US20100068967A1

US20100068967A1 - Apparatus comprising three dimensional shapes rotatably supported in one another

Info

Publication number: US20100068967A1
Application number: US12/312,956
Authority: US
Inventors: Shaun Hume
Original assignee: Fillaball Holdings Ltd
Current assignee: Fillaball Holdings Ltd
Priority date: 2006-12-15
Filing date: 2007-12-12
Publication date: 2010-03-18
Also published as: GB0625075D0; ATE498440T1; DE602007012586D1; EP2104540B1; WO2008071963A3; CN101534911A; EP2104540A2; WO2008071963A2; WO2008071963B1

Abstract

Apparatus including at least three 3-dimensional shapes, a first one of the 3-dimensional shapes being rotatably supported within a second one of the 3-dimensional shapes, the second one of the 3-dimensional shapes being rotatably supported within a third one of the 3-dimensional shapes, at least one of the 3-dimensional shapes including an opening capable of connecting at least one of the shapes to another one of the shapes.

Description

The present invention relates to an apparatus and in particular but not exclusively to an apparatus comprising a game or puzzler or to apparatus for use in playing a game.
The present invention provides apparatus comprising:

- at least 3 dimensional shapes, a first one of said three dimensional shapes being rotatably supported within a second one of said three dimensional shapes, said second one of the three dimensional shapes being rotatably supported within a third one of said three dimensional shapes, at least one of said three dimensional shapes comprising an opening capable of connecting at least one of said shapes to another.

Preferably, means are provided for rotatably supporting one shape in another, said means comprising one of a projection and a cradle on an outer surface of said one shape and the other of a projection and a cradle on an inner surface of said another shape.
Preferably, said rotatably supported shape is supported by means arranged on diametrically opposed sides of said shape.
Preferably, an imaginary line connecting the means arranged on the opposed sides of said shape passes through a centre of said shape.
Preferably, at least one of said three dimensional shapes is supported in another of the three dimensional shapes by a gimbal.
Preferably, said first and second shapes are supported by means contained in a common plane. Preferably, said common plane is arranged to extend through the middle of the apparatus. Preferably, said at three shapes are arranged such that one shape is supported within another with respective supporting means being angularly spaced apart on said plane. Preferably, said supporting means have an angularly regular spacing.
Preferably, said three dimensional shapes are the same three dimensional shape.
Preferably, at least one of said shapes comprises a sphere.
Preferably, at least one of the said shapes comprises a surface comprising a plurality of planar facets.
Preferably, said apparatus comprises between three and five three dimensional shapes.
Preferably, at least one of said shapes is substantially transparent.
Preferably, at least one of said shapes comprises a plurality of openings.
Preferably, each one of said shapes comprises an opening. Preferably, said openings are arranged to be aligned in one orientation of said apparatus. Preferably, said one orientation is such that said openings are aligned such that the openings are on the uppermost surface of the apparatus relative to ground.
Preferably, at least one opening is provided with a projecting portion extending from an outer surface of said shape. Preferably, said projecting portion has a height which is substantially the same as a distance from the shape on which said projecting portion is provided and the shape containing said shape on which said projecting portion is provided.
Preferably, said apparatus comprises at least one ball, said at least one opening permitting movement of said at least one ball from one shape to another. Preferably, said at least one ball has a diameter substantially equal to or smaller than the diameter of the opening.
Preferably, said apparatus comprises a game or a toy.
Preferably, said apparatus comprises a mechanism, which can be operated to limit the rotation of any one or more of the shapes. Preferably, said mechanism can be operated to prevent the rotation of at least one of the shapes.
Preferably, the apparatus is arranged so that the one or more balls move to the innermost shape, under the influence of gravity, when the apparatus is shaken or otherwise agitated.
Preferably, at least one opening is an opening to an enclosure, which can hold a single ball.
Preferably, at least one of the shapes comprises a plurality of enclosures.
Preferably, the total number of enclosures is equal to the total number of balls and each of the enclosures is coded to match a respective one of said balls.
Preferably, a mechanism is provided, which can be operated to retain in their respective enclosures all balls captured in an enclosure.

