This disclosure relates to a nesting chess set.
In the game of chess there are two opposing teams. Each team has sixteen playing pieces consisting of one king, one queen, two rooks, two bishops, two knights, and eight pawns. The general sizes and shapes of the pieces are well known.
In the present disclosure the chess set pieces are configured such that the playing pieces of a team can be organized into two nests, each nest comprising eight pieces. The only difference between the two nests is that one has the king and one has the queen. Otherwise each nest has a rook, a bishop, a knight, and four pawns. The queen or king is the outside piece of one of the nests, and the rest of the pieces are sized and shaped to nest within the king or queen. In an example all eight pieces nest one within the other. Each nest is held together by a magnetic base member. The magnetic base members of the two nests are configured such that they attract to each other such that the two nests (i.e., the entire team) are held together end-to-end in an almost tubular team shape. The team can then be readily stored and transported, for example in a tubular container. The container can be configured to hold both teams.
In an example, inside of the king or queen the pieces are nested in the following order (from outermost to innermost): one bishop, one knight, one rook, and four identical pawns, for a total of eight pieces per nested stack. Each piece has a generally conical shape, with an open base and either an open or closed top. The conical shapes are arranged such that the pieces nest very closely together. In an example the nest is configured such that the bottoms of the annular bases of the king or queen, the bishop, the knight, and the rook, are all coplanar. In an example the nest is configured such that the bottom of the annular base of one pawn sits below the plane in which the bottoms of the bases of the king or queen, the bishop, the knight, and the rook sit. In an example the four pawns are stacked one on top of another and the entire stack sits in part inside of the rook, with the bottom of the base of the innermost pawn located lower than the base of the rook. In an example the rook, the knight and the bishop all have open tops so that the stack of four pawns can extend entirely through the lengths of the rook, knight, and bishop.
In an example the magnetic base member is similar to a pot magnet, with a permanent magnet encased in a steel shell. In an example the magnet is annular and the steel shell is cup shaped. The bases of the king or queen, the bishop, the knight, and the rook can sit on or just above a top surface of the magnet. The base of the lowermost pawn can sit inside of the magnet annulus. In an example a metal cap covers the top of the magnet and the exposed part of the shell inside of the magnet's annulus. The base of the lowermost pawn can sit on the metal cap. In an example the shell and cap can act as a magnetic circuit to help keep the magnetic field primarily in the shell and cap. In an example the king or queen is configured to sit directly on the top ends of the shell, the bishop, knight and rook are configured to sit directly on the cap directly above the top of the magnet, and the lowermost/innermost pawn is configured to sit directly on the cap on the inside of the magnet.
All examples and features mentioned below can be combined in any technically possible way.
In one aspect, a nesting chess set includes two teams of chess pieces. Each team includes one king, one queen, two rooks, two bishops, two knights, and eight pawns. The pieces of each team are configured such that they can be organized into two nests, each nest comprising eight pieces, wherein the only difference between the two nests is that one has the king and one has the queen, while otherwise each nest has a rook, a bishop, a knight, and four pawns. The queen is the outside piece of one nest. The king is the outside piece of the other nest. The rest of the pieces are sized and shaped to nest within the king or queen. Each nest is held together by a magnetic base.
Some examples include one of the above and/or below features, or any combination thereof. In an example the magnetic bases of the two nests are configured such that they attract to each other such that the two nests are configured to be held together end-to-end in a generally tubular team shape. In an example inside of the king and queen the pieces are nested in the following order from outside to inside: one bishop, one knight, one rook, and four pawns. In an example each piece has a generally conical shape, with an open base and either an open or closed top, wherein the conical shapes are constructed and arranged such that the pieces nest very closely together. In an example the four pawns are stacked one on top of another and the stack of pawns sits in part inside of the rook, with the bottom of the base of the innermost pawn located lower than the bottom of the base of the rook. In an example the magnetic base is generally circular. In an example the magnetic base comprises a generally annular magnet.
