CN204233731U - Circular ring type 3d magic ball - Google Patents

Abstract

A kind of circular ring type 3D Magic ball, comprising: a spheroid, described spheroid is spherical; Several groove is positioned on described spheroid, and the path of each described groove is rounded; Several saddle is installed in each described groove with moveable engagement system, and wherein each described saddle has at least two or more colors, and top protrudes from each described groove, is convenient to mobile each described saddle for making user; When user moves one of them saddle, all saddles on corresponding described groove all can move together, and form the form of ring-type rotation; The saddle being wherein positioned at each described groove juncture area can move to each groove adjacent to described juncture area simultaneously, and promotes all saddles in each groove.User makes each described saddle form various color alignment combinations by mobile each described saddle, reaches the mode of operation being similar to magic square.Because each described saddle can only move along each described groove, therefore there is higher arrangement difficulty, higher challenge.

Description

Circular ring type 3D Magic ball

Technical field

The utility model has about magic square, especially a kind of circular ring type 3D Magic ball.

Background technology

Have the educational toy of numerous species at present on the market, magic square is wherein a kind of type be widely known by the people.Magic square has the developing history of many decades, according to the difference of its exponent number, has the type on more than second order to ten rank.General the most popular is three rank magic squares, it is the square of 3 × 3 × 3, be made up of 1 central shaft, 6 central blocks, 12 limit blocks and 8 hornblocks, each mask has different color configuration, any one face of magic square can carry out rotating and not having influence on other square, therefore when user is with each face of different order rotation magic squares, each square can be formed the color alignment form of multiple various combination, the playing method of magic square is the square by with out of order color alignment and restores to every kenel simultaneously all with same color.

Recovery difficulty due to magic square can be subject to the impact of its arrangement free degree, and therefore various different amendment kenel also appears in market, to improve the recovery difficulty of magic square, such as, limits rotation direction or magic square is changed to the combination of polygon mat.

Player for magic square lacks challenge, so the utility model wishes to propose a kind of brand-new circular ring type 3D Magic ball, promoting the recovery difficulty of traditional magic square, increasing the challenge of user when playing and enjoyment.

Utility model content

For the deficiencies in the prior art, the purpose of this utility model is to provide a kind of circular ring type 3D Magic ball, has higher arrangement difficulty, and can provide the higher challenge of user and enjoyment of playing.

The technical solution of the utility model is as follows:

A kind of circular ring type 3D Magic ball, comprising:

One spheroid, described spheroid is spherical;

Several groove is positioned on described spheroid, and the path of each described groove is rounded, wherein, can form juncture area described in intersect two between groove;

Several saddle is installed in each described groove with moveable engagement system, and wherein each described saddle has at least two or more colors; When one of them saddle is moved, all saddles on corresponding described groove all can move together, and form the form of ring-type rotation; The saddle being wherein positioned at the juncture area of each described groove can move to each groove adjacent to described juncture area simultaneously, and promotes all saddles in each groove.

Above-mentioned circular ring type 3D Magic ball, described spheroid is made up of upper sphere and lower sphere, and described upper sphere and described lower sphere all in hemispherical, and are combined into described spheroid in the mode linked closely.

Above-mentioned circular ring type 3D Magic ball, each described groove is concentric with described spheroid, and the surface of described spheroid on described spheroid, and is divided into several decile with the mode cross-distribution of radiation by each described groove.

Above-mentioned circular ring type 3D Magic ball, filled up by each described groove in the mode be close between each described saddle, and form the continuous structure of ring-type, wherein the juncture area of each described groove only can hold a saddle.

Above-mentioned circular ring type 3D Magic ball, the top of each described saddle is on each described groove.

Above-mentioned circular ring type 3D Magic ball, each described saddle is made up of a pedestal and a connection piece, and wherein said pedestal is curved, for embedding in each described groove; Wherein said connector is column, and upwards extends from the surface of described pedestal.

Above-mentioned circular ring type 3D Magic ball, each described saddle also comprises a upper cover, and the shrinkage pool of described upper cover is inserted to connect described upper cover in the upper end of described connector.

Above-mentioned circular ring type 3D Magic ball, the quantity of described groove is 3, and the intersection angle between each described groove is 90 degree, and the surface of described spheroid is divided into 8 deciles.

Above-mentioned circular ring type 3D Magic ball, comprises 12 saddles in each described groove; Each described saddle has a pedestal for embedding in each described groove; The central angle that the two ends of the described pedestal of each described saddle and described ball centre are formed is 30 degree; Deduct the saddle repeated at each described groove intersection, the quantity of all saddles is 30.

