CN220176011U - Three-dimensional laser chess toy - Google Patents

Abstract

The utility model relates to a stereoscopic laser chess toy, which comprises a chessboard and a plurality of chessmen, wherein the chessmen comprise laser emitting chessmen and mirror chessmen, and the number of the mirror chessmen is plural; at least one mirror pawn has a mirror adapted for a lateral light path, called a lateral mirror pawn; at least one mirror surface chess piece is provided with a mirror surface suitable for a vertical light path, and is called a vertical mirror surface chess piece; at least two chessmen can be overlapped up and down, at least one chessman is a chessman with a vertical mirror surface, and the two chessmen are communicated up and down to form a vertical light path after being overlapped. The vertical mirror face chess piece of the stereoscopic laser chess toy can be overlapped with another chess piece up and down, and after the overlapping, the two chess pieces are communicated up and down to form a vertical light path, and laser energy can be vertically transmitted along the vertical light path, so that the stereoscopic laser chess toy is not limited to horizontal plane transmission, and the stereoscopic laser chess toy has high playability and interestingness compared with the prior art.

Description

Three-dimensional laser chess toy

Technical Field

The utility model relates to the field of toys, in particular to a three-dimensional laser chess toy.

Background

The laser chess toy for game includes chessboard and chessmen. The chess pieces comprise laser emitting chess pieces and mirror chess pieces for changing the propagation path of laser light. The laser emitting chessman is provided with a switch button; the mirror surface chessmen are three types, namely a single-sided reflecting chessman, a double-sided reflecting chessman and a split-shooting chessman, wherein the single-sided reflecting chessman is provided with a non-reflecting surface which can be used as a laser end point. When the laser chess toy is sold, a plurality of challenge cards are attached to the interior of the toy, each challenge card is provided with an opening, the positions of the laser emitting chessmen and the laser terminal are regulated, and different opening are shown on different challenge cards. When the player uses, firstly, a challenge card is selected, the laser emitting chessmen and the laser terminal point are placed on the chessboard according to the indication of the challenge card, then the laser emitting chessmen are opened to emit laser, and the game is in an opening state. After the game is played, the player selects proper mirror chessmen to be placed on the chessboard, so that the propagation path of the laser can be changed until the laser reaches the laser end point on the chessboard, and the game is completed. The chessman of the existing laser chess toy is provided with a base, and the chessman is placed on a chessboard through the base, so that laser can be transmitted only on a transverse plane.

Disclosure of Invention

The technical problem to be solved by the utility model is to provide the stereoscopic laser chess toy which can vertically spread laser and has high playability and interestingness.

In order to solve the problems, the utility model provides a stereoscopic laser chess toy, which comprises a chessboard and a plurality of chessmen, wherein the chessmen comprise laser emitting chessmen and mirror chessmen, and the number of the mirror chessmen is plural; at least one mirror pawn has a mirror adapted for a lateral light path, called a lateral mirror pawn; at least one mirror surface chess piece is provided with a mirror surface suitable for a vertical light path, and is called a vertical mirror surface chess piece; at least two chessmen can be overlapped up and down, at least one chessman is a chessman with a vertical mirror surface, and the two chessmen are communicated up and down to form a vertical light path after being overlapped.

Further, at least one mirror-face chess piece is provided with at least two bottom faces, and is used as a transverse mirror-face chess piece when placed at an angle of the first bottom face downwards, and is used as a vertical mirror-face chess piece when placed at an angle of the second bottom face downwards.

Further, in a state in which the mirror surface chess pieces having at least two bottom surfaces are placed at an angle with the second bottom surfaces facing downward to be used as the vertical mirror surface chess pieces, the mirror surface is inclined, the mirror surface orientation has both a vertical component and a lateral component, and the vertical mirror surface chess pieces are also used as the horizontal mirror surface chess pieces in this state.

Further, the mirror pawn having at least two bottom surfaces, wherein the two bottom surfaces are not parallel, and the mirror surface is perpendicular to the first bottom surface.

Further, the chess piece type comprises an auxiliary heightened chess piece, and the other chess piece can be supported on the auxiliary heightened chess piece so as to be arranged on top of each other.

Further, the pawn comprises a barrier pawn for blocking laser propagation, which barrier pawn can be stacked on top of another pawn.

Further, there are at least three types of mirror pawns: single-sided reflective chess pieces, double-sided reflective chess pieces and split chess pieces.

Further, two chessmen which are overlapped up and down are provided with magnetic attraction pieces, and are mutually and magnetically attracted and fixed through the magnetic attraction pieces.

