CN209475579U - Polyhedral toy - Google Patents

Abstract

The utility model discloses a kind of polyhedral toys, polyhedral toy includes clip assembly and multiple expansion parts, it is rotatablely connected between expansion part and expansion part, being equipped at rotation connection makes to be unfolded the elastic component that part has expansion trend, clip assembly includes: to touch unit and locking unit, it touches unit to be located on an expansion part, locking unit is located on another expansion part, and when multiple expansion parts collapse, polyhedral toy is in polyhedron morphology；When touch unit is unlocked locking unit by external trigger, multiple expansion parts are unfolded in the elastic force of elastic component, and polyhedral toy is unfoldable shape at this time；Polyhedral toy is equipped with maintenance magnet.The polyhedral toy of the utility model not only has changeable polyhedron morphology and unfoldable shape, but also due to being provided with maintenance magnet, can use a variety of playing methods that maintenance magnet design goes out polyhedral toy.

Description

Polyhedral toy

Technical Field

The utility model relates to a toy field especially relates to a polyhedron toy.

Background

The deformation toy is a toy with changeable structure and enlightening intelligence, and is popular with children. Various transformable toys have appeared on the market, including transformable vehicles, transformable airplanes, transformable weapons, etc., which are transformed from one form to another form after being triggered. The toy has only two forms, and the interest of children is avoided after a long time. How to combine this kind of toy with other toys to create a new play method is one of the directions we are studying at present.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, the utility model provides a polyhedral toy, this polyhedral toy not only can warp after triggering, can combine together with outside toy body before warping and/or after warping moreover, and the playing method is more attractive.

According to the utility model discloses polyhedron toy, polyhedron toy includes joint subassembly and a plurality of expansion piece, expansion piece with rotate between the expansion piece and connect, rotate the junction and be equipped with the messenger expansion piece has the elastic component of expansion trend, the joint subassembly includes: the trigger unit is arranged on one of the unfolding parts, the clamping unit is arranged on the other unfolding part, when the trigger unit is locked with the clamping unit, the plurality of unfolding parts overcome the elasticity of the elastic part to be folded, and at the moment, the polyhedral toy is in a polyhedral shape with a polyhedral shape; when the touch unit is triggered by the outside to unlock the clamping unit, the elastic force of the elastic piece enables the plurality of unfolding pieces to unfold, and the polyhedral toy is in an unfolding state; the polyhedral toy is provided with a retention magnet.

According to the utility model discloses polyhedral toy not only has changeable polyhedron form and expansion form, and owing to set up the maintenance magnet, can utilize the maintenance magnet to design out polyhedral toy's multiple playing method, for example make polyhedral toy only can adsorb on other objects under the polyhedron form, for example make polyhedral toy only can adsorb on other objects under the expansion form, still for example can set up the linkage of maintenance magnet and joint subassembly, make polyhedral toy when adsorbing outside object through the maintenance magnet on, can utilize outside object to trigger the unblock of joint subassembly.

In some embodiments, the touch unit includes: a clamping groove and a movable sliding block which are formed on the unfolding piece; the locking unit includes: the clamping strip and the first retaining elastic piece are arranged on the unfolding piece in a sliding mode, the first retaining elastic piece is used for pushing the clamping strip to be inserted into the clamping groove in a polyhedral mode, and the sliding block pushes the clamping strip to be separated from the clamping groove after being triggered.

Specifically, the retention magnet is provided on the deployment piece provided with the slider so as to be attracted to the external toy body when the external toy body presses the slider.

More specifically, the unfolding part provided with the sliding block is provided with a sliding chute, the sliding chute is positioned on the surface of the polyhedral toy in a polyhedral shape, and the clamping groove is arranged on the bottom wall of the sliding chute; the touch unit comprises a movable block matched with the sliding groove in shape, and the sliding block is arranged on one side, facing the clamping groove, of the movable block.

Further, the polyhedral toy further comprises: the spacing nail, the spacing nail is connected and is equipped with the spout expand on the piece, the head of spacing nail is used for blockking the movable block roll-off the spout, expand the piece with it has the counter sink that is used for the cooperation to splice on the movable block the head of spacing nail, the head terminal surface of spacing nail with the surperficial looks parallel and level of expansion.

