FIDGET TOY

TECHNICAL FIELD

The present disclosure relates to a technical field of toys, and in particular to a fidget toy.

BACKGROUND

Nowadays, technology and society are rapidly developed, urban life rhythm is fast-paced, which is more efficient in working, living, and learning, but further brings great pressure to people. If the pressure cannot be well released and adjusted, there may be a significant negative impact caused on working, living, and learning of the people, therefore extremely easily leading to anxiety and depression to seriously affect psychological health of the people.

There are also various types of toys used for decompression and entertainment in the market, but decompression effects of the various types of the toys are different, for example, some of the toys for decompression are too childish for adults to play with; and some of the toys for decompression are too large in volume, which is not convenient for carrying about and cannot be used at any time. Magnetic balls in the related art may better relieve pressure of users and are convenient for carrying about at any time since volumes of the magnetic balls are relatively small. However, security of the magnetic balls is insufficient.

SUMMARY

The present disclosure provides a fidget toy, which not only relieves pressure of users, but also provides higher security.

The present disclosure provides a fidget toy, including a covering body and a magnetic assembly. An accommodation space is defined in the covering body, and a material of the covering body is a soft material. The magnetic assembly is movably disposed in the accommodation space, the magnetic assembly includes a plurality of magnetic components, the plurality of the magnetic components are magnetically connected, and the plurality of the magnetic components are deformable in the covering body.

Furthermore, the covering body includes a first covering portion and a second covering portion, and the first covering portion and the second covering portion are fixedly connected.

Furthermore, the first covering portion and the second covering portion are adhesively connected.

Furthermore, a groove is defined on one end of the first covering portion, the one end of the first covering portion faces the second covering portion. A clamping portion is disposed on one end of the second covering portion, the one end of the second covering portion faces the first covering portion, and the clamping portion is clamped into the groove.

Furthermore, the covering body is integrally formed.

Furthermore, the magnetic assembly accounts for 20% to 90% of the accommodation space.

Furthermore, a sound is generated between the plurality of the magnetic components. The covering body is capable of isolating the sound above 600 Hz.

Furthermore, the plurality of the magnetic components include a plurality of magnetic bodies.

Furthermore, the plurality of the magnetic components include a plurality of magnetic bodies and a plurality of metal bodies, and the plurality of the magnetic bodies and the plurality of the metal bodies are magnetically attracted.

Furthermore, a shape of each of the plurality of the magnetic bodies is the same as a shape of each of the plurality of the metal bodies.

Furthermore, a proportion of the plurality of the magnetic bodies in the magnetic assembly is not less than 20%.

Furthermore, each of the magnetic components is a sphere, and a diameter of each of the magnetic components is between 2 mm and 10 mm.

Furthermore, the plurality of the magnetic components include magnetic bodies in various specifications, and shapes of the magnetic bodies in the various specifications are different.

Furthermore, the plurality of the magnetic components include magnetic bodies and metal bodies in various specifications, and shapes of the metal bodies in the various specifications are different.

Furthermore, a material of the covering body is a silicone material.

Furthermore, the covering body has a Shore hardness of 20 to 80.

Furthermore, the covering body is a hollow sphere, and a thickness of the covering body is between 1 mm and 5 mm.

Furthermore, transparency of the covering body is greater than 50%.

Furthermore, intensity of pressure in the accommodation space is between 0.7 atmospheric pressure and 1.3 atmospheric pressure.

Furthermore, the accommodation space accommodates one of air, an inert gas, and carbon dioxide.

In embodiments of the present disclosure, the fidget toy includes the covering body and the magnetic assembly disposed in the covering body. The material of the covering body is the soft material. The magnetic assembly includes the plurality of the magnetic components. The plurality of the magnetic components are capable of being magnetically connected and being deformable in the covering body. The covering body wraps the plurality of the magnetic components, so that the plurality of the magnetic components are not easy to scatter, and the plurality of the magnetic components are not easy to lost. It can be understood that common magnetic components are generally not allowed to be swallowed, the plurality of the magnetic components are wrapped by the covering body, and are not easy to be mistakenly eaten by children, thereby avoiding risk that the children mistakenly eat the magnetic components and further improving security of fidget toy. Moreover, users may squeeze the plurality of the magnetic components through the covering body, thereby changing a shape of the plurality of the magnetic components for achieving decompression effect. The plurality of the magnetic components are magnetically attracted, the users need to apply a large external force to change the shape of the plurality of the magnetic components 21, so as to relieve the pressure. Meanwhile, the plurality of the magnetic components may be shaped according to preferences of the users, thereby achieving an interesting decompression effect.

