing and will not allow the fluid supply valves to supply fluid until the movable platform has been moved away from the jump position.
12. The oscillatory amusement ride as recited in claim 10 , wherein:
said force transferring means associated with said housing and said force transferring means associated with said second housing are rotatably attached to said holder.
13. The oscillatory amusement ride as recited in claim 12 , further comprising:
a sensor which indicates a loss of pressure within said housing or said second housing;
a sensor which indicates whether said movable platform is in the jump position;
a source of compressible fluid;
a supply line between said source and said fluid supply valve associated with said housing;
a blocking valve in said supply line;
a second supply line between said source and said fluid supply valve associated with said second housing;
a blocking valve in said second supply line;
a sensor for detecting whether the movable platform is in the jump position; and
a microprocessor in communication with said sensors and with said fluid supply valves that will activate the blocking valve in the appropriate supply line if an unacceptable loss of pressure occurs within said housing or said second housing and will not allow the fluid supply valves to supply fluid until the movable platform has been moved away from the jump position.
14. The oscillatory amusement ride as recited in claim 9 , wherein:
said force transferring means associated with said housing and said force transferring means associated with said second housing are rotatably attached to said holder.
15. The oscillatory amusement ride as recited in claim 1 , further comprising:
a valve in the side of said housing communicating with the atmosphere and with the bore of said housing.
16. The oscillatory amusement ride as recited in claim 15 , further comprising:
a fluid supply valve between said piston and the first end of said housing.
17. The oscillatory amusement ride as recited in claim 16 , further comprising:
a separate supply valve located between the piston and the first end of said housing.
18. The oscillatory amusement ride as recited in claim 15 , further comprising:
a second housing having a bore, a closed first end containing an aperture, a second end, and a side;
a piston slidably mounted within the bore of said second housing;
a means for transferring force between said piston within said second housing and said holder passing through the aperture in the closed first end of said second housing, wherein said second housing is capable of retaining a compressed fluid between the closed first end of said second housing and the piston within said second housing for at least one oscillation of the piston within said second housing; and
a valve in the side of said second housing communicating with the atmosphere and with the bore of said second housing.
19. The oscillatory amusement ride as recited in claim 18 , wherein:
said force transferring means associated with said housing and said force transferring means associated with said second housing are rotatably attached to said holder.
20. The oscillatory amusement ride as recited in claim 17 , further comprising:
a second housing having a bore, a closed first end containing an aperture, a second end, and a side;
a piston slidably mounted within the bore of said second housing;
a means for transferring force between said piston within said second housing and said holder passing through the aperture in the closed first end of said second housing, wherein said second housing is capable of retaining a compressed fluid between the closed first end of said second housing and the piston within said second housing for at least one oscillation of the piston within said second housing;
a valve in the side of said second housing communicating with the atmosphere and with the bore of said second housing;
a fluid supply valve between said piston within the bore of said second housing and the first end of said second housing; and
a separate supply valve located between the piston within the bore of said second housing and the first end of said second housing.
21. The oscillatory amusement ride as recited in claim 20 , further comprising:
a movable platform from which a participant can jump or fall.
22. The oscillatory amusement ride as recited in claim 21 , further comprising:
a sensor which indicates a loss of pressure within said housing or said second housing;
a sensor which indicates whether said movable platform is in the jump position;
a source of compressible fluid;
a supply line between said source and said fluid supply valve associated with said housing;
a blocking valve in said supply line;
a second supply line between said source and said fluid supply valve associated with said second housing;
a blocking valve in said second supply line;
a sensor for detecting whether the movable platform is in the jump position; and
a microprocessor in communication with said sensors and with said fluid supply valves that will activate the blocking valve in the appropriate supply line if an unacceptable loss of pressure occurs within said housing or said second housing and will not allow the fluid supply valves to supply fluid until the movable platform has been moved away from the jump position.
23. The oscillatory amusement ride as recited in claim 21 , wherein:
said force transferring means associated with said housing and said force transferring means associated with said second housing are rotatably attached to said holder.
24. The oscillatory amusement ride as recited in claim 23 , further comprising:
a sensor which indicates a loss of pressure within said housing or said second housing;
a sensor which indicates whether said movable platform is in the jump position;
a source of compressible fluid;
a supply line between said source and said fluid supply valve associated with said housing;
a blocking valve in said supply line;
a second supply line between said source and said fluid supply valve associated with said second housing;
a blocking valve in said second supply line;
a sensor for detecting whether the movable platform is in the jump position; and
a microprocessor in communication with said sensors and with said fluid supply valves that will activate the blocking valve in the appropriate supply line if an unacceptable loss of pressure occurs within said housing or said second housing and will not allow the fluid supply valves to supply fluid until the movable platform has been moved away from the jump position.
25. The oscillatory amusement ride as recited in claim 20 , wherein:
said force transferring means associated with said housing and said force transferring means associated with said second housing are rotatably attached to said holder.
