US3179408A - Amusement ride - Google Patents

Description

Apnl 20, 1965 N. BARTLETT 3,179,408

AMUSEMENT RIDE Original Filed Nov. 1. 1960 3 Sheets-Sheet 1 INVEN TOR. I NORMA/V Bmensrr ATTORNEYS.

April 20, 1965 N. BARTLETT 3,179,408

AMUSEMENT RIDE Original Filed Nov. l, 1960 3 Sheets-Sheet 2 LII."

INVENTOR. NORMAN BARTLETT mww A TTORNEYS.

3 Sheets-Sheet 3 T T a m d J, Wm H unw W m M W N r m A //uv 1244/ 7 W W w 1: f h E:

ATTORNEYS.

N. BARTLETT AMUSEMENT RIDE April 20, 1965 Original Filed Nov.

United States Patent 3,179,408 AMUSEMENT RIDE Norman Bartlett, North Miami Beach, Fla., assignor of one-half to Marjorie Bartlett, North Miami Beach, Fla. r Original application Nov. 1, 1960, Ser. No. 66,644, now Patent No. 3,101,943, dated Aug. 27, 1963. Divided and this application Oct. 11, 1962, Ser. No. 235,169

9 Claims. (Cl. 272-44) This invention relates to amusement rides and more particularly to an amusement ride of the roundabout type. This application is a division of my application Serial No. 66,644, filed November 1, 1960, now Patent No. 3,101,- 943, dated August 27, 1963.

My prior Patent No. 2,895,735 dated July 21, 1959 discloses an amusement ride wherein a circular series of wheeled cars or passengercarriers are attached to the outer ends of arms which radiate from and arerotated by an upright central mass or support, the latter being power driven to rotate about its generally vertical axis and thus propel the series of cars about a circular pathway. Along this pathway is an ascending ramp with an abrupt drop-off so that the cars are successively raised by movement upwardly along the ramp and projected into space when they reach the ramp drop-off. The free flight simulation thus achieved gives a thrilling interesting and very attractive amusement ride sensation, both to passengers and spectators.

In the amusement ride of my aforesaid patent hydraulic means are provided which take over when each successive car leaves the ramp and retard the gravity descent of each car to a desired degree so that descending motion of each car takes place safely and at a predetermined rate of speed which rate maybe variable throughout the descending movement of the car. Since any hydraulic retardation of the upward movement of a cat as it ascends the ramp is not only useless but wasteful of motive power and imposes unnecessary strains and loads on the ride structure and drive means, it is desirable that the hydraulic means impose as little resistance to upward movement as is practical and convenient.

My present invention comprises improvements in the amusement ride of my aforesaid Patent No. 2,895,735 and such improvements relate entirely to the portion of the ride combination consisting in the force means which is operable to control the descending motion of the cars or carriers by imposing yieldable forces which oppose the force of gravity which comes into play as to each carrier as soon as such carrier leaves the ramp which elevates the same. In addition to retarding the descending movements of the cars for reasons of safety and passenger comfort, the retardation of descent prolongs the free flight phase of the ride action and thus augments the free flight sensation.

The present invention provides hydraulic force means operable to impose a yieldable hydrodynamic resistance to the descent of each car as it leaves the ramp in a safer and more certain manner and one which will be certain to provide the desired degree of resistance to descent under all conditions, as for instance when oil flow is unusually slow due to low temperature conditions and under circumstances wherein wear of packings and other conditions would tend to admit air to the hydraulic system. The arrangement of my present invention insures that the hydraulic unit of each car will always have a proper supply of hydraulic fluid in the chamber or other component which directly acts in opposition to the force of gravity acting on each car as it leaves the ramp.

The hydraulic system of the present invention also provides, in conjunction with the novel hydraulic cylin der pressurizing arrangement of the invention, means for ice providing an adequate reserve supply of oil common to the several units and for insuring transmission and availability thereof to the several individual hydraulic units and, more particularly, to the portions of the hydraulic units which require an adequate hydraulic fluid supply to insure safe and certain retardation of the descending movements of the several cars.