BRIEF DESCRIPTION OF DRAWINGS

In order to more clearly illustrate technical solutions in embodiments of the present disclosure, drawings that need to be used in description of the embodiments are briefly described below, and it is obvious that the drawings in the following description are merely some embodiments of the present disclosure, and those skilled in the art may obtain other drawings according to these drawings without involving any inventive effort.

For a more complete understanding of the present disclosure and the beneficial effects thereof, the following description may be made below in conjunction with the accompanying drawings, in which same reference numerals refer to same parts in the following description.

FIG. 1 is a structural schematic diagram of a fidget toy according to one embodiment of the present disclosure.

FIG. 2 is another structural schematic diagram of the fidget toy according to one embodiment of the present disclosure.

FIG. 3 is a structural schematic diagram of a covering body of the fidget toy shown in FIG. 2.

FIG. 4 is a structural schematic diagram of a first covering portion of the covering body shown in FIG. 3.

FIG. 5 is a structural schematic diagram of a second covering portion of the covering body shown in FIG. 3.

FIG. 6 is a first structural schematic diagram of a magnetic assembly, after being shaped, in the fidget toy shown in FIG. 1.

FIG. 7 is a second structural schematic diagram of the magnetic assembly, after being shaped, in the fidget toy shown in FIG. 1.

FIG. 8 is a first structural schematic diagram of the magnetic assembly, after being shaped, in the fidget toy shown in FIG. 2.

FIG. 9 is a second structural schematic diagram of the magnetic assembly, after being shaped, in the fidget toy shown in FIG. 2.

FIG. 10 is a first structural schematic diagram of the magnetic assembly in the fidget toy according to one embodiment of the present disclosure.

FIG. 11 is a second structural schematic diagram of the magnetic assembly in the fidget toy according to one embodiment of the present disclosure.

FIG. 12 is a third structural schematic diagram of the magnetic assembly in the fidget toy according to one embodiment of the present disclosure.

FIG. 13 is a fourth structural schematic diagram of the magnetic assembly in the fidget toy according to one embodiment of the present disclosure.

FIG. 14 is a schematic diagram of a first usage scenario of the fidget toy according to one embodiment of the present disclosure.

FIG. 15 is a schematic diagram of a second usage scenario of the fidget toy according to one embodiment of the present disclosure.

FIG. 16 is a schematic diagram of a third usage scenario of the fidget toy according to one embodiment of the present disclosure.

FIG. 17 is a schematic diagram of a fourth usage scenario of the fidget toy according to one embodiment of the present disclosure.

FIG. 18 is a schematic diagram of a fifth usage scenario of the fidget toy according to one embodiment of the present disclosure.

FIG. 19 is a schematic diagram of a sixth usage scenario of the fidget toy according to one embodiment of the present disclosure.

FIG. 20 is a schematic diagram of a seventh usage scenario of the fidget toy according to one embodiment of the present disclosure.

Reference numerals in the drawings: 1. covering body; 11. first covering portion; 111. groove; 12. second covering portion; 122. clamping portion; 13. accommodation space; 2. magnetic assembly; 21. magnetic component; 212. magnetic body; 214. mental body.

DETAILED DESCRIPTION

Technical solutions in embodiments of the present disclosure are clearly and completely described below with reference to accompanying drawings in the embodiments of the present disclosure. Obviously, the described embodiments are only a part of the embodiments of the present disclosure, but are not all embodiments. All other embodiments obtained by a person skilled in the art based on the embodiments of the present disclosure without creative efforts shall fall within protection scopes of the present disclosure.

The embodiments of the present disclosure provide a fidget toy, as shown in FIG. 1, FIG. 1 is a structural schematic diagram of a fidget toy according to one embodiment of the present disclosure. The fidget toy 100 includes a covering body 1 and a magnetic assembly 2. An accommodation space 13 is defined in the covering body 1, and a material of the covering body 1 is a soft material. The magnetic assembly 2 is movably disposed in the accommodation space 13, the magnetic assembly 2 includes a plurality of magnetic components 21, the plurality of the magnetic components 21 are magnetically connected, and the plurality of the magnetic components 21 are deformable in the covering body 1.

The covering body 1 wraps the plurality of the magnetic components 21, so that the plurality of the magnetic components 21 are not easy to scatter, and the plurality of the magnetic components 21 are not easy to lost. It can be understood that common magnetic components are generally not allowed to be swallowed, the plurality of the magnetic components 21 are wrapped by the covering body 1, and are not easy to be mistakenly eaten by children, thereby avoiding risk that the children mistakenly eat the magnetic components 21 and further improving security of fidget toy 100. Moreover, users may squeeze the plurality of the magnetic components 21 through the covering body 1, thereby changing a shape of the plurality of the magnetic components 21 for achieving decompression effect. The plurality of the magnetic components 21 are magnetically attracted, the users need to apply a large external force to change the shape of the plurality of the magnetic components 21, so as to relieve the pressure. Meanwhile, the plurality of the magnetic components 21 may be shaped according to preferences of the users, thereby achieving an interesting decompression effect.