For a better understanding of the present invention and as to how the same may be carried into effect reference will now be made by way of example only to the accompanying drawings in which:

FIG. 1 shows an exploded view of an embodiment of the invention;

FIG. 2 shows a cross-sectional view through the apparatus of FIG. 1 when assembled with spheres in a first orientation;

FIG. 3 shows a cross-sectional view through the apparatus of FIG. 1, again when assembled but with the spheres in a second orientation;

FIG. 4 shows an embodiment of the invention;

FIG. 5 shows an exploded view of a part of an apparatus according to the invention; and

FIG. 6 shows an exploded view of a part of an apparatus according to the invention.

Reference will now be made to FIGS. 1 to 3 which show an embodiment of the invention which comprises five spheres 2, 4, 6, 8, 10.
The first sphere 2 is supported in the second sphere 4. The second sphere 4 is in turn supported in the third sphere 6. The third sphere 6 is supported in the fourth sphere 8 which in turn is supported in the fifth sphere 10. The five spheres are arranged so that the centres of the spheres are coincident at a common point.
In the preferred embodiment, the five spheres 2-10 are transparent or substantially transparent. However, in some embodiments on the invention, one or more of the spheres may be opaque or at least partially opaque. One or more of the spheres 2-10 may be clear, that is without colour. However, in some embodiments; one or more of the spheres may be coloured. Different spheres maybe of different colours.
Each of the spheres 2 to 10 is provided with a respective opening 22 to 30. Each opening 22-30 comprises a open neck extending from the surface of the respective sphere. The respective opening protrudes from the surface of the respective sphere. The openings 22-28 of the first to fourth spheres have a height h which is approximately equal to the distance x provided between the outer wall of one sphere and the inner wall of the sphere containing that one sphere. In preferred embodiments, the distance x between the inner wall of one sphere and the outer wall of the sphere containing that one sphere is the same for all spheres. However in alternative embodiments, the distance x between spheres may be different for different ones of the spheres.
The distance x is preferably less than the diameter of a ball 32 the purpose of which will be described in more detail hereinafter. The diameter of openings 22 to 30 is larger than the diameter of the ball 32.
Each sphere 2 to 8 is supported in the next larger sphere 4 to 10 respectively by a respective support arrangement 12 to 18. The support arrangement 12 of the first sphere 2 within the second sphere 4 will be described. However it should be appreciated that support arrangements 14 to 18 for respectively supporting the second sphere in the third, the third sphere in the fourth and the fourth sphere in the fifth are the same. The support arrangement 12 effectively acts as gimbal. This means that the support arrangement defines an axis about which the sphere is able to rotate about. In preferred embodiments of the invention, full 360° rotation is provided.
The support arrangement comprises two projections 12 a. The two projections 12 a are provided on the outer surface of the sphere to be supported, that is the first sphere 2. The two projections 12 a are arranged so as to be diametrically opposed to each other, on opposite sides of the first sphere 2. If an imaginary line was to be drawn between the two projections 12 a on the opposite sides of the sphere, the line would pass through the centre point of the sphere.
The projections 12 a are arranged to be supported by correspondingly positioned cradles 12 b provided on the interior of the second sphere 4. The projections 12 a are retained in place and supported by the respective cradles 12 b. The projections 12 a define an axis about which the first sphere is able to rotate. The cradles 12 b are also positioned such that an imaginary line drawn between the two cradles will pass through the centre of the second sphere 4.
In embodiments of the invention, each of the support arrangements 12 to 18 is provided on a common plane with that common plane passing through the centre of each of the five spheres. In preferred embodiments, the support arrangements are equally spaced in terms of angular spread around the centre of the spheres. In other words, if a line was drawn from the centre of the spheres to each of the support arrangements, these lines would in the case of a five sphere arrangement be spaced apart by the same angle, 45°.
In alternative embodiments of the invention, the support arrangements need not be contained in a common plane. However, this may result in the relative movement of one sphere to another being limited. This may be advantageous in some embodiments of the invention.
In alternative embodiments, where the support arrangements are contained in a common plane, the support arrangements may not be equally spaced. In an alternative, one or more of the support arrangements may be such that their axes are coincident.
Each of the spheres 2 to 10 is provided with a respective weighted portion 42-50. In the embodiment shown in the figures, this weighted portion is provided by opposite the opening of the respective sphere. The weighted portion 42-50 is such that under the influence of gravity, the weighted portion will tend to be lowermost.
The weighted portion may comprise a thicker region of the material forming the spheres or alternatively can be additional material injection moulded part of the sphere or additional material attached by any suitable material to the sphere.
The weighted portion may be of the same material or different material to that of the sphere. The weighted portion may be of the same general appearance as the rest of the sphere or may be of a different appearance, for example a different colour to the rest of the respective sphere.
The apparatus is arranged so that when all the openings are aligned, the ball 32 can be inserted/dropped through all the openings so that it is received in the innermost sphere, that is the first sphere 2. The openings are aligned when the apparatus is in a configuration when the plane containing all the support arrangements is parallel to the ground. The weighted portions 42 to 50 will be lower and the opening will be aligned along an axis vertical to the ground.
An opening on any sphere may be an opening to an enclosure (62), which can hold a single ball (63). An enclosure will have only one opening (see FIG. 4).
Alternatively, an opening on any sphere may be an opening, which simply connects one sphere to another. Such an opening optionally may be an opening to a projection, where the projection connects one sphere to another. A projection thus has two openings.
In one use of the apparatus, it is an aim to remove the ball from the apparatus, that is to move it from the first sphere to the outer/last sphere, such that the ball exits the apparatus under the influence of gravity. Simply inverting the apparatus will not result in this because the weighted portions will not permit the spheres to be in a configuration such that the openings are aligned. In another use of the apparatus, it is an aim to move one or more balls from the innermost sphere via the openings/projections between the spheres to the enclosures.