In some embodiments, the retention magnet is disposed on the touch unit, and the retention magnet drives the touch unit to unlock the latch unit under the action of external magnetic force.

Specifically, the touch unit includes: a slider slidably disposed on the deployment element, the retention magnet disposed on the slider; and the clamping part is used for being matched with the clamping unit and is arranged on the sliding part.

Further, the touch unit further includes: and a second holding elastic member connected to the slider so that the slider in a polyhedral shape slides toward the locking unit.

In some embodiments, in the form of a polyhedron, the retention magnets are located on the surface of the polyhedral toy; alternatively, the retention magnets may be located inside the polyhedral toy, the retention magnets may be fixedly provided on the deployment member, or the retention magnets may be adjustable in distance from the nearest surface of the polyhedral toy.

In some embodiments, the polyhedral toy is in a humanoid state in an unfolded state, and the plurality of unfolds include: a lower body piece; the upper body piece is rotatably connected to the lower body piece; a head member pivotally connected to the upper body member; the upper limb pieces are rotatably connected to the upper body pieces, and the number of the upper limb pieces is two and located on two sides of the upper body pieces.

Optionally, the plurality of deployments further comprises: the leg component is provided with the clamping unit, the lower body component is provided with the touch unit, the head component is provided with a first matching part, the leg component is provided with a second matching part, the first matching part is matched and connected with the second matching part in a polyhedral mode, and the first matching part is separated from the second matching part in an unfolded mode.

Further optionally, a rotation limiting groove is formed in one side, facing the upper body, of the upper body, and a rotation limiting block matched in the rotation limiting groove is arranged on the upper body.

In some embodiments, the polyhedral toy is cross-shaped or T-shaped in an unfolded state.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic view showing a polyhedron form of a polyhedral toy according to a first embodiment;

FIG. 2 is a schematic view of the polyhedron toy shown in FIG. 1 in an expanded configuration;

FIG. 3 is a cross-sectional view of the polyhedral toy of FIG. 1;

FIG. 4 is a schematic illustration of the polyhedral toy of FIG. 1 prior to combination with an external toy body;

FIG. 5 is a schematic view of the polyhedral toy of FIG. 4 in combination with an external toy body;

FIG. 6 is a schematic view showing a polyhedron form of the polyhedral toy of the second embodiment;

FIG. 7 is a sectional view of the polyhedral toy shown in FIG. 6;

FIG. 8 is a schematic view of an angular expanded configuration of the polyhedral toy of FIG. 6;

FIG. 9 is a schematic view of another angular expanded configuration of the polyhedral toy of FIG. 6;

FIG. 10 is a schematic view of the polyhedral toy of FIG. 6, shown in combination with an external toy body, before combination;

FIG. 11 is a schematic view of the polyhedral toy of FIG. 10 in combination with an external toy body;

FIG. 12 is a schematic view showing a polyhedron form of the polyhedral toy of the third embodiment;

FIG. 13 is a schematic view of the polyhedral toy of FIG. 12 in an expanded configuration;

FIG. 14 is a schematic illustration of the polyhedral toy of FIG. 12, shown in combination with an external toy body, before combination;

figure 15 is a schematic view of the polyhedral toy of figure 14 in combination with an external toy body.

Reference numerals:

a polyhedral toy 100,

Unfolding part 1, unfolding shaft 10, upper body part 11, lower body part 12, head part 13, upper limb part 14, leg part 15, rotation limiting groove 171, matching block 172, matching groove 173,

An elastic element 2,

A clamping component 3,

The touch unit 31, a slot 311, a slide block 312, a slide slot 313, a movable block 314, a sliding part 315, a clamping part 316, a second holding elastic part 317,

A locking unit 32, a locking bar 321, a first holding elastic member 322,

A limit nail 33, a head 331,

A counter bore 34,

A first engagement portion 35, a second engagement portion 36,

A retention magnet 4,

The external toy body 200, the first toy body 210, the pressing block 211, the magnetic attraction piece 240, the second toy body 220 and the third toy body 230.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

A polyhedral toy 100 according to an embodiment of the present invention will be described with reference to fig. 1 to 15.