' A further important object of the present invention is to provide hydraulic force means which will surely and safely retard downward movement of the passenger carriers under all conditions and despite possible failure of certain elements of the hydraulic force means. To this end a valved piston structure is provided wherein two valves or sets of valves associated with the piston are arranged in series, whereby failure of one valve or set of valves will not prevent the hydraulic force means from exerting its desired yieldable retarding action.

Various other objects and advantages are attendant upon the use of the teachings of the present invention in the construction of hydraulic force retarding means for safely retarding the descent of amusement ride passenger carriers in rides of the type illustrated in my aforesaid prior patent. 'Such other objects and advantages concern safety and certainty of operation under both normal and abnormal conditions, economical construction, con venience in erection and dismantling of the ride, ready and certain adjustability of the rate of hydraulic resistance to suit various operating conditions, and other ad vantages which will appear to those skilled in the amuse ment ride and hydraulic control arts from a consideration of the accompanying drawings and the following specification which set forth typical embodiments of the principles of the present invention.

It is to be understood that the embodiments illustrated in the drawings and described in the following specification are only illustrative and that the principles of the present invention are not limited thereto nor otherwise than as defined in the appended claims. For simplicity, the disclosure of my aforesaid prior Patent No. 2,895,- 735 is to be considered as incorporated herein by reference since the hydraulic control components disclosed in detail herein are expressly for use in the general amusement ride combination set forth at large in the prior patent.

In the drawings:

FIG. 1 is a general elevational view of one form of amusement ride embodying the hydraulic motion controlling means of the present invention;

FIG. 2 is a fragmentary elevational view of the upper portion of the central mast or rotatable support of the amusement ride of FIG. 1 showing one form of the hydraulic resistance arrangement of the present invention;

FIG. 3 is an elevational view similar to FIG. 2 showing a modified hydraulic resistance arrangement,"

FIG. 4 is a longitudinal central cross-sectional view through the hydraulic cylinder of either FIG. 2 or FIG. 3;

FIG. 5 is a vertical crosssectional view through a control element portion of the embodiment of FIG. 2 on a considerably enlarged scale; and

FIG. 6 is a longitudinal cross-sectional View through a portion of a cylinder structure similar to FIG. 4- but with a multiple valved piston therein, this figure being viewed similarly to FIG. 4.

Like characters of reference denote like parts throughout the several figures of the drawings and, referring to FIG. 1, a central rotatable support structure is designated 10 and has pivoted thereto as at 12 a plurality of radiating arms 11, each having a passenger carrier 13 connected to its outer end. The passenger carriers 13 have ground wheels 14 and, upon rotation of the central support structure, are adapted to traverse a circular path which includes a ramp structure to having an inclined carrier-elevating portion 17 and a relatively abrupt terminal portion 18 at the crest of the inclined portion 17.

The foregoing structure is substantially the same as that shown in my aforesaid prior patent excepting that, as shown in FIG. 1 hereof, the central support is substantially vertical instead of somewhat inclined, as in the prior patent. This difference is immaterial to the considerations of the present invention. Drive means for power operation of the rotatable central support structure is indicated generally by the numeral 20.

The upper terminal portion of central support 10 comprises a cylindrical reservoir for hydraulic fluid and is designated by the numeral 22 in FIGS. 1 and 2.

Each of the radiating arms 11 has associated therewith a hydraulic piston and cylinder mechanism designated generally by the reference numeral 23 in FIGS. 1 and 2, the cylinder 24 thereof being pivoted at one end to the reservoir 22 or other part of support 10 as at 26 and the piston rod 27 thereof being pivoted at its outer end to an upwardly offset truss portion of the associated radiating arm 11 as at 28.

Obviously, upward movement of an arm 11, as when its associated passenger carrier 13 ascends the incline 17 of ramp 16, causes the piston rod 27 to move inwardly with respect to cylinder 24 and descending movement of an associated carrier and radiating armcauses the piston rod 27 thereof a to move outwardly of its cylinder 24.