In one embodiment, the apparatus is arranged so that the one or more balls naturally move to the innermost sphere, under the influence of gravity, when the apparatus is shaken or otherwise agitated. This can be regarded as a start position when the apparatus is used as a game, for example with the aim of moving the one or more balls from the innermost sphere via the openings/projections between the spheres to the enclosures.
In one embodiment of the invention, when the ball is moved into a projection, it acts as a weighted portion. The ball in the projection will be heavier than the weighted portion 42 to 50 will cause the projection to be oriented in or maintain a downward orientation.
Referring to FIG. 2, in the first orientation, each of the projections 22 to 30 are aligned coaxially, so as to enable the ball 32 to be inserted or dropped into the first sphere 2. Referring to FIG. 3, in the second orientation, the first sphere 2 is rotated about the axis of the support arrangement 12 such that the opening 22 of the first sphere 2 is in a downward orientation. In this orientation, the ball 32 drops into the neck of the opening 22 under the influence of gravity. Accordingly, in the second orientation of FIG. 3, the ball 32 is trapped against the inner surface of the second sphere 4.
By rotating the outside of the sphere in various direction, the interior spheres will be rotated and it is possible, using the ball as a weighting portion to cause the projecting portions to be aligned in a downward orientation such that the ball will drop out of the apparatus.
In the described embodiment of FIGS. 1 to 3, five spheres are provided. However in alternative embodiments of the invention, there may be less than five spheres for example three or four spheres. In other alternative embodiments of the invention, there may be more than five spheres. Three spheres has advantages in that the manufacturing cost may be reduced as compared to a five sphere arrangement. In principle, the simpler arrangements will require fewer spheres and therefore may be suitable for use by small children.
However, it should be appreciated that it is possible in some embodiments to implement features, such as additional weights which mean that the apparatus is made more complex, even if the number of spheres is reduced.
Preferred embodiments of the invention use spheres or substantially spheroid shapes. However, it should be appreciated that in alternative embodiments of the invention that it would be possible to have other shapes which have a plurality of facets or planar surfaces. In preferred embodiments, the shape with a plurality of facets is able to move freely about the gimbal.
In some embodiments of the invention, one or more of the shapes may be limited in the movement possible about the gimbal which may make the apparatus harder or easier to use. A mechanism to restrict the movement of one or more of the shapes may be operated so that the device in its entirety becomes locked in a fixed position or so that the rotation of any one or more of the spheres is caused to be limited. Limitation of the rotation could be prevention of rotation i.e. so that the sphere becomes locked in a fixed position.
A preferred mechanism for limiting the rotation of a sphere comprises a lug (60) and a stop (65) (see FIG. 6). The lug and stop are arranged so that the lug comes into contact with the stop when the sphere is rotated, typically using a turning knob (68), thus limiting the sphere's rotation. The lug may be positioned on the axle of the sphere,
In an alternative embodiment of the invention, the projection providing the opening in the fifth or outer sphere can be dispensed with. In other words the opening will be flush with the surface of the sphere.
In alternative embodiments of the invention, one or more of the five spheres may not have the projecting neck portion providing the opening but instead will have an opening flush with the surface of the sphere.
In one modification, the projections are provided on an inner surface of a sphere. Thus the projections would be provided on the inner surface of the second to fifth spheres. The outer surface of the fifth sphere would be smooth or an additional outwardly facing projection may be provided on the outside surface of the fifth sphere.
In one embodiment of the invention, the apparatus can be rolled on a surface. Depending on the complexity of the arrangement, this may cause one or more balls to be released and/or facets of a sphere to be exposed. This can be used for various purposes in for example a game or dice.
In another embodiment of the present invention, the apparatus can be mounted such that it is able to spin on base, in a similar manner to a mouse “roller ball”. This may cause one or more balls to be released.
In the described embodiments, there is a single area in each sphere. It is possible in alternative embodiments of the invention to divide the spheres so that they comprise more than one compartment. Alternatively partition walls may be provided. The walls do not define separate compartments but interlinked regions.
In one modification, the opening provided on the fifth sphere may be provided with a cover which prevents the user from inserting a rod shaped item to cheat. The cover would allow the ball to be inserted into the spheres by guiding the ball along the outer surface of the sphere and then into the opening. In this alternative part of the neck portion would be removed to allow the ball to go into the apparatus.
In the described embodiment of FIGS. 1 to 3, each sphere has only a single opening. However in alternative embodiments of the invention, one or more of the spheres may be provided with one or more openings. One or more of the spheres may be provided with one or more enclosures.
Preferably, at least the outer sphere and one other sphere are each provided with more than one opening. Preferably at least the outer sphere and one other sphere are each provided with more than one enclosure.
Preferably, the total number of enclosures is equal to the number of balls. Each of the enclosures may be coded to match a respective one of said balls; the aim being to move a ball into the enclosure having the matching code. The coding may be by colour or number, for example.
When a ball has been captured in an enclosure, a mechanism may be operated to in order to retain the ball in the projection.
Preferably, a mechanism is provided, which can be operated to retain in their respective enclosures all balls captured in an enclosure. When the apparatus is used as a game with the aim of moving the one or more balls from the innermost sphere via the openings/projections between the spheres to the enclosures, this mechanism can be used to “save” a playing position reached so that the player can take a break from play.
A mechanism to retain a ball captured in an enclosure preferably comprises a (spherical) frame (70) located next to the inner surface of the sphere (see FIG. 5). A turning knob (75) located on the outside of the apparatus may be used to rotate the (spherical) frame. The (spherical) frame is moveable between a first position where the one or more openings are open and a second position where the one or more openings are closed.
The described embodiment of FIGS. 1 to 3 uses a single ball. However it should be appreciated that alternative embodiments of the invention may have plurality of balls (see FIG. 4). The balls can be the same or different. For example one or more of the balls may be of a different colour and/or size. A plurality of different types of balls may be provided. For example a plurality of different colours of ball may be provided.

