CN204522255U - Many rails circular ring type 3D Magic ball - Google Patents

Abstract

A multi-track circular 3D magic ball, comprising: a sphere; at least four grooves are located on the sphere, the path of each groove is a closed ring, and each groove intersects at least one other groove; Several sliders are movably engaged and installed in each groove, and each slider has more than two colors; when the user moves one of the sliders, all the sliders on the corresponding groove will move together to form a ring. The sliders located in the junction area of each groove can move to each groove adjacent to the junction area at the same time, and push all the sliders in each groove. Four, six or nine grooves can be arranged on the sphere, and the user can form various color arrangements and combinations by moving the sliders, achieving an operation mode similar to a Rubik's cube. Since each of the sliding pieces can only move along each of the grooves, and the sphere has at least four grooves, it is difficult to arrange and can provide users with higher challenges and play fun.

Description

Many rails circular ring type 3D Magic ball

Technical field

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

Background technology

Have the educational toy of numerous species at present on the market, magic block is wherein a kind of type be widely known by the people.Magic block 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 blocks, it is the square of 3 × 3 × 3, by 1 central shaft, 6 central blocks, 12 limit blocks and 8 hornblocks formed, each mask has different color configuration, any one face of magic block can carry out rotating and not having influence on other squares, therefore when user is with each face of different order rotation magic blocks, each square can be formed the color alignment form of multiple various combination, the playing method of magic block 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 block 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 block, such as, limits rotation direction or magic block is changed to the combination of polygon mat.

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

Utility model content

So the purpose of this utility model is solve the problem in above-mentioned prior art, a kind of many rails circular ring type 3D Magic ball is proposed in the utility model, apply a spherical spheres and at the several annular ditch groove of its surface configuration, respectively this channels intersect is distributed on this spheroid, and use several saddle to install in a movable manner to fill up respectively this groove, wherein this saddle has at least two or more colors.Each this saddle by respectively this saddle in mobile respectively this groove, and is formed the combination of various different color alignment by user, reaches the mode of operation being similar to magic block.The utility model can provide the arrangements of grooves mode of the varying numbers such as four, six or nine, therefore can provide different groove combination kenels.Because each this saddle can only move along each this groove, and this spheroid has at least four grooves, the respectively arrangement free degree of this saddle when mobile is made to be less than the arrangement free degree of traditional magic block, therefore there is higher arrangement difficulty, and the higher challenge of user and enjoyment of playing can be provided.

For achieving the above object, propose a kind of many rails circular ring type 3D Magic ball in the utility model, comprise: a spheroid, this spheroid is spherical; At least four grooves are positioned on this spheroid, and respectively the path of this groove is closed ring, and each groove is at least pitched with another grooves; Several saddle is installed on respectively in this groove with moveable engagement system, and wherein respectively this saddle has two or more colors; When user moves one of them saddle, all saddles on this corresponding groove all can move together, and form the form of ring-type rotation; The saddle being wherein positioned at respectively this groove juncture area can move to each groove adjacent to this juncture area simultaneously, and promotes all saddles in each groove.The groove of the varying number such as configurable four, six or nine on this spheroid, and form the arrangement mode of different kenel, user makes respectively this saddle form various color alignment combinations by mobile respectively this saddle, reaches the mode of operation being similar to magic block.

The beneficial effects of the utility model are: many rails circular ring type 3D Magic ball of the present utility model, apply a spherical spheres and at the several annular ditch groove of its surface configuration, respectively this channels intersect is distributed on this spheroid, and use several saddle to install in a movable manner to fill up respectively this groove, wherein this saddle has at least two or more colors.Each this saddle by respectively this saddle in mobile respectively this groove, and is formed the combination of various different color alignment by user, reaches the mode of operation being similar to magic block.The utility model can provide the arrangements of grooves mode of the varying numbers such as four, six or nine, therefore can provide different groove combination kenels.Because each this saddle can only move along each this groove, and this spheroid has at least four grooves, the respectively arrangement free degree of this saddle when mobile is made to be less than the arrangement free degree of traditional magic block, therefore there is higher arrangement difficulty, and the higher challenge of user and enjoyment of playing can be provided.