. As indicated earlier herein and in my prior patent, the useful purpose of the hydraulic system of the present invention is to slow the descent of the cars after they leave the ramp. Any incidental hydraulic resistance which the apparatus imposes to upward movement is adventitious and actually undesirable. Of course any hydraulic flow through conduits, however generously the conduits may be proportioned, is subject to fluid friction. Nevertheless, the hydraulic system of the present invention may be referred to as single acting in the sense that the useful resistance thereof is uni-directional and any incidental hydraulic resistance in the other direction is present only because it 'is unavoidable or is merely tolerated and should be kept as low as practical design considerations permit.

in any event, if free fluid flow from the cylinder is provided on the upward movement of its associated arm and passenger carrier resistance of the cylinder to movement will be limited to approximately fifteen pounds per square inch times the piston diameter, since the most resistance that the intake side can offer, however restricted the inflow passage, is the resistance to the creation of a vacuum, that is, the pressure of one atmosphere.

Referring now particularly to FIG. 2, it will be noted that the hydraulic reservoir contains oil or other hydraulic in reservoir 22 at one end as'indicated at3 4 in FIG- 2 and is connected at its other end to the outer end of cylinder 24 by a coupling 35. A second conduit 37 communicates with the inner end of cylinder 24 as by a coupling 38 and at its other end connects with a valve unit designated generally by the numeral 4% in FIG. 2.

The cylinder 24 is shown on an enlarged scale in longitudinal cross-section in FIG. 4 and valve unit 40 is illustrated in longitudinal cross-section on a still further enlarged scale in FIG. 5. Referring to FIG. 4, piston rod 27 is tubular in construction and has a piston 43 fixed to its inner end within the cylinder 24. Piston 43 is provided with passages 44 which extend therethrough in an axial direction and are normally closed by an annular valve 45 which encircles the piston rod 27 and is urged to a passage-closingposition by a compression coil spring 46.

Hydraulic fluid flow through coupling 33 between the adjacent end of the interior of cylinder 24 and conduit 37 is free and open but, as shown in FIG. 4, coupling 35 contains a restricted orifice 48 which limits the rate of fluid flow between the adjacent end of the interior of cylinder 24 and conduit 33.

A further restricted fluid flow path from the space within the cylinder 24 above piston 43, as viewed in FIG. 4, is as follows. A valve rod 50 is fixed at one end to the lower end of cylinder 24, as viewed in FIG. 4, and projects into the hollow interior of tubular piston rod 27. Valve rod 59 fits loosely within the interior of piston rod 27 but a packing 51 is provided at the entry end thereof and the other end of piston rod 27, not shown, is closed oif.

Valve rod 5% is provided with a longitudinal groove 52 similar to a keyway and groove 52 is tapered along its length, being deeper at its lower end as viewed in FIG. 4 than at its upper end, for purposes which will presently appear. An orifice 54 in the Wall of piston rod 27 establishes fluid flow from the space within cylinder 24 above the piston to the space within the cylinder below the piston by way of the orifice 54, the annular clearance between the piston rod 27 and valve rod 50, and thevariable restricted orifice through packing 51 by way of groove 52. 1

Reference will now be had to FIG; 5 which illustrates the valve unit 40 which controls communication between conduit 37 and the hydraulic fluid at the interior of reservoir 22. Valve unit 4t) comprises a generally vertical tubular body 66 which includes a central chamber 61 to which conduit 37 connects as at 62. Below the connection 62 the chamber 61 contains a valve seat 64 and a ball member 65 which seats thereon tofor-m a check valve which permits free upward flow into chamber 61 from the interior of reservoir 22 generally by way of a screen or filter 67 but prevents downward flow r'rom chamber as into the reservoir proper.

Upward fluid flow from chamber 61 is by way of a valve passage 7i) which is normally closed at its upper end by a ball check valve 71 which is adjustably urged toclosed position by a compression coil spring 72. A threaded spring seat member 73 permits adjustment of the pressure of spring 72 against ball check valve '71 and it will be noted that fluid is prevented from flowing into chamber 61 through valve passage 76} but fluid may flow from chamber 61 to the reservoir 22 through valve passage 76 only if there is suflicient fluid pressure within chamber 61 to overcome the resistance of coil spring 72.

The operation of the foregoing hydraulic control system will now be described and it may be noted preliminarily that a primary object of the arrangement thus far described is to insure that the outer end of cylinder 24, the upper end as viewed in FIG. 4, is filled with hydraulic fluid at the time when the piston reaches its innermost position, an extreme lower position as viewed in FIG. 4.

