The present invention relates to the field of rollercoaster amusement devices which comprise an endless guide structure with multiple curves and a station along said guide structure allowing passengers to board and/or to disembark the rollercoaster amusement device. The device further includes one or more carriages that are displaceable along said guide structure. A passenger assembly is associated with such a carriage, the passenger assembly being adapted to accommodate at least one passenger.
Nowadays several rollercoasters are in operation wherein the passengers are accommodated and restrained in a “racing position” during the ride. In said racing position the passengers head is directed forward and the passenger's trunk is resting with its chest side on top of a chest support. A back restraining member restrains motion of the passenger away from the chest support, whereas a leg restraining device holds each leg such that the upper leg is angled downward with respect to the trunk and the lower leg is angled rearward with respect to the upper leg.
In WO2004/073818 (Vekoma) an example of a rollercoaster with passengers in racing position is shown. This rollercoaster, known as the Vekoma Motorbike Coaster, is nowadays operational in the Toverland amusement park located in Sevenum, Limburg, 5975 MS Netherlands.
Vekoma also has manufactured rollercoasters according to the design of WO99/22830, wherein the passengers board the rollercoaster in a normal seated position, are restrained while in said seated position, and are then brought into a flying position, suspended below the guide structure. The position of the passengers during the ride corresponds to the racing position as defined in claim 1 of this application.
Also Bolliger & Mabillard have designed a suspended rollercoaster wherein the passengers are accommodated in a racing position. This rollercoaster is known as the Bolliger & Mabillard Flying Coaster and is e.g. in operation now as the Superman—Ultimate Flight coaster in the Six Flags Great America Park located in Gurnee, Ill. 60031 USA.
A problem associated with the racing position lies in the area of restraining of the legs of the passenger in the racing position.
In WO2004/073818 the leg restraining device includes foot rest as well as a slidable member having on each side thereof an upper leg retention member. Upon boarding the passenger sits down on the saddle, places his feet in the foot rests and then slides the slidable member towards him, thereby engaging the upper leg retention members with the upper legs. The back restraining members is also actuated by sliding said slidable member, thereby holding the trunk on the chest support.
In practice this WO 2004/073818 leg straining device allows accommodation and restraining of passengers having a minimum height of 1.40 metres. This excludes young children for taking this rollercoaster.
In WO 99/22830 it is disclosed that the passenger's legs are restrained by a knee securing part, which comes to lie against the front of the passenger's knees while the front end of the seat cushion is present at the back of the passenger's knees. The knee securing part is hinged at its lower end about a pivot which is mounted on a platform below the passenger's feet. Upon boarding the seat is in a normal position (as a chair), so that the passenger can sit down and then the knee securing part is brought into its restraining position. The carrier and guide structure are designed such that upon departure from the boarding station the position of the seat with the passenger is changed such that the passenger becomes suspended below the guide structure in a racing position. In order to effect the change of position quite complex technical measures are required. This leads to substantial costs in view of purchasing and operation of the rollercoaster.
The Bolliger & Mabillard coaster is construed with a tilting passenger assembly with a seat for each passenger. In a vertical boarding/disembarking position of the passenger assembly the passenger can sit down on the seat, which has a backrest and a seat cushion member. The backrest and the seat cushion of the seat are supported by a frame member which has at the side of the front edge of the seat cushion an extension, which is situated between the legs of the seated passenger. This extension is provided with lower leg retention members that are each adapted to extend behind the lower leg. The extension is also provided with pivotal flaps which are pivotal between an access position and a restraining position wherein the lower legs are each encircled by the combination of the lower leg member and the pivotal flap. This arrangement is disclosed in detail in EP 1 215 091.
Just as the WO 99/22830 a drawback of this B&M roller coaster is that the change of position of the passenger between the seated position upon boarding and the suspended position during the ride requires quite complex technical measures. In addition the restraining of the legs is unsuitable for small children, as they can wiggle their legs from the leg restraining devices.
The first aspect of the invention aims to provide an improved rollercoaster amusement device, in particular with regard to the structure of the device and the restraining of the legs in the racing position.
The first aspect of the invention achieves this object by providing a rollercoaster amusement device according to claim 1.
In this device the passenger will place his legs with bent knees in the leg retention members and then the knee restraining member is moved so as to restrain the legs, preventing the passenger from freeing his legs from said configuration. This provides safety for the passengers of the rollercoaster. Also it has been found that this solution—when suitably dimensioned—allows to accept smaller children, e.g. of a minimum height of 1.20 metres, as passengers in the rollercoaster.
The knee restraining member is operated by an associated drive (e.g. an electronic drive, a pneumatic drive, a mechanical transmission, etc).
