CN106994240B - Three-dimensional chessboard and its falling method - Google Patents

Abstract

The invention discloses a three-dimensional chessboard and a falling method thereof, wherein the falling method provides the three-dimensional chessboard which comprises at least three first surfaces, at least three second surfaces and at least one third surface, wherein the at least three second surfaces are respectively connected between any two of the at least three first surfaces, and the at least three second surfaces are connected through the third surfaces; the falling method comprises the following steps: and arranging at least two coordinate lines on the inner surface of each first surface, the inner surface of each second surface and the inner surface of each third surface, and taking the intersection point of the coordinate lines as a falling point. The beneficial effects of the invention are as follows: by playing chess on the inner surface of the three-dimensional chessboard, a user can conveniently check the chessboard, and the three-dimensional ability of the user in entertainment can be exercised.

Description

Three-dimensional chessboard and its falling method

Technical Field

The invention relates to the technical field of chessboard structures, in particular to a three-dimensional chessboard and a falling method thereof.

Background

The traditional weiqi becomes the favorite intellectual game all over the world, even develops into special sports, has complete professional competition, but is only limited to two-dimensional weiqi.

With the development of science and technology and the innovation of technology, more and more three-dimensional products appear in the life of people, such as 3D printing, 3D movies, virtual reality and the like. Over time, three-dimensional interactions will replace simple planar interactions. Therefore, it is necessary to break through the traditional weiqi, gobang and Chinese checkers, provide a universal three-dimensional space chess, realize the space weiqi, the space gobang, the space Chinese checkers and the like through the ingenious chessboard design, solve the difficult problems of checking, playing and the like, and exercise the three-dimensional ability of people in entertainment from the well-known chess art field.

Disclosure of Invention

The invention aims to solve the problem that a chessboard is a two-dimensional chessboard in the prior art, and provides a three-dimensional chessboard and a dropping method thereof.

The technical scheme adopted by the invention for solving the technical problems is as follows:

in one aspect, a three-dimensional chessboard is provided, wherein the three-dimensional chessboard comprises at least three first surfaces, at least three second surfaces and at least one third surface, the at least three second surfaces are respectively connected between any two of the at least three first surfaces, and the at least three second surfaces are connected through the third surfaces; the falling method comprises the following steps:

and arranging at least two coordinate lines on the inner surface of each first surface, the inner surface of each second surface and the inner surface of each third surface, and taking the intersection point of the coordinate lines as a falling point.

In the dropping method of the present invention, the method further includes:

and arranging at least two coordinate lines on the outer surface of each first surface, the outer surface of each second surface and the outer surface of each third surface, and taking the intersection point between the coordinate lines as a falling point.

In the dropping method of the present invention, the number of the first surfaces is 6, the number of the second surfaces is 12, and the number of the third surfaces is 8.

In the dropping method according to the present invention, the setting at least two coordinate lines on each of the inner surface of the first surface, the inner surface of the second surface, and the inner surface of the third surface, and setting an intersection point between the coordinate lines as a dropping point includes:

arranging one or more transverse lines and one or more longitudinal lines on the inner surface of each first surface, and taking the intersection points of the one or more transverse lines and the one or more longitudinal lines as falling points;

arranging one or more transverse lines or one or more longitudinal lines on the inner surface of each second surface, and arranging a three-surface intersection line, wherein the intersection point of one or more transverse lines and the three-surface intersection line is used as a falling point or the intersection point of one or more longitudinal lines and the three-surface intersection line is used as a falling point;

and arranging three intersecting lines of the three adjacent second surfaces on the inner surface of each third surface, and taking the intersection point of the three intersecting lines of the three adjacent second surfaces as a falling point.

In the dropping method of the present invention, the method further includes:

and setting the distance between two adjacent drop points connected by the transverse line or the longitudinal line or the three-surface intersection line as a unit distance.

In the dropping method of the present invention, the method further includes:

setting the inner surface of the first surface to be a square with a side length of a;

setting the inner surface of the second surface to be rectangular, wherein the length of the rectangle is a, and the width of the rectangle is b;

and setting the inner surface of the third surface to be a regular triangle with the side length of b.

In the dropping method of the present invention, the method further includes:

and arranging one or more transverse lines and one or more longitudinal lines of the inner surface of the first surface in a crossed manner to form a plurality of square grids with the side length of b, wherein the distance between four sides of the first surface and the adjacent and parallel transverse lines or the adjacent and parallel longitudinal lines is b/2.

