CN112076460B - Laser maze toy based on Rubik's Cube - Google Patents

Abstract

The present invention relates to a laser maze toy with a magic cube as a carrier. It solves the problem that the prior art design is not reasonable enough, including a magic cube body, the magic cube body is a split structure and has a plurality of magic cube frames, two adjacent magic cube frames are connected by a rotating connection structure, each magic cube frame is respectively formed with a plurality of square lattice bodies with rectangular square cavities and hollow shapes, the square lattices on the two adjacent magic cube frames are arranged one by one, a laser generating component is arranged on the magic cube body, a mirror box body is respectively placed in each square lattice body and at least one mirror box body corresponds to the laser generating component, and a light source refraction component is arranged in the mirror box body. The advantages are: the laser magic cube maze creates a three-dimensional space maze, which changes the problem that the traditional maze is limited to a two-dimensional plane, uses laser to replace the physical objects in the traditional maze to pass through the maze, and uses the built-in small mirror to refract the laser, so that the laser can travel in a three-dimensional space.

Description

Laser maze toy using magic square as carrier

Technical Field

The invention relates to the field of toys, in particular to a laser maze toy taking a magic cube as a carrier.

Background

The intelligent toy, whether children or adult, is a toy for developing intelligence and increasing intelligence in the playing process as the name implies. It has infinite interest and exploring ability, and can develop the intelligence of players. Common educational toys include block toys, jigsaw toys, maze toys, magic cube toys, and the like. Among them, the maze toy is one of the educational toys that is favored by players. The existing maze toy mainly comprises a base, a maze plate, a maze line and small balls, namely, players roll the small balls in the maze line under the self gravity by tilting the maze toy. That is, the conventional maze toy is limited only in a two-dimensional plane, and has a great limitation in use of playing methods, and the object of walking the maze is limited on a real object, so that a player feels boring when playing, the requirement of the player cannot be fully met, the playability is poor, and the fun is lacking.

In order to solve the defects existing in the prior art, long-term exploration is performed, and various solutions are proposed. For example, chinese patent literature discloses a three-dimensional maze toy [ CN201120179043.2] comprising a polyhedron, a rolling ball and a transparent or semitransparent shell, wherein a maze partition is provided on the polyhedron, maze passages are formed between the maze partitions, the maze passages on each face of the polyhedron are communicated with each other, the shell is sleeved on the maze partition, the shape of the shell matches with that of the polyhedron, the rolling ball is rollably placed in the maze passages and is located between the polyhedron and the shell, and the diameter of the rolling ball is smaller than the height of the maze partition.

The scheme solves the problem that the traditional maze toy is limited to two-dimensional space to a certain extent, and is designed into a three-dimensional shape, so that the plane maze toy is developed into the three-dimensional maze toy, but the scheme still has a plurality of defects, such as poor playability and lack of fun, which still needs to rely on real objects to play.

Disclosure of Invention

Aiming at the problems, the invention provides the laser maze toy which is reasonable in design, high in playability and free from depending on objects and takes the magic square as a carrier.

The magic cube-based laser maze toy is characterized in that the magic cube-based laser maze toy comprises a cuboid magic cube body, the magic cube body is of a split structure and is provided with a plurality of magic cube frames which are sequentially overlapped from top to bottom, two adjacent magic cube frames are connected through a rotary connecting structure, a plurality of square cavities which are cuboid and hollow are respectively formed in each magic cube frame, square grids on the two adjacent magic cube frames are arranged in a one-to-one correspondence manner, a laser generating component for emitting a laser source is arranged on each magic cube body, at least one mirror surface box body corresponds to the laser generating component, and a light source refraction component for refracting the laser source by the light source is arranged in each mirror surface box body so that the laser source is conducted between the two adjacent square grids on the same magic cube frame and/or conducted between the two square grids corresponding to the two adjacent magic cube frames. By using the magic cube as a carrier, a three-dimensional space maze is created, the problem that the traditional maze toy is limited on a two-dimensional plane is solved, the playing method of the laser magic cube maze is increased, a laser source is used for replacing a real object in the traditional maze to pass through the maze, a built-in light source refraction assembly is used for refracting the laser source, and the laser can be redirected by placing a mirror surface box body or rotating a magic cube frame. So that the laser can walk in three-dimensional space.

In the laser maze toy taking the magic cube as the carrier, the number of the magic cube frames is three, and the magic cube frames are sequentially overlapped from top to bottom to form a cube-shaped magic cube.

In the laser maze toy taking the magic square as the carrier, the square body in the magic square frame is provided with nine square bodies which are distributed in a rectangular array, and square cavities of the square body are square.