Can further understand feature of the present utility model and advantage thereof by explanation hereafter, during reading, please refer to accompanying drawing.

Accompanying drawing explanation

Fig. 1 shows the elements combination figure of the utility model first embodiment.

Fig. 2 shows the spheroid stereogram of the utility model first embodiment.

Fig. 3 shows the spheroid top view of the utility model first embodiment.

Fig. 4 shows the spheroid upward view of the utility model first embodiment.

Fig. 5 shows the schematic diagram of the groove generation type of the utility model first embodiment.

Fig. 6 shows saddle stereogram of the present utility model.

Fig. 7 shows saddle exploded view of the present utility model.

Fig. 8 shows the profile of the elements combination of the utility model first embodiment, and wherein each groove all comprises 24 saddles, and the central angle that respectively the pedestal two ends of this saddle and ball centre are formed is 15 degree.

Fig. 9 shows the spheroid stereogram of the utility model second embodiment.

Figure 10 shows the spheroid top view of the utility model second embodiment.

Figure 11 shows the spheroid upward view of the utility model second embodiment.

Figure 12 shows the schematic diagram of the groove generation type of the utility model second embodiment.

Figure 13 shows the spheroid stereogram of the utility model the 3rd embodiment.

Figure 14 shows the spheroid top view of the utility model the 3rd embodiment.

Figure 15 shows the spheroid upward view of the utility model the 3rd embodiment.

Figure 16 shows the schematic diagram of the groove generation type of the utility model the 3rd embodiment.

Figure 17 shows the spheroid stereogram of the utility model the 4th embodiment.

Figure 18 shows the spheroid top view of the utility model the 4th embodiment.

Figure 19 shows the spheroid upward view of the utility model the 4th embodiment.

Figure 20 shows the schematic diagram of the groove generation type of the utility model the 4th embodiment.

[main element symbol description]

10 spheroids

20 grooves

30 saddles

31 pedestals

32 connectors

33 upper covers

331 shrinkage pools.

Detailed description of the invention

Hereby careful just structure composition of the present utility model, and the effect that can produce and advantage, coordinate graphic, lift a preferred embodiment of the present utility model and be described in detail as follows.

Please refer to shown in Fig. 1 to Figure 20, show many rails circular ring type 3D Magic ball of the present utility model, comprise following elements:

One spheroid 10, this spheroid 10 is in spherical.

At least four grooves 20 are positioned on this spheroid 10 (as shown in Figure 2), and respectively the path of this groove 20 is closed annular.Respectively this groove 20 cross-distribution is on this spheroid 10.

As shown in Figure 5, with the center of this spheroid 10 for the origin of coordinates, extend positive X-axis, negative X-axis, positive Y-axis, negative Y-axis, positive Z axis and negative Z axis, totally six axles at initial point.Each axle is got centered by initial point to a bit (x1) in this spheroid 10 radius, and according to Ge Gai center with the axle of its correspondence for normal forms one side, namely the track that this face cuts through this spheroid 10 forms a groove 20.Mode forms six grooves 20 altogether at six axles according to this, and each groove 20 at least intersects with another adjacent groove 20.

Several saddle 30 is installed on respectively in this groove 20 with moveable engagement system, wherein respectively this saddle 30 has at least two or more colors (or feature), and top protrudes from respectively on this groove 20, be convenient to mobile respectively this saddle 30 for making user.Respectively filled up each this groove 20 in the mode be close between this saddle 30, and form the continuous structure of ring-type, wherein respectively the juncture area of this groove 20 only can hold a saddle 30.When user moves one of them saddle 30, all saddles 30 on this corresponding groove 20 all can move together, and form the form of ring-type rotation.The saddle 30 being wherein positioned at respectively this groove 20 juncture area can move to each groove 20 adjacent to this juncture area simultaneously, and promotes all saddles 30 in each groove 20.

