CN214130247U - Intelligence magic cube rotates signal transmission structure - Google Patents

Abstract

An intelligent magic cube rotation signal transmission structure comprises an intelligent central shaft, wherein six axis connecting rods are arranged on the intelligent central shaft, the outer end parts of the axis connecting rods are respectively connected with a central block, and a plurality of edge blocks and corner blocks are respectively arranged on the central block; an encoder is further arranged in the intelligent central shaft, and the inner end part of the shaft center connecting rod is connected and arranged on the encoder. When the central block rotates, the shaft center connecting rod can be driven to rotate, the shaft center connecting rod drives the encoder, and therefore the rotating signal of the magic cube is transmitted to the electronic chip through the encoder. Through the improvement of the wheel base adjusting mechanism, the wheel base is convenient to adjust, and the axle center connecting rod can reliably transmit the rotation signal of the magic cube to the electronic chip at any time.

Description

Intelligence magic cube rotates signal transmission structure

Technical Field

The utility model relates to a toy technical field that benefits intelligence especially relates to an intelligence magic cube rotates signal transmission structure.

Background

A magic cube, also known as a Rubik cube. Since the advent of the magic cube, the magic cube is popular all over the world due to its strong intelligence-improving function for human beings. In a sense, the magic cube becomes a toy for special intelligence development and a toy for checking the intelligence level and maturity of players, thereby attracting a batch of players. Magic cube games usually adopt more complicated magic cubes as competition props, and contestants need to rotate quickly in the competition process so as to complete the reordering of the magic cubes in the shortest time.

The intelligent magic cube is a novel magic cube which is gradually raised in recent years, and how to reliably transmit a rotating signal of the magic cube to an electronic chip in the process that the magic cube is rapidly rotated by a player is a technical problem which needs to be continuously improved in the field of intelligent magic cubes.

SUMMERY OF THE UTILITY MODEL

In view of above situation, in order to solve the problem that above-mentioned technique exists, the utility model provides an intelligence magic cube rotates signal transmission structure can transmit the rotation signal of magic cube for electronic chip reliably.

An intelligent magic cube rotation signal transmission structure comprises an intelligent central shaft, wherein six axis connecting rods are arranged on the intelligent central shaft, the outer end parts of the axis connecting rods are respectively connected with a central block, and a plurality of edge blocks and corner blocks are respectively arranged on the central block; an encoder is further arranged in the intelligent central shaft, and the inner end part of the shaft center connecting rod is connected and arranged on the encoder.

According to the application, the inner end part of the axis connecting rod is provided with a connecting prism section, a connecting shaft of the encoder is provided with a prism hole, and the connecting prism section is inserted into the prism hole of the encoder.

According to the application, a signal transmission structure is rotated to intelligence magic cube, still be equipped with a plurality of longitudinal raised parts on the axle center hookup stick, correspond in the center block and set up a plurality of longitudinal grooves, longitudinal raised part is installed in the longitudinal groove and can be relative longitudinal groove reciprocates.

According to the application, the intelligent magic cube rotation signal transmission structure is characterized in that the outer wall of the axis connecting rod is three, and three longitudinal grooves are correspondingly formed in the center block.

According to the application, the outer end of the axle center connecting rod is provided with a triangular fixing part, a lock spring block is arranged in the center block, a triangular fixing groove is formed in the lock spring block, and the triangular fixing part is fixedly installed in the triangular fixing groove.

According to the intelligent magic cube rotating signal transmission structure, the center block comprises a center block main body, and a center block cover plate is arranged at the top of the center block main body; the center block main body is further provided with a shaft hole, the longitudinal groove is formed in the wall of the shaft hole, the shaft center connecting rod penetrates through the shaft hole, and the triangular fixing part arranged at the outer end part of the shaft center connecting rod and the locking spring block arranged on the triangular fixing part are located in the inner space of the center block main body below the center block cover plate.

According to the utility model provides an intelligence magic cube rotates signal transmission structure, still be equipped with the wheel base slider in the main part inner space of center, the wheel base slider includes annular slider main part, is equipped with the operation ring that floats in the top outside of slider main part, is equipped with unsteady atress ring in the bottom inboard of slider main part unsteady atress ring with be equipped with the spring between the lock spring block.

According to the application, the bottom of the floating operation ring is provided with the floating step, a center block step is arranged in the center block main body, and the floating step is in compression joint with the center block step.

According to the application, signal transmission structure is rotated to intelligence magic cube, the top of operation ring that floats is equipped with unsteady recess, still includes wheel base adjustment handle, be equipped with on the wheel base adjustment handle with the roll adjustment boss that the recess corresponds floats.