In the laser maze toy taking the magic square as the carrier, the mirror surface box body comprises a square box body which is square box-shaped and is provided with an inner cavity, the upper end of the square box body is open, and the upper end of the square box body is closed through a square cover body.

In the above-mentioned laser maze toy taking the magic cube as the carrier, the light source refraction subassembly include the jack groove of setting in square box body bottom, the jack groove set up along two diagonal angles slope in square box body bottom, just the jack groove in have vertical refraction mirror body that sets up in square box body, just square box body circumference each face on have the light trap respectively.

In the above laser maze toy using the magic cube as the carrier, the upper end of the magic cube frame located at the uppermost part and the lower end of the magic cube frame located at the lowermost part of the three magic cube frames are respectively and detachably provided with a sealing cover for preventing the mirror surface box body from separating from the square grid body, the circumferential outer side of the sealing cover is provided with an open groove, and the sealing cover is respectively provided with through holes corresponding to the square grid bodies one by one.

In the above-mentioned laser maze toy taking magic cube as carrier, the magic cube frame be square frame column structure, just the magic cube frame in be equipped with two horizontal division boards that horizontal equidistant set up and two vertical equidistant set up the vertical division board, just horizontal division board and vertical division board cross respectively and set up thereby form above-mentioned each Fang Geti, just magic cube frame circumference outside, horizontal division board and vertical division board on be equipped with respectively with the corresponding fretwork hole of light trap on the square box body, just the diameter size of fretwork hole be less than the diameter size of square box body.

In the laser maze toy taking the magic cubes as the carrier, the rotating connection structure comprises installation seats respectively arranged in the square body of each magic cube frame in the middle, the installation seats on the two adjacent magic cube frames are correspondingly arranged up and down, the two adjacent installation seats are connected through a rotating connection assembly, an elastic support structure is further arranged between the installation seats, the rotating connection assembly comprises a connection plate which is arranged in the square body and is positioned above the installation seats, the connection plate is provided with connection holes corresponding to the installation seats, the installation holes of the installation seats or the connection holes of the connection plate on any one of the two adjacent magic cube frames are connected with the connection holes of the connection plate or the installation holes of the installation seats on the rest magic cube frames through connection bolts, the elastic support structure comprises support springs respectively sleeved on the connection bolts, one end of each support spring acts on the installation seat or the connection plate on any one of the two adjacent magic cube frames, and the other end of each support spring acts on the connection plate or the installation seat on the rest magic cube frames.

In the laser maze toy taking the magic square as the carrier, the laser generating component comprises a laser generator, one end of the laser generator is provided with a switch button, one end of the laser generator is provided with a laser emitting head, and the laser emitting head is arranged in a light hole of a square box body in a square frame positioned at the uppermost part or a square frame positioned at the lowermost part of the three magic square frames.

In the laser maze toy taking the magic square as the carrier, the upper ends of the square grids positioned in the middle on the magic square frame positioned at the uppermost part or the magic square frame positioned at the lowermost part among the three magic square frames are closed by the cover, the cover is positioned above the connecting plate and the mounting seat, and the cover does not exceed the upper end of the sealing cover.

Compared with the prior art, the laser magic cube labyrinth has the advantages that a three-dimensional space labyrinth is created, the problem that a traditional labyrinth is limited on a two-dimensional plane is solved, laser is used for replacing a real object in the traditional labyrinth to pass through the labyrinth, and a built-in small mirror is used for refracting the laser, so that the laser can walk in the three-dimensional space. The playing method of the maze is increased, laser diversion can be realized by placing small squares with light refraction or rotating a single layer, and the maze is suitable for one person to play and two persons to play in a competition mode, so that the interest of the maze is enriched.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of another view of the present invention;

FIG. 3 is a schematic view of a partial structure of the present invention;

FIG. 4 is an exploded view of a partial structure of the present invention;

FIG. 5 is a schematic view of the structure of the mirror box of the present invention;

FIG. 6 is an exploded view of the structure of the mirror housing of the present invention;

In the figure, a magic cube 1, a magic cube frame 11, a sealing cover 12, an opening groove 13, a through hole 14, a transverse partition plate 15, a longitudinal partition plate 16, a hollowed hole 17, a cover 18, a rotary connecting structure 2, a mounting seat 21, a connecting plate 22, a connecting hole 23, a mounting hole 24, a connecting bolt 25, a supporting spring 26, a square body 3, a square cavity 31, a laser generating component 4, a laser generator 41, a switch button 42, a mirror box 5, a square box 51, a square cover 52, a light source refraction component 6, a plugging groove 61, a refraction mirror 62 and a light transmission hole 63.