The magnetic assembly 2 may be deformable and shaped in the covering body 1, each time the magnetic assembly 2 is squeezed, the magnetic assembly 2 undergoes a deformation. Theoretically, shapes of the magnetic assembly 2 every time the magnetic assembly 2 is squeezed are different, and a force for squeezing is also different, thereby obtaining different experience of squeezing each time, and further increasing interestingness and ornamental value of a product of the fidget toy 100 through shaping of the magnetic assembly 2.

People experience a wide variety of emotions in working, living, and learning, and may feel pressure when there is motivation, when the pressure is too large, muscles of a whole body of the people cannot be relaxed. The fidget toy of the present disclosure is an auxiliary tool for temporary decompression, which may transfer attentions of the users and help the users to relax muscles of a whole body of the users. Compared with other soft ball typed fidget toys, the soft ball typed fidget toy of the present disclosure is more popular with the public, which solves a problem that the other soft ball typed fidget toys are single in function and may explode out internal substances, such as glue or water beads, when being damaged, thereby cannot meet decompression requirements of different user groups. It should be noted that an inner portion of each of the soft ball typed fidget toys is filled with gelatinous objects or water beads, and when the soft ball typed fidget toy is squeezed and is broken, the inner fillers of the soft ball typed fidget toy flow out and scatter all over, which is dirty and nausea and brings a very poor experience for the users.

As shown in FIGS. 2 and 3, FIG. 2 is another structural schematic diagram of the fidget toy according to one embodiment of the present disclosure, and FIG. 3 is a structural schematic diagram of a covering body of the fidget toy shown in FIG. 2. In one embodiment, the covering body 1 includes a first covering portion 11 and a second covering portion 12, and the first covering portion 11 and the second covering portion 12 are fixedly connected. The magnetic assembly 2 may be first disposed between the first covering portion 11 and the second covering portion 12, and then the first covering portion 11 and the second covering portion 12 are fixedly connected, so that the magnetic assembly 2 is disposed between the first covering portion 11 and the second covering portion 12.

A shape of the first covering portion 11 and a shape of the second covering portion 12 may be the same, and the first covering portion 11 and the second covering portion 12 having the same shape may be completely shared by two covering bodies having same shapes and structures, which may reduce material cost and is convenient for assembly.

The shape of the first covering portion 11 and the shape of the second covering portion 12 may also be different, for example, a volume of the first covering portion 11 is larger, the magnetic assembly 2 is first disposed in the first covering portion 11, and the second covering portion 12 covers the magnetic assembly 2 and is fixedly connected to the first covering portion 11.

In some embodiments, the first covering portion 11 and the second covering portion 12 are adhesively connected. The first covering portion 11 and the second covering portion 12 may be conveniently and fixedly connected through adhesion. Glue for adhesion may be provided according to needs. For example, the glue may enable a pulling force at a joint of the first covering portion 11 and the second covering portion 12 to exceed 15 lbf, such as 18 lbf, 20 lbf, or 40 lbf.

In one embodiment, a connecting surface of the first covering portion 11 and the second covering portion 12 is a plane, the glue is disposed between the connecting surface, as the plane, of the first covering portion 11 and the second covering portion 12, which is convenient for bonding the first covering portion 11 and the second covering portion 12 together.

In other embodiments, as shown in FIGS. 4 and 5, FIG. 4 is a structural schematic diagram of a first covering portion of the covering body shown in FIG. 3, and FIG. 5 is a structural schematic diagram of a second covering portion of the covering body shown in FIG. 3. A groove 111 is defined on one end of the first covering portion 11, the one end of the first covering portion 11 faces the second covering portion 12. A clamping portion 122 is disposed on one end of the second covering portion 12, the one end of the second covering portion 12 faces the first covering portion 11, and the clamping portion 122 is clamped into the groove 111, such concave-convex design of clamping the clamping portion 122 into the groove 111 enables the first covering portion 11 and the second covering portion 12 to more tightly bond together in combination with an adhesion manner. For example, the glue is filled between the clamping portion 122 and the groove 111, which may increase an adhesive area of the first covering portion 11 and the second covering portion 12 and provides an adhesive force for the first covering portion 11 and the second covering portion 12.

In other embodiments, the first covering portion 11 and the second covering portion 12 may be fixedly connected in other manners. For example, the first covering portion 11 and the second covering portion 12 may be fixedly connected in a hot melt manner.