Claims

1-30. (canceled)

31. Apparatus comprising:

at least three 3-dimensional shapes, wherein a first one of said 3-dimensional shapes is rotatably supported within a second one of said 3-dimensional shapes, said second one of the 3-dimensional shapes is rotatably supported within a third one of said 3-dimensional shapes, and wherein at least one of said at least three 3-dimensional shapes includes at least one opening capable of connecting said at least one of said shapes to another of said shapes;

at least one ball, wherein said at least one opening permits movement of said at least one ball from at least one of said 3-dimensional shapes to another one of said 3-dimensional shapes; and

wherein at least one of said 3-dimensional shapes is supported in another of the 3-dimensional shapes by a gimbal.

32. The apparatus as claimed in claim 31, wherein means are present for rotatably supporting one shape of said at least three 3-dimensional shapes in another one of said shapes, said means comprising at least one set of a projection and a cradle wherein one of said projection and said cradle is positioned on a surface of said one shape and a remaining one of said projection and said cradle is positioned on a surface of another one of said at least three 3-dimensional shapes.

33. The apparatus as claimed in claim 31 or 32, wherein said at least three 3-dimensional shapes are rotatably supported by means arranged on diametrically opposed sides of said shapes.

34. The apparatus as claimed in claim 33, wherein an imaginary line connecting the means arranged on opposed sides of said shapes passes through a center of said shapes.