As shown in fig. 3, 7 and 13, according to the polyhedral toy 100 according to an embodiment of the present invention, the polyhedral toy 100 includes a clamping assembly 3 and a plurality of developing members 1. The unfolding part 1 is rotatably connected with the unfolding part 1, and an elastic part 2 enabling the unfolding part 1 to have an unfolding tendency is arranged at the rotating connection position.

Specifically, the clip assembly 3 includes: the trigger unit 31 is provided on one of the spreaders 1, and the locking unit 32 is provided on the other of the spreaders 1. When the trigger unit 31 and the locking unit 32 are locked, the plurality of expansion pieces 1 are closed against the elastic force of the elastic piece 2, and the polyhedral toy 100 takes the form of a polyhedron having a polyhedral outer shape. When the trigger unit 31 is triggered to unlock the locking unit 32, the elastic force of the elastic member 2 expands the plurality of expanding members 1, and the polyhedral toy 100 is in the expanded state.

Here, it should be noted that the polyhedral toy 100 has a polyhedral shape, and may be a tetrahedron, a pentahedron, a cube, a column, etc., and is not limited thereto. When the polyhedral toy 100 is deformed to the unfolding state after being triggered, namely the clamping assembly 3 is unlocked, the elastic piece 2 releases energy to drive the connected unfolding pieces 1 to rotate mutually, and the changing process is equivalent to the process from the step of folding into a whole to the step of unfolding and blooming. In the unfolded state, the shape of the polyhedral toy 100 can be variously designed, and the polyhedral toy can be made into an action shape and an article shape, which are not limited herein.

Specifically, the unfolding parts 1 and the unfolding parts 1 are connected in a rotating mode, an unfolding shaft 10 is connected between the two unfolding parts 1 which are connected in a rotating mode, an elastic part 2 can be arranged on the unfolding shaft 10, and the elastic part 2 can be a torsion spring sleeved on the unfolding shaft 10. Of course, the elastic member 2 may be configured as a rubber band or a coil spring, etc., without limitation.

Referring to fig. 1, 6 and 13, the polyhedral toy 100 is provided with the retention magnets 4, and the retention magnets 4 are provided to allow the polyhedral toy 100 to be variously played. For example, the polyhedral toy 100 can be attached to other objects (e.g., iron doors, writing cases, etc.) by the retention magnets 4 in a polyhedral form, and the polyhedral toy 100 drives the retention magnets 4 away from the attached objects during the triggered transformation, so that the decrease in the attraction force causes the polyhedral toy 100 to be detached from the attached objects. For another example, the retention magnets 4 may not function when hidden inside the polyhedral toy 100, and when the retention magnets 4 are located on the surface of the polyhedral toy 100 after the polyhedral toy 100 is triggered to deform, the polyhedral toy 100 may be attached to other objects by the retention magnets 4. Also for example, the retention magnet 4 may be in a linked relationship with the snap assembly 3, and an external object may trigger the snap assembly 3 to unlock by accessing the retention magnet 4.

Therefore, according to the polyhedral toy 100 of the embodiment of the present invention, not only the polyhedral toy 100 has switchable polyhedral shape and expanded shape, but also due to the retention magnet 4, various play methods of the polyhedral toy 100 can be designed by using the retention magnet 4, for example, the polyhedral toy 100 can be adsorbed on other objects only in the polyhedral shape, for example, the polyhedral toy 100 can be adsorbed on other objects only in the expanded shape, and for example, the retention magnet 4 and the latch assembly 3 can be linked, so that the external object can be used to trigger the latch assembly 3 to unlock when the polyhedral toy 100 is adsorbed on the external object through the retention magnet 4.

The following describes, in conjunction with various embodiments, the polyhedral toy 100 according to embodiments of the present invention, a structural form of the clip assembly 3, an arrangement of the retention magnets 4, and a play of the polyhedral toy 100.

The first embodiment is as follows:

fig. 1-5 show a solution of the first embodiment. In the first embodiment, as shown in fig. 1, the polyhedral toy 100 has a square shape in a polyhedral form. As shown in fig. 2, the polyhedral toy 100 has a human shape in an expanded form, and the human shape of the toy in the expanded form is a sitting posture.