Further, both chesses are arranged one above the other and have a frame, and the frame of the upper chessman is carried on the frame of the lower chessman to realize the superposition.

Further, the frame is specifically a cube frame.

The vertical mirror face chess piece of the stereoscopic laser chess toy can be overlapped with another chess piece up and down, and after the overlapping, the two chess pieces are communicated up and down to form a vertical light path, and laser energy can be vertically transmitted along the vertical light path, so that the stereoscopic laser chess toy is not limited to horizontal plane transmission, and the stereoscopic laser chess toy has high playability and interestingness compared with the prior art.

Drawings

FIG. 1 is an isometric view of a three-dimensional laser chess toy;

FIG. 2 is an isometric view of the three-dimensional laser chess toy in an open state;

fig. 3 is an isometric view of the solid laser chess toy of fig. 2 in a finished state (the propagation path of the laser is shown by arrows).

Detailed Description

The utility model is further described in detail below in connection with the detailed description.

The three-dimensional laser chess toy is shown in figure 1 and comprises a chessboard 1 and a plurality of chessmen 2. The chess pieces 2 are of the type comprising a laser emitting chess piece 21, a mirror chess piece 22, an auxiliary heightening chess piece 23 and a roadblock chess piece 24 for blocking laser propagation. The mirror chess pieces 22 are three types, namely a single-sided reflecting chess piece 221, a double-sided reflecting chess piece 222 and a splitting chess piece 223. The single-sided reflective pawn 221 has a mirror for reflecting the incident laser light; the side of the single-sided reflective pawn 221 facing away from the mirror is a non-reflective surface, which may be used as a laser end point. The double-sided reflective chess piece 222 has two opposite mirror surfaces, each of which is capable of reflecting incident laser light; if two laser beams are respectively incident on two mirror surfaces of the double-sided reflecting chess piece 222, the two laser beams are respectively reflected out through the two mirror surfaces. The splitting chess piece 223 has a mirror for splitting incident laser light, and a laser beam is split into a direct laser light and a reflected laser light by the mirror after being incident on the mirror. The plurality of chessmen 2 of the stereoscopic laser chess toy all have cube frames 211. Wherein, two parallel surfaces of the cube frame 211 of the mirror surface chess piece 22 may be selected as the first bottom surface S1 of the mirror surface chess piece 22, wherein four surfaces perpendicular to the first bottom surface S1 may be selected as the second bottom surface of the mirror surface chess piece 22, the mirror surface of the mirror surface chess piece 22 is rectangular, the rectangular mirror surface is perpendicular to the selected first bottom surface, and the first side L1 of the mirror surface is parallel to the diagonal line of the first bottom surface S1.

The three-dimensional laser chess toy is sold with a plurality of challenge cards attached to the interior, each challenge card is provided with an opening, the opening is defined by the placement positions of the laser emitting chessmen 21, the roadblock chessmen 24, the auxiliary heightening chessmen 23 and/or the laser end point (namely, the non-reflecting surface of the single-sided reflecting chessmen 221), and different openings are shown on different challenge cards. Five single-sided reflective chess pieces 221 are adopted in the embodiment, namely a first single-sided reflective chess piece 2211, a second single-sided reflective chess piece 2212, a third single-sided reflective chess piece 2213, a fourth single-sided reflective chess piece 2214 and a fifth single-sided reflective chess piece 2215. When a player uses the player, a challenge card is selected, and the chessman is placed as an opening as shown in figure 2 according to the indication of the challenge card, and the specific process is as follows: a laser emitting chessman 21 is placed on the placing position of the third row of the first row of the left number of the chessboard 1 in figure 2, so that the laser emitting port faces to the right; a roadblock piece 24 is put on the putting position of the third row of the front third row of the left number of the chessboard 1, a first single-sided reflecting piece 2211 is put on the roadblock piece 24, so that the lower roadblock piece 24 bears the upper single-sided reflecting piece 2211, the single-sided reflecting piece 2211 is put at an angle with the first bottom face facing downwards to be used as a transverse mirror surface piece for a transverse light path, and the non-reflecting surface of the single-sided reflecting piece 2211 is leftwards and backwards used as a first laser endpoint 22111; next, two auxiliary heightening chesses 23 are stacked up and down on the first row of the third column of the left number of the chessboard 1, and a second single-sided reflecting chesses 2212 are stacked on the two auxiliary heightening chesses 23 and supported by the two auxiliary heightening chesses 23, wherein the single-sided reflecting chesses 2212 are placed at an angle that the first bottom surface faces downwards and serve as transverse mirror chesses for transverse light paths, and the non-reflecting surface faces leftwards and backwards and serves as a second laser endpoint 22121. After the chessman is put according to the instruction of the challenge card, the laser emitting chessman 21 is opened to emit laser to the right, and the game is in an opening state.

