The present invention relates to game pieces, a set of such game pieces, a game and the use of such game pieces.
More specifically the invention relates to game pieces in the form of connected sphere-shaped elements.
By connecting the elements to one another in different ways, for a given number of elements different figures can be obtained that can each form a game piece.
The game pieces are intended for use in puzzle-type games in which a two dimensional field or a three dimensional volume is to be filled completely or to a certain degree by consecutively placing game pieces and/or in strategy-type games in which one of a set of predefined winning placements needs to be made in a multi-player game wherein the placement of a game piece by a certain player influences the remaining options for the other players.
The purpose of the present invention is to create game pieces which, compared to the known game pieces, provide extra possibilities for devising all kinds of games.
To this end the invention concerns a game piece comprising three or more sphere-shaped elements which are connected to each other, wherein the elements are divided into two or more groups each consisting of at least one element, wherein the elements within one group are immovably connected to each other and wherein each group is rotationally connected to at least one other group and wherein there is at least one group with two or more elements
This allows game pieces to be changed from one configuration to another configuration, thereby allowing different types of puzzles or game play.
It is possible that an element may be considered to belong to simultaneously to two groups, as will become clear later.
In a preferred embodiment, the sphere-shaped elements are placed at a centre-to-centre distance from each other which is the same as the diameter of the sphere defined by the sphere-shaped elements.
This allows three-dimensional volumes to be filled with the game pieces, wherein a game piece can extend from one layer in a game or puzzle to another layer, and wherein a layer may then be partly filled with elements from game pieces which are also in other layers, and partly filled with elements from game pieces which are only present in the specific layer.
In the absence of this feature, this would not be possible, as the distance between the layers would then not match the distance between the elements within a layer.
Obviously the filling of a two dimensional space, as well as the filling of a three-dimensional volume in a layer-by-layer fashion, so without any game pieces extending over two or more layers, remains equally possible.
In a further preferred embodiment, for each combination of adjacent rotationally connected groups an element of one of the two connected groups, which element borders the other connected group, is formed as a spherically shaped hinge, whereby this hinge has a physical axis at the position of the axis of rotation.
This allows games pieces which are sturdy and not easily damaged.
In a further preferred embodiment the hinge is provided with indicating means to indicate that the two groups connected by the hinge have one or more preferential rotational positions as defined by the angle formed between the line between the centre of the element which is formed as a hinge and the centre of the adjacent element in the same group, and the line between the centre of the element which is formed as a hinge and the centre of the adjacent element in the other group.
This way the user of the game piece knows when a game piece is in a configuration which is suitable for the game or puzzle it should be used in, and when it is in a configuration which is not or less suited for a particular game or puzzle.
In preferred embodiments, the hinge has preferential positions at values of the angle of 90° and 180° or at values of the angle of 60°, 120° or 180°.
With both these alternatives regular 2 and 3 dimensional patterns of sphere-shaped elements can be made, which makes these configurations particularly useful.
In a further preferred embodiment the indicating means work by providing a resistance to rotation which is larger when the two groups are in a preferred position than when the two groups are not in such a position and comprise at least one protrusion on one part of the hinge and at least one recess in another part of the hinge.
This is a practical way of implementing the feedback to the user.
In another preferred embodiment the hinge is provided with a stop to stop further rotational movement at a certain rotational position and is provided with means for avoiding damage if further force is applied if this position is reached, which means comprise a circular groove in one part of the hinge and a matching circular ridge on another part of the hinge, the groove and the ridge having a centre coinciding with the axis of rotation of the hinge.
Two groups of elements can be rotated, but a stop can be provided so that the groups may not be rotated more than a certain amount. However, there is a risk that due to excessive pressure, the game piece deforms and/or breaks.
In this preferred embodiment this damage can occur less easily, because the process leading to damage involves as a first step the displacement of the designed axes of rotation of two parts of a hinge, which are normally coinciding, with respect to each other.
Due to the ridge and groove this displacement is avoided, as they resist displacement, in a plane perpendicular to the axis of rotation, of one part of a hinge with respect to another part.
