CN202590328U - Tower type maze - Google Patents

Abstract

The utility model discloses a tower type maze. The tower type maze in the embodiment of the utility model comprises a maze body and an operating mechanism, wherein the maze body comprises at least two cylindrical mazes; the inner cylindrical wall and the outer cylindrical wall of each cylindrical maze are provided with maze tracks of the same shape; a maze track is provided with at least one inlet and at least one outlet; the cylindrical mazes are overlapped one above the other, so that the tower type maze is combined; the diameter of the upper layer of each cylindrical maze is smaller than that of the lower layer of the cylindrical maze; the bottom of an upper layer cylindrical maze is fixed together with the inner ring of a rotating mechanism; the top of a lower layer cylindrical maze is fixed together with the outer ring of the rotating mechanism; the upper and lower adjacent layers of cylindrical mazes can rotate relatively; the maze track on the outer cylindrical wall is provided with a small steel ball; the operating mechanism is provided with a magnet; and the operating mechanism can move up and down and is used for radially rotating the magnet, so that the magnet is used for driving the small steel ball to move synchronously. The tower type maze is controlled through a mechanical structure, and maze lines are variable.

Description

A kind of tower labyrinth

Technical field

The utility model belongs to the educational toy technical field, relates to a kind of tower labyrinth especially.

Background technology

Traditional labyrinth type toy design all is on two dimensional surface, to carry out, and increases player's interest through changing labyrinth circuit or background patterns.And traditional maze toy seldom relates to the three dimensions labyrinth.Therefore, the design idea that breaks traditions designs maze toy with the solid space pattern, makes the running space in labyrinth rise to three dimensions, will bring more entertaining, makes maze toy obtain better development.

The control of existing on the market labyrinth type toy at present mainly attracts to make object orbital motion along the labyrinth through the deadweight or the employing magnetic force of object in the labyrinth intuitively, and this can limit the size and the kind in labyrinth undoubtedly.And if employing frame for movement is controlled the motion of object in the labyrinth, then go for a greater variety of labyrinths, particularly the labyrinth in the three dimensions; Also can increase simultaneously the interest of toy.

It is exactly with low uncertainty that existing labyrinth also has a defective, and its labyrinth track of general maze toy is all fixed, and does not also have transformable key element on the track, player plays often after can feel bored.Therefore, if the taste that can maze toy is designed to make a breakthrough, and can some be set to its track and change, the interest of maze toy is improved greatly, thereby increase the anti-object for appreciation property of maze toy.

The utility model content

For addressing the above problem, the purpose of the utility model is to provide a kind of tower labyrinth, has solved the single problem of traditional labyrinth track structure, and adopts the motion of small ball in the track of operating-controlling mechanism control labyrinth, makes that the operability in labyrinth is better.

For realizing above-mentioned purpose, the technical scheme of the utility model is:

A kind of tower labyrinth; Said tower labyrinth comprises labyrinth body and operating-controlling mechanism, and said labyrinth body comprises at least two cylinder barrel shaped labyrinths, and the inner tube wall in said each cylinder barrel shaped labyrinth is provided with the identical labyrinth track of shape with outer tube wall; Said labyrinth track is separated by some dividing plates; Said labyrinth track is provided with at least one inlet and at least one outlet, and said cylinder barrel shaped labyrinth is overlapping up and down to be combined into said tower labyrinth, and upper strata, tubular labyrinth diameter is littler than lower floor diameter; The bottom in tubular labyrinth, said upper strata and the inner ring of rotating mechanism are fixed; The top in said lower floor tubular labyrinth and the outer ring of rotating mechanism are fixed, and make can rotate each other between the said adjacent bilevel tubular labyrinth, and the track export in last layer tubular labyrinth connects with the inlet in following one deck tubular labyrinth; On the labyrinth track on the said outer tube wall small ball is set; Be provided with magnet on the said operating-controlling mechanism, said operating-controlling mechanism can move up and down and radially rotate said magnet and make said magnet band small ball to be synchronized with the movement, to realize the labyrinth orbital motion of small ball along outer tube wall.

Compared with prior art, the tower labyrinth that the utility model provides is arranged in the three dimensions, controls through frame for movement, and the labyrinth circuit has variability, and is interesting strong and can temper player's operating ability, space imagination and intelligence development power.

