Ferris wheel

Information

  • Patent Grant
  • 6634952
  • Patent Number
    6,634,952
  • Date Filed
    Tuesday, February 26, 2002
    22 years ago
  • Date Issued
    Tuesday, October 21, 2003
    21 years ago
Abstract
A ferris wheel has a base, a supporting structure, which includes two pairs of masts erected on the base, and at their top end bear a head and a wheel that is rotatably supported on the head. The masts can be folded down on the base. At least one mast of each pair of masts is articulated, in such a way that in the erected state of the supporting structure the articulations of a mast are aligned in each case, and in the folded-down state of the supporting structure the articulations of a mast are in each case rotated relative to each other out of the aligned state.
Description




The invention relates to a Ferris wheel, comprising base means, a supporting structure consisting of two pairs of nets, which are erected on the base means and at their top end bear a head, and also a wheel that is rotatably supported on the head, which masts can be folded down on the base means.




Such a Ferris wheel is known from EP-A-389008. One mast of each pair of masts is hingedly connected to the top side of a container. The other mast of each pair is movably supported on the container. This means that the masts can be folded down into the container. The components of the Ferris wheel can then be transported in the containers.




The disadvantage of this Ferris wheel is that its height is limited by the dimensions of the container, Since the masts have to fit into the container, they cannot be selected in a length that is greater than the internal length measurement of the container.




The object of the invention is to disclose a Ferris wheel of the abovementioned type which does not have this limitation. That object is achieved by the fact that at least one mast of each pair of masts is articulated, in such a way that in the erected state of the supporting structure the articulations of a mast are aligned in each case, and in the folded-down state of the supporting structure the articulations of a mast are in each case rotated relative to each other out of the aligned state about axes of rotation that are essentially parallel to the axis of rotation about which the wheel is rotatably supported on the head.




The articulated design of the supporting structure makes it possible to use relatively long masts, which can still be folded down to relatively small dimensions. This makes it possible to use a fairly tall Ferris wheel, which is still transportable, in view of the limited dimensions when it is folded down.




According to a special embodiment, one mast of each pair of masts can have a mast part that is rotatably connected to the base means, and the other mast can have a mast part that is immovably connected to the base means. The mast part that is rotatably connected to the base means is approximately the same length as the other mast part belonging to the same mast, while the mast part that is immovably connected to the base means is shorter in length than the other mast part belonging to the same mast.




Furthermore, the head from which the wheel is rotatably suspended can be rigidly connected to one of the masts. The head in this case is hingedly connected to the other mast.




For purposes of the transportability of the Ferris wheel, each pair of masts is accommodated on its own separate base. In particular, each pair of masts can be accommodated on its own separate mobile undercarriage such as a trailer.




In that case the head comprises two head halves which are detachably connected to each other, each head half being connected to a pair of masts. For the assembly of the Ferris wheel, the trailers are disposed side by side parallel to each other and stabilized in the correct way. The head halves can then be connected to each other, after which the masts can be erected, which means that the supporting structure is ready, and the wheel can be suspended from it.











The invention will be explained in greater detail below with reference to an exemplary embodiment of a Ferris wheel according to the invention illustrated in the figures.





FIG. 1

shows a top view of two trailers, each with a pair of masts in the folded-down state.





FIG. 2

shows a side view of one of the trailers with the masts in the folded-down state.





FIGS. 3 and 4

show two stages in the upward movement of the masts.





FIG. 5

shows a side view of the supporting structure with masts fully raised.





FIG. 6

shows a front view of the supporting structure with the corresponding two trailers.





FIG. 7

shows the stage of fitting a spoke on the supporting structure.





FIGS. 8 and 9

show the attachment of a spoke to the supporting structure.





FIG. 10

shows the stage of fitting a second spoke with ring iron.





FIGS. 11



a


to


11




e


show the steps of attaching a spoke to the ring irons.