In other embodiments, as shown in FIG. 1, the covering body 2 is integrally formed. A material forming the covering body 1 may be covered on the magnetic assembly 2, and then the covering body 1 is formed through a corresponding processing process.

In some embodiments, the magnetic assembly 2 accounts for 30% to 90% of the accommodation space 13 to achieve the best shaping space. The magnetic assembly 2 may conveniently form various shapes in the covering body 1, and does not affect shaping of the magnetic assembly 2. For example, the magnetic assembly 2 may account for 40% to 70% of the accommodation space 13.

The magnetic assembly 2 only occupies parts of space in the covering body 1, and the magnetic assembly 2 may be changed into other shapes in the covering body 1 according to operations of the users. For example, FIG. 6 is a first structural schematic diagram of the magnetic assembly, after being shaped, in the fidget toy shown in FIG. 1, the magnetic assembly 2 may be changed into a central hollowed-out ring body in the covering body 1 according to the operations of the users. For another example, FIG. 7 is a second structural schematic diagram of the magnetic assembly, after being shaped, in the fidget toy shown in FIG. 1, the magnetic assembly 2 may be changed into a structure similar to a heart shape according to the operations of the users.

It can be understood that the magnetic assembly 2 in the covering body 1 may also be changed into an irregular structure according to the operations of the users. For example, as shown in FIGS. 8 and 9, FIG. 8 is a first structural schematic diagram of the magnetic assembly, after being shaped, in the fidget toy shown in FIG. 2, and FIG. 9 is a second structural schematic diagram of the magnetic assembly, after being shaped, in the fidget toy shown in FIG. 2. The plurality of the magnetic components 21 in the magnetic assembly 2 are in a regular structure before being operated by the users, and are changed into irregular structures after being operated by the users, so as to relieve the pressure of the users.

It should be noted that the inner portion of each of the soft ball typed fidget toys is filled with the gelatinous objects or the water beads, so that the soft ball typed fidget toy does not generate sound in a squeezing process.

In some embodiments, the plurality of the magnetic components 21 of the magnetic assembly 2 of the present disclosure may move in the covering body 1 and generate sound, and the sound may relieve mood, provide an inner peace, and is also a very important composition in decompression function. Moreover, when the magnetic assembly 2 is squeezed, the magnetic assembly 2 generates a sound enabling a person to feel relaxed, as if the person steps on fresh snow, so as to better calm mood of the person and relieve anxiety of the person. In a squeezing process of the plurality of the magnetic components 21, friction between the plurality of the magnetic components 21 may generate sound, deformation of the plurality of the magnetic components 21 may generate sound, and conversion between an N-pole and an S-pole of each of the plurality of the magnetic components 21 may also generate sound.

In some embodiments, a sound is generated between the plurality of the magnetic components 21, and the covering body 1 is capable of isolating the sound above 600 Hz. It can be understood that low-frequency sound has a low frequency and a large wavelength, so that penetration capability of the low-frequency sound is higher than penetration capability of a high-frequency sound. The covering body 1 is made of a material that may isolate all or most of high-frequency sounds more than 600 Hz, thereby isolating the high-frequency sounds more than 600 Hz and allowing most of low-frequency sounds, such as 400 Hz-600 Hz, to pass through.

In some embodiments, frequencies of the sound generated by the friction between the plurality of the magnetic components 21 are ranged from a low frequency of 400 Hz to a high frequency of 1500 Hz, the covering body 1 has an effect of soundproofing and may block the high-frequency sound. In an audio test, the covering body 1 having a thickness of 1.5 mm to 3 mm may enable all or most of sounds, generated by the friction of the plurality of the magnetic components 21 and frequencies of which ranged from 400 Hz to 600 Hz, to penetrate through, and further isolates all or most of sounds which frequencies ranged from 600 Hz to 1500 Hz, thereby better meeting requirements of human ears for sound, and further achieving the decompression effect.

The material of the covering body 1 may be set according to needs, and only the material of the covering body 1 is a flexible material, and the high-frequency sounds are blocked, the low-frequency sounds are allowed to pass through. For example, the covering body 1 allows the sounds which frequencies ranged from 400 Hz to 600 Hz to pass through and isolates the sounds which frequencies above 600 Hz. For another example, a material of the covering body 1 is a silicone, etc.

In some embodiments, as shown in FIG. 10, FIG. 10 is a first structural schematic diagram of the magnetic assembly in the fidget toy according to one embodiment of the present disclosure. The plurality of the magnetic components 21 include a plurality of magnetic bodies 212, each of the plurality of the magnetic bodies 212 has magnetism, any two of the plurality of the magnetic bodies 212 may be magnetically attracted or magnetically repelled. Each of the magnetic bodies 212 has characteristics of mutual attraction and mutual repulsion, and when the fidget toy 100 is rubbed, the plurality of the magnetic bodies 212 in the fidget toy 100 may roll along with rubbing of hands, and a force is generated by continuous conversion between the N-pole and the S-pole of magnetic poles in a rolling process. With the increasing of a rubbing force, a reaction force may be generated to fingers, so that pinching experience of the fingers is better.