Detailed Description

The invention will be described in further detail with reference to the drawings and the detailed description.

As shown in fig. 1-6, the laser maze toy using the magic cube as a carrier comprises a magic cube body 1 in a cuboid shape, wherein the magic cube body 1 is in a split structure and is provided with a plurality of magic cube frames 11 which are sequentially overlapped from top to bottom, two adjacent magic cube frames 11 are connected through a rotating connection structure 2, a plurality of square grids 3 which are provided with square cavities 31 in the cuboid shape and are hollow are respectively formed in each magic cube frame 11, square grids 3 on the two adjacent magic cube frames 11 are arranged in a one-to-one correspondence manner, a laser generating component 4 for emitting laser sources is arranged on the magic cube body 1, mirror surface box bodies 5 are respectively arranged in each square grid 3 and correspond to the laser generating component 4, and a light source refraction component 6 for refracting the laser sources is arranged in the mirror surface box bodies 5 so as to enable the laser sources to conduct between the two adjacent square grids 3 on the same magic cube frame 11 and/or conduct between the two square grids 3 corresponding to the two adjacent magic cube frames 11. By using the magic cube 1 as a carrier, a three-dimensional space maze is created, the problem that the traditional maze toy is limited on a two-dimensional plane is solved, the playing method of the laser magic cube maze is increased, a laser source is used for replacing a real object in the traditional maze to pass through the maze, a built-in light source refraction component is used for refracting the laser source, and the laser can be redirected by placing a mirror surface box body 5 or rotating a magic cube frame 11, so that the laser can walk in the three-dimensional space.

Preferably, the number of the magic square frames 11 is three, and the magic square frames 1 are sequentially overlapped from top to bottom to form a square, nine square bodies 3 are arranged in a rectangular array in a square mode in the square frames 11, the square cavities 31 of the square bodies 3 are square, and when in actual playing, other square bodies 3 except the square body 3 in the middle can be used for placing the mirror surface box bodies 5, so that 8 square bodies are arranged in each layer, and the total number of the mirror surface box bodies 5 is 24.

The mirror box 5 comprises a square box 51 with an inner cavity, wherein the upper end of the square box 51 is open, and the upper end of the square box 51 is closed by a square cover 52. Preferably, the square box body 51 and the square cover body 52 are both made of acrylic materials and are not easy to damage, wherein the light source refraction assembly 6 comprises a plugging groove 61 arranged at the bottom of the square box body 51, the plugging groove 61 is obliquely arranged along two opposite angles at the bottom of the square box body 51, a refraction mirror body 62 vertically arranged in the square box body 51 is plugged in the plugging groove 61, and light holes 63 are respectively formed in each surface of the circumference of the square box body 51. It is obvious that the transmission of the laser source between the different square bodies 3 is achieved by refracting the laser source by means of the obliquely arranged refractive mirror body 62 and penetrating the light aperture.

In order to prevent the mirror box body 5 from being separated from the square body 3 during playing, the upper ends of the magic square frames 11 positioned at the uppermost position and the lower ends of the magic square frames 11 positioned at the lowermost position of the three magic square frames 11 are respectively provided with a sealing cover 12 for preventing the mirror box body 5 from being separated from the square body 3 in a detachable manner, the circumferential outer side of the sealing cover 12 is provided with an opening groove 13, and the sealing covers 12 are respectively provided with through holes 14 which are in one-to-one correspondence with the square body 3. The upper ends of the square grids 3 positioned in the middle on the uppermost magic cube frame 11 or the lowermost magic cube frame 11 of the three magic cube frames 11 are closed by the cover 18, the cover 18 is positioned above the connecting plate 22 and the mounting seat 21, and the cover 18 does not exceed the upper end of the sealing cover 12.

Preferably, the magic square frame 11 is square frame-shaped structure, and is equipped with two horizontal division boards 15 that horizontal equidistant set up and two vertical equidistant set up longitudinal division boards 16 in the magic square frame 11, and thereby horizontal division boards 15 and vertical division boards 16 cross each other and set up respectively and form above-mentioned each square lattice body 3, and be equipped with the fretwork hole 17 corresponding with the light trap 63 on the square box body 51 on the magic square frame 11 circumference outside, horizontal division boards 15 and the vertical division boards 16 respectively, and the diameter size of fretwork hole 17 is less than the diameter size of square box body 51.