FIG. 12

shows a side view of a trailer according to

FIG. 1

with folded-in arm and gondolas.





FIG. 13

shows a detail of the head.





FIG. 14

shows the completed Ferris wheel.











The completed Ferris wheel shown in

FIG. 14

comprises a base


1


, which has on it a supporting structure


2


composed of two pairs of masts


4


,


5


, one pair of which is visible. These masts bear on their top end a head


6


, on which the wheel, indicated in its entirety by


7


, is rotatably supported.




The wheel comprises a number of spokes


8


, which at their outermost ends are each connected by ring irons


9


, from which the gondolas


10


are suspended.




Each pair of masts


4


,


5


consists of two articulated parts


11


,


12


and


13


,


14


respectively, the raising of which will be explained below with reference to FIG.


1


and the following figures.





FIG. 1

shows a top view of the base means


1


, which base means


1


, are composed of two trailers


15


,


16


. In the example of

FIG. 1

a pair of masts


4


,


5


is shown in the folded-up position on each of these trailers, as can also be seen clearly in FIG.


2


. Furthermore, the spokes


8


are accommodated on the one trailer


15


, while the gondolas


10


are accommodated on the other trailer


16


.




Trailer


16


is illustrated in

FIG. 2

, but for the sake of clarity the gondolas


10


are not shown. The mast parts


11


,


12


of the one mast


4


are folded down about the hinges


17


,


18


and


19


. The hinge


17


forms the connection between the bottom mast part and the trailer


16


, the hinge


18


forms the connection between the two mast parts


11


,


12


, and the hinge


19


forms the connection between the head


6


and the mast part


13


of the other mast


5


. The head


6


is therefore rigidly connected to the top mast part


11


of the mast


4


. In turn, the mast part


13


of mast


5


is connected by way of a hinge


21


to the bottom mast part


14


thereof, which bottom mast part


14


is in turn rigidly connected to the trailer


16


. If desired, this bottom mast part


14


can also be dispensed with or replaced by a raised construction of the trailer


16


.




Before the masts


4


,


5


are raised, the head


6


is assembled by connecting the two head parts


20


of the pairs of masts to each other. As shown in

FIG. 1

, these head parts


20


are initially folded outwards, As likewise shown by the dashed-line mid-positions in

FIG. 1

, these head parts


20


are subsequently swung inwards about their hinges


22


and are then attached to each other at their ends facing each other and locked, as will also be explained below with reference to

FIGS. 8

,


9


and


13


.




The head parts are hingedly fixed to a cap


43


, consisting of flanges


41


and a cross bulkhead


42


. The cap


43


is in turn rotatably connected by means of hinge


19


to mast part


17


of mast


5


.




The two pairs of masts


4


,


5


are then raised, as shown in

FIGS. 3 and 4

, until they are in the fully extended position shown in

FIGS. 5 and 6

, in which the supporting structure


2


is ready,




The spokes are then suspended from the head


6


. Each spoke


8


comprises two bars


23


,


24


, which are connected to each other by a framework of slanting bars


25


and transverse bars


26


. On their racially innermost end the bars


23


,


24


have eyes


27


, which are hooked behind the shaft ends


28


of the head


6


(see FIGS.


8


and


9


). The eyes


27


are then locked on the shaft ends


28


by a locking means


29


, for example a pin that is inserted into a corresponding hole in the shaft end


28


.




As shown in

FIG. 10

, a second spoke


8


can then be suspended from the head, after which a ring iron


9


is fitted between the two spokes


8


. As shown in

FIGS. 11



a


to


11




e


, each bar


23


,


24


has an eye


30


for this purpose, said eye being slid along a corresponding shaft end


31


to the end of a corresponding ring iron


9


(see

FIGS. 11



b


and


11




c


). The ring irons


9


have on their other end a hole


32


, into which said shaft end


31


can subsequently be inserted. As shown in

FIG. 11



d


, the eye


30


in this case is securely retained between the two adjacent ring irons


9


. In order to lock this connection, a locking pin is subsequently inserted through the holes


34


of the last ring iron, and the holes


35


in the shaft end


31


of the other ring iron, after which the locked position shown in

FIG. 11



e


is obtained.




