CN216536906U - Fingertip three-dimensional pressure reduction toy controlled by magnet - Google Patents
Fingertip three-dimensional pressure reduction toy controlled by magnet Download PDFInfo
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- CN216536906U CN216536906U CN202122926038.XU CN202122926038U CN216536906U CN 216536906 U CN216536906 U CN 216536906U CN 202122926038 U CN202122926038 U CN 202122926038U CN 216536906 U CN216536906 U CN 216536906U
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Abstract
A fingertip three-dimensional pressure reduction toy controlled by a magnet relates to the technical field of pressure reduction toys. The pressure-reducing toy solves the technical defects of the existing pressure-reducing toy, such as inconvenience for carrying and use, insufficient interest, poor reliability and the like, and comprises a first strip-shaped block body and a second strip-shaped block body which can be independently separated; the first strip-shaped block body and the second strip-shaped block body both comprise a matrix made of non-magnetic materials, magnet containing cavities are respectively arranged at the upper, middle and lower positions in the matrix, and a magnet is arranged in each magnet containing cavity; when the first bar-shaped block body is contacted with the second bar-shaped block body, the first bar-shaped block body and the second bar-shaped block body can be attracted and connected by the magnet in the magnet containing cavity of each of the two bar-shaped block bodies. The three-dimensional rotating, overturning and autorotation method is realized on the finger tip, and meanwhile, the three-dimensional rotating, overturning and autorotation method is matched with impact sound, so that the three-dimensional rotating, overturning and autorotation method is good in interestingness, small in size, convenient to carry about, low in cost and good in reliability.
Description
Technical Field
The utility model relates to the technical field of pressure-reducing toys.
Background
With the acceleration of the rhythm of life, when people pursue the improvement of the substance level, the psychological bearing pressure of a great part of mental workers is increased day by day, the cranial nerves can not be timely regulated and relaxed, anxiety and depression are easy to occur, and the psychological health is seriously influenced. In order to mediate the cranial nerves and reduce the pressure, various toy types for reducing the pressure exist in the market, but the pressure reducing effect is different, for example, some pressure reducing toys are not suitable for adults after being young; some are too large to be carried about and cannot be used at any time during work. The relatively successful fingertip gyroscope decompression toy can only be simply rotated, has insufficient operability, relatively high cost, easy damage and insufficient reliability.
SUMMERY OF THE UTILITY MODEL
In summary, the utility model aims to solve the technical defects of inconvenience in carrying and use, insufficient interest, poor reliability and the like of the conventional pressure reduction toy, and provides a fingertip three-dimensional pressure reduction toy controlled by a magnet.
In order to solve the technical defects provided by the utility model, the adopted technical scheme is as follows:
a fingertip three-dimensional pressure reduction toy controlled by a magnet is characterized by comprising a first strip-shaped block-shaped body and a second strip-shaped block-shaped body which can be independently separated; the first strip-shaped block body and the second strip-shaped block body both comprise a matrix made of non-magnetic materials, magnet containing cavities are respectively arranged at the upper, middle and lower positions in the matrix, and a magnet is arranged in each magnet containing cavity; when the first bar-shaped block body is contacted with the second bar-shaped block body, the first bar-shaped block body and the second bar-shaped block body can be attracted and connected by the magnet in the magnet containing cavity of each of the two bar-shaped block bodies.
The technical scheme for further limiting the utility model comprises the following steps:
the size of the magnet containing cavity in the first strip-shaped block body or/and the second strip-shaped block body is larger than that of the corresponding magnet, and the magnet can be turned and adjusted to attract in the magnet containing cavity according to the magnetism close to the magnet from the outside.
The sizes of the magnet containing cavities in the first strip-shaped block body and the second strip-shaped block body are larger than the sizes of corresponding magnets, and the magnets in the magnet containing cavities are all spherical magnetic beads.
The basal bodies of the first strip-shaped block-shaped body and the second strip-shaped block-shaped body are both wood cuboids.
The wooden cuboid is formed by buckling two plate bodies which are longitudinally buckled.
The distance between the two adjacent magnet containing cavities in the first strip-shaped block body and the second strip-shaped block body is not more than twice of the maximum attraction distance of the two magnets.
The utility model has the beneficial effects that: each set of the utility model generally comprises two strip-shaped block bodies, when the two strip-shaped block bodies are close to each other, the two strip-shaped block bodies can be quickly attracted together under the action of an internal magnet, crisp impact sounds can be generated when the two strip-shaped block bodies are attracted and contacted, playing methods such as side-by-side four-direction 5-grade translation, cross or T-shaped cross attraction 360-degree magnetic attraction pivoting, four-direction turning 360-around-point 360-degree rotation and the like can be performed, various playing methods such as three-dimensional rotation, turning and rotation on finger tips can be realized, meanwhile, the utility model is matched with impact sounds, and has the advantages of good interest, small volume, convenient carrying, low cost and good reliability.