In some embodiments, as shown in FIG. 11, FIG. 11 is a second structural schematic diagram of the magnetic assembly in the fidget toy according to one embodiment of the present disclosure. The plurality of the magnetic components 21 include a plurality of magnetic bodies 212 and a plurality of metal bodies 214, and the plurality of the magnetic bodies 214 and the plurality of the metal bodies 212 are magnetically attracted, and mixture of the plurality of the magnetic bodies 212 and the plurality of the metal bodies 214 may provide more usage scenarios.

In some embodiments, a shape of each of the plurality of the magnetic bodies 212 is the same as a shape of each of the plurality of the metal bodies 214, and the plurality of the magnetic bodies 212 and the plurality of metal bodies 214 may be arbitrarily mixed for shaping.

In some embodiments, a proportion of the plurality of the magnetic bodies 212 in the magnetic assembly 21 is not less than 20%, thereby having stronger magnetism, so that the plurality of the magnetic bodies 212 and the plurality of the metal bodies 214 may be better formed into one assembly. Specifically, the magnetic assembly 21 includes a plurality of the magnetic bodies 212 and the plurality of the metal bodies 214.

In some embodiments, a quantity of the plurality of the magnetic bodies 212 is more than a quantity of the plurality of the metal bodies 214, and more magnetic bodies 212 may have provide stronger magnetism, thereby better forming the plurality of magnetic bodies 212 and the plurality of the metal bodies 214 into one assembly.

In some embodiments, the plurality of the magnetic bodies 212 may be neodymium-iron-boron magnetic bodies, and the neodymium-iron-boron magnetic bodies need to be magnetized before being disposed, and a magnetic flux of which may be 300 Wb-400 Wb, the plurality of the magnetic bodies 212 have sufficient magnetism to attract other non-magnetic materials, such as the metal bodies 214, for together forming one assembly.

The plurality of the magnetic bodies 212 include a large number of ferromagnetic materials, and a quantity of the ferromagnetic materials may be changed to change a weight of the fidget toy 100, the quantity of the ferromagnetic materials is small, the weight of the fidget toy 100 is lighter, which is conductive to decompression; and if the quantity of the ferromagnetic materials is large, the fidget toy 100 is overweight, which is conductive to fitness. Specifically, a proportion of magnetic materials in the ferromagnetic materials may be more than 30%, such proportion allows the ferromagnetic materials to aggregate together to form one assembly. Moreover, a friction between materials may be adjusted through changing a proportion of the magnetic materials to the plurality of the magnetic bodies 212. The lower the proportion is, the lower a magnetism of the plurality of the magnetic bodies 212 is, so that the friction force between the materials is smaller, a resistance is smaller, and only a small strength is required for squeezing the fidget toy 100, which is conductive to decompression. On the contrary, the higher the proportion is, the higher the magnetism of the plurality of the magnetic bodies 212 is, so that the friction force between the materials is larger a resistance is larger, and a large strength is required for squeezing the fidget toy 100, which is conductive to fitness.

In some embodiments, the magnetic components 21 are spheres, and a diameter of each of the plurality of the magnetic components 21 is between 2 mm and 10 mm. In some embodiments, the plurality of the magnetic components 21 are the plurality of the magnetic bodies 212, the plurality of the magnetic bodies 212 are spheres, and a diameter of each of the magnetic bodies 212 is between 2 mm and 10 mm. In other embodiments, the plurality of the magnetic components 21 includes the plurality of the magnetic bodies 212 and the plurality of the metal bodies 214, the plurality of the magnetic bodies 212 and the plurality of the metal bodies 214 are spheres, and both a diameter of each of the plurality of the magnetic bodies 212 and a diameter of the plurality of the metal bodies 214 are between 2 mm and 10 mm. Specifically, the diameter of each of the plurality of the magnetic bodies 212 and the diameter of the plurality of the metal bodies 214 may be the same, and may also be different.