In the dropping method of the present invention, the method further includes:

setting the distance between two adjacent falling points on the inner surface of the second surface as b, setting the distance between the long edge of the second surface and the intersection line of the three surfaces as b/2, and setting the distance between the short edge of the second surface and the adjacent and parallel transverse line or the adjacent and parallel longitudinal line as b/2.

In the dropping method of the present invention, the method further includes:

and setting the falling point of the inner surface of the third surface at the center of the regular triangle.

In another aspect, a three-dimensional chessboard is provided, which includes at least three first surfaces, at least three second surfaces and at least one third surface, wherein at least three second surfaces are respectively connected between any two of the at least three first surfaces, and at least three second surfaces are connected through the third surface;

the inner surface of each first surface, the inner surface of each second surface and the inner surface of each third surface comprise at least two coordinate lines, and the intersection point of the coordinate lines is used as a falling point.

The three-dimensional chessboard and the falling method thereof have the following beneficial effects: by playing chess on the inner surface of the three-dimensional chessboard, a user can conveniently check the chessboard, and the three-dimensional ability of the user in entertainment can be exercised.

Drawings

Fig. 1 is a schematic view of an inner surface structure of a three-dimensional chessboard according to an embodiment of the present invention;

fig. 2 is a schematic view of an outer surface structure of a three-dimensional chessboard according to an embodiment of the invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The invention provides a three-dimensional chessboard 100 and a chess piece dropping method thereof, which aims to not only facilitate a user to check the chessboard, but also train the three-dimensional ability of people in entertainment by playing chess pieces, such as spatial go, spatial gobang, spatial Chinese checkers and the like, on the three-dimensional chessboard 100.

Referring to fig. 1, fig. 1 is a schematic view of an inner surface structure of a three-dimensional chessboard 100 according to an embodiment of the present invention, the three-dimensional chessboard 100 includes at least three first surfaces 1, at least three second surfaces 2, and at least one third surface 3, the at least three second surfaces 2 are respectively connected between any two of the at least three first surfaces 1, and the at least three second surfaces 2 are connected through the third surface 3; each of the inner surfaces of the first surface 1, the second surface 2, and the third surface 3 includes at least two coordinate lines, and an intersection between the coordinate lines is defined as a falling point 4. The three-dimensional chessboard 100 can be played by manufacturing the corresponding three-dimensional chessboard 100 indoors or manufacturing a corresponding device which can play chess on the inner wall, namely an indoor chessboard.

The falling method of the present invention is realized by a computer program, and the falling method includes a falling setting step, i.e., S1:

s1: at least two coordinate lines are arranged on the inner surface of each first surface 1, the inner surface of each second surface 2 and the inner surface of each third surface 3, and the intersection point of the coordinate lines is used as a falling point 4. Preferably, the number of the first surfaces 1 is 6, the number of the second surfaces 2 is 12, and the number of the third surfaces 3 is 8.

The drop setting step includes sub-steps S11-S13:

s11, disposing one or more transverse lines 5 and one or more longitudinal lines 6 on the inner surface of each first surface 1, and using the intersection points of the one or more transverse lines 5 and the one or more longitudinal lines 6 as drop points 4;

s12, arranging one or more transverse lines 5 or one or more longitudinal lines 6 on the inner surface of each second surface 2, and arranging a three-sided intersection line 7, wherein the intersection point of one or more transverse lines 5 and the three-sided intersection line 7 is used as a drop point 4 or the intersection point of one or more longitudinal lines 6 and the three-sided intersection line 7 is used as a drop point 4;

s13, three intersecting lines 7 of the three adjacent second surfaces 2 are provided on the inner surface of each third surface 3, and the intersection of the three intersecting lines 7 of the three adjacent second surfaces 2 is defined as a falling point 4.

Preferably, the dropping method further includes steps S2-S6:

and S2, setting the distance between two adjacent drop points 4 connected by the transverse line 5, the longitudinal line 6 or the three-surface intersecting line 7 as a unit distance.

S3, setting the inner surface of the first surface 1 to be a square with a side length of a;

setting the inner surface of the second surface 2 to be rectangular, wherein the length of the rectangle is a, and the width of the rectangle is b;

the inner surface of the third surface 3 is arranged as a regular triangle with a side length b.