Unless special pressure arrangements are provided mere atmospheric pressure cannot be relied upon to move hydraulic fluid through restricted flow orifices with suflicient rapidity to insure filling of a rapidly expanding chamber. This phenomenon is known to those skilled in the hydraulic arts. The expanding chamber will pull a vacuum, that is, it will create a vacuous space or partial vacuum in the chamber owing to the inability of hydraulic fluid to flow thereinto through relatively restricted passages. or orifices within the limited time available for the purpose.

Accordingly, the piston may begin its return movement against a partial vacuum in a chamber only partially filled with liquid and the required hydraulic resistance to piston movement will not be present. This condition would be hazardous in a passenger carrying ride of the kind here in contemplation.

Since cylinders 24 pivot on their connections with the central structure It of the ride, the inner ends of the cylinders may at times be higher and at other times lower than the outer ends. Also, the inner end of cylinder 24 is shown lowermost in FIG. 4 and the outer end uppermost. Nevertheless, for convenience in describing the operation as related to raising and lowering carriers, we shall refer to contracting movements of the piston and cylinder assemblies as the upstroke of the pistons, the movements caused by ascending movements of the passenger carriers, and the expanding movements caused by descent of the passenger carriers as the downstroke.

On the upstroke of piston 43 oil passes through the passages 44 to the bottom of the cylinder, the valve 45 being but lightly biased to closed position. The top of the cylinder (the bottom as viewed in FIG. 4) contains a greater volume of oil per inch of length because of the presence of the piston rod 27 in the bottom of the cylinder (the top as viewed in FIG. 4). Therefore the differential oil which cannot be accommodated in the bottom of the cylinder must find some escape from the top of the cylinder on the upstroke.

Since check valve 65 seats against pressure from chamber 61 of the valve unit 40, the differential oil pressure from the upper end of the cylinder 24 acts against spring loaded check valve 71 but cannot unseat the same excepting by fluid pressure of the order of 70 pounds per square inch due to the pressure of coil spring 72. This resistance maintains a pressure in the upper end of cylinder 24 of 70 pounds per square inch during the upstroke of the piston 43.

This pressure forces hydraulic fluid rapidly and forcibly through the piston passages 44 and positively insures that the lower end of the cylinder is full of hydraulic fluid at the completion of the upstroke of the piston.

On the downstroke the piston valve 45 is closed and oil can escape from the lower part of the cylinder only through the restricted orifice 48 and through the further restricted path which includes flow through the groove 52 of the valve rod or metering rod 50, as previously described. The metering rod 50 in desirable since it readily affords a variable orifice which imposes an increasingly greater hydraulic resistance as the passenger carrier reaches the lower part of its descending movement.

However, this feature is not indispensible and may be eliminated, in which case all fluid egress on the downstroke would be by way of orifice 48. As a further alternative the structure comprising the hollow piston rod and the valve rod 50 may be eliminated and the interior wall of cylinder 22 say be provided with one or more longitudinal tapered grooves.

On the hydraulically restricted and relatively slow downstroke oil flows freely into the top of cylinder 24 under atmospheric pressure by flow of oil from reservoir 22 past the freely raisable check valve 65. It will be understood that there is a separate valve unit 40 in the reservoir 22 for each cylinder 24.

The modified form of the hydraulic control means illustrated in FIG. 3 will now be described. Speaking generally, the theoretical operation of this embodiment is quite similar to that of the embodiment of FIG. 2 excepting that, in place of the valve unit 40 and particularly the spring loaded check valve 71, a corresponding hydraulic pressure is maintained against the top of cylinder 22 on the upstroke by maintaining superatmospheric fluid pressure against the oil in the reservoir.

For more convenient understanding, parts in FIG. 3 corresponding to parts in FIG. 2 are identified by reference numerals 100 units higher. Thus the reservoir is designated 122, the cylinder 124, its upper and lower conduits 137 and 133, its pivotal connection 126, the piston rod 127 and the piston rod pivotal connection with the associated passenger carrier arm is designated 128.