Description of drawings

Fig. 1 is the structural representation in the tower labyrinth of the utility model embodiment;

Fig. 2 is the structural representation of operating-controlling mechanism in the tower labyrinth of the utility model embodiment;

Fig. 3 is the structural representation of slide block in the operating-controlling mechanism in tower labyrinth of the utility model embodiment;

Fig. 4 is the structural representation of location structure in the tower labyrinth of the utility model embodiment.

The specific embodiment

For the purpose, technical scheme and the advantage that make the utility model is clearer,, the utility model is further elaborated below in conjunction with accompanying drawing and embodiment.Should be appreciated that specific embodiment described herein only in order to explanation the utility model, and be not used in qualification the utility model.

On the contrary, the utility model is contained any alternative, the modification of on the marrow of the utility model and scope, making, equivalent method and scheme by claim definition.Further, the utility model is had a better understanding in order to make the public, in hereinafter the details of the utility model being described, detailed some specific detail sections of having described.There is not the description of these detail sections can understand the utility model fully for a person skilled in the art yet.

With reference to figure 1; Be depicted as a kind of tower labyrinth of the utility model embodiment; Comprise labyrinth body 100 and operating-controlling mechanism 200; Present embodiment comprises that with labyrinth body 100 3 cylinder barrel shaped labyrinths are that example describes, and those skilled in the art it is understandable that, do not cause the cylinder barrel shaped labyrinth that the labyrinth body is comprised to limit.Labyrinth body 100 comprises 3 cylinder barrel shaped labyrinths; The first cylinder barrel shaped labyrinth 101; The second cylinder barrel shaped labyrinth 102 and three cylindrical tubular labyrinth 103, the outer wall in each cylinder barrel shaped labyrinth is provided with the labyrinth track, and the labyrinth track is separated by some dividing plates; The labyrinth track is provided with at least one inlet and at least one outlet; The cylinder barrel shaped labyrinth is overlapping up and down to be combined into tower labyrinth, and upper strata, cylinder barrel shaped labyrinth diameter is littler than lower floor diameter, i.e. the diameter in the diameter in the diameter in the first cylinder barrel shaped labyrinth 101＜second cylinder barrel shaped labyrinth 102＜three cylindrical tubular labyrinth 103; Drive rotation each other by rotating mechanism between the adjacent cylinder barrel shaped labyrinth; In the concrete application example, the bottom in the first cylinder barrel shaped labyrinth 101 and the inner ring of rotating mechanism, the top in the second cylinder barrel shaped labyrinth 102 and the outer ring of rotating mechanism are fixed; Equally, the bottom in the second cylinder barrel shaped labyrinth 102 and the inner ring of another rotating mechanism are fixed, and the outer ring of rotating mechanism is formed at the top in three cylindrical tubular labyrinth 103; Make through rotating mechanism and can rotate each other between the adjacent bilevel cylinder barrel shaped labyrinth; The labyrinth track export in last layer cylinder barrel shaped labyrinth connects with the labyrinth track inlet in following one deck cylinder barrel shaped labyrinth; In the track of labyrinth small ball is set; Be provided with magnet on the operating-controlling mechanism 200, operating-controlling mechanism 200 can move up and down and make the magnet band small ball with rotating magnet radially to be synchronized with the movement, to realize the labyrinth orbital motion of small ball along outer tube wall.