S4, arranging one or more transverse lines 5 and one or more longitudinal lines 6 of the inner surface of the first surface 1 in an intersecting manner to form a plurality of square grids with side length b, wherein the distance between four sides of the first surface 1 and the adjacent and parallel transverse lines 5 or the adjacent and parallel longitudinal lines 6 is b/2.

And S5, setting the distance between two adjacent falling points 4 on the inner surface of the second surface 2 as b, setting the distance between the long side of the second surface 2 and the three-side intersection line 7 as b/2, and setting the distance between the short side of the second surface 2 and the adjacent and parallel transverse line 5 or the adjacent and parallel longitudinal line 6 as b/2.

S6, the falling point 4 of the inner surface of the third surface 3 is set at the center of the regular triangle.

A plurality of chessmen for being placed on the falling point 4 are arranged into a hemisphere, the radius of the bottom surface of the hemisphere is smaller than that of the bottom surface of the hemisphere

Referring to fig. 2, fig. 2 is a schematic view of an outer surface structure of a three-dimensional chessboard 100 according to an embodiment of the present invention, and the three-dimensional chessboard implemented by a computer program can play chess on not only an inner surface but also an outer surface. The three-dimensional chessboard 100 comprises at least three first surfaces 1, at least three second surfaces 2 and at least one third surface 3, wherein the at least three second surfaces 2 are respectively connected between any two of the at least three first surfaces 1, and the at least three second surfaces 2 are connected through the third surface 3; as shown in fig. 1, the solid chessboard 100 is preferably a six-sided chessboard with a square shape, wherein the faces of each square shape are connected by the second surface 2, and the third surface 3 is arranged at 8 corners of the square shape for placing chess pieces. Namely, the number of the first surfaces 1 is 6, the number of the second surfaces 2 is 12, and the number of the third surfaces 3 is 8.

The outer surface of each of the first surface 1, the second surface 2, and the third surface 3 includes at least two coordinate lines, and an intersection point between the coordinate lines is defined as a falling point 4.

Preferably, each of the first surfaces 1 includes one or more transverse lines 5 and one or more longitudinal lines 6, and an intersection point of one or more transverse lines 5 and one or more longitudinal lines 6 is used as a drop point 4; the transverse lines 5 are perpendicular to the longitudinal lines 6, and one or more transverse lines 5 and one or more longitudinal lines 6 form a grid in the first surface 1.

Each second surface 2 comprises one or more transverse lines 5 or one or more longitudinal lines 6 and a three-surface intersection line 7, and the intersection point of one or more transverse lines 5 and the three-surface intersection line 7 is used as a falling point 4 or the intersection point of one or more longitudinal lines 6 and the three-surface intersection line 7 is used as a falling point 4; one or more transverse lines 5 or one or more longitudinal lines 6 of the first surface 1 extend into the adjacent second surface 2, intersecting it by a three-sided intersection line 7 as a landing point 4.

Each third surface 3 includes three intersecting lines 7 of three second surfaces 2 adjacent thereto, and an intersection of the three intersecting lines 7 of three second surfaces 2 adjacent thereto is defined as a falling point 4. The drop point 4 of the third surface 3 is located in the center of the regular triangle. Since the three-sided intersection line 7 cannot extend in the third surface 3, the center of the third surface 3 is a start point or an end point of the three-sided intersection line 7.

Preferably, the first surface 1 is a square with a side length a; the second surface 2 is rectangular, wherein the length of the rectangle is a, and the width of the rectangle is b; the third surface 3 is a regular triangle with a side length b.

Preferably, one or more of the transverse lines 5 and one or more of the longitudinal lines 6 of the first surface 1 form a plurality of square grids with side length b, and the distance between four sides of the first surface 1 and the adjacent and parallel transverse lines 5 or the adjacent and parallel longitudinal lines 6 is b/2.

Preferably, the distance between two adjacent landing points 4 on the second surface 2 is b, the distance between the long side of the second surface 2 and the three-side intersection line 7 is b/2, and the distance between the short side of the second surface 2 and the adjacent and parallel horizontal line 5 or the adjacent and parallel vertical line 6 is b/2. The intersections between the respective faces are not designated as the falling dots 4, and the intersections between the respective faces are shown by thick lines in the figure, and the horizontal lines 5, the vertical lines 6, and the three-face intersections 7 are shown by thin lines.