In order to realize circumferential rotation between two adjacent magic cube frames 11, the rotary connecting structure 2 comprises mounting seats 21 respectively arranged in the square body 3 of each magic cube frame 11 in the middle, the mounting seats 21 on the two adjacent magic cube frames 11 are correspondingly arranged up and down, the two adjacent mounting seats 21 are connected through a rotary connecting component, an elastic supporting structure is further arranged between the mounting seats 21, the rotary connecting component comprises a connecting plate 22 arranged in the square body 3 and positioned above the mounting seats 21, the connecting plate 22 is provided with a connecting hole 23 corresponding to the mounting seat 21, the mounting hole 24 of the mounting seat 21 on any one magic cube frame 11 or the connecting hole 23 of the connecting plate 22 on the other magic cube frame 11 of the two adjacent magic cube frames 11 is connected with the connecting hole 23 of the connecting plate 22 or the mounting hole 24 of the mounting seat 21 on the other magic cube frame 11 through a connecting bolt 25, the elastic supporting structure comprises a supporting spring 26 respectively sleeved on the connecting bolt 25, one end of the supporting spring 26 acts on the mounting seat 21 or the connecting plate 22 on any one magic cube frame 11 of the two adjacent magic cube frames 11, and the other end of the supporting spring 26 acts on the other magic cube frame 11 or the other magic cube frame 11 acts on the other magic cube frame 11. The connecting bolts 25 and the supporting springs 26 provide stability inside the cube.

Preferably, the laser generating assembly 4 includes a laser generator 41, one end of the laser generator 41 is provided with a switch button 42, one end of the laser generator 41 is provided with a laser emitting head, and the laser emitting head is arranged in a light hole 63 of a square box body 51 in the square box body 3 of the magic square frame 11 positioned at the uppermost position or the magic square frame 11 positioned at the lowermost position of the three magic square frames 11, for example, the laser generating assembly 4 is arranged outside the square box body 51 in the square box body 3 of the magic square frame 11 positioned at the lowermost position, and when the laser emitting head emits the laser source, the laser source is refracted by a refraction mirror body 62 in the laser emitting head and is transmitted through the light hole so as to conduct the laser source to the direction of the adjacent square box body 3.

In this embodiment, when in use, the cover 12 is opened first, the two players respectively obtain 12 mirror surface boxes 5, then the mirror surface boxes 5 are sequentially placed in the square grid 3, then the switch button 42 is pressed to make the laser source emit, the purpose of turning the laser is achieved by rotating the magic cube frame 11 or changing the position of the mirror surface box 5 or changing the position of the refractive mirror 62 in the mirror surface box 5, and the player achieving the final closed loop or the predetermined loop is winning, for example, three magic cube frames 11, and the numbers of the square grids 3 in the magic cube frame 11 of the first layer are as follows:

1	2	3
			4	5	6
7	8	9

The number of the square bodies 3 in the second-layer magic square frame 11 arranged in the same order is shown in the following table:

10	11	12
			13	14	15
16	17	18

the numbers of the square bodies 3 in the third-layer magic cube frame 11 arranged in the same order are shown in the following table:

19	20	21
			22	23	24
25	26	27

The three-layer magic cube frame 11 is provided with the mirror surface box bodies 5 except the square bodies 3 with the numbers 5, 14 and 23, the mirror surface box bodies 5 are arranged in the other square bodies 3, when the laser emission head emits the laser source to be emitted from the square body 3 with the number 1, the laser source is led to start from the square body 3 with the number 1 by rotating the magic cube frame 11 or changing the position of the mirror surface box body 5 or changing the position of the refraction mirror body 62 in the mirror surface box body 5, and the laser source passes through the square bodies 3:1-2-3-12-21-20-19-22-25-16-7-4-1 with the following numbers until the laser source returns to the square body 3 with the number 1 to form a closed light path.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the invention. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although the terms of the cube 1, the cube frame 11, the cover 12, the open groove 13, the through hole 14, the lateral partition plate 15, the longitudinal partition plate 16, the hollowed-out hole 17, the cover 18, the rotational connection structure 2, the mount 21, the connection plate 22, the connection hole 23, the mounting hole 24, the connection bolt 25, the support spring 26, the square body 3, the square cavity 31, the laser generating component 4, the laser generator 41, the switch button 42, the mirror box 5, the square box 51, the square cover 52, the light source refraction component 6, the insertion groove 61, the refraction mirror 62, the light transmission hole 63 are used more herein, the possibility of using other terms is not excluded. These terms are only used to more conveniently describe and explain the nature of the invention and should be construed in a manner consistent with their spirit and scope.