35. The apparatus as claimed in claim 31, wherein said first one and said second one of said shapes are supported by means contained in a common plane.

36. The apparatus as claimed in claim 35, wherein said common plane is arranged to extend through a center of the apparatus.

37. The apparatus as claimed in claim 35 or 36, wherein said at least three 3-dimensional shapes are arranged such that one of said shapes is supported within another of said shapes with respective supporting means being angularly spaced apart on said plane.

38. The apparatus as claimed in claim 37, wherein said supporting means has an angular regular spacing.

39. The apparatus as claimed in claim 31, wherein said at least three 3-dimensional shapes have a common 3-dimensional shape.

40. The apparatus as claimed in claim 31, wherein at least one of said shapes comprises a sphere.

41. The apparatus as in claim 31, wherein at least one of said shapes includes a surface having a plurality of planar facets.

42. The apparatus as claimed in claim 31, wherein said apparatus comprises between three and five of said 3-dimensional shapes.

43. The apparatus as claimed in claim 41, wherein at least one of said shapes is substantially transparent.

44. The apparatus as claimed in claim 31, wherein at least one of said shapes includes a plurality of openings.

45. The apparatus as claimed in claim 31, wherein each of said shapes includes at least one opening.

46. The apparatus as claimed in claim 45, wherein at least one of each of said at least one opening in said shapes is arranged to be aligned in one orientation of said apparatus.

47. The apparatus as claimed in claim 46, wherein said one orientation is such that said at least one of each of said at least one opening in said shapes is aligned such that said opening is on an uppermost surface of the apparatus relative to ground.

48. The apparatus as claimed in claim 31, wherein at least one opening is provided with a projecting portion extending from an outer surface of said shape.

49. The apparatus as claimed in claim 48, wherein said projecting portion has a height which is substantially equal to a distance from one of said shapes on which said projecting portion is provided and another of said shapes which contains said one of said shapes on which said projecting portion is provided.

50. The apparatus as claimed in claim 31, wherein said at least one ball has a diameter substantially equal to or smaller than a diameter of the at least one opening.

51. The apparatus as claimed in claim 31, wherein said apparatus comprises a game or a toy.

52. The apparatus as claimed in claim 31, further comprising a mechanism which is operated to limit rotation of any one or more of the shapes.

53. The apparatus according to claim 52, wherein said mechanism is operable to prevent the rotation of at least one of the shapes.

54. The apparatus as claimed in claim 31, wherein the apparatus is arranged so that said at least one ball moves to an innermost shape under influence of gravity when the apparatus is shaken or otherwise agitated.

55. The apparatus as claimed in claim 44 or 45, wherein said at least one opening is an opening to an enclosure which is structured to receive therein a single ball.

56. The apparatus as claimed in claim 44, wherein at least one of the shapes includes a plurality of enclosures.

57. The apparatus as claimed in claim 56, wherein the enclosures are present in a total number which is equal to a total number of balls present and each of the enclosures is coded to match a respective one of said balls.

58. The apparatus as claimed in claim 56 or 57, further comprising a mechanism which is operable to retain in respective enclosures, balls received in the enclosures.

59. Apparatus comprising:

three 3-dimensional shapes, wherein a first shape of said 3-dimensional shapes is rotatably supported within a second shape of said 3-dimensional shapes, said second shape of said 3-dimensional shapes is rotatably supported within a third shape of said 3-dimensional shapes, and wherein said first shape includes at least one opening connecting an interior of said first shape with an interior of said second shape, said second shape includes at least one opening connecting said interior of said second shape with an interior of said third shape, and said third shape includes a plurality of enclosures on an outside surface thereof;

a plurality of balls sized to move through said at least one opening in each of said first shape and said second shape and to removably fit within said enclosures; and

wherein said first shape is supported in said second shape by a gimbal, and wherein each of said first shape and said second shape includes a weighted portion in the surface thereof.

60. The apparatus of claim 59, wherein said three 3-dimensional shapes are each substantially spherical.

61. The apparatus of claim 59 or 60, further comprising, on said outside surface of said third shape, at least one knob which is movably connected to a frame constructed and arranged to selectively retain one or more of said plurality of balls within said enclosures.

62. The apparatus of claim 59 or 60, wherein said plurality of balls and said plurality of enclosures are coded so that only one of said plurality of balls corresponds to only one of said enclosures.