In some embodiments, the plurality of the magnetic components 21 include magnetic bodies 212 in various specifications, and shapes of the magnetic bodies 212 in the various specifications are different. The magnetic bodies 212 in the various specifications may be combined to form more patterns for satisfying interests of the users and further reliving the pressure of the users. In some embodiments, all of the plurality of the magnetic components 21 are the plurality of the magnetic bodies 212, the plurality of the magnetic bodies 212 may be in various specifications. For example, as shown in FIG. 12, FIG. 12 is a third structural schematic diagram of the magnetic assembly in the fidget toy according to one embodiment of the present disclosure. For example, the plurality of the magnetic bodies 212 include magnetic bodies 212 having the same shape but different sizes, such as spherical magnetic bodies 212 having different diameters. For another example, as shown in FIG. 13, FIG. 13 is a fourth structural schematic diagram of the magnetic assembly in the fidget toy according to one embodiment of the present disclosure. The plurality of the magnetic bodies 212 include the plurality of the magnetic bodies 212 in various shapes, such as at least two of regular shapes of sphere, square, rectangular, cylindrical, pyramid, prism, cone, and frustum, etc. The plurality of the magnetic bodies 212 may further include at least two of the plurality of irregular shapes. The plurality of the magnetic bodies 212 may further include at least one of regular-shaped magnetic bodies 212 and at least one of irregular-shaped magnetic bodies 212. For another example, the plurality of the magnetic bodies 212 are all spheres, but the plurality of the magnetic bodies 212 are in various diameters.

In some embodiments, the plurality of the magnetic components 21 include a plurality of magnetic bodies 212 and a plurality of metal bodies 214 in various specifications, and shapes of the plurality of the metal bodies 214 in the various specifications are different. The plurality of the metal bodies 214 in various specifications may be combined with the plurality of the magnetic bodies 211 to form more patterns, which satisfies the interest of the users and further relieves the pressure of the users. In some embodiments, the plurality of the magnetic components 21 includes the plurality of the magnetic bodies 212 and the plurality of the metal bodies 214, the plurality of the magnetic bodies 212 may be in the same specification, and may also be in various specifications, and the plurality of the magnetic bodies 22 in the various specifications may be refer to the plurality of the magnetic bodies 22 in above embodiments, and details are not described herein again. The plurality of the metal bodies 214 may be in different specifications. For example, the plurality of the metal bodies 214 include the plurality of the metal bodies 214 in various shapes, such as at least two of regular shapes of sphere, square, rectangular, cylindrical, pyramid, prism, cone, and frustum, etc. The plurality of the metal bodies 214 may further include at least two of the plurality of irregular shapes. The plurality of the metal bodies 214 may further include at least one of regular-shaped metal bodies 214 and at least one of irregular-shaped metal bodies 214. For another example, the plurality of the metal bodies 214 are all spheres, but the plurality of the metal bodies 214 are in various diameters.

It can be understood that the plurality of the metal bodies 214 may be iron, cobalt, and nickel alloy balls, or may be metal bodies 214 including one or two of iron, cobalt, and nickel.

It should be noted that the magnetic bodies 212 is a toy deeply loved by children throughout the world. However, the magnetic bodies 212 have a very large hidden danger to children, since the children may easily accidentally swallow the magnetic bodies 212 to enter the body to cause great harm to the body. Therefore, many countries in the world promulgate a forbidden for preventing the children from using the magnetic bodies 212. The fidget toy 100 of the present disclosure is provided with the covering body 1 for wrapping the plurality of the magnetic bodies inside, which solves a problem that the children mistakenly swallow the magnetic bodies 212, moreover, the magnetic bodies 212 are not easy to scatter, and meanwhile, characteristics of the magnetic bodies for playing with are not lost.

In some embodiments, the covering body 1 may isolate magnetism, so that the magnetic assembly 2 may be prevented from being attracted by external articles in a using process to affect experience of use. Materials forming the covering body 1 may be selected according to needs, and which are only necessary to isolate the magnetic material and be a flexible material.

In some embodiments, a material of the covering body 1 is a silicone material. The silicone material is more environmentally and more friendly than a common soft rubber material, has stronger wear resistance and better safety, and is widely applied in tableware, nipples, toys for children, and products.

The covering body 1 made of the silicone material has excellent tear resistance and resilience, and also has advantages of wear resistance, safety, environmental protection, etc., and the silicone material is commonly applied in a field of infant supplies, etc., so that the fidget toy 100 of the present disclosure also has good security for users with small ages. It should be understood that, in some other embodiments, the material of the covering body 1 may also be made of other materials having elasticity, such as rubber or plastic having.

In some embodiments, the covering body 1 has a Shore hardness of 20 to 80. The covering body 1 having proper hardness may be squeezed and deformed by the users, and meanwhile, the magnetic assembly 2 in the covering body 1 may also be matched with the magnetic assembly 2 to provide proper squeezing force, so that the covering body 1 is suitable for different users to squeeze. In some embodiments, the Shore hardness of the covering body 1 may also be between 30 and 60.