According to the application, signal transmission structure is rotated to intelligence magic cube, be equipped with lock encoder cover plate on the intelligence center pin, encoder fixed mounting be in on the lock encoder cover plate, still be equipped with the excellent installation department of hookup on the axle center hookup stick, lock encoder cover plate and/or be equipped with the restriction on the shell of intelligence center pin the encoder enclosing cover of hookup stick installation department axial position.

According to the application, signal transmission structure is rotated to intelligence magic cube, the inside lithium cell piece that is equipped with of intelligence center pin, the lithium cell piece pass through interconnecting link with the encoder is connected.

After the technology provided by the utility model, according to the utility model discloses intelligence magic cube rotates signal transmission structure has following beneficial effect: the triangular fixing part and the triangular fixing groove jointly form a triangular structure buckle to lock the center block, the longitudinal groove on the center block is clamped by the longitudinal bulge to form a triangular clamping structure, the center block can drive the axis connecting rod to rotate when rotating, the axis connecting rod drives the encoder, and therefore a rotating signal of the magic cube is transmitted to the electronic chip through the encoder. Through the improvement of the wheel base adjusting mechanism, the wheel base is convenient to adjust, and the axle center connecting rod can reliably transmit the rotation signal of the magic cube to the electronic chip at any time.

Drawings

Fig. 1 is a diagram of an intelligent magic cube according to an embodiment of the present application;

fig. 2 is an internal structure diagram of an intelligent magic cube according to an embodiment of the present application;

fig. 3 is an exploded view of an intelligent magic cube rotation signal transmission structure according to an embodiment of the present application;

fig. 4 is a sectional view of an intelligent magic cube rotation signal transmission structure according to an embodiment of the present application;

fig. 5 is an exploded view of an intelligent magic cube rotation signal transmission structure according to an embodiment of the present application.

In the figure, the position of the upper end of the main shaft,

intelligent center shaft 1 floating step 2211

Floating groove 2212 of axis connecting rod 10

Coupling prismatic section 101 floating stress ring 222

Longitudinal projection 102 locks spring block 23

Triangle fixing part 103 triangle fixing groove 233

Coupling rod mounting 104 spring 24

Center block 2 edge block 3

Center block main body 20 corner block 4

Center block stage 2001 encoder 5

Longitudinal slot 202 locks encoder cover 51

Center block cover 21 encoder cover 52

Wheelbase slider 22 lithium battery block 6

Slider body 220 wheelbase adjusting handle 9

Floating operation ring 221 distance adjusting boss 9002

Detailed Description

Various preferred embodiments of the present invention will be described below with reference to the accompanying drawings. The following description with reference to the accompanying drawings is provided to assist in understanding the exemplary embodiments of the invention as defined by the claims and their equivalents. It includes various specific details to assist understanding, but they are to be construed as merely illustrative. Accordingly, those skilled in the art will recognize that various changes and modifications may be made to the embodiments described herein without departing from the scope and spirit of the present invention. Also, in order to make the description clearer and simpler, a detailed description of functions and configurations well known in the art will be omitted.

As shown in fig. 1-2, an intelligent magic cube comprises a plurality of center blocks 2, edge blocks 3 and corner blocks 4, and an intelligent magic cube rotation signal transmission structure is arranged on the intelligent magic cube rotation signal transmission structure.

As shown in fig. 2-5, an intelligent magic cube rotation signal transmission structure comprises an intelligent central shaft 1, six shaft center connecting rods 10 are arranged on the intelligent central shaft 1, the outer end parts of the shaft center connecting rods 10 are respectively connected with a central block 2, and a plurality of edge blocks 3 and corner blocks 4 are respectively arranged on the central block 2; the intelligent central shaft 1 is also provided with an encoder 5, and the inner end part of the shaft center connecting rod 10 is connected and arranged on the encoder 5. The central block 2 drives the axis connecting rod 10, and the axis connecting rod 10 drives the encoder 5, so that the rotating signal of the magic cube is transmitted to the electronic chip.

The inner end of the shaft center connecting rod 10 is provided with a connecting prismatic section 101, the connecting shaft of the encoder 5 is provided with a prismatic hole, and the connecting prismatic section 101 is inserted into the prismatic hole of the encoder 5. It is ensured that the rotation of the axial coupling rod 10 is reliably transmitted to the encoder 5, thereby reliably transmitting the rotation signal of the puzzle to the electronic chip.