Some examples include one of the above and/or below features, or any combination thereof. In some examples a nest is configured such that the bottoms of the annular bases of the king or queen, the bishop, the knight, and the rook, are all generally coplanar. In an example the nest is configured such that the bottom of the annular base of one pawn sits below the plane in which the bottoms of the bases of the king or queen, the bishop, the knight, and the rook sit. In some examples the magnetic base comprises a permanent magnet at least partially encased in a shell made of a ferromagnetic material, wherein the magnet is annular and the shell is cup shaped. In an example the bottoms of the bases of the king or queen, the bishop, the knight, and the rook are configured to sit on or just above a top surface of the magnet, and wherein the base of the innermost pawn sits inside of the magnet annulus. In an example a metal cap covers the top of the magnet and the exposed part of the shell inside of the magnet's annulus. In an example the bottom of the base of the lowermost pawn is configured to sit on the metal cap. In an example the shell and cap are configured to act as a magnetic circuit to help keep the magnetic field primarily in the shell and cap. In an example the king or queen is configured to sit directly on the top outer edge of a shell, the bishop, knight and rook are configured to sit directly on the cap directly above the top of the magnet, and the innermost pawn is configured to sit directly on the cap on the inside of the magnet's annulus.
In another aspect a nesting chess set includes a plurality of chess pieces comprising a king, a rook, a bishop, a knight, and a pawn, wherein each chess piece defines a generally hollow conical shape, and the chess pieces are sized and shaped to nest one inside another, into a single stack. In an example the nesting chess set further comprises a base member that is constructed and arranged to support the single stack. In an example the base member is magnetic. In an example the bishop, the knight, and the rook, are each generally frustoconical, with an open top. In an example the pawn has a top end, and the king comprises an opening at a top thereof and that is constructed and arranged to fit the top end of the pawn therethrough.
A non-limiting preferred embodiment of the nesting chess set is depicted in the drawings, wherein:
The present chess set includes a number of chess pieces, including a king, a rook, a bishop, a knight, and a pawn for one team, and a queen, a rook, a bishop, a knight, and a pawn for a second team. Each chess piece defines a generally hollow conical shape. The chess pieces are sized and shaped to nest one inside another, into a single stack. The chess set also includes a base member that is constructed and arranged to support both stacks. Alternatively the base member can support one stack. In an example the base member is magnetic. In an example the bishop, the knight, and the rook, are each generally frustoconical, with an open top. In an example the pawn has a top end, and the king and queen each comprise an opening at a top thereof and that is constructed and arranged to fit the top end of a pawn therethrough.
All the chess pieces (king, queen, bishop, knight, rook, pawn) are made of a steel or another material that is ferrous and so will be inherently drawn to the magnet of the base member. Or the pieces can be made of any other material (such as plastic) and include a base or base portion that is magnetic so it can be magnetically attracted to the base member. The pieces are placed one-by-one on the base member. Or the four pawns can be stacked and then placed as a stack on the base member. This is helpful for the pawns especially; the magnetic charge has a slight pull on each pawn so they do not fall or tip from the stack too easily.
Each piece has a unique cross section that allows it to stack over the part “inside” of it and nest underneath the part “above” it. See nested stacks 30 (with king 12 on the outside) and 32 (with queen 14 on the outside),
The pole directions of the two bases are opposite (one has magnetic north at the bottom and the other has south at the bottom) so that the bases are magnetically drawn together to create the barrel 50,
In an example the bishop and knight are configured such that they stay aligned and do not rotate relative to one another when they are nested. See
A number of implementations have been described. Nevertheless, it will be understood that additional modifications may be made without departing from the scope of the inventive concepts described herein, and, accordingly, other examples are within the scope of the following claims.
This application claims priority of provisional patent application 62/958,633 filed on Jan. 8, 2020.
Number | Date | Country | |
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62958633 | Jan 2020 | US |