In a further preferred embodiment the hinge has a hinging axis which is visible or indicated.
This makes it easier to the user of the game piece to manipulate the game piece, since this way he always knows, when holding a game piece, at which points movement is possible.
The invention also concerns a set of game pieces consisting of a number of game pieces according to any of the previous claims.
The invention further concerns a game or puzzle that contains a set of game pieces as explained above, either or not in combination with a playing board with a multitude of recesses matching the spherical elements both in shape as well as in mutual distance.
The invention further concerns the use of a game piece as defined above in a puzzle in which several such game pieces are intended to fill a two dimensional field or a three dimensional volume and/or in a game in which the placement of a game piece in such a field or volume influences the options another player in the game has for placing a subsequent game piece.
With the intention of better showing the characteristics of the invention, a few preferred embodiments of game pieces according to the invention are described hereinafter by way of an example, without any limiting nature, with reference to the accompanying drawings, wherein:
The game piece 1 shown in
The elements 6 are, except for the regions where they are connected to other elements 6, spherically shaped, defining spheres 10 with diameter d.
The first group 7 consists of one element 6, the second group 8 consists of three elements 6 connected to each other in fixed positions, in this example but not necessarily in a straight line, and the third group 9 consists of two elements 6 connected to each other.
The first group 7 and the second group 8 are connected to each other in a way that they can make a rotating movement around an axis of rotation A-A′. The third group 9 and the second group 8 are also connected to each other in a way that they can make a rotating movement, this time around an axis of rotation B-B′. Both axes of rotation A-A′ and B-B′ go through the centre of an element 6.
The elements 6 are connected to each other at a centre-to-centre distance that equals the diameter D of the sphere 11. In other words, the imaginary spheres 10 defined by adjacent elements 6 touch, but do not intersect.
The movability of the groups 7, 8, 9 with respect to each other is obtained by the fact that the two elements 6 at the extremes of the second group 8 are executed as hinges.
The exact embodiment of the hinges is shown in
This female part 11 is composed of a claw 12 inside and outer ring 13. On both sides the ring is provided with a circular ridge 14.
The claw 12 is formed by two arms 15, which are each provided with a protrusion 16 which is directed towards the centre of the ring 13.
The two other half-spherical elements of the second part 3 are identical. Each forms the male part 19 of a hinge.
These male parts 19 of the hinge are formed by a hinging axis 20 formed from a first section 21 and a second section 22. The first section 21 is cylindrical with four elongated recesses 23 situated at, in this example, 90 degree intervals. The second section 23 is also cylindrical with a central slit 24 defining two legs 25.
The male parts 19 are also provided with a stop 26 and a circular groove 27.
The third part 4 of the game piece 1 is analogous to the first part 2, except that it has two elements 6 instead of one.
The fourth part 4 is a lid, not further elaborated in detail, shaped as three half-spheres and provided with holes to match pin 18 and legs 25, and shaped to be complementary to the groove 17 and ridge 14.
The game piece 1 is assembled by taking one each of first to fourth parts 2,3,4,5.
The claw 12 of the first part 2 is then put around one of the hinging axes 20 of the second part 3, more in particular around the first section 21 of it. This causes the first ridge 14 to sit in the groove 27.
The same action is done with the third part 4 using the other hinging axis 20 of the second part 3.
In a final step the fourth part 5 is put over the second part 3, whereby the legs 25 click into place in holes 28 provided in this fourth part 5 and extending through this fourth part 5, pin 19 engages a hole 29 in the fourth part 5 not extending through it, grooves 30, similar to grooves 27, cover ridges 14, and ridge 31 sits in groove 17.
The length of the hinging axes 20 is made such that they do not extend outside the spherical part of the elements 6.
The use of the game piece 1 according to the invention is as follows.
The groups 7, 8, 9 can be rotated with respect to each other around the hinging axes 20. When the protrusions 16 and the recesses 23 have a matching position the protrusions 16 place themselves into the recesses 23, locking the relative position of the groups 7, 8, 9.