Specifically, as shown in fig. 2, the plurality of development members 1 of the polyhedral toy 100 in the first embodiment includes: a lower body member 12, an upper body member 11, a head member 13, and an upper body member 14. The upper body 11 is pivotally connected to the lower body 12 and the head 13 is pivotally connected to the upper body 11. The upper limb 14 is rotatably connected to the upper body 11, and two upper limb 14 are located on both sides of the upper body 11. In the deployed configuration, the upper body member 11 is disposed vertically with respect to the lower body member 12, the head member 13 is disposed parallel to the upper body member 11, and the two upper body members 14 are disposed vertically with respect to the upper body member 11 and parallel to the lower body member 12. In the polyhedral configuration, the upper body member 11 is folded in parallel with the lower body member 12, the two upper body members 14 are folded in parallel with the lower body member 12, the head member 13 is disposed perpendicularly to the upper and lower body members 11, 12, and the head member 13 is attached to the lower body member 12.

In the first embodiment, as shown in fig. 2 and 3, the touch unit 31 includes: a card slot 311 and a slider 312, the card slot 311 being formed on the spreading member 1, the slider 312 being movable. The locking unit 32 includes: a clamping strip 321 and a first holding elastic element 322, wherein the clamping strip 321 is arranged on the unfolding component 1 in a sliding way, and the first holding elastic element 322 is stopped against the clamping strip 321. Here, the card slot 311 and the card bar 321 are necessarily provided on different spreading members 1, but specific positions of the slider 312 and the first holding elastic member 322 are not limited. In the polyhedral shape, the first elastic retaining member 322 is used to push the card strip 321 into the card slot 311, so that the two corresponding spreading members 1 are clamped. When the slider 312 is triggered, the slider 312 pushes the card strip 321 to exit the card slot 311.

Here, there are various ways of triggering the slider 312, for example, a part of the slider 312 may be disposed on the surface of the toy in the polyhedron form, so that the slider 312 may be triggered by external pressing, collision, etc., and may be triggered by a human hand or other toys, which is not limited herein.

In the first embodiment, the locking bar 321 and the first elastic retaining element 322 are disposed on the head part 13, and the first elastic retaining element 322 pushes the locking bar 321 away from the unfolding axis 10 on the head part 13. The slot 311 and the slider 312 are both disposed on the lower body 12, and the locking bar 321 is inserted into the slot 311 in a polyhedral shape, so that the head 13 is connected to the lower body 12, and at this time, the two upper body members 14 are also kept in a locked state by the lower body 12.

Specifically, the unfolding member 1 provided with the slider 312 is provided with a slide groove 313, the slide groove 313 is positioned on the surface of the polyhedral toy 100 in the polyhedral shape, and the engaging groove 311 is provided on the bottom wall of the slide groove 313. The touch unit 31 includes a movable block 314 adapted to the shape of the sliding slot 313, and the slider 312 is disposed on a side of the movable block 314 facing the card slot 311. The movable blocks 314 are arranged so that the polyhedral toy 100 can be directly triggered by external acting force at the movable blocks 314 in a polyhedral manner. This trigger arrangement requires the child to accurately find the activity block 314, making the toy more exciting.

Alternatively, as shown in fig. 1, the movable block 314 is formed in a groove shape, and a part of the spread member 1 is fitted into a notch of the movable block 314, thereby performing a guiding function.

Further, as shown in fig. 1, the polyhedral toy 100 further includes: the limiting nail 33, the limiting nail 33 is connected on the unfolding component 1 provided with the sliding groove 313, and the head 331 of the limiting nail 33 is used for blocking the movable block 314 from sliding out of the sliding groove 313. By the arrangement, the head of the limit nail 33 can be utilized to limit, the complexity of the unfolding piece 1 can be reduced, and the processing and the assembly are convenient.

Further, as shown in fig. 1, the unfolding component 1 and the movable block 314 are spliced with countersunk holes 34 for matching with the head portions 331 of the limit nails 33, and the end surfaces of the head portions 331 of the limit nails 33 are flush with the surface of the unfolding component 1. With such an arrangement, on the one hand, the polyhedral toy 100 has a flat and more beautiful surface in the polyhedral shape.