Particularly, referring to Fig. 2, be depicted as the structural representation of operating-controlling mechanism 200 in the tower labyrinth of the utility model embodiment; Comprise transverse axis 201, first reel 202, second reel 203, active synchronization belt wheel 209, driven synchronous pulley 210, belt 211, main shaft 204, fixed pulley 205, slide block 206, magnet 213, first horizontal bearing block 207, second horizontal bearing block 208 and the connecting axle 212; Horizontally disposed transverse axis 201 is fixedly connected with the main shaft 204 that vertically is provided with, and slide block 206 is enclosed within on the main shaft 204, and the radial extremity of slide block 206 is provided with magnet 213; Fixed pulley 205 is fixed on main shaft 204 belows; Driven synchronous pulley 210 is enclosed within an end of transverse axis 201, and active synchronization belt wheel 209 is connected with driven synchronous pulley 210 through belt 211, and first reel 202 and second reel 203 are enclosed within on the transverse axis 201; The direction of winding of first reel 202 and second reel 203 is opposite; One rear line head of first reel 202 is connected with the top of slide block 206, and a rear line head of second reel 203 is walked around fixed pulley 205 and is connected with the bottom of slide block 206, and the magnet 213 that the rotation through active synchronization belt wheel 209 just can drive on the slide block 206 slides up and down along main shaft 204; When active synchronization belt wheel 209 is just changeing; Driving driven synchronous pulley 210 is just changeing, and driven synchronous pulley 210 is just changeing drive transverse axis 201 and just changeing, and transverse axis 201 is just changeing just makes 202 take-ups of first reel; Second reel, 203 unwrapping wire, thus slide block 206 is upwards slided along main shaft 204; When active synchronization belt wheel 209 counter-rotating, then slide block 206 along main shaft 204 to lower slider; Main shaft 204 1 ends are connected with connecting axle 212; The other end of connecting axle 212 is enclosed within on the first horizontal bearing block 207 and the second horizontal bearing block 208, through magnet 213 horizontal movements on the rotating band movable slider 206 of the first horizontal bearing block 207 and the second horizontal bearing block 208.The magnet that drives on the slide block through the motion of controlling the active synchronization belt wheel slides up and down, and the magnet of controlling on the slide block through the rotation of bearing block radially rotates, and then attracts the motion of the irony spheroid in the track of Synchronization Control labyrinth through magnet.

In order to make the labyrinth actuation means of design can adapt to the labyrinth track of different radii size; Referring to Fig. 3, slide block 206 further comprises slider body 2061, expansion link 2062, stage clip 2063, and slider body 2061 is enclosed within on the main shaft 204; Expansion link 2062 is connected with slider body 2061; Stage clip 2,063 one ends are connected with slider body 2061, and the other end is connected with expansion link 1062, and the terminal position of expansion link 1062 is fixed with magnet 213.Under the effect of stage clip 2063; Expansion link 2062 has the trend of outside elongation, therefore, and under the situation that the labyrinth orbit radius changes; Design through elastomeric element; Magnet can keep heading on labyrinth track inwall always, changes the orbit radius of magnet, makes the labyrinth actuation means can adapt to the labyrinth track of different radii size.

Further; In order to increase the positioning function of rotating mechanism; Rotating mechanism is provided with a plurality of permanent magnets, and the set-up mode of a plurality of permanent magnets is that a permanent magnets is arranged on the inner ring; Remaining permanent magnets is arranged on the outer ring, the permanent magnets that is provided with on permanent magnets that is provided with on the inner ring and the outer ring near the time attract each other.In like manner, a plurality of permanent magnets can also be set to, and a permanent magnets is arranged on the outer ring, and remaining permanent magnets is arranged on the inner ring, the permanent magnets that is provided with on permanent magnets that is provided with on the inner ring and the outer ring near the time attract each other.

Referring to Fig. 4, be depicted as the structural representation of an application example of rotating mechanism location, comprise the outer ring 400 that inner ring 300 that bottom, tubular labyrinth, upper strata fix and top, lower floor tubular labyrinth are fixed; Inner ring 300 and outer ring 400 concentric circles settings, inner ring 300 can rotate with outer ring 400 each other, further comprises 4 permanent magnets; Wherein first permanent magnets 301 is arranged on the inner ring, and second permanent magnets, 401, the three permanent magnets 402 and the 4th permanent magnets 403 are arranged on the outer ring; Rotating disk is in rotation process; When second permanent magnets, 201, the three permanent magnets 202 on first permanent magnets 301 on the inner ring and the outer ring and the 4th permanent magnets 203 near the time, permanent magnets on the inner ring and the permanent magnets on the outer ring attract each other; To rotating disk a detent force is provided, has realized the positioning function of rotating disk.

The above is merely the preferred embodiment of the utility model; Not in order to restriction the utility model; Any modification of being done within all spirit and principles at the utility model, be equal to replacement and improvement etc., all should be included within the protection domain of the utility model.