In some embodiments, the covering body 1 is a hollow sphere, and a thickness of the covering body 1 is between 1 mm and 5 mm. The covering body 1 in such thickness range has a suitable Shore hardness, which may protect the magnetic assembly 2, is not easy to tear, and has a good hand feeling. The covering body 1 which is ultra thin and ultra soft provides a better touch feeling, so that a person may experience a feeling of directly being in contact with the magnetic assembly 2 in the covering body 1 without difference or with little difference, and a better touch feeling may be obtained.

In some embodiments, a diameter of each of the magnetic components is between 2 mm and 10 mm. A diameter of the covering body 1 may be between 20 mm and 100 mm, and a suitable quantity of the magnetic components 21 may be disposed in the covering body 1.

In some embodiments, transparency of the covering body is greater than 50%, for example, the transparency of the covering body 1 is 60%, 70%, 80%, 85%, or 90%, etc. The transparent covering body 1 enables the users to clearly see a shape formed by the plurality of the magnetic components after being squeezed by the users, so that the users may obtain visual stimulation and enjoyment in the using process of the fidget toy 100.

In some embodiments, intensity of pressure in the accommodation space 13 is between 0.7 atmospheric pressure and 1.3 atmospheric pressure. When the covering body 1 and the magnetic assembly 2 are squeezed by an external force, the magnetic assembly 2 may form various shapes, and the pressure in the accommodation space 13 becomes large, and after the external force disappears, pressure of gas in the accommodation space 13 may be restored by the covering body 1, for example, being restored to the sphere.

In some embodiments, the intensity of pressure in the accommodation space 13 may also be adjusted to adjust a degree of the squeezing force to obtain different experiences of squeezing, For example, a relatively large intensity of pressure, such as 1.2 atmospheric pressure may be set in the accommodation space 13, and the users may shape the magnetic assembly 2 in the covering body 1 with a relatively large strength, which is suitable for the users having relatively large strength, or is suitable for being used when the users undergoes a relatively large emotion fluctuation. For another example, a small intensity of pressure, such as 0.8 atmospheric pressure, may be set in the accommodation space 13, and the users do not need to use a large strength to shape the magnetic assembly 2 in the covering body 1, which is suitable for the users having a relatively small strength, or is suitable for being used when emotion fluctuation of the users is not large.

In one embodiment, the accommodation space 13 accommodates one of air, an inert gas, and carbon dioxide. Filling gas in the accommodation space 13 may automatically restore the covering body 1. When the covering body 1 is squeezed, the intensity of pressure of the accommodation space 13 in the covering body 1 becomes larger, and when the squeezing on the covering body 1 is withdrawn, the covering body 1 is restored to be spherical.

The soft material is provided to form the covering body 1, and air and the magnetic assembly 2 are provided in the covering body 1, a size of the pressing force may be adjusted by changing the material and hardness of the covering body 1, changing the intensity of pressure of the air in the covering body 1, and changing a proportion of the magnetic bodies 212 and the metal bodies 214 in the magnetic assembly 2. Therefore, a strength required for squeezing may be met to the greatest extent, and effects of decompression and fitness are achieved.

A quantity ratio of the magnetic bodies 212 to the metal bodies 214 may be set according to needs. For example, the quantity of the magnetic bodies 212 is 500, and the quantity of the metal bodies 214 is 100. For another example, the quantity of the magnetic bodies 212 is 300, and the quantity of the metal bodies 214 is 100.

For a better understanding of the present disclosure, the following description is exemplified.

In some embodiments, the material forming the covering body 1 of the fidget toy 100 is silicone, a Shore hardness of the silicone is 30, a transparency of the silicone is 90%, a thickness of the silicone is 2 mm, and a size of the covering body 1 is 2 inch. A connection structure of the covering body 1 may be an arc-shaped connection structure. The magnetic assembly 2 of the fidget toy 100 includes 216 numbers of the magnetic bodies 212, and a diameter of each of the magnetic bodies 212 is 5 mm. The intensity of pressure of the accommodation space 13 in the covering body 1 is 1 atmospheric pressure. The fidget toy 100 of the present disclosure is small in size, small in thickness, and soft, and the quantity of the magnetic components in the magnetic assembly 2 is small, and the squeezing force on the magnetic assembly 2 is relatively small, so that the fidget toy 100 is suitable for decompression. Moreover, changes of the plurality of the magnetic components in the covering body 1 may be seen due to transparency of the covering body 1, which is conductive to concentration and energy concentration. Moreover, the magnetic components may generate sounds in the squeezing process, which is conductive to calm mood and relieve anxiety.