In the embodiment of FIG. 3 the piston 124 and its piston rod and related structure may be identical in construction to that illustrated in detail in FIG. 4, including the conduit couplings 135 and 138. Also as in the preceding embodiment conduit 137 has free and open communication with cylinder 124 and conduit 133 has restricted orifice communication. In the present embodiment the conduits 133 and 137 have free and open communication with the interior of reservoir 122 below the level of hydraulic liquid therein, the latter being indicated at 130 in FIG. 3. Conduit 137 terminates within reservoir 122 in a strainer 190 and conduit 133 has a downward extension 191 within the reservoir.

In FIG. 3 the numeral 192 indicates a connection to the interior of reservoir 122 which may include a Schrader valve 193 for conveniently applying air pressure to the interior of the reservoir and a pressure gauge 194 may also be provided. The numeral 195 indicates a pressure limiting safety valve. To attain operation similar to that described in connection with the preceding embodiment an air pressure of the general order of 70 pounds per square inch may be maintained above the liquid in reservoir 122.

The operation of this embodiment is the same as de scribed in detail in connection with the preceding embodiment excepting that on the upstroke the oil is forcibly impelled through the piston passages by the air pressure maintained on the liquid in the reservoir 122 instead of by the pressure force generated by the resistance of the check valve 71. In a similar manner this insures that the lower portion of the cylinder will be completely filled with hydraulic liquid and will not develop a partial vacuum dur ing the rapid upstroke.

. On the downstroke the operation is substantially identical to that previously described. It is preferable to employ a chevron type packing between the lower end of the cylinder 124 and the piston rod 127 since such a packing is particularly effective to prevent leakage on the downstroke during which fairly high hydraulic pressure forces develop within the lower end of the cylinder. This is true of both embodiments. During the downstroke oil under pressure from the reservoir 122 will insure that the top of the cylinder is filled with oil through conduit 137.

Reference will now be had to the multiple valve piston structure illustrated in FIG. 6 and in this connection it is to be understood that the piston structure of FIG. 6 may be substituted in its entirety for the piston structure 43, 44, 45 of the embodiment of FIG. 4 in conjunction with both of the embodiments of the invention illustrated in FIGS. 2 and 3. Since the cylinder of the embodiment of FIG. 6 is identical with the cylinder 42 of the previous embodiments, the same reference numeral is employed herein to designate the same. The same is true of piston rod 27, galve rod 50, packing 51, valve rod groove 52 and orifice Referring now to the structure of the piston itself in V the embodiment of FIG. 6, a pair of interfitting piston components are designated by the numerals 150 and 151, each component including axial valve passages 153 and 154, respectively, which are normally closed by valves 156 and 157 which are resiliently urged to passage closing positions by compressing coil springs 158 and 159.

From the foregoing it will be noted that a preponderance of hydraulic fluid pressure at the left of the piston structure is viewed in FIG. 6, as when the piston structure is moving to the left, forces both of the valves 156 and 157 to become unseated to permit hydraulic fluid flow through the piston from left to right. When the pressure differential reverses, as when the piston structure begins its movement from left to right, the valves 156 and 157 will both normally immediately seat against the piston components 150 and 152, respectively, to close the valve passages 153 and 154. In the event that either of the I claim:

1. In an amusement ride of the roundabout type, a central rotatable support and a plurality of arms radiating therefrom, passenger carriers at the outer ends of said arms adapted to traverse a circular path upon rotation of said support, an inclined ramp along said path adapted to raise carriers successively as they traverse said path and project them into space therefrom, means acting between said central support and each of said arms comprising a hydraulic cylinder, a piston in each cylinder movable toward one end thereof upon upward movement of its associated arm and toward the other end thereof upon downward movement of said arm, a valved passage permitting free liquid flow from said one end of said cylinder to said other end but preventing retrograde flow, said central support including a liquid reservoir, a first conduit from said reservoir to said one end of each of said cylinders and a second conduit from said reservoir to said other end of each of said cylinders, means for maintaining a super-atmospheric pressure of the order of several atmospheres against said first conduits in the direction of said cylinders, said first conduits having free and unrestricted fluid communication with said one end of each of said cylinders, and a restricted orifice in each of said second conduits to retard liquid flow from said other ends of said cylinders to said reservoir.