Drawings
FIG. 1 is a schematic perspective view of the present invention;
FIG. 2 is an exploded view of the present invention;
fig. 3 to 13 are schematic structural views of 11 states of the present invention.
Detailed Description
The structure of the present invention is further defined below by reference to the drawings and preferred embodiments of the present invention.
Referring to fig. 1 and 2, the utility model discloses a fingertip three-dimensional pressure reduction toy controlled by a magnet, which comprises a first bar-shaped block body 1 and a second bar-shaped block body 2; when the first strip-shaped block body 1 and the second strip-shaped block body 2 are close to each other, the first strip-shaped block body and the second strip-shaped block body can be attracted and connected together under the action of magnetic force, and can be separated into two independent parts under the action of external force; the first strip-shaped block body and the second strip-shaped block body both comprise a base body 11 made of non-magnetic conducting materials, magnet containing cavities 12 are respectively arranged at the upper position, the middle position and the lower position in the base body 11, and a magnet 13 is arranged in each magnet containing cavity 12; when the first bar-shaped block body 1 is contacted with the second bar-shaped block body 2, the first bar-shaped block body can be attracted and connected by the magnet in one magnet containing cavity in each of the two bar-shaped block bodies.
As is known well, the magnetic block comprises an S pole and an N pole, homopolar poles repel each other, heteropolar poles attract each other, the size of the magnet containing cavity in the first strip-shaped block body or/and the second strip-shaped block body is larger than that of the corresponding magnet, and the magnet can be turned and adjusted to attract each other in the magnet containing cavity according to the magnetism close to the magnet from the outside. That is, the first strip-shaped block-shaped body 1 and the second strip-shaped block-shaped body 2 can be magnetically attracted and attached to each other no matter which surface is close to each other.
In order to avoid that the magnets in the two bar-shaped block bodies cannot be smoothly adjusted to the opposite-pole attraction state when the two bar-shaped block bodies approach, the preferable scheme is as follows: the sizes of the magnet containing cavities in the first strip-shaped blocky body 1 and the second strip-shaped blocky body 2 are both larger than the sizes of corresponding magnets, and the magnets in the magnet containing cavities are all spherical magnetic beads.
In order to save the production and manufacturing cost of the utility model and simultaneously enable the utility model to generate crisp sound in the playing process, the basal bodies of the first strip-shaped block body 1 and the second strip-shaped block body 2 are both wood cuboids. The wooden cuboid is formed by buckling two plate bodies in a longitudinal buckling mode, so that the magnets can be installed in the corresponding iron bar-shaped block bodies.
The distance between the adjacent two magnet containing cavities in the first strip-shaped block body and the second strip-shaped block body is not more than two times of the maximum attraction distance of the two magnets, so that the phenomenon that the two strip-shaped block bodies are separated and fall off in the process of attaching and translating is avoided.
As shown in fig. 1, when the first bar-shaped block body 1 and the second bar-shaped block body 2 are aligned up and down and horizontally moved close to each other, and move to the magnet attraction range inside the first bar-shaped block body and the second bar-shaped block body, the first bar-shaped block body 1 and the second bar-shaped block body 2 are quickly attracted together under the action of magnetic force to reach the state shown in fig. 5, and simultaneously, crisp sounds are generated, wherein the upper, middle and lower magnets in the first bar-shaped block body 1 correspond to the upper, middle and lower magnets in the second bar-shaped block body 2 one by one, and the magnets attract each other differently; no matter which side surface of the first strip-shaped block body 1 is connected with any one side surface of the second strip-shaped block body 2 in an attracting way, the state shown in figure 5 is achieved.
In addition to the most basic playing method from the state of fig. 1 to the state of fig. 5, the first bar-shaped block body 1 and the second bar-shaped block body 2 are provided with a magnet at the upper, middle and lower positions; as shown in fig. 3 to 7, a side-by-side four-direction 5-step translation play method may be further performed, as shown in fig. 3, in a state where the lower magnet of the first bar-shaped block-shaped body 1 is attracted to the upper magnet of the second bar-shaped block-shaped body 2; the first bar-shaped block body 1 is moved down, and when the lower magnet of the first bar-shaped block body 1 is closer to the middle magnet of the second bar-shaped block body 2, the first bar-shaped block body 1 and the second bar-shaped block body 2 rapidly reach the state shown in fig. 4 under the magnetic force action of the lower magnet of the first bar-shaped block body 1 and the middle magnet of the second bar-shaped block body 2, and the middle magnet of the first bar-shaped block body 1 and the upper magnet of the second bar-shaped block body 2. Similarly, the first bar-shaped block body 1 continues to be translated downwards, and the first bar-shaped block body 1 and the second bar-shaped block body 2 quickly reach the state shown in fig. 5 and stop; the first strip-shaped blocky body 1 is further translated downwards, and the first strip-shaped blocky body 1 and the second strip-shaped blocky body 2 rapidly reach the state shown in the figure 6 and stop; the first strip-shaped blocky body 1 is further translated downwards, and the first strip-shaped blocky body 1 and the second strip-shaped blocky body 2 rapidly reach the state shown in the figure 7 and stop; thereby realizing the translation of 5 gears side by side.