The axle center connecting rod 10 is further provided with a plurality of longitudinal protrusions 102, a plurality of longitudinal grooves 202 are correspondingly arranged in the central block 2, and the longitudinal protrusions 102 are installed in the longitudinal grooves 202 and can move up and down relative to the longitudinal grooves 202. The longitudinal protruding part 102 is clamped in the longitudinal groove 202 of the central block 2, so that the central block 2 can drive the axis connecting rod 10 to rotate when rotating, and the encoder 5 is driven to transmit the rotation signal of the magic cube to the electronic chip.

Three longitudinal protrusions 102 are arranged on the outer wall of the axle center connecting rod 10, and three longitudinal grooves 202 are correspondingly arranged in the central block 2. A triangular clamping structure is formed, and the reliability of rotation transmission can be guaranteed.

The outer end part of the axle center connecting rod 10 is provided with a triangle fixing part 103, the center block 2 is provided with a lock spring block 23, the lock spring block 23 is provided with a triangle fixing groove 233, and the triangle fixing part 103 is fixedly arranged in the triangle fixing groove 233. The triangle fixing part 103 and the triangle fixing groove 233 jointly form a triangle structure to clamp and lock the center block 2, and the structure reliability is higher.

The central block 2 comprises a central block main body 20, and a central block cover plate 21 is arranged at the top of the central block main body 20; the central block main body 20 is further provided with a shaft hole, the longitudinal groove 202 is arranged on the wall of the shaft hole, the shaft center connecting rod 10 penetrates through the shaft hole, and the triangular fixing part 103 arranged at the outer end part of the shaft center connecting rod 10 and the lock spring block 23 arranged on the triangular fixing part are positioned in the inner space of the central block main body 20 below the central block cover plate 21.

An axle distance floating block 22 is further arranged in the inner space of the central block main body 20, the axle distance floating block 22 comprises an annular floating block main body 220, a floating operation ring 221 is arranged on the outer side of the top end of the floating block main body 220, a floating stress ring 222 is arranged on the inner side of the bottom end of the floating block main body 220, and a spring 24 is arranged between the floating stress ring 222 and the locking spring block 23.

The bottom of the floating operation ring 221 is provided with a floating step 2211, the central block body 20 is internally provided with a central block step 2001, and the floating step 2211 is pressed on the central block step 2001.

The top of the floating operation ring 221 is provided with a floating groove 2212, and further comprises a wheel base adjusting handle 9, and the wheel base adjusting handle 9 is provided with a distance adjusting boss 9002 corresponding to the floating groove 2212.

Through the arrangement of the axle base adjusting device, the axle base is adjustable while the axle base connecting rod reliably transmits the rotation signal of the magic cube to the electronic chip, and a user can conveniently use the magic cube according to the hand feeling required by the user. The floating step 2211 of the axle distance floating block 22 and the central block step 2001 of the central block main body 20 can be set to be a plurality of sawtooth-shaped steps with different heights, the sawtooth-shaped steps and the sawtooth-shaped steps are matched with each other, and when the steps with different heights are matched, the heights of the central block main body 20 relative to the locking spring block, namely relative to the axle center connecting rod 10 are different, so that different axle distances are obtained. For example, when the wheel base is adjusted, the central block cover plate 21 is taken down, the distance adjusting boss 9002 of the wheel base adjusting handle 9 is inserted into the floating groove 2212 of the wheel base floating block 22, the wheel base floating block 22 is rotated anticlockwise, the floating step 2211 of the wheel base floating block 22 is matched with the central block step 2001 of the central block main body 20, the wheel base is adjusted 24 degrees anticlockwise, a step is increased by one step, and the wheel base distance returns to the original height after 5 gears and 120 degrees.

Be equipped with on the intelligence center pin 1 and lock encoder cover plate 51, encoder 5 fixed mounting be in lock encoder cover plate 51 is last, still be equipped with coupling rod installation department 104 on the axle center coupling rod 10, lock encoder cover plate 51 and/or be equipped with the restriction on the shell of intelligence center pin 1 the encoder enclosing cover 52 of coupling rod installation department 104 axial position.

The inside lithium cell piece 6 that is equipped with of intelligence center pin 1, lithium cell piece 6 through interconnecting link with encoder 5 is connected.

According to the utility model provides an intelligence magic cube rotates signal transmission structure constitutes triangle-shaped structure buckle jointly through triangle fixed part 103 and triangle fixed slot 233 and pins center block 2, forms the screens structure of a triangle-shaped through vertical bellying 102 card in vertical groove 202 on center block 2, can drive axle center hookup stick 10 when center block 2 rotates and rotate, and axle center hookup stick 10 drives encoder 5 to pass the rotation signal of magic cube to electronic chip through encoder 5. The axle base adjusting mechanism is improved, so that the axle base can be conveniently adjusted, and the axle center connecting rod can reliably transmit the rotation signal of the magic cube to the electronic chip at any time.