This can be felt by the user of the game piece 1 due to an increased resistance against further movement. The locking can easily be overcome however by increasing the force, upon which the protrusions 16 will be pushed out of the recesses 23, which is possible due to a certain resilience of the arms 15, after which a further rotational movement is possible.
The recesses 23 and protrusions 16 are in this example placed in a position which will produce the locking action when the groups 7,8,9 are in a straight line or when they are at right angles.
Irrespective of the rotational positions of the groups 7,8,9 with respect to each other, the centres of the elements 6 are always in a single plane, and the axes of rotation A-A′ and B-B′ are always perpendicular to this plane.
When the groups 7,8,9 are rotated further, from a certain position onwards, the stop 26 prevents the groups 7,8,9 from being rotated further by being pushed against an edge 32, as shown in dotted lines in
If a further force is applied the parts 2,3,4,5 may deform and become dislodged, damaging the game piece 1. This is counteracted by the combination of ridges 14 in grooves 27 and 30, which will keep the central axis of the male parts and the female parts of the hinges in line with each other, thereby avoiding damage to the game piece 1, obviously only until excessive force is applied.
The game pieces 1 as explained above may be used as a set, with a matching playing board having recesses for the elements, as pieces of a puzzle, wherein the filling of a certain two dimensional or three dimension space should be achieved.
The elements 6 and or the parts 2,3,4,5 may be provided with patterns or in different colours.
It will be clear to the skilled person that depending on the number of elements in each group, the numbers of groups in a game piece, the orientation of the elements within a group and the positioning of the connections between groups, an infinite variety of game pieces according to the invention can be made.
This is illustrated in
The game piece 1 shown in
The game piece 1 shown in
The middle element 6 in this figure, even though indicated above to belong to the hatched group, may also be considered to belong to the non-hatched group, as its position with respect to the two non-hatched elements 6 is also fixed.
This middle element can therefore be considered to simulatenously form part of two groups.
This figure demonstrates that a game piece with exactly the same possible configurations, may be made from different constituent parts, in
The main differences are that the groups may be rotated with respect to each other with a click mechanism for positions corresponding to every 60° step, instead of every 90°, and that one group is connected to another group in the middle element of this other group, not an end element, so that a branched configuration is obtained.
The element forming the hinge can also in this example be considered to be in two groups at the same time.
The games pieces of
The present invention is by no means limited to the embodiments described as an example and shown in the drawings, but a game piece according to the invention can be realised in all kinds of variants, without departing from the scope of the invention.
Number | Date | Country | Kind |
---|---|---|---|
2011/0150 | Mar 2011 | BE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/BE2012/000011 | 3/2/2012 | WO | 00 | 9/4/2013 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2012/119209 | 9/13/2012 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
2825178 | Hawkins | Mar 1958 | A |
3577673 | Monestier | May 1971 | A |
4325552 | Glasheen | Apr 1982 | A |
4617001 | Parein | Oct 1986 | A |
4699602 | Giorgi | Oct 1987 | A |
4988103 | Cheng | Jan 1991 | A |
4997375 | Heinz | Mar 1991 | A |
5302148 | Heinz | Apr 1994 | A |
5503497 | Dudley et al. | Apr 1996 | A |
5897417 | Grey | Apr 1999 | A |
6220919 | Cheng | Apr 2001 | B1 |
6264522 | Dickson | Jul 2001 | B1 |
7354330 | Bentley, Jr. | Apr 2008 | B2 |
8020867 | Cheng | Sep 2011 | B2 |
8480449 | Cheng | Jul 2013 | B2 |
8607541 | Cavuoti | Dec 2013 | B1 |
20030186616 | Manville et al. | Oct 2003 | A1 |
20030224690 | Manville et al. | Dec 2003 | A1 |
20050197039 | Bentley, Jr. | Sep 2005 | A1 |
20070187890 | Cheng | Aug 2007 | A1 |
20130012098 | Meys | Jan 2013 | A1 |
Number | Date | Country |
---|---|---|
1716894 | Nov 2006 | EP |
2090751 | Jul 1982 | GB |
Number | Date | Country | |
---|---|---|---|
20130341867 A1 | Dec 2013 | US |