In this way all spokes


8


and ring irons can be assembled to form the wheel


7


, as shown in FIG.


14


. Finally, the gondolas can be suspended from the wheel


7


formed in this way.




As shown in

FIG. 12

, the entire Ferris wheel can be transported efficiently on two trailers


15


,


16


. The gondolas


10


are stacked next to and on top of each other beside the folded-down masts on the trailer


16


; as can be seen in

FIG. 1

, the spokes


8


are stacked on the other trailer


15


.




In the detail of

FIG. 13

, it can be seen that the head parts


20


in their position folded towards each other about hinge


22


can be locked by means of the lock


36


. It can also be seen in

FIG. 13

that the shaft ends


28


are accommodated on a ring


37


, which in turn is supported by means of a bearing


38


on the drum


39


of the head part


20


. As can also be seen in

FIGS. 8 and 9

, these drums


39


are securely fastened to each other by means of a flange connection


40


.



Claims
  • 1. In a ferris wheel comprising base means (1), a supporting structure (2) consisting of two pairs of masts (4, 5), which are erected on the base means (1) and at their top end bear a head (6), and also a wheel (7) that is rotatably supported on the head (6), wherein said two pairs of masts (4, 5) can be folded down on the base means (1); the improvement wherein at least one mast of each pair of masts (4, 5) is articulated, in such a way that in the erected state of the supporting structure (2) the articulations (11-14) of each of said masts (4, 5) are aligned and in the folded-down state of the supporting structure the articulations of each of said masts (4, 5) are both rotated relative to the base means out of the aligned state.
  • 2. Ferris wheel according to claim 1, wherein the articulations of at least one of said masts comprise axes of rotation that are essentially parallel to the axis of rotation about which the wheel (7) is rotatably supported on the head (6).
  • 3. Ferris wheel according to claim 1, in which each of said masts (4, 5) comprises two articulated mast parts (11-14).
  • 4. Ferris wheel according to claim 1, in which one mast of each pair of masts (4, 5) has a mast part (11) that is rotatably connected to the base means (1), and the other mast (5) has a mast part (14) that is immovably connected to the base means (1).
  • 5. Ferris wheel according to claim 1, in which each pair of masts (4, 5) is accommodated on its own separate base (15, 16).
  • 6. Ferris wheel according to claim 5, in which the head (6) comprises two head halves (20), and each head half (20) is connected to a pair of said masts (4, 5), said head halves (20) being detachably connected to each other.
  • 7. Ferris wheel according to claim 6, in which the head halves (20) can be swung about an axis (22) which extends crosswise to the axis of rotation of the wheel (7).
  • 8. Ferris wheel according to claim 7, in which each head half (20) is hingedly fixed to a cap (43), which cap (43) is rotatably fixed to one of the masts (4, 5).
  • 9. Ferris wheel according to claim 1, in which each pair of masts (4, 5) is accommodated on its own separate mobile undercarriage such (15, 16).
  • 10. In a ferris wheel comprising a base and masts articulately connected to the base for movement between a lowered position and a raised position, said masts in said raised position comprising two sides of a triangle of which the base comprises a third side, the masts carrying a head and a wheel that is rotatably supported on the head at an apex of said triangle when said masts are in said raised position; the improvement wherein at least one of said masts is comprised by a plurality of sections that are articulately interconnected with each other and with said base and which lie one on top of the other in said lowered position.
US Referenced Citations (5)
Number Name Date Kind
2590934 Catlett Apr 1952 A
2847216 Courtney Aug 1958 A
3456943 Brown Jul 1969 A
4988089 Knijpstra Jan 1991 A
5688178 Emrie Nov 1997 A