The present invention has been described in detail, and the principle and the implementation of the present invention have been explained by using specific examples, and the explanation of the above examples is only used to help understand the method and the core idea of the present invention; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the specific implementation and application scope, to sum up, the content of the present specification should not be understood as the limitation of the present invention.

Through the above description of the embodiments, those skilled in the art can clearly understand that the present invention can be implemented. Of course, the above listed cases are only examples, and the present invention is not limited thereto. It should be understood by those skilled in the art that other variations or simplifications according to the technical solution of the present invention may be appropriately applied to the present invention, and should be included in the scope of the present invention.

Claims (10)

1. An intelligent magic cube rotation signal transmission structure is characterized by comprising an intelligent central shaft (1), wherein six shaft center connecting rods (10) are arranged on the intelligent central shaft (1), the outer end parts of the shaft center connecting rods (10) are respectively connected with a central block (2), and a plurality of edge blocks (3) and corner blocks (4) are respectively arranged on the central block (2); an encoder (5) is further arranged in the intelligent central shaft (1), and the inner end part of the shaft center connecting rod (10) is connected to the encoder (5).

2. An intelligent magic cube rotation signal transmission structure according to claim 1, characterized in that the inner end of the axis connecting rod (10) is provided with a connecting prismatic section (101), the connecting shaft of the encoder (5) is provided with a prismatic hole, and the connecting prismatic section (101) is inserted into the prismatic hole of the encoder (5).

3. An intelligent magic cube rotation signal transmission structure according to claim 1, characterized in that the axle center connecting rod (10) is further provided with a plurality of longitudinal protrusions (102), the center block (2) is correspondingly provided with a plurality of longitudinal grooves (202), and the longitudinal protrusions (102) are installed in the longitudinal grooves (202) and can move up and down relative to the longitudinal grooves (202).

4. An intelligent magic cube rotation signal transmission structure, according to claim 3, characterized in that the number of the longitudinal protrusions (102) is three on the outer wall of the axle center connecting rod (10), and three longitudinal grooves (202) are correspondingly arranged in the central block (2).

5. An intelligent magic cube rotation signal transmission structure, according to claim 3, characterized in that the outer end of the axis connecting rod (10) is provided with a triangle fixing part (103), the center block (2) is provided with a lock spring block (23), the lock spring block (23) is provided with a triangle fixing groove (233), and the triangle fixing part (103) is fixedly installed in the triangle fixing groove (233).

6. An intelligent magic cube turning signal transmission structure, according to claim 5, characterized in that the central block (2) comprises a central block main body (20), the top of the central block main body (20) is provided with a central block cover plate (21); the center block is characterized in that the center block main body (20) is further provided with a shaft hole, the longitudinal groove (202) is formed in the wall of the shaft hole, the shaft center connecting rod (10) penetrates through the shaft hole, and the triangular fixing part (103) arranged at the outer end part of the shaft center connecting rod (10) and the locking spring block (23) arranged on the triangular fixing part are located in the inner space of the center block main body (20) below the center block cover plate (21).

7. An intelligent magic cube rotation signal transmission structure according to claim 6, characterized in that an axle distance slider (22) is further arranged in the inner space of the center block main body (20), the axle distance slider (22) comprises an annular slider main body (220), a floating operation ring (221) is arranged on the outer side of the top end of the slider main body (220), a floating stress ring (222) is arranged on the inner side of the bottom end of the slider main body (220), and a spring (24) is arranged between the floating stress ring (222) and the locking spring block (23).

8. An intelligent magic cube turning signal transmission structure, according to claim 7, characterized in that the bottom of the floating operation ring (221) is provided with a floating step (2211), the inside of the central block body (20) is provided with a central block step (2001), and the floating step (2211) is pressed on the central block step (2001).

9. An intelligent magic cube rotation signal transmission structure according to claim 7, characterized in that the top of the floating operation ring (221) is provided with a floating groove (2212), and further comprising a wheelbase adjusting handle (9), and the wheelbase adjusting handle (9) is provided with an adjusting boss (9002) corresponding to the floating groove (2212).

10. An intelligence magic cube rotation signal transmission structure according to claim 1, characterized in that, be equipped with lock encoder cover plate (51) on intelligence center pin (1), encoder (5) fixed mounting be in lock encoder cover plate (51) is last, still be equipped with coupling rod installation department (104) on axle center coupling rod (10), lock encoder cover plate (51) and/or be equipped with the restriction on the shell of intelligence center pin (1) encoder enclosing cover (52) of coupling rod installation department (104) axial position.

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