Above-mentioned circular ring type 3D Magic ball, each described saddle has 6 kinds of colors, and often kind of color all comprises 5 saddles.

The beneficial effects of the utility model are: the utility model applies a spherical spheres and at the several annular ditch groove of its surface configuration, each described groove with the mode cross-distribution of radiation on described spheroid, and use several saddle to install in a movable manner to fill up each described groove, wherein said saddle has at least two or more colors.Each described saddle by each described saddle in mobile each described groove, and is formed the combination of various different color alignment by user, reaches the mode of operation being similar to magic square.Because each described saddle can only move along each described groove, the arrangement free degree of each described saddle when mobile is made to be less than the arrangement free degree of traditional magic square, make magic square have higher arrangement difficulty, and the higher challenge of user and enjoyment of playing can be provided.

Accompanying drawing explanation

Fig. 1 shows assembly exploded view of the present utility model.

Fig. 2 shows assembly constitutional diagram of the present utility model.

Fig. 3 shows spheroid stereogram of the present utility model.

Fig. 4 shows the birds-eye perspective of upper sphere of the present utility model.

Fig. 5 shows the schematic cross-section of upper sphere of the present utility model.

Fig. 6 shows the side perspective of upper sphere of the present utility model.

Fig. 7 shows the birds-eye perspective of lower sphere of the present utility model.

Fig. 8 shows the schematic cross-section of lower sphere of the present utility model.

Fig. 9 shows the side perspective of lower sphere of the present utility model.

Figure 10 shows saddle stereogram of the present utility model.

Figure 11 shows saddle exploded view of the present utility model.

Figure 12 shows the profile of assembly of the present utility model combination, and wherein each groove includes 12 saddles, and the central angle that the pedestal two ends of each described saddle and ball centre are formed is 30 degree.

wherein:

10-spheroid

11-upper sphere

12-lower sphere

20-groove

30-saddle

31-pedestal

32-connector

33-upper cover

331-shrinkage pool.

Detailed description of the invention

Please refer to shown in Fig. 1 to Figure 12, show circular ring type 3D Magic ball of the present utility model, comprise following assemblies:

One spheroid 10, described spheroid 10, in spherical, is made up of upper sphere 11 and lower sphere 12, and described upper sphere 11 and described lower sphere 12 all in hemispherical, and are combined into described spheroid 10 in the mode linked closely.

Several groove 20 is positioned on described spheroid 10 (as shown in Figure 3), and wherein, can form juncture area between groove 20 described in intersect between two two, the path of each described groove 20 is rounded.Preferably, each described groove 20 is rough concentric with described spheroid 10, and the surface of described spheroid 10 on described spheroid 10, and is divided into several decile with the mode cross-distribution of radiation by each described groove 20.

Several saddle 30 is installed in each described groove 20 with moveable engagement system, and wherein each described saddle 30 has at least two or more colors, and top protrudes from each described groove 20, is convenient to mobile each described saddle 30 for making user.Filled up by each described groove 20 in the mode be close between each described saddle 30, and form the continuous structure of ring-type, wherein the juncture area of each described groove 20 only can hold a saddle 30.And the saddle 30 being positioned at the juncture area of the groove 20 intersected between two can slide along the direction of arbitrary groove 20, when user moves one of them saddle 30, all saddles 30 on corresponding described groove 20 all can move together, and form the form of ring-type rotation.The saddle 30 being wherein positioned at each described groove 20 juncture area can move to each groove 20 adjacent to described juncture area simultaneously, and promotes all saddles 30 in each groove 20.

Wherein each described saddle 30 is made up of a pedestal 31, a connection piece 32 and a upper cover 33, and as shown in Figure 10 to Figure 11, wherein said pedestal 31 is slightly curved, for embedding in each described groove 20.Wherein said connector 32 in column, and upwards extends from the surface of described pedestal 31.The shrinkage pool 331 of described upper cover 33 is inserted to connect described upper cover 33 in the upper end of described connector 32.

Preferably, as shown in figs. 3 and 12, the quantity of described groove 20 is 3, and the intersection angle between each described groove 20 is 90 degree, and the surface of described spheroid 10 is divided into 8 deciles.12 saddles 30 all can be comprised in each described groove 20.For asking close-packed arrays, the central angle that the two ends of the described pedestal 31 of each described saddle 30 and described spheroid 10 center are formed is 30 degree.Deduct the saddle 30 repeated at each described groove 20 intersection, the quantity of all saddles 30 is 30.Wherein each described saddle 30 has 6 kinds of colors, and often kind of color all comprises 5 saddles 30, and the saddle 30 wherein with same color forms cross arrangement mode centered by the intersection of each described groove 20.