After the game is played, the player selects the proper mirror chessmen 22 and/or auxiliary heightened chessmen 23 to be placed on the chessboard 1, and changes the propagation path of the laser emitted by the laser emitting chessmen 21 until the laser reaches two laser end points on the chessboard 1, even if the game is completed (winning is obtained). Fig. 3 shows a situation where a game can be played, and the following operation process is performed: starting from the starting state shown in fig. 2, the player takes a third single-sided reflecting chess piece 2213, and places the third single-sided reflecting chess piece 2213 on the placing position of a third row of the second front row of the left number on the chessboard 1 at an angle that the second bottom surface faces downwards, and the mirror surface of the third single-sided reflecting chess piece 2213 is obliquely oriented to the left and upwards, namely has a vertical component and a transverse component, so that the single-sided reflecting chess piece 2213 is used as a vertical mirror chess piece and a transverse mirror chess piece; then, a split chess piece 223 is taken, so that the split chess piece 223 is overlapped on the third single-sided reflecting chess piece 2213 at an angle that the second bottom surface faces downwards, and the mirror reflection surface of the split chess piece is obliquely oriented to the right downwards, namely, the mirror surface orientation has both a vertical component and a horizontal component, so that the split chess piece 223 is used as a vertical mirror chess piece and a horizontal mirror chess piece; then, a fourth single-sided reflective chess piece 2214 is stacked on the split chess piece 223 at an angle of the second bottom surface facing downwards, and the mirror surface of the fourth single-sided reflective chess piece 2214 is inclined towards the front lower side, namely the mirror surface has both a vertical component and a horizontal component, so that the single-sided reflective chess piece 2214 serves as both a vertical mirror chess piece and a horizontal mirror chess piece; then, two auxiliary heightening chesses 23 are stacked up and down and placed on the placing position of the first row of the second column of the left number of the chessboard 1, and then a fifth single-sided reflecting chesses 2215 are stacked on the two auxiliary heightening chesses 23 and supported by the two auxiliary heightening chesses 23, the single-sided reflecting chesses 2215 are placed at an angle that the first bottom surface of the single-sided reflecting chesses is downward, and serve as transverse mirror chesses for transverse light paths, and the mirror reflection surface of the single-sided reflecting chesses faces to the right and the rear. To this end, the playing piece 2 is placed, in this state, the transverse laser emitted rightward by the laser emitting piece 21 is reflected by the third single-sided reflecting piece 2213 to form an upward vertical laser reaching the mirror surface of the splitting piece 223, where the upward vertical laser is split into a beam of rightward transverse reflected laser and a beam of upward vertical laser by the mirror surface of the splitting piece 223: the laterally reflected laser light to the right reaches a first laser end point 22111; after the upward vertical direct laser reaches the fourth single-sided reflecting chess piece 2214, the forward transverse laser is formed by reflection of the fourth single-sided reflecting chess piece 2214, after the forward transverse laser reaches the fifth single-sided reflecting chess piece 2215, the right transverse laser is formed by reflection of the fifth single-sided reflecting chess piece 2215, and the game is completed (the stereoscopic laser chess toy in the state is shown in fig. 3). It can be seen that a transverse light path is formed between the laser emitting chess pieces 21 of the third row of the first left row and the third single-sided reflecting chess pieces 2213 of the third row of the first left row on the chessboard 1, three chess pieces 2, namely, the fourth single-sided reflecting chess pieces 2214, the splitting chess pieces 223 and the third single-sided reflecting chess pieces 2213, which are stacked one above the other, are communicated one above the other to form a vertical light path, a transverse light path is formed between the splitting chess pieces 223 and the first right laser end point 22111, a transverse light path is formed between the fourth single-sided reflecting chess pieces 2214 of the third row of the first left row and the fifth single-sided reflecting chess pieces 2215 of the first row of the first left row, and a transverse light path is formed between the fifth single-sided reflecting chess pieces 2215 of the first row of the first left row and the second right laser end point 21. The term "suitable for a transverse light path" refers to that incident light and/or emergent light of the mirror chess piece 22 are transverse, and the term "suitable for a vertical light path" refers to that incident light and/or emergent light of the mirror chess piece 22 are vertical. In this embodiment, the third single-sided reflective chess piece 2213, the fourth single-sided reflective chess piece 2214, and the fifth single-sided reflective chess piece 2215 can be replaced with the double-sided reflective chess piece 222.