Claims (6)

1. The laser maze toy taking the magic cube as the carrier comprises a magic cube body (1) which is in a cuboid shape, and is characterized in that the magic cube body (1) is in a split structure and is provided with a plurality of magic cube frames (11) which are sequentially overlapped from top to bottom, two adjacent magic cube frames (11) are connected through a rotating connection structure (2), a plurality of square boxes (3) which are provided with square cavities (31) in a cuboid shape and are in a hollowed-out shape are respectively formed in each magic cube frame (11), the square boxes (3) on the two adjacent magic cube frames (11) are arranged in a one-to-one correspondence manner, the magic cube body (1) is provided with a laser generating component (4) for emitting a laser source, a mirror surface box body (5) is respectively arranged in each square box body (3) and at least one mirror surface box body (5) corresponds to the laser generating component (4), the mirror box body (5) is internally provided with a light source refraction component (6) used for refracting a laser source so as to enable the laser source to conduct between two adjacent square grids (3) on the same magic square frame (11) and/or conduct between two square grids (3) corresponding to the two adjacent magic square frames (11), the number of the magic square frames (11) is three and is sequentially overlapped from top to bottom to form square magic square bodies (1), the square grids (3) in the magic square frames (11) are provided with nine square grids (3) and the Fang Geti (3) are respectively distributed in a rectangular array, square grid cavities (31) of the Fang Geti (3) are square, the mirror box body (5) comprises square box bodies (51) which are square boxes and have inner cavities, the upper ends of the square box bodies (51) are sealed by square cover bodies (52), the square frames (11) are in a square shape, and the longitudinal direction (16) are arranged on the square boxes (11), and the two partition plates (15) are arranged at equal intervals in the longitudinal direction and the longitudinal direction (16) of the square boxes (11) and are arranged at equal intervals respectively, the transverse partition plate (15) and the longitudinal partition plate (16) are respectively provided with a hollowed-out hole (17) corresponding to the light transmission hole (63) in the square box body (51), and the diameter of the hollowed-out hole (17) is smaller than that of the square box body (51).

2. The magic cube-based laser maze toy according to claim 1, wherein the light source refraction assembly (6) comprises a plugging groove (61) arranged at the bottom of the square box body (51), the plugging groove (61) is obliquely arranged along two opposite angles at the bottom of the square box body (51), a refraction mirror body (62) vertically arranged in the square box body (51) is inserted into the plugging groove (61), and light holes (63) are respectively formed in each surface of the circumference of the square box body (51).

3. The magic cube supported laser maze toy according to claim 1, wherein the upper ends of the magic cube frames (11) located at the uppermost part and the lower ends of the magic cube frames (11) located at the lowermost part are respectively and detachably provided with a sealing cover (12) for preventing the mirror surface box body (5) from being separated from the square grid body (3), the circumferential outer side of the sealing cover (12) is provided with an opening groove (13), and the sealing cover (12) is respectively provided with through holes (14) corresponding to the square grid bodies (3) one by one.

4. The magic cube-based laser maze toy according to claim 1, wherein the rotating connection structure (2) comprises mounting seats (21) respectively arranged in the square body (3) with each magic cube frame (11) in the middle, the mounting seats (21) on two adjacent magic cube frames (11) are correspondingly arranged up and down, the two adjacent mounting seats (21) are connected through a rotating connection assembly, an elastic support structure is further arranged between the mounting seats (21), the rotating connection assembly comprises a connection plate (22) arranged in the square body (3) and positioned above the mounting seats (21), the connection plate (22) is provided with a connection hole (23) corresponding to the mounting seat (21), the connection hole (24) of the mounting seat (21) or the connection hole (23) of the connection plate (22) on any one magic cube frame (11) of the two adjacent magic cube frames (11) is connected with the connection hole (23) of the connection plate (22) on the other magic cube frame (11) through a connection bolt (25), the elastic support structure is respectively arranged on the connection hole (25), and one end of the supporting spring (26) acts on the mounting seat (21) or the connecting plate (22) on any one magic cube frame (11) in the two adjacent magic cube frames (11), and the other end acts on the connecting plate (22) or the mounting seat (21) on the other magic cube frame (11).

5. A magic cube based laser maze toy according to claim 3, characterized in that the laser generating component (4) comprises a laser generator (41), one end of the laser generator (41) is provided with a switch button (42), one end of the laser generator (41) is provided with a laser emitting head, and the laser emitting head is arranged in a light hole (63) of a square box body (51) in a square frame (11) positioned at the uppermost position or a square body (3) positioned at the lowermost position of the three magic cube frames (11).

6. The magic cube based laser maze toy according to claim 5, wherein the upper ends of the square cubes (3) positioned at the uppermost magic cube frame (11) or the lowermost magic cube frame (11) are closed by the cover (18), the cover (18) is positioned above the connecting plate (22) and the mounting seat (21), and the cover (18) does not exceed the upper end of the sealing cover (12).