As the passenger enters the passenger assembly with their leg bend, basically in a kneeling fashion, the device requires no change of position of the passenger as described with referral to the WO 99/22830 and EP 1 215 091 designs. This allows a quite simple and cost efficient design of the passenger assembly.
According to the invention, at least one of the lower leg retention members may be arranged substantially stationary on the frame.
It can be envisaged to have some mobility of the leg retention members, e.g. tiltable and/or spring mounted to accommodate for different diameter legs, especially thighs, of the passengers.
According to a preferred embodiment, at least one lower leg retention member is connected pivotable about a pivot axis to the frame. This pivot axis is provided intermediate each lower leg retention member, dividing the lower leg retention members in an upper portion and a lower portion, and the connection of the pivot axis to the frame is arranged below and behind the position of the knee in the racing position.
This arrangement of lower leg retention member and pivot axis is such that the passenger upon boarding places the upper leg against the upper leg retention member, engages with the lower leg retention members, preferably with the upper portion thereof, and should bend his legs at the knee and pivot the pivotable lower leg retention member to the racing position. This occurs automatically upon boarding: the only way the passenger fits in the passenger assembly is by bending his knee, which when the upper leg is placed against the upper leg retention member results in a pivoting movement of the lower leg, which inevitably pivots the lower leg retention member. As such, when the passenger has boarded, the assembly is in the racing position, including the lower leg retention member. Hence, the device requires no change of position of the passenger after having boarded the passenger assembly. Either one, or both lower leg retention members may be provided pivotable. It is conceivable to provide one substantially stationary lower leg retention member and one pivotable lower leg retention member.
Preferably, the lower leg retention members are at least pivotable between a substantially vertical position and a pivoted position, which pivoted position corresponds to the racing position in which the lower leg, restrained in the lower leg retention member, is angled rearward with respect to the upper leg.
In a preferred embodiment, the lower leg retention members comprise at least two padded portions between which at least one step is provided, which step is accessible in a substantially vertical access position. Preferably, the step is provided near the pivot axis. A step is beneficial for small passengers, who cannot reach the saddle without help: either by being lifted up, or by using an additional step, which may for example be the substantially stationary lower leg retention member. It is more beneficial, in particular for the lifetime of the lower leg retention member, to provide a step for the smaller passengers. Providing this step in the pivotable lower leg retention members is a very elegant solution, as no additional components are required. It is conceivable to provide a single pivotable lower leg retention member only at the entry side of the passenger assembly, and a stationary lower leg retention member at the other side.
In an even more preferred embodiment, a spring is provided to position the lower leg retention members in the substantially vertical access position. This is beneficial as when the passengers arrive at the rollercoaster amusement device, they will recognise the additional step immediately, without having to tilt the lower leg retention members. Passengers have to overcome this spring force upon pivoting the lower leg retention member during boarding. Another benefit is that the pivotable lower leg retention member cannot pivot away from the passenger's lower leg, which may occur when small passengers only engage with the upper portion of the lower leg retention member. It is also conceivable, in particular for these small passengers, to provide a locking mechanism at the pivotable lower leg retention member or at the frame to fixate the position of the lower leg retention member after the passengers have boarded the passenger assembly.
Further advantageous embodiments are described in the subclaims.
A second aspect of the present invention relates to a rollercoaster amusement device according to the preamble of claim 20.
WO 2004/073818 discloses a rollercoaster with carriages that each accommodate two passengers in a side-by-side arrangement, wherein each passenger is in a racing position during the ride.
The second aspect of the present invention aims to provide an enhance sense of excitement for the passengers, albeit with a rather uncomplicated construction of the rollercoaster amusement device. As outlined above Bollinger & Mabillard do market a suspended flying coaster, however with a complicated and expensive construction.
The second aspect of the present invention provides for a rollercoaster amusement device according to claim 20. The suspended portion of the passenger assembly is of simple structural design, which allows to market the rollercoaster as a more economical “family coaster” compared to generally costly “thrill rides”.
Preferably the suspended portion can swing in pendulum fashion, unlike the previously mentioned B&M coaster, to increase the excitement for the passengers.
Further preferred constructional features are mentioned in the subclaims.
The skilled person will appreciate that both aspects of the invention can be used separately or in combination.
The aspects of the invention will now be described in more detail referring to the appended drawings. In the drawings:
Referring to the
A train of carriages 10 is provided which are displaceable along said guide structure 1a, b. Here each carriage 10 has two wheel sets 11 with wheels, each wheel of the set engaging a rail 1b. Each carriage 10 has a longitudinal member 10a extending rearwards along the guide structure 1a, b and having a coupling for coupling to another such carriage 10 as is known in the art.