In the first embodiment, as shown in fig. 1, the retention magnet 4 is provided on the stent 1, the retention magnet 4 being stationary with respect to the stent 1. Specifically, in the polyhedral form, the retention magnets 4 are located on the surface of the polyhedral toy 100, so that the magnetic force acts remarkably on the polyhedral toy 100 in the polyhedral form.

Alternatively, the retention magnet 4 is provided on the deployment member 1 provided with the slider 312, and the polyhedral toy 100 can be attracted to the external toy body 200 by the retention magnet 4 while the external toy body 200 presses the slider 312. Of course, in the lower embodiment of the present invention, the retention magnet 4 may be disposed on the latch assembly 3, so that the latch assembly 3 can be released by the magnetic force from the outside.

In the example of fig. 4 and 5, the external toy body 200 is a first toy book 210, and the first toy body 210 is a transformable vehicle. When the first toy body 210 is driven toward the polyhedral toy 100 in a polyhedral shape before being deformed, the first toy body 210 collides with the polyhedral toy 100. Since the first toy body 210 is provided at the front end with the magnetic attracting member 240, the magnetic attracting member 240 attracts the retention magnets 4 of the polyhedral toy 100, so that the polyhedral toy 100 is attracted to the first toy body 210.

The first toy body 210 is provided with a pressing block 211, when the first toy body 210 sucks the polyhedral toy 100, the pressing block 211 abuts against the movable block 314, and the movable block 314 slides along the sliding groove 313. In the process that the movable block 314 slides towards the card slot 311, the slide block 312 is driven to be inserted into the card slot 311, the slide block 312 pushes the card strip 321 out of the card slot 311, and therefore the card connection assembly 3 is unlocked. Then, the elastic members 2 between the upper body member 11, the lower body member 12, the head member 13, and the upper limb member 14 release energy, and the toy is changed from a polyhedral shape to a humanoid expanded shape. Meanwhile, the polyhedral toy 100 also triggers the first toy body 210 to be deformed when contacting the first toy body 210, so that the polyhedral toy 100 is transferred from the front side of the first toy body 210 to the top of the first toy body 210, with the result of the change as shown in fig. 5.

Example two:

fig. 6-11 show a scheme of the second embodiment. In the second embodiment, as shown in fig. 6, the polyhedral toy 100 has a square shape in a polyhedral form. As shown in fig. 8 and 9, the polyhedral toy 100 has a human shape in an expanded form, and the human shape in the expanded form of the toy is a standing figure.

Specifically, as shown in fig. 8 and 9, the plurality of development pieces 1 of the polyhedral toy 100 in the second embodiment includes: a lower body 12, an upper body 11, a head 13, an upper body 14 and leg members 15. The upper body member 11 is pivotally connected to the lower body member 12, the head member 13 is pivotally connected to the upper body member 11, and the leg members 15 are pivotally connected to the lower body member 12. The upper limb 14 is rotatably connected to the upper body 11, and two upper limb 14 are located on both sides of the upper body 11. In the deployed configuration, the leg members 15, the lower body member 12, the upper body member 11, and the head member 13 are positioned on the same line. In the polyhedral form, the leg member 15, the lower body member 12, the upper body member 11, and the head member 13 may be sequentially folded into four faces of a square.

In the second embodiment, as shown in fig. 8 and 9, in the expanded form, the upper limbs 14 and the upper body 11 form a half-lift arm shape in which the person stands with an acute angle therebetween.

Specifically, as shown in fig. 9, the upper body member 11 of the upper body member 14 is provided with a rotation restricting groove 171 on a side thereof facing the upper body member 11, and the upper body member 11 is provided with a rotation restricting block (not shown) fitted in the rotation restricting groove 171. That is, in the polyhedral toy 100, the upper limbs 14 are constrained by the leg members 15 in the polyhedral shape. In the expanded configuration of the polyhedral toy 100, the upper limbs 14 are restrained by the rotation restricting blocks, so that the rotation angle of the upper limbs 14 is restricted even after the rotation restricting blocks are released. By means of the arrangement, the energy release amplitude of the elastic element 2 can be limited, and the elastic element 2 is prevented from being loosened due to over loosening.