26. An oscillatory amusement ride, which comprises:
a housing having a bore, a closed first end containing an aperture, a second end, and a side;
a piston slidably mounted within the bore;
a holder for a participant;
a cable that exits said housing through the aperture in the closed first end of said housing and re-enters said housing through the second end of said housing, said cable being attached to said piston within said second housing; and
a means for transferring force between said cable associated with said second housing and said holder passing through the aperture in the closed first end of said second housing, wherein said housing is capable of retaining a compressed fluid between the closed first end and the piston for at least one oscillation of the piston.
27. The oscillatory amusement ride as recited in claim 26 , wherein:
said housing contains an aperture in the side of said housing communicating with the atmosphere and with the bore of said housing.
28. The oscillatory amusement ride as recited in claim 27 , further comprising:
a fluid supply valve between said piston and the first end of said housing.
29. The oscillatory amusement ride as recited in claim 28 , further comprising:
a separate supply valve located between the piston and the first end of said housing.
30. The oscillatory amusement ride as recited in claim 26 , further comprising:
a fluid supply valve between said piston and the first end of said housing.
31. The oscillatory amusement ride as recited in claim 30 , further comprising:
a separate supply valve located between the piston and the first end of said housing.
32. The oscillatory amusement ride as recited in claim 27 , further comprising:
a second housing having a bore, a closed first end containing an aperture, a second end, and a side;
a piston slidably mounted within the bore of said second housing;
a cable that exits said second housing through the aperture in the closed first end of said second housing and re-enters said second housing through the second end of said second housing, said cable being attached to said piston within said second housing; and
a means for transferring force between said cable associated with said second housing and said holder passing through the aperture in the closed first end of said second housing, wherein said second housing is capable of retaining a compressed fluid between the closed first end of said second housing and the piston within said second housing for at least one oscillation of the piston within said second housing and wherein said second housing contains an aperture in the side of said second housing communicating with the atmosphere and with the bore of said second housing.
33. The oscillatory amusement ride as recited in claim 32 , wherein:
said force transferring means associated with said housing and said force transferring means associated with said second housing are rotatably attached to said holder.
34. The oscillatory amusement ride as recited in claim 29 , further comprising:
a second housing having a bore, a closed first end containing an aperture, a second end, and a side;
a piston slidably mounted within the bore of said second housing;
a cable that exits said second housing through the aperture in the closed first end of said second housing and re-enters said second housing through the second end of said second housing, said cable being attached to said piston within said second housing;
a means for transferring force between said cable associated with said second housing and said holder; and
a means for transferring force between said piston within said second housing and said holder passing through the aperture in the closed first end of said second housing, wherein said second housing is capable of retaining a compressed fluid between the closed first end of said second housing and the piston within said second housing for at least one oscillation of the piston within said second housing and wherein said second housing contains an aperture in the side of said second housing communicating with the atmosphere and with the bore of said second housing;
a fluid supply valve between said piston within the bore of said second housing and the first end of said second housing; and
a separate supply valve located between the piston within the bore of said second housing and the first end of said second housing.
35. The oscillatory amusement ride as recited in claim 34 , further comprising:
a movable platform from which a participant can jump or fall.
36. The oscillatory amusement ride as recited in claim 35 , further comprising:
a sensor which indicates a loss of pressure within said housing or said second housing;
a sensor which indicates whether said movable platform is in the jump position;
a source of compressible fluid;
a supply line between said source and said fluid supply valve associated with said housing;
a blocking valve in said supply line;
a second supply line between said source and said fluid supply valve associated with said second housing;
a blocking valve in said second supply line;
a sensor for detecting whether the movable platform is in the jump position; and
a microprocessor in communication with said sensors and with said fluid supply valves that will activate the blocking valve in the appropriate supply line if an unacceptable loss of pressure occurs within said housing or said second housing and will not allow the fluid supply valves to supply fluid until the movable platform has been moved away from the jump position.
37. The oscillatory amusement ride as recited in claim 35 , wherein:
said force transferring means associated with said housing and said force transferring means associated with said second housing are rotatably attached to said holder.
38. The oscillatory amusement ride as recited in claim 37 , further comprising:
a sensor which indicates a loss of pressure within said housing or said second housing;
a sensor which indicates whether said movable platform is in the jump position;
a source of compressible fluid;
a supply line between said source and said fluid supply valve associated with said housing;
a blocking valve in said supply line;
a second supply line between said source and said fluid supply valve associated with said second housing;
a blocking valve in said second supply line;
a sensor for detecting whether the movable platform is in the jump position; and
a microprocessor in communication with said sensors and with said fluid supply valves that will activate the blocking valve in the appropriate supply line if an unacceptable loss of pressure occurs within said housing or said second housing and will not allow the fluid supply valves to supply fluid until the movable platform has been moved away from the jump position.
39. The oscillatory amusement ride as recited in claim 34 , wherein:
said force transferring means associated with said housing and said force transferring means associated with said second housing are rotatably attached to said holder.
40. The oscillatory amusement ride as recited in claim 26 , further comprising:
a valve in the side of said housing communicating with the atmosphere and with the bore of said housing.