Associated with each carriage 10 is a passenger assembly 15, here for two passengers in a side-by-side arrangement. Each passenger assembly 15 is adapted to provide for the passengers a ride in a racing position.
A boarding station (of which only a floor 5a is shown in the figures) is provided along the guide structure 1a, b. This station could solely serve the purpose of boarding of the passengers while another, disembarking station serves for disembarking of the passengers. As is known in the art, a single station could be configured to serve both purposes.
Each passenger assembly 15 includes a frame that is connected to the carriage. In this example, as is preferred, it is envisaged that the frame has a suspension arm 15a which is suspended from the carriage 11. The frame further has a lateral spreader beams 15b mounted on said suspension arm 15a and each extending laterally from said suspension arm 15a in opposite directions, each lateral spreader beam 15b supporting a central frame structure 15c.
The suspension arm 15a is suspended from the carriage 11 by means of a pivot 16, said pivot 16 having a pivot axis essentially in longitudinal direction of the guide structure 1a,b, such that the passenger assembly 15 will swing in pendulum fashion as the carriage 11 passes through a curve of the guide structure 1a,b.
As can be seen in the figures for each passenger position the frame has a central frame structure 15c. On the topside of this central frame structure a chest support 20 is mounted in a stationary position, such that the passenger can rest the front of his trunk on the chest support 20. In this example the chest support is U-shaped so as to have side flaps 20a at opposite sides of the trunk.
Rearward of the chest support 20 the central frame structure is provided with a saddle 21, as a motorbike, upon which the passenger can be seated.
In front of the chest support 20 the central frame structure 15a is provided with a handlebar assembly 17, which the passenger can grip with both hands. Here the handlebar assembly 17 also allows the passenger to rest his underarms on top of the handlebar assembly.
As can be seen, and is preferred, the passenger has clear sight both in downward, forward and side directions during the ride. No headrest is provided here, as is preferred, to allow for maximum freedom of the head.
A back restraining member 22 is provided to restrain motion of the passenger away from the chest support 20. Here, as is preferred, each back restraining member 22 is mounted mobile on the suspension arm 15a, so as to be movable (here pivotable) between an access position allowing the passenger, at the boarding station, to place his chest on the chest support 20 (see
Freedom of the head is enhanced by the design of back restraining member 22, which is adapted to engage on the back of the passenger so as to leave the shoulder portion of the passenger free, thus allowing the passenger to move, e.g. raise its shoulder portion and head.
For such rollercoaster it is consider relevant to securely restrain each leg of the passenger, so that during the ride the passenger will not be able to extend his leg in a dangerous manner, e.g. sideways.
In the design shown here a leg restraining device is provided for each leg of the passenger. Each device here includes an upper leg retention member 31 and lower leg retention member 32 which are arranged stationary on a side the central frame structure 15c. So the central frame structure 15c here has a portion which extends between the legs of the passenger.
These members 31, 32 are arranged such that when the passenger is accommodated with its chest against the chest support 20, each leg is oriented such that the upper leg is angled downward with respect to the trunk and the leg is bend at the knee so that the lower leg is angled rearward with respect to the upper leg.
As can be inferred from the figures, in particular
Each leg restraining device further includes a mobile knee restraining member 35 and an associated knee restraining member drive (not shown) for driving the knee restraining member 35.
This knee restraining member 35 is mobile between an access position—allowing the passenger, at the boarding station, to place his upper and lower legs against the upper and lower leg retention members—(see
In this example, as is preferred, the knee restraining member 35 is pivoted on the central frame structure 15c, here at a position behind the saddle 21.
As can be seen, and as is preferred, the upper and lower leg retention members 31, 32 leave open a space between them in which the knee of the passenger is accommodated. This is comfortable for the passenger.
Also it can be observed, as is preferred, that the upper and lower leg retention members 31, 32 each are L-shaped having an inner end connected to a central frame structure 15c of the passenger assembly, and each having a front section adapted to extend across the front of the respective leg part and each having an outer side section adapted to extend along the side of the respective leg part.
Here, as is preferred, the knee restraining member 35 is L-shaped having an inner end connected pivotally to the central frame structure 15c, and having a transverse section adapted to extend in transverse direction along the backside of the knee, and having an outer side section adapted to extend along the outside of the knee.
As can be observed, and is preferred, the outer side sections of the retention members 31,32 and of the knee retention member 35 meet to form to substantially closed circles around both the upper leg and the lower leg.
As can be seen the feet of the passenger are unrestrained here as is preferred.
In this example the suspension arm 15a, lateral spreader beams 15b and central frame structures 15c form a rigid constructional member which allows for an attractive cost price of the passenger assembly.