In the second embodiment, as shown in fig. 7 and 9, the touch unit 31 includes: a sliding member 315 and a catching portion 316, the sliding member 315 being slidably provided on the deployment member 1, the retention magnet 4 being provided on the sliding member 315. The engaging portion 316 is engaged with the engaging unit 32, and the engaging portion 316 is provided on the slider 315. With this arrangement, when the retention magnet 4 and the external magnetic attraction force are generated, the sliding member 315 can be driven to slide, so as to drive the engaging portion 316 and the locking unit 32 to be released.

Here, since the snap assembly 3 is unlocked by magnetic force, the retention magnet 4 may be disposed on the surface of the polyhedral toy 100 in the polyhedral shape, and the retention magnet 4 may also be disposed inside the polyhedral toy 100 in the polyhedral shape, at which time the distance of the retention magnet 4 from the surface of the polyhedral toy 100 that is the nearest thereto is adjustable.

In the second embodiment, as shown in fig. 7 and 9, the slider 315 and the engaging portion 316 are provided on the lower body 12, the engaging unit 32 is provided on the leg member 15, and the engaging unit 3 locks the lower body 12 and the leg member 15 in a polyhedral state in a vertical state.

Further, the touch unit 31 further includes: and a second holding elastic member 317, wherein the second holding elastic member 317 is connected to the slider 315 such that the slider 315 in the polyhedral shape slides toward the locking unit 32. Here, the second holding elastic member 317 may be omitted, for example, the sliding member 315 may be replaced by a spring plate to which the retention magnet 4 and the catching portion 316 are attached, and the spring plate may be swung by an external magnetic force.

Furthermore, the head member 13 is provided with a first matching portion 35, the leg member 15 is provided with a second matching portion 36, the first matching portion 35 and the second matching portion 36 are matched and connected in a polyhedral shape, and the first matching portion 35 and the second matching portion 36 are separated from each other in an unfolded shape. The binding force between the first engaging portion 35 and the second engaging portion 36 is small, and when the trigger unit 31 is engaged with the locking unit 32, the binding force can make the first engaging portion 35 and the second engaging portion 36 engage well, thereby locking the head member 13 with the leg member 15. When the trigger unit 31 is unlocked from the locking unit 32, the restraining force cannot be maintained, or the elastic force of the elastic member 2 between the leg member 15 and the lower body 12 is greater than the restraining force, so that the first engagement portion 35 and the second engagement portion 36 are loosened. Here, the first fitting portion 35 and the second fitting portion 36 may be connected by snap-fit as shown in fig. 7, and the first fitting portion 35 and the second fitting portion 36 may also be connected by attraction.

In the example of fig. 10 and 11, the external toy body 200 is a second toy body 220, and the second toy body 220 is a transformable car. When the second toy body 220 is driven toward the polyhedral toy 100 in a polyhedral shape before being deformed, the second toy body 220 collides with the polyhedral toy 100. Since the second toy body 220 is provided at the front end with the magnetic attraction member 240, the magnetic attraction member 240 attracts the retention magnet 4 of the polyhedral toy 100, so that the polyhedral toy 100 is attracted to the second toy body 220.

When the second toy body 220 sucks the polyhedral toy 100, the suction force drives the sliding member 315 to slide outward, and the sliding member 315 overcomes the elastic force of the second holding elastic member 317 and drives the clip portion 316 to be disengaged from the locking unit 32, so that the leg member 15 can rotate relative to the lower body member 12. When the leg member 15 rotates relative to the lower body 12, the first engagement portion 35 and the second engagement portion 36 are disengaged, so that the upper body 11, the lower body 12, the head member 13, and the upper body 14 can rotate, the elastic member 2 releases energy, and the toy is changed from a polyhedral shape to a humanoid shape. Meanwhile, the polyhedral toy 100 also triggers the second toy body 220 to deform when contacting the second toy body 220, so that the polyhedral toy 100 is changed from the front side of the second toy body 220 to be surrounded by the second toy body 220, and the change result is shown in fig. 11.

Example three:

fig. 12-15 show a scenario of example three. In the third embodiment, as shown in fig. 12, the polyhedral toy 100 has a square shape in a polyhedral shape. As shown in FIG. 13, the polyhedral toy 100 has a cross shape or a T shape in an unfolded state. In different cases, the expanded configuration may be given different shapes, for example, in FIG. 15, the polyhedral toy 100 is a sword in a warrior's hand in the expanded configuration.