Wherein respectively this saddle 30 comprises a pedestal 31, a connection piece 32 and a upper cover 33, and as shown in Figure 6 to 7, wherein this pedestal 31 is slightly spherical in shape, in embedding respectively this groove 20.Wherein this connector 32 is in column, and upwards extends from the surface of this pedestal 31.The shrinkage pool 331 of this upper cover 33 is inserted to connect this upper cover 33 in the upper end of this connector 32.

Preferably, as shown in Fig. 2 and Fig. 8, the quantity of this groove 20 is 6.Respectively can insert 24 saddles 30 in this groove 20.For asking close-packed arrays, the central angle that respectively two ends and the center of circle of corresponding groove 20 of this pedestal 31 of this saddle 30 are formed is 15 degree.Deduct the saddle 30 in respectively this groove 20 intersection repetition, the quantity of all saddles 30 is 120.Wherein respectively this saddle 30 has 6 kinds of colors, and often kind of color all comprises 20 saddles 30, forms intersecting parallels arrangement mode centered by the intersecting parallels intersection that the saddle 30 wherein with same color is formed by each this groove 20.

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

As shown in Fig. 9 to Figure 12, wherein show the second embodiment of the present utility model.The utility model also can form the structure of four rails, and as shown in figure 12, its mode is with the center of this spheroid 10 for the origin of coordinates, extends positive X-axis, negative X-axis, positive Y-axis and negative Y-axis, totally four axles at initial point.Each axle is got centered by initial point to a bit (x1) in this spheroid 10 radius, Bing Yigai center is with the axle of its correspondence for normal forms one side, and namely the track that this face cuts through this spheroid 10 forms a groove 20.Mode forms four grooves 20 altogether at four axles according to this, and each groove 20 at least intersects with another adjacent groove 20.The configuration mode of saddle 30 person that is all same as above-described embodiment in this example, so its details is no longer explained.

As shown in Figure 13 to Figure 16, wherein show the 3rd embodiment of the present utility model.The utility model also can form the structure of nine rails, and as shown in figure 16, its mode is with the center of this spheroid 10 for the origin of coordinates, extends X-axis, Y-axis and Z axis at initial point, totally three axles.The spheres intersect of each axle and this spheroid 10, between two limits, is appointed centered by getting at 3 (x1, x2, x3) between two limits; Bing Yigai center is with the axle of its correspondence for normal forms one side, and namely the track that this face cuts through this spheroid 10 forms a groove 20.Mode forms nine grooves 20 altogether at three axles according to this, and each groove 20 at least intersects with another adjacent groove 20.The configuration mode of saddle 30 person that is all same as above-described embodiment in this example, so its details is no longer explained.

As shown in Figure 17 to Figure 20, wherein show the 4th embodiment of the present utility model.Groove 20 of the present utility model also can form multiple staggered form, as shown in figure 20, wherein with the center of this spheroid 10 for the origin of coordinates, extending Y-axis respectively by 2 of this spheroid 10 at initial point is y1, y2.Be as the criterion with y1 point, the sphere of this spheroid 10 is made three circles around this y1 point; Same, be as the criterion with y2 point, the sphere of this spheroid 10 is made three circles around this y2 point; Each round-formed groove 20, and each groove 20 and at least one adjacent groove 20 intersect.The configuration mode of saddle 30 person that is all same as above-described embodiment in this example, so its details is no longer explained.

Advantage of the present utility model is application one spherical spheres and at the several annular ditch groove of its surface configuration, respectively this channels intersect is distributed on this spheroid, and use several saddle to install in a movable manner to fill up respectively this groove, wherein this saddle has at least two or more colors.Each this saddle by respectively this saddle in mobile respectively this groove, and is formed the combination of various different color alignment by user, reaches the mode of operation being similar to magic block.The utility model can provide the arrangements of grooves mode of the varying numbers such as four, six or nine, therefore can provide different groove combination kenels.Because each this saddle can only move along each this groove, and this spheroid has at least four grooves, the respectively arrangement free degree of this saddle when mobile is made to be less than the arrangement free degree of traditional magic block, therefore there is higher arrangement difficulty, and the higher challenge of user and enjoyment of playing can be provided.