And when the distance between two adjacent drop points 4 connected through the transverse line 5 or the longitudinal line 6 or the three-surface intersecting line 7 is set as a unit distance, and the unit distance is b, namely the distance between the chesses is b, executing corresponding draft logic.

In addition, a three-dimensional chess is also provided, which comprises the three-dimensional chessboard 100 and a plurality of chess pieces. The radius of the bottom surface of the hemispheroids of the chess pieces is smaller than

Thus, the chessmen can be placed in the third surface 3.

Various operations of embodiments are provided herein. In one embodiment, the one or more operations described may constitute computer readable instructions stored on one or more computer readable media, which when executed by an electronic device, will cause the computing device to perform the operations described. The order in which some or all of the operations are described should not be construed as to imply that these operations are necessarily order dependent. Those skilled in the art will appreciate alternative orderings having the benefit of this description. Moreover, it should be understood that not all operations are necessarily present in each embodiment provided herein.

Also, as used herein, the word "preferred" is intended to serve as an example, instance, or illustration. Any aspect or design described herein as "preferred" is not necessarily to be construed as advantageous over other aspects or designs. Rather, use of the word "preferred" is intended to present concepts in a concrete fashion. The term "or" as used in this application is intended to mean an inclusive "or" rather than an exclusive "or". That is, unless specified otherwise or clear from context, "X employs A or B" is intended to include either of the permutations as a matter of course. That is, if X employs A; b is used as X; or X employs both A and B, then "X employs A or B" is satisfied in any of the foregoing examples.

Also, although the disclosure has been shown and described with respect to one or an implementation, equivalent alterations and modifications will occur to others skilled in the art based upon a reading and understanding of this specification and the annexed drawings. The present disclosure includes all such modifications and alterations, and is limited only by the scope of the appended claims. In particular regard to the various functions performed by the above described components (e.g., elements, etc.), the terms used to describe such components are intended to correspond, unless otherwise indicated, to any component which performs the specified function of the described component (e.g., that is functionally equivalent), even though not structurally equivalent to the disclosed structure which performs the function in the herein illustrated exemplary implementations of the disclosure. In addition, while a particular feature of the disclosure may have been disclosed with respect to only one of several implementations, such feature may be combined with one or other features of the other implementations as may be desired and advantageous for a given or particular application. Furthermore, to the extent that the terms "includes," has, "" contains, "or variants thereof are used in either the detailed description or the claims, such terms are intended to be inclusive in a manner similar to the term" comprising.

Each functional unit in the embodiments of the present invention may be integrated into one processing module, or each unit may exist alone physically, or a plurality of or more than one unit are integrated into one module. The integrated module can be realized in a hardware mode, and can also be realized in a software functional module mode. The integrated module, if implemented in the form of a software functional module and sold or used as a stand-alone product, may also be stored in a computer readable storage medium. The storage medium mentioned above may be a read-only memory, a magnetic or optical disk, etc. Each apparatus or system described above may execute the storage method in the corresponding method embodiment.

In summary, although the present invention has been described with reference to the preferred embodiments, the above-described preferred embodiments are not intended to limit the present invention, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the present invention, therefore, the scope of the present invention shall be determined by the appended claims.

Claims (1)

1. A three-dimensional chessboard is characterized by comprising at least three first surfaces, at least three second surfaces and at least one third surface, wherein the at least three second surfaces are respectively connected between any two of the at least three first surfaces, and the at least three second surfaces are connected through the third surfaces;

the inner surface of each first surface, the inner surface of each second surface and the inner surface of each third surface comprise at least two coordinate lines, and the intersection point of the coordinate lines is used as a falling point;

the outer surface of each first surface, the outer surface of each second surface and the outer surface of each third surface comprise at least two coordinate lines, and the intersection point between the coordinate lines is used as a falling point;

the inner surface of each first surface comprises one or more transverse lines and one or more longitudinal lines, and the intersection points of the transverse lines and the longitudinal lines are used as falling points;

the inner surface of each second surface comprises one or more transverse lines or one or more longitudinal lines and also comprises a three-surface intersection line, and the intersection point of one or more transverse lines and the three-surface intersection line is used as a falling point or the intersection point of one or more longitudinal lines and the three-surface intersection line is used as a falling point;

the inner surface of each third surface comprises three intersecting lines of three adjacent second surfaces, and the intersection point of the three intersecting lines of the three adjacent second surfaces is used as a falling point.

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