Specifically, in the third embodiment, four spreading members 1 are connected in sequence, the spreading shafts 10 between the four spreading members are parallel, the four spreading members can be approximately seen as being located on the same line when being spread, and the four spreading members 1 can be sequentially rolled and folded out of four faces of a square body. Two further spreading members 1 are attached to opposite sides of one of the spreading members 1, the spreading axes 10 of the two spreading members 1 being perpendicular to the spreading axes 10 of the first four spreading members 4. In the unfolded state, the first four unfolding parts 1 are equivalent to sword bodies, and the second two unfolding parts 1 are equivalent to sword lattices (namely hand guards of the sword).

In the third embodiment, as shown in fig. 13, the retention magnet 4 is provided on the trigger unit 31, and the retention magnet 4 drives the trigger unit 31 to be released from the locking unit 32 by the external magnetic force.

Specifically, the touch unit 31 includes: a sliding member 315 and a catching portion 316, the sliding member 315 being slidably provided on the deployment member 1, the retention magnet 4 being provided on the sliding member 315. The engaging portion 316 is engaged with the engaging unit 32, and the engaging portion 316 is provided on the slider 315. With this arrangement, when the retention magnet 4 and the external magnetic attraction force are generated, the sliding member 315 can be driven to slide, so as to drive the engaging portion 316 and the locking unit 32 to be released. The retention magnets 4 may also be located inside the polyhedral toy 100 in the form of a polyhedron, in which case the retention magnets 4 are adjustable in distance from the nearest surface of the polyhedral toy 100.

Specifically, as shown in fig. 13, the deployment pieces 1 whose four deployment axes 10 are parallel are referred to as main line deployment pieces, and the remaining two deployment pieces 1 are referred to as sub line deployment pieces, the deployment axes 10 of the sub line deployment pieces being perpendicular to the deployment axes 10 of the main line deployment pieces. The two auxiliary wire unfolding members are connected to opposite sides of the same main wire unfolding member, the sliding member 315 is arranged on the main wire unfolding member, the two ends of the sliding member 315 are provided with clamping portions 316, and the two auxiliary wire unfolding members are respectively provided with clamping units 32 matched with the clamping portions 316.

The subsidiary line developing units are each provided with a fitting groove 173, and in the polyhedral form, the fitting grooves 173 of the two subsidiary line developing units are disposed toward each other. Except for the main line unfolding member connected with the auxiliary line unfolding member, the other three main line unfolding members are provided with matching blocks 172, and the two ends of the three unfolding members 1 are provided with matching blocks 172. When the polyhedral toy 100 is in the polyhedral form, the fitting blocks 172 of the three expansion pieces 1 are respectively inserted into the fitting grooves 173 of the subsidiary line expansion pieces.

In the example of fig. 14 and 15, the external toy body 200 is a third toy body 230, and the third toy body 230 is a transformable car. The third toy body 230 is also provided therein with a magnetic member, and when the third toy body 230 travels toward the polyhedral toy 100 in a polyhedral form before being deformed, the third toy body 230 attracts the retention magnet 4 through the magnetic member, thereby allowing the polyhedral toy 100 to be attracted to the third toy body 230.

When the third toy body 230 sucks the polyhedral toy 100, the suction force drives the sliding piece 315 to slide outwards, the sliding piece 315 drives the clamping part 316 to be disengaged, so that the two auxiliary line unfolding pieces can be unfolded, then the three main line unfolding pieces can be unfolded, the elastic piece 2 releases energy, and the toy is changed into the unfolding form of a sword from the polyhedral form. Meanwhile, the polyhedral toy 100 also triggers the third toy body 230 to be deformed when contacting the third toy body 230, so that the polyhedral toy 100 is changed from being held by the third toy body 230 from the front side of the third toy body 230, with the result of the change being shown in fig. 11.