In sum, the design of consideration of the utility model hommization, quite realistic demand.It specifically improves existing disappearance, obviously have breakthrough progressive advantage, really have the enhancement of effect, and non-being easy to is reached compared to prior art.On the open or document that is exposed in internal and overseas of the utility model and market, meet patent statute.

Above-listed detailed description is illustrating for a possible embodiments of the present utility model, only this embodiment be not used to limit the scope of the claims of the present utility model, allly do not depart from the equivalence done of the utility model skill spirit and implement or change, all should be contained in the scope of the claims of the present utility model.

Claims (10)

1. A multi-track ring formula 3D magic ball, characterized in that it comprises: a sphere, the sphere being spherical; at least four grooves are located on the sphere, the path of each groove is a closed loop, and each groove intersects at least one other groove; Several sliders are installed in each of the grooves in a movable engagement manner, and each of the sliders has a distinctive feature for distinguishing; when the user moves one of the sliders, all the sliders on the corresponding groove The pieces will move together to form a circular rotation; wherein the slides located in the junction area of each groove can move to each groove adjacent to the junction area at the same time, and push all the slides in each groove. 2. The multi-track ring type 3D magic ball as claimed in claim 1, wherein each of the sliders includes a base and a connecting piece, wherein the base is slightly spherical and is used to fit into each of the grooves wherein the connector is columnar and extends upward from the surface of the base. 3. The multi-track circular 3D magic ball according to claim 1, characterized in that: the ball has six grooves. 4. The multi-track ring-type 3D magic ball as claimed in claim 3, characterized in that: take the center of the sphere as the coordinate origin, and extend the positive X-axis, negative X-axis, positive Y-axis, and negative Y-axis at the origin , positive Z-axis and negative Z-axis, a total of six axes; on each axis, take a point within the radius of the sphere from the origin as the center, and form a surface with the corresponding axis as the normal according to the center, and the surface cuts through the The trajectory of the ball forms a groove; in this way, six grooves are formed on six axes, and each groove at least intersects with another adjacent groove. 5. The multi-track ring type 3D magic ball as claimed in claim 3, characterized in that: take the center of the sphere as the origin of coordinates, and the Y axis extending from the origin passes through the two points of the sphere respectively as y1 and y2; Taking the y1 point as the standard, making three circles around the y1 point on the spherical surface of the sphere; and taking the y2 point as the standard, making three circles around the y2 point on the spherical surface of the sphere; Each circle forms six grooves. 6. The multi-track circular 3D magic ball as claimed in claim 1, characterized in that: take the center of the sphere as the coordinate origin, and extend the positive X-axis, negative X-axis, positive Y-axis and negative Y-axis at the origin , a total of four axes; each axis takes a point within the radius of the sphere from the origin as the center, and forms a surface according to the center with its corresponding axis as the normal line, and the surface cuts through the trajectory of the sphere to form a groove; In this manner, a total of four grooves are formed on four axes. 7. The multi-track ring type 3D magic ball according to claim 1, characterized in that: the sphere (10) has nine grooves, with the center of the sphere as the origin of the coordinates, the X-axis, Y-axis and Z-axis, a total of three axes; each axis intersects with the spherical surface of the sphere between two poles, and any three points between the two poles are taken as the center; and are formed according to the center and the corresponding axis as the normal On one side, the surface cuts through the track of the sphere to form a groove; in this way, a total of nine grooves are formed on the three axes. 8 . The multi-track ring-type 3D magic ball as claimed in claim 1 , wherein the distinguishing feature of each of the sliders is color, that is, each of the sliders has at least two colors. 9 . The multi-track circular 3D magic ball as claimed in claim 1 , wherein the top ends of the sliders protrude above the grooves, so that the user can easily move the sliders. 10 . 10. The multi-track ring type 3D magic ball as claimed in claim 1, characterized in that: each of the slides is filled with each of the grooves in a close-fitting manner to form a ring-shaped continuous structure, wherein The junction area of each groove can accommodate only one slider.