During use, each saddle 30 in the removable each described groove 20 of user, it is made to promote all saddles 30 of respective grooves 20, the saddle 30 intersecting the juncture area formed between two being positioned at each described groove 20 can be moved to each adjacent groove 20 by user, each described saddle 30 is made to move to the diverse location of different groove 20, because each described saddle 30 has at least two or more colors, therefore user makes each described saddle 30 form various color alignment combinations by mobile each described saddle 30, reaches the mode of operation being similar to magic square.

Advantage of the present utility model is application one spherical spheres and at the several annular ditch groove of its surface configuration, each described groove with the mode cross-distribution of radiation on described spheroid, and use several saddle to install in a movable manner to fill up each described groove, wherein said saddle has at least two or more colors.Each described saddle by each described saddle in mobile each described groove, and is formed the combination of various different color alignment by user, reaches the mode of operation being similar to magic square.Because each described saddle can only move along each described groove, the arrangement free degree of each described saddle when mobile is made to be less than the arrangement free degree of traditional magic square, therefore there is higher arrangement difficulty, and the higher challenge of user and enjoyment of playing can be provided.

Above-described embodiment is only for clearly illustrating that the utility model creates example, and not the utility model is created to the restriction of detailed description of the invention.For those of ordinary skill in the field, can also make other changes in different forms on the basis of the above description.Here exhaustive without the need to also giving all embodiments.All within spirit of the present utility model and principle any apparent change of extending out or variation be still among the protection domain of this claim.

Claims (10)

1. a circular ring type 3D Magic ball, is characterized in that, comprising:

One spheroid, described spheroid is spherical;

Several groove is positioned on described spheroid, and the path of each described groove is rounded, wherein, can form juncture area described in intersect between two two between groove;

Several saddle is installed in each described groove with moveable engagement system, and wherein each described saddle has at least two or more colors; When one of them saddle is moved, all saddles on corresponding described groove all can move together, and form the form of ring-type rotation; The saddle being wherein positioned at the juncture area of each described groove can move to each groove adjacent to described juncture area simultaneously, and promotes all saddles in each groove.

2. circular ring type 3D Magic ball as claimed in claim 1, it is characterized in that, described spheroid is made up of upper sphere and lower sphere, and described upper sphere and described lower sphere all in hemispherical, and are combined into described spheroid in the mode linked closely.

3. circular ring type 3D Magic ball as claimed in claim 1, it is characterized in that, each described groove is concentric with described spheroid, and the surface of described spheroid on described spheroid, and is divided into several decile with the mode cross-distribution of radiation by each described groove.

4. circular ring type 3D Magic ball as claimed in claim 1, it is characterized in that, filled up by each described groove in the mode be close between each described saddle, and form the continuous structure of ring-type, wherein the juncture area of each described groove only can hold a saddle.

5. circular ring type 3D Magic ball as claimed in claim 1, it is characterized in that, the top of each described saddle is on each described groove.

6. circular ring type 3D Magic ball as claimed in claim 1, it is characterized in that, each described saddle is made up of a pedestal and a connection piece, and wherein said pedestal is curved, for embedding in each described groove; Wherein said connector is column, and upwards extends from the surface of described pedestal.

7. circular ring type 3D Magic ball as claimed in claim 6, it is characterized in that, each described saddle also comprises a upper cover, and the shrinkage pool of described upper cover is inserted to connect described upper cover in the upper end of described connector.

8. circular ring type 3D Magic ball as claimed in claim 3, it is characterized in that, the quantity of described groove is 3, and the intersection angle between each described groove is 90 degree, and the surface of described spheroid is divided into 8 deciles.

9. circular ring type 3D Magic ball as claimed in claim 8, is characterized in that, comprise 12 saddles in each described groove; Each described saddle has a pedestal for embedding in each described groove; The central angle that the two ends of the described pedestal of each described saddle and described ball centre are formed is 30 degree; Deduct the saddle repeated at each described groove intersection, the quantity of all saddles is 30.

10. circular ring type 3D Magic ball as claimed in claim 9, it is characterized in that, each described saddle has 6 kinds of colors, and often kind of color all comprises 5 saddles.