In the description of the present invention, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "top", "bottom", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, and do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the description herein, references to the description of the terms "embodiment," "example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (13)

1. A polyhedral toy is characterized in that a plurality of polyhedral bodies are arranged in the polyhedral body,

the polyhedron toy comprises a clamping component and a plurality of unfolding parts, the unfolding parts are rotationally connected with the unfolding parts, an elastic part which enables the unfolding parts to have unfolding tendency is arranged at the rotational connection position,

the clamping assembly comprises: the touch unit is arranged on one unfolding piece, the clamping unit is arranged on the other unfolding piece,

when the touch unit is locked with the clamping unit, the plurality of unfolding pieces overcome the elasticity of the elastic pieces to be folded, and at the moment, the polyhedral toy is in a polyhedral shape with a polyhedral shape;

when the touch unit is triggered by the outside to unlock the clamping unit, the elastic force of the elastic piece enables the plurality of unfolding pieces to unfold, and the polyhedral toy is in an unfolding state;

the polyhedral toy is provided with a retention magnet.

2. A polyhedral toy according to claim 1, wherein the firing unit includes: a clamping groove and a movable sliding block which are formed on the unfolding piece;

the locking unit includes: the clamping strip and the first retaining elastic piece are arranged on the unfolding piece in a sliding mode, the first retaining elastic piece is used for pushing the clamping strip to be inserted into the clamping groove in a polyhedral mode, and the sliding block pushes the clamping strip to be separated from the clamping groove after being triggered.

3. A polyhedral toy according to claim 2, wherein the retention magnets are provided on the deployment member provided with the slider so as to be attracted to the outer toy body when the outer toy body presses the slider.

4. A polyhedral toy according to claim 2, wherein the unfolding member provided with the slide blocks is provided with slide grooves which are located on the surface of the polyhedral toy in a polyhedral shape, and the catching grooves are provided on the bottom walls of the slide grooves;

the touch unit comprises a movable block matched with the sliding groove in shape, and the sliding block is arranged on one side, facing the clamping groove, of the movable block.

5. A polyhedral toy according to claim 4, further comprising: the spacing nail, the spacing nail is connected and is equipped with the spout expand on the piece, the head of spacing nail is used for blockking the movable block roll-off the spout, expand the piece with it has the counter sink that is used for the cooperation to splice on the movable block the head of spacing nail, the head terminal surface of spacing nail with the surperficial looks parallel and level of expansion.

6. The polyhedral toy of claim 1, wherein the retention magnets are provided on the striking units, and the retention magnets drive the striking units to unlock the locking units by external magnetic force.

7. A polyhedral toy according to claim 6, wherein the firing unit includes:

a slider slidably disposed on the deployment element, the retention magnet disposed on the slider;

and the clamping part is used for being matched with the clamping unit and is arranged on the sliding part.

8. A polyhedral toy according to claim 7, wherein the firing unit further comprises: and a second holding elastic member connected to the slider so that the slider in a polyhedral shape slides toward the locking unit.

9. A polyhedral toy according to any one of claims 1 to 8, wherein, in a polyhedral configuration, the retention magnets are located on the surface of the polyhedral toy; or,

the retention magnet is located inside the polyhedral toy, the retention magnet is fixedly arranged on the unfolding piece, or the distance of the retention magnet relative to the nearest surface of the polyhedral toy is adjustable.

10. A polyhedral toy according to claim 1, wherein the polyhedral toy is in a humanoid state in an unfolded state, and the plurality of unfolded members include:

a lower body piece;

the upper body piece is rotatably connected to the lower body piece;

a head member pivotally connected to the upper body member;

the upper limb pieces are rotatably connected to the upper body pieces, and the number of the upper limb pieces is two and located on two sides of the upper body pieces.

11. A polyhedral toy according to claim 10, wherein the plurality of the deployment members further comprise: a leg member provided with the locking unit and the lower body member provided with the touch unit, wherein,

the head part is provided with a first matching part, the leg part is provided with a second matching part, the first matching part is matched and connected with the second matching part in a polyhedral mode, and the first matching part is separated from the second matching part in an unfolded mode.

12. A polyhedral toy according to claim 10, wherein a rotation-restricting groove is provided on a side of the upper limbs facing the upper body, and a rotation-restricting block fitted in the rotation-restricting groove is provided on the upper body.

13. A polyhedral toy according to claim 1, wherein the polyhedral toy assumes a cross shape or a T shape in an unfolded state.