In some embodiments, the material forming the covering body 1 of the fidget toy 100 is silicone, a Shore hardness of the silicone is 50, a transparency of the silicone is 80%, a thickness of the silicone is 4 mm, and a size of the covering body 1 is 4 inch. A connection structure of the covering body 1 may be a square connection structure. The magnetic assembly 2 of the fidget toy 100 includes 512 numbers of the magnetic bodies 212 and 100 numbers of the metal bodies 214. The intensity of pressure of the accommodation space 13 in the covering body 1 is 1 atmospheric pressure. The fidget toy 100 of the present disclosure is large in volume, large in thickness, and high in harness, and requires a relatively large amount of force to be squeezed, and may also well exercise strength of the fingers in addition to decompressing. The quantities of beads (the magnetic bodies 212 and the metal bodies 214) are large, the weight is heavy, and the wrist force and finger strength of the users may be well exercised.

In some embodiments, as shown in FIGS. 14 and 15, FIG. 14 is a schematic diagram of a first usage scenario of the fidget toy according to one embodiment of the present disclosure, and FIG. 15 is a schematic diagram of a second usage scenario of the fidget toy according to one embodiment of the present disclosure. The fidget toy 100 may be squeezed by two fingers or a plurality of fingers of a single hand of a user, the covering body 1 may be squeezed and deformed by the finger of the user, and the plurality of the magnetic components 21 of the magnetic assembly 2 in the covering body 1 are also squeezed and deformed by the fingers of the user. The covering body 1 is a transparent flexible structure, for example, is made of transparent flexible silicone, and the shape of the plurality of magnetic components 21 after being squeezed and deformed by the user may be clearly seen through the covering body 1. The plurality of the magnetic components 21 may be squeezed to generate resistance and sound in the squeezing process, so that the resistance may facilitate the user to apply large strength, the muscle of the user is relaxed, the sound may be set to be a sound having a proper frequency, for example, a sound having a frequency range between 400 Hz and 500 Hz, so that the mood of the user may be well calmed, and anxiety of the user is relieved. The fidget toy 100 may relieve the pressure of the user from three aspects of touch, vision and hearing, and may also enable the user to squeeze the fidget toy 100 by using a proper force to exercise the body.

In some embodiments, as shown in FIGS. 16-18, FIG. 16 is a schematic diagram of a third usage scenario of the fidget toy according to one embodiment of the present disclosure, FIG. 17 is a schematic diagram of a fourth usage scenario of the fidget toy according to one embodiment of the present disclosure, and FIG. 18 is a schematic diagram of a fifth usage scenario of the fidget toy according to one embodiment of the present disclosure. The fidget toy 100 may also be squeezed by a palm and a finger in a single hand of the user, the covering body 1 may be squeezed and deformed by the palm and the finger of the user, and the plurality of magnetic components 21 of the magnetic assembly 2 in the covering body 1 are also squeezed and deformed by the palm and the finger of the user. It may be understood that the structure of the fidget toy 100 in the embodiment may be the structure of the fidget toy 100 in any one of the foregoing embodiments, and details are not described herein again.

In some embodiments, as shown in FIGS. 19-20, FIG. 19 is a schematic diagram of a sixth usage scenario of the fidget toy according to one embodiment of the present disclosure, and FIG. 20 is a schematic diagram of a seventh usage scenario of the fidget toy according to one embodiment of the present disclosure. The fidget toy 100 may also be jointly squeezed by two hands of a user, the covering body 1 can be squeezed and deformed by the two hands of the user, and the plurality of magnetic components 21 of the magnetic assembly 2 in the covering body 1 are also squeezed and deformed by both hands of the user. The hands of the user may press and pull the fidget toy 100 to relieve pressure, and may also be used to place the fidget toy 100 on one of the hands and the other hand to operate the fidget toy 100, such as squeezing, scrolling, etc. It may be understood that the structure of the fidget toy 100 in this embodiment may be the structure of the fidget toy in any one of the foregoing embodiments, and details are not described herein again.

In the embodiments of the present disclosure and the related technical features, the embodiments and related technical features may be combined and replaced with each other without conflict.

In the description of the present disclosure, the terms “first” and “second” are only used for descriptive purposes, and cannot be understood as indicating or implying relative importance or implicitly indicating the number of indicated technical features. Thus, features defined with “first” and “second” may explicitly or implicitly include one or more features. In the description of the present disclosure, the meaning of “a plurality of” is two or more, unless specifically defined otherwise.

The fidget toy provided by the embodiments of the present disclosure is described in detail, and specific examples are used herein to describe the principles and embodiments of the present disclosure, and the description of the above embodiments is merely used to help understand the method of the present disclosure and the core idea thereof; meanwhile, for a person who skilled in the art, according to the idea of the present disclosure, in a specific implementation manner and an application range, the content should be changed. In summary, the content of the present specification should not be construed as a limitation to the present disclosure.

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