In this embodiment, each chess piece 2 has a square frame 211, and two chess pieces 2 are stacked up and down, specifically, the square frame 211 of the top chess piece 2 is carried on the square frame 211 of the bottom chess piece 2 to realize stacking. In order to improve the stability between the stacked chessmen 2 and prevent the stacked chessmen 2 from toppling over, a magnetic attraction piece (not shown in the figure) can be arranged inside the square frame of each chessmen 2, and the stacked chessmen 2 are mutually and magnetically attracted and fixed through the magnetic attraction piece; in other embodiments, the magnetic attraction member may be replaced by a structure such as a clamping member, so long as the chessmen 2 stacked one above the other can be fixed to each other. In other embodiments, the laser emitting pawn 21 may not have a square frame 211, and the auxiliary raised pawn 23 may be modified to be a solid square pawn; the cube frame 211 of the pawn 2 may be replaced by a frame of another shape or another structure, as long as the pawn 2 comprises a transverse mirror pawn and a vertical mirror pawn which can be stacked one above the other.

The above-described embodiments are provided for the present utility model only and are not intended to limit the scope of patent protection. Insubstantial changes and substitutions can be made by one skilled in the art in light of the teachings of the utility model, as yet fall within the scope of the claims.

Claims (12)

1. The utility model provides a three-dimensional laser chess toy, includes chess board (1) and a plurality of piece (2), its characterized in that: the chessmen (2) comprise laser emitting chessmen (21) and mirror chessmen (22), and the mirror chessmen (22) are provided with a plurality of chessmen; at least one mirror pawn (22) having a mirror adapted for a transverse light path, referred to as a transverse mirror pawn; at least one mirror pawn (22) has a mirror adapted for a vertical light path, called a vertical mirror pawn; at least two chessmen (2) can be overlapped up and down, at least one chessman (2) is a chessman (22) with a vertical mirror surface, and the two chessmen (2) are communicated up and down to form a vertical light path after being overlapped.

2. The three-dimensional laser chess toy according to claim 1, wherein at least one mirror chess piece (22) has at least two bottom surfaces, wherein the mirror chess piece is used as a transverse mirror chess piece when placed at an angle of the first bottom surface facing downwards, and the mirror chess piece is used as a vertical mirror chess piece when placed at an angle of the second bottom surface facing downwards.

3. A stereoscopic laser chess toy as claimed in claim 2, wherein said mirror chess piece (22) having at least two bottom surfaces is inclined in a state in which the mirror surface thereof is disposed at an angle of the second bottom surface facing downward for use as a vertical mirror chess piece, the mirror surface facing both vertically and laterally, the vertical mirror chess piece in this state also functioning as a horizontal mirror chess piece.

4. A three-dimensional laser chess toy as claimed in claim 3, wherein said mirror chess piece (22) having at least two bottom surfaces, said two bottom surfaces being non-parallel and the mirror surface being perpendicular to the first bottom surface.

5. A stereoscopic laser chess toy as claimed in claim 1, characterised in that the chess pieces (2) are of the type comprising auxiliary raised chess pieces (23), the other chess piece (2) being supportable on the auxiliary raised chess pieces (23) so as to be placed one above the other.

6. A stereoscopic laser chess toy as claimed in claim 1, characterised in that the chess pieces (2) comprise barrier chess pieces (24) for blocking laser propagation, the barrier chess pieces (24) being stackable one above the other with another chess piece (2).

7. The three-dimensional laser chess toy as claimed in claim 1, wherein the mirror chess pieces (22) are of at least three types: a single-sided reflecting chess piece (221), a double-sided reflecting chess piece (222) and a splitting chess piece (223).

8. The stereoscopic laser chess toy according to claim 1, 6 or 7, wherein both chessmen (2) which are stacked one above the other are provided with magnetic attraction pieces by which they are magnetically attracted and fixed to each other.

9. A three-dimensional laser chess toy as claimed in any one of claims 1, 5 and 6, wherein both chesses (2) are stacked one upon the other with a frame (211), the frame (211) of the upper chessman (2) bearing upon the frame (211) of the lower chessman (2) to effect stacking.

10. The three-dimensional laser chess toy according to claim 9, characterised in that the frame (211) is embodied as a cube frame (211).

11. The three-dimensional laser chess toy as claimed in claim 8, wherein both chess pieces (2) stacked one above the other are provided with frames (211), and the frames (211) of the upper chess pieces (2) are carried on the frames (211) of the lower chess pieces (2) to realize the stacking.

12. The solid laser chess toy as claimed in claim 11, wherein the frame (211) is embodied as a cube frame (211).