2. In an amusement ride of the roundabout type, a cen tral rotatable support and a plurality of arms radiating therefrom, passenger carriers at the outer ends of said arms adapted to traverse a circular path upon rotation of said support, an inclined ramp along said path adapted to raise carriers successively as they traverse said path and project them into space therefrom, means acting between said central support and each of said arms comprising a hydraulic cylinder, a piston in each cylinder movable toward one end thereof upon upward movement of its associated arm and toward the other end thereof upon downward movement of said arm, valve means associated with said piston and permitting relatively free liquid flow therethrough from said one end of said cylinder to said other end but preventing flow in the opposite direction, said central support including a liquid reservoir, a first conduit from said reservoir to said one end of each of said cylinders and a second conduit from said reservoir to said other end of each of said cylinders, means for maintaining a super-atmospheric pressure of the order of several atmospheres against said first conduits in the direction of said cylinders, said first conduits having free and unrestricted fluid communication with said one end of each of said cylinders, and a restricted orifice in each of said second conduitstto retard liquid flow from said other ends of said cylinders to said reservoir.

therefrom, passenger carriers at the outer ends of said arms adapted to traverse a circular path upon rotation of said support, an inclined ramp along said path adapted to raise carriers successively as they traverse said path and project them into space therefrom, means acting between said central support and each of said arms comprising a hydraulic cylinder, a piston in each cylinder movable toward one end thereof tupon upward movement of its associated arm and toward the other end thereof upon downward movement of said arm, valve means associated with said piston and permitting relatively free liquid flow therethrough from said one end of said cylinder to said other end but preventing flow in the opposite direction, said central support including a liquid reservoir,

3. In an amusement ride of the roundabout type, a

centralrotatable support and a plurality of arms radiating therefrom, passenger carriers at the outer end of said arms adapted to traverse a circular path upon rotation of said support, an inclined ramp along said path adapted to raise carriers successively as they traversesaid path and'project them into space therefrom, means acting between said central support and each of said arms comprising a hydraulic cylinder, a piston in each cylinder movable toward one end thereof upon upward movement of its associated arm and toward the other end thereof upon downward movement of said arm, a valved passage permitting free liquid flow from said one end of said cylinder to said other end but preventing retrograde flow, said central support including a liquid reservoir, a first conduit from said reservoir to said one end of each of said cylinders and a second conduit from said reservoir to said other end of each of said cylinders, and means for maintaining a super-atmospheric pressure of the order of several atmospheres against said first conduits in the direction of said cylinders.

4. In an amusement ride of the roundabout type, a

central rotatable support and a plurality of arms radiating a first conduit from said reservoir to said one end of each of said cylinders and a second conduit from said reservoir to said other end of each of said cylinders, and means for maintaining a super-atmospheric pressure of the order of several atmospheres against said first conduits in the direction. of said cylinders.

5. In an amusement ride of the roundabout type, a central rotatable support and a plurality of arms radiating therefrom, passenger carriers at the outer ends of said arms adapted to traverse a circular path upon rotation of said support, an inclined ramp along said path adapted to raise carriers successively as they traverse said path and project them into space therefrom, means acting between said central support and each of said arms comprising a hydraulic cylinder, a piston in each cylinder movable toward one end thereof upon upward movement of its associated arm and toward the other end thereof upon downward movement of said arm, valve means associated with said piston and permitting relatively free liquid flow therethrough from said one end of saidtcylinder to said other end but preventing flow in the opposite direction, said central support including a liquid reservoir, a first conduit from said reservoir to said other end of each of said cylinders a-nda second conduit from said reservoir to said other end of each of said cylinders, means for applying air pressure to the interior of said reservoir for maintaining a super-atmospheric pressure of the order of several atmospheres against the hydraulic medium therein, said first conduits having free and unrestricted fluid communication with said one end of each of said cylinders, and a restricted orifice in each of said second conduits to retard liquid flow from said other ends of said cylinders to said reservoir. 7

6. In an amusement ride of the roundabout type, a central rotatable support and a plurality of arms radiating therefrom, passenger carriers at the outer ends of said arms adapted to traverse a circular path upon rotation of said support, an inclined ramp along said path adapted to raise carriers successively as they traverse said path and project them into space therefrom, means acting between said central support and each of said arms comprising a hydraulic cylinder, a piston in each cylinder movable toward one end thereof upon upward movement of its associated arm and toward the other end thereof upon downward movement of said arm, a valved passage permitting free liquid flow from said one end of said cylinder to said other end but preventing retrograde flow, said central support including a liquid reservoir, a first conduit from said reservoir to said one end of each of said cylinders and a second conduit from said reservoir to said other end of each of said cylinders, and means for applying air pressure to the interior of said reservoir for maintaining a super-atmospheric pressure of the order of several atmospheres against the hydraulic medium therein.