In the state shown in fig. 3, after the first bar-shaped block-shaped body 1 is turned 45 degrees toward the top end of the second bar-shaped block-shaped body 2, the state shown in fig. 8 is rapidly reached by the magnetic attraction between the middle magnet of the first bar-shaped block-shaped body 1 and the upper magnet of the second bar-shaped block-shaped body 2.
In the state of fig. 8, after the first strip-shaped block body 1 is turned downwards by 45 degrees, the state of fig. 9 can be rapidly entered, in the state of fig. 9, the first strip-shaped block body 1 can be horizontally turned around the second strip-shaped block body 2, and in the turning process, the first strip-shaped block body and the second strip-shaped block body can be always attracted together without falling off; the state of figure 8 can also be reversed downwards along the side walls of the second strip-shaped block-shaped body 2, to the state of figure 10.
As shown in figure 11, the bottom end of the first strip-shaped block body 1 can be connected with the top end of the second strip-shaped block body 2 in a suction way, and the first strip-shaped block body and the second strip-shaped block body are not separated and fall off all the time in the folding and overturning process.
As shown in fig. 12 and 13, the first bar-shaped block-shaped body 1 and the second bar-shaped block-shaped body 2 can be vertically connected without being separated and separated during the translation process.
The method is only listed for part of playing methods, can not separate and fall off in the processes of overturning, translating or rotating the fingertips of one hand in a three-dimensional space, has more playability and better interest, enables anxiety and depression brain nerves to be timely mediated and relaxed, and effectively solves the psychological health.
Claims (6)
1. A fingertip three-dimensional pressure reduction toy controlled by a magnet is characterized by comprising a first strip-shaped block-shaped body and a second strip-shaped block-shaped body which can be independently separated; the first strip-shaped block body and the second strip-shaped block body both comprise a matrix made of non-magnetic materials, magnet containing cavities are respectively arranged at the upper, middle and lower positions in the matrix, and a magnet is arranged in each magnet containing cavity; when the first bar-shaped block body is contacted with the second bar-shaped block body, the first bar-shaped block body and the second bar-shaped block body can be attracted and connected by the magnet in the magnet containing cavity of each of the two bar-shaped block bodies.
2. The fingertip three-dimensional pressure reduction toy controlled by the magnet according to claim 1, wherein: the size of the magnet containing cavity in the first strip-shaped block body or/and the second strip-shaped block body is larger than that of the corresponding magnet, and the magnet can be turned and adjusted to attract in the magnet containing cavity according to the magnetism close to the magnet from the outside.
3. The fingertip three-dimensional pressure reduction toy controlled by the magnet according to claim 2, wherein: the sizes of the magnet containing cavities in the first strip-shaped block body and the second strip-shaped block body are larger than the sizes of corresponding magnets, and the magnets in the magnet containing cavities are all spherical magnetic beads.
4. The fingertip three-dimensional pressure reduction toy controlled by the magnet according to claim 1, wherein: the basal bodies of the first strip-shaped block-shaped body and the second strip-shaped block-shaped body are both wood cuboids.
5. The fingertip three-dimensional pressure reduction toy controlled by the magnet according to claim 4, wherein: the wooden cuboid is formed by buckling two plate bodies which are longitudinally buckled.
6. The fingertip three-dimensional pressure reduction toy controlled by the magnet according to claim 1, wherein: the distance between the two adjacent magnet containing cavities in the first strip-shaped block body and the second strip-shaped block body is not more than twice of the maximum attraction distance of the two magnets.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202122926038.XU CN216536906U (en) | 2021-11-26 | 2021-11-26 | Fingertip three-dimensional pressure reduction toy controlled by magnet |
Applications Claiming Priority (1)
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CN202122926038.XU CN216536906U (en) | 2021-11-26 | 2021-11-26 | Fingertip three-dimensional pressure reduction toy controlled by magnet |
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CN216536906U true CN216536906U (en) | 2022-05-17 |
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CN202122926038.XU Active CN216536906U (en) | 2021-11-26 | 2021-11-26 | Fingertip three-dimensional pressure reduction toy controlled by magnet |
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CN (1) | CN216536906U (en) |
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2021
- 2021-11-26 CN CN202122926038.XU patent/CN216536906U/en active Active
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