41. The oscillatory amusement ride as recited in claim 40 , further comprising:
a fluid supply valve between said piston and the first end of said housing.
42. The oscillatory amusement ride as recited in claim 41 , further comprising:
a separate supply valve located between the piston and the first end of said housing.
43. The oscillatory amusement ride as recited in claim 40 , further comprising:
a second housing having a bore, a closed first end containing an aperture, a second end, and a side;
a piston slidably mounted within the bore of said second housing;
a cable that exits said second housing through the aperture in the closed first end of said second housing and re-enters said second housing through the second end of said second housing, said cable being attached to said piston within said second housing; a means for transferring force between said cable associated with said second housing and said holder passing through the aperture in the closed first end of said second housing, wherein said second housing is capable of retaining a compressed fluid between the closed first end of said second housing and the piston within said second housing for at least one oscillation of the piston within said second housing; and
a valve in the side of said second housing communicating with the atmosphere and with the bore of said second housing.
44. The oscillatory amusement ride as recited in claim 43 , wherein:
said force transferring means associated with said housing and said force transferring means associated with said second housing are rotatably attached to said holder.
45. The oscillatory amusement ride as recited in claim 42 , further comprising:
a second housing having a bore, a closed first end containing an aperture, a second end, and a side;
a piston slidably mounted within the bore of said second housing;
a means for transferring force between said piston within said second housing and said holder passing through the aperture in the closed first end of said second housing, wherein said second housing is capable of retaining a compressed fluid between the closed first end of said second housing and the piston within said second housing for at least one oscillation of the piston within said second housing;
a valve in the side of said second housing communicating with the atmosphere and with the bore of said second housing;
a fluid supply valve between said piston within the bore of said second housing and the first end of said second housing; and
a separate supply valve located between the piston within the bore of said second housing and the first end of said second housing.
46. The oscillatory amusement ride as recited in claim 45 , further comprising:
a movable platform from which a participant can jump or fall.
47. The oscillatory amusement ride as recited in claim 46 , further comprising:
a sensor which indicates a loss of pressure within said housing or said second housing;
a sensor which indicates whether said movable platform is in the jump position;
a source of compressible fluid;
a supply line between said source and said fluid supply valve associated with said housing;
a blocking valve in said supply line;
a second supply line between said source and said fluid supply valve associated with said second housing;
a blocking valve in said second supply line;
a sensor for detecting whether the movable platform is in the jump position; and
a microprocessor in communication with said sensors and with said fluid supply valves that will activate the blocking valve in the appropriate supply line if an unacceptable loss of pressure occurs within said housing or said second housing and will not allow the fluid supply valves to supply fluid until the movable platform has been moved away from the jump position.
48. The oscillatory amusement ride as recited in claim 46 , wherein:
said force transferring means associated with said housing and said force transferring means associated with said second housing are rotatably attached to said holder.
49. The oscillatory amusement ride as recited in claim 48 , further comprising:
a sensor which indicates a loss of pressure within said housing or said second housing;
a sensor which indicates whether said movable platform is in the jump position;
a source of compressible fluid;
a supply line between said source and said fluid supply valve associated with said housing;
a blocking valve in said supply line;
a second supply line between said source and said fluid supply valve associated with said second housing;
a blocking valve in said second supply line;
a sensor for detecting whether the movable platform is in the jump position; and
a microprocessor in communication with said sensors and with said fluid supply valves that will activate the blocking valve in the appropriate supply line if an unacceptable loss of pressure occurs within said housing or said second housing and will not allow the fluid supply valves to supply fluid until the movable platform has been moved away from the jump position.
50. The oscillatory amusement ride as recited in claim 45 , wherein:
said force transferring means associated with said housing and said force transferring means associated with said second housing are rotatably attached to said holder.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US10/039,903 US20030083137A1 (en) | 2001-10-26 | 2001-10-26 | Oscillatory amusement ride |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US10/039,903 US20030083137A1 (en) | 2001-10-26 | 2001-10-26 | Oscillatory amusement ride |
Publications (1)
Publication Number | Publication Date |
---|---|
US20030083137A1 true US20030083137A1 (en) | 2003-05-01 |
Family
ID=21907957
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US10/039,903 Abandoned US20030083137A1 (en) | 2001-10-26 | 2001-10-26 | Oscillatory amusement ride |
Country Status (1)
Country | Link |
---|---|
US (1) | US20030083137A1 (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20100130338A1 (en) * | 2005-03-01 | 2010-05-27 | Wehrell Michael A | Physical training apparatus and method |
-
2001
- 2001-10-26 US US10/039,903 patent/US20030083137A1/en not_active Abandoned
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20100130338A1 (en) * | 2005-03-01 | 2010-05-27 | Wehrell Michael A | Physical training apparatus and method |
US8992399B2 (en) * | 2005-03-01 | 2015-03-31 | Michael A. Wehrell | Physical training apparatus and method |
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Legal Events
Date | Code | Title | Description |
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STCB | Information on status: application discontinuation |
Free format text: ABANDONED -- FAILURE TO RESPOND TO AN OFFICE ACTION |