Here the trunk of the passenger is slightly upward inclined in the racing position, when considered with respect to the longitudinal axis of the guide structure 1a, b. In general for a rollercoaster of the type described here the chest support will be arranged in an orientation which lies between a position parallel to the guide structure and an upward inclined position of at most 40 degrees.
As is preferred—in the racing position—the upper leg is held in an orientation substantially at right angles to the guide structure between 20 degrees forward and rearward with respect to the normal to the guide structure.
As is also preferred—in the racing position—the lower leg is held in an orientation substantially parallel to the guide structure between 20 degrees upward and downward with respect to the guide structure.
As indicated in the introductory part the carriages and passenger assemblies could also be configured to be riding on top of the guide structure, e.g. similar to the WO 2004/073818 design, however with the inventive leg restraining devices. In this design each motorbike includes a central frame structure fastened on top of a carriage. Two of such motorbikes can be arranged side-by-side on a single carriage to obtain the experience that the passengers are racing against one another.
Referring to
The passenger assembly 115 is suitable to be connected to a carriage 110 as shown in
A train of carriages 110 may be provided which are displaceable along said guide structure 101a, 101b. The shown carriage 110 has two wheel sets 111, comprising wheels 11a, 111b and 111c engaging a rail 101b on opposite sides of the track. Each carriage 110 has a longitudinal member 110a extending rearwards along the guide structure 101a, 101b and having a coupling for coupling to another such carriage 110.
The shown passenger assembly 115 is suitable of one passenger, but may alternatively be designed for two passengers in a side-by-side arrangement. The passenger assembly 115 is adapted to provide for the passengers a ride in a racing position, in this embodiment to experience a flying sensation.
It is also within the scope of the invention to configure a passenger assembly 115 to be riding on top of a guide structure to experience a road racing sensation.
The passenger assembly 115 includes a frame. In the embodiment shown in
On the topside of the central frame structure a chest support 120 is mounted in a stationary position, such that the passenger can rest the front of this trunk on the chest support 120. In this example the chest support 120 is U-shaped so as to have side flaps 120a at opposite sides of the trunk. Further, in the shown embodiment of a chest support 120, upper leg retention members 131 are formed integral with the chest support 120. The two upper leg retention members 131 are arranged on two sides of the central frame structure 115b. Thus, the upper leg retention members 131 are arranged stationary together with the chest support 120, while in the shown embodiment a portion of the central frame structure 115b extends between the legs of the passenger.
Rearward of the chest support 120 the central frame structure 115b is provided with a saddle 121, upon which the passenger can be seated. In the shown embodiment, the saddle 121 is mounted movable on the central frame structure 115b. The saddle 121 is movable between a more rearward position, shown in
The shown saddle 121 comprises an elevated portion 121a, against which a portion of the stomach of a passenger rests. As such, the saddle 121 also gives some trunk support.
Behind the saddle 121a back restraining member 122 is provided to restrain motion of the passenger away from the chest support 120. In the shown embodiment, the back restraining member 122 is mounted pivotable on central frame structure 115b via a pivot 122c. The back restraining member is pivotable between an access position shown in
Back restraining member 122 comprises a padded portion 122a which engages with the back of the passenger, which is preferably connected pivotably to a back restraining member frame portion 122b to allow optimum support against the back of any type of passenger.
In front of the chest support 120 a handlebar assembly 117 is provided, which is pivotable with respect to the central frame structure 115b. The passenger can grip the handlebar assembly 117 with both hands, and allows the passenger to rest his underarms on top of the handlebar assembly 117. The shown handlebar assembly 117 is pivotable about a pivot axis (117a) between an access position shown in
Preferably, the handlebar assembly 117 actuates the back restraining member 122, e.g. via a mechanical transmission. In the shown embodiment, upon pivoting the handlebar assembly 117 towards the passenger when gripping the handlebar assembly 117, the back restraining member 122 is also allowed to pivot from the access position shown in
In the design shown in
The connection of the pivot axis 132a to the frame 115b is arranged below and behind the position of the knee in the racing position, such that the passenger upon boarding places the upper leg against the upper leg retention member 131, engages with the lower leg retention members 132 and should bend his legs at the knee and pivot the pivotable lower leg retention members 132 to the racing position. This arrangement of the lower leg retention members is such that when the passenger is accommodated with its chest against the chest support 120, each leg is oriented such that the upper leg is angled downward with respect to the trunk and the leg is bent at ht knee so that the lower leg is angles rearward with respect to the upper leg.
Each leg restraining device further includes a mobile knee restraining member 135 which is pivotable about pivot axis 135a between an access position shown in
Number | Date | Country | Kind |
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2007/000200 | Aug 2007 | NL | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/NL08/00192 | 8/18/2008 | WO | 00 | 10/8/2010 |