7. In an amusement ride of the roundabout type, a central rotatable support and a plurality of arms radiating therefrom, passenger carriers at the outer ends of said arms adapted to traverse a circular path upon rotation of said support, an inclined ramp along said path adapted to raise carriers successively as they traverse said path and project them into space therefrom, means acting 9 l between said central support and each of said armscomprising a hydraulic cylinder, a piston in each cylinder movable toward one end thereof upon upward movement of its associated arm and toward the other end thereof upon downward movement of said arm, valve means associated with said piston and permitting relatively free liquid flow therethrough from said one end of said cylinder to said other end but preventing flow in the opposite direction, said central support including a liquid reservoir, a first conduit from said reservoir to said one end of each of said cylinders and a second conduit from said reservoir to said other end of each of said cylinders, and means for applying air pressure to the interior of said reservoir for maintaining a super-atmospheric pressure of the order of several atmospheres against the hydraulic medium therein.

8. In an amusement ride, a rotatable support and an arm radiating therefrom, a passenger carrier at the outer end of said arm adapted to traverse a circular path upon rotation of said support, means adpted to raise the carrier as it traverses said path and release it in a raised position, means acting between said support and said arm comprising a hydraulic cylinder, a piston in said cylinder movable toward one end thereof upon upward movement of said arm and toward the other end thereof upon downward movement of said arm, a valved passage permitting free liquid flow from said one end of said cylinder to said other end but preventing retrograde flow, a liquid reservoir, a first conduit from said reservoir to said one end of said cylinder and a second conduit from said res-' ervoir to said other end of said cylinder, means for maintaining super-atmospheric pressure of the order of several atmospheres against said first conduit in the direction of said cylinderQsaid first conduit having free and unrestricted fluid communication with said one end of said cylinder, and a restricted orifice in said second conduit to retard liquid flow from said other end of said cylinder to said reservoir.

9. In an amusement ride, a rotatable support and an arm radiating therefrom, a passenger carrier at the outer end of said arm adapted to traverse a circular path upon rotation of said support, means adapted to raise the carrier as it traverses said path and release it in a raised position, means acting between said support and said arm comprising a hydraulic cylinder, a piston in said cylinder movable toward one end thereof upon upward movement of said arm and toward the other end thereof upon downward movement of said arm, a valved passage permitting free liquid flow from said one end of said cylinder to said other end but preventing retrograde flow, a liquid reservoir, a first conduit from said reservoir to said one end of said cylinder and a second conduit from said reservoir to said other end of said cylinder, and means for applying air pressure to said reservoir for maintaining super-atmospheric pressure of the order of several atmospheres against the hydraulic medium therein.

References Cited by the Examiner UNITED STATES PATENTS 2,895,735 7/59 Bartlett 27236 X RICHARD c- INK M Pri v E am r:

Claims (1)

1. 9. IN AN AMUSEMENT RIDE, A ROTATABLE SUPPORT AND AN ARM RADIATING THEREFROM, A PASSENGER CARRIER AT THE OUTER END OF SAID ARM ADAPTED TO TRAVERSE A CIRCULAR PATH UPON ROTATION OF SAID SUPPORT, MEANS ADAPTED TO RAISE THE CARRIER AS IT TRAVERSES SAID PATH AND RELEASE IT IN A RAISED POSITION, MEANS ACTING BETWEEN SAID SUPPORT AND SAID ARM COMPRISING A HYDRAULIC CYLINDER, A PISTON IN SAID CYLINDER MOVABLE TOWARD ONE END THEREOF UPON UPWARD MOVEMENT OF SAID ARM AND TOWARD THE OTHER END THEREOF UPON DOWNWARD MOVEMENT OF SAID ARM, A VALVED PASSAGE

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