Claims (5)

1. a tower labyrinth is characterized in that, said tower labyrinth comprises labyrinth body and operating-controlling mechanism; Said labyrinth body comprises at least two cylinder barrel shaped labyrinths; The inner tube wall in said each cylinder barrel shaped labyrinth is provided with the identical labyrinth track of shape with outer tube wall, and said labyrinth track is separated by some dividing plates, and said labyrinth track is provided with at least one inlet and at least one outlet; Said cylinder barrel shaped labyrinth is overlapping up and down to be combined into said tower labyrinth; Upper strata, tubular labyrinth diameter is littler than lower floor diameter, and the bottom in tubular labyrinth, said upper strata and the inner ring of rotating mechanism are fixed, and the top in said lower floor tubular labyrinth and the outer ring of rotating mechanism are fixed; Make and to rotate each other between the said adjacent bilevel tubular labyrinth; The track export in last layer tubular labyrinth connects with the inlet in following one deck tubular labyrinth, on the labyrinth track on the said outer tube wall small ball is set, and is provided with magnet on the said operating-controlling mechanism; Said operating-controlling mechanism can move up and down and radially rotate said magnet and make said magnet band small ball to be synchronized with the movement, to realize the labyrinth orbital motion of small ball along outer tube wall.

2. tower labyrinth according to claim 1; It is characterized in that; Said operating-controlling mechanism further comprises transverse axis (201), first reel (202), second reel (203), active synchronization belt wheel (209), driven synchronous pulley (210), belt (211), main shaft (204), fixed pulley (205), slide block (206), magnet (213), the first horizontal bearing block (207), the second horizontal bearing block (208) and connecting axle (212); Horizontally disposed said transverse axis (201) is fixedly connected with the said main shaft (204) that vertically is provided with; Said slide block (206) is enclosed within (204) on the said main shaft; The radial extremity of said slide block (206) is provided with said magnet (213); Said fixed pulley (205) is fixed on said main shaft below; Said driven synchronous pulley (210) is enclosed within an end of said transverse axis (201), and said active synchronization belt wheel (209) is connected with said driven synchronous pulley (210) through belt (211), and said first reel (202) and said second reel (203) are enclosed within on the said transverse axis (201); The direction of winding of said first reel (202) and said second reel (203) is opposite; One rear line head of said first reel (202) is connected with the top of said slide block (206), and a rear line head of said second reel (203) is walked around said fixed pulley (205) and is connected with the bottom of said slide block (206), and the rotation through said active synchronization belt wheel (209) drives magnet (213) the sliding up and down along main shaft on the said slide block (206);

Said main shaft (204) one ends are connected with said connecting axle (212); The other end of said connecting axle (212) is enclosed within on the said first horizontal bearing block (207) and the second horizontal bearing block (208), and the rotation through the said first horizontal bearing block (207) and the said second horizontal bearing block (208) drives magnet (213) horizontal movement on the said slide block (206).

3. according to the said tower labyrinth of claim 2; It is characterized in that; Said slide block further comprises slider body (2061), expansion link (2062), stage clip (2063); Said slider body (2061) is enclosed within on the said main shaft (204), and said expansion link (2062) is connected with said slider body (2061), and said stage clip (2063) one ends are connected with said slider body (2061); The other end is connected with said expansion link (2062), and the terminal position of said expansion link (2062) is fixed with said magnet (213).

4. tower labyrinth according to claim 1; It is characterized in that; A plurality of permanent magnets further are set on the said rotating mechanism, and the set-up mode of said a plurality of permanent magnets is that a permanent magnets is arranged on the said inner ring; Remaining said permanent magnets is arranged on the said outer ring, the said permanent magnets that is provided with on said permanent magnets that is provided with on the said inner ring and the said outer ring near the time attract each other.

5. tower labyrinth according to claim 1; It is characterized in that; A plurality of permanent magnets further are set on the said rotating mechanism, and the set-up mode of said a plurality of permanent magnets is that a permanent magnets is arranged on the said outer ring; Remaining said permanent magnets is arranged on the said inner ring, the said permanent magnets that is provided with on said permanent magnets that is provided with on the said inner ring and the said outer ring near the time attract each other.

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