CN115337656A - Toy door rotating structure and space capsule toy - Google Patents

Abstract

The invention relates to the technical field of building block toys, and provides a toy door rotating structure and a space capsule toy, which comprise a first building block spliced on a toy door, a second building block with one end rotationally matched with a toy body, and a third building block with two ends rotationally matched with the other end of the second building block and the first building block respectively; the toy door can be switched between a fully opened state and a fully closed state; when the toy door is in a closed state, the three building blocks are accommodated in the toy body; the toy door can be separated from the toy body in a translation and/or rotation mode in the opening process, the toy door is realized by adopting the common building blocks, the rotating structure of the toy door is hidden in the building block body, the joint of the toy door and the toy body is flat and has no concave-convex, the toy is attractive in appearance, the toy door does not interfere with the toy body when being opened, the toy door can move in a translation mode and can also move in a rotation mode when being opened, and the experience of players is greatly improved.

Description

Toy door rotating structure and space capsule toy

Technical Field

The invention relates to the technical field of building block toys, in particular to a toy door rotating structure and a space capsule toy.

Background

With the development of science and technology, in order to meet various requirements of people, the field of toys is gradually developed in a direction of pursuing high and big figures, various toys are endlessly developed, the simulation degree is high, and a lot of fun is brought to children and people of all ages.

In the toy, the design of the door is often used, the door which is originally intelligent for viewing is gradually developed into a manually-opened and closed door which can be opened and closed and has a high simulation degree, the specific shape, style and structure are more and more, the common movable toy door is usually designed to be connected with the toy body through a hinge, the door can be opened by rotating the door with hands, although the current design solves the opening problem of the toy door 102 and improves the simulation degree of the toy, the hinge part 101 is often exposed outside the toy after the toy door 102 is closed, as shown in fig. 12, 13 and 14, the appearance of the toy is not attractive, and if the hinge part is arranged inside the toy door 102, the interference between the toy door 102 and the toy body 103 is often caused when the toy door 102 is opened, as shown in fig. 15 and 16, the toy is worn or damaged, and the experience of a user is influenced.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a toy door rotating structure and a space capsule toy.

The toy door rotating structure comprises a first building block spliced on the toy door, a second building block with one end rotationally matched with the toy body, and a third building block with the two ends rotationally matched with the other end of the second building block and the first building block respectively;

the toy door can be switched between a fully opened state and a fully closed state;

when the toy door is in a closed state, the toy door is buckled on the toy body in a matching manner, and the first building block, the second building block and the third building block are accommodated in the toy body;

when the toy door is adjusted to the fully opened state from the closed state, the toy door drives the second building block and the third building block to extend towards the outside of the toy body through the first building block respectively, and the toy door can be separated from the toy body in a translation and/or rotation mode to be switched to the fully opened state.

Preferably, a structure that the building blocks are matched with the building block pins is adopted between the first building block and the third building block, between the second building block and the toy body and between the second building block and the third building block.

Preferably, the building block is provided with a building block hole, and the building block hole is matched with the building block pin;

the building block hole and the building block pin are provided with rotational damping, so that the building block pin can rotate in the building block hole only under the driving of external force; or

There is no rotational damping between the building block aperture and the building block pin so that the building block pin can rotate in the building block aperture under the weight of the toy door itself.

Preferably, the toy door has a first splicing structure thereon, and the toy body has a second splicing structure matched with the first splicing structure, so that when the toy door is in a closed state, the first splicing structure and the second splicing structure are matched and spliced, and the toy door can be stably kept on the toy body. Preferably, the first splicing structure is a male connector, and the second splicing structure is a female connector; or

The first splicing structure is a female head, and the second splicing structure is a male head.

Preferably, the toy door is capable of rotation in the range of 0 ° to 180 ° when in the fully open position.

Preferably, one or more fourth blocks are included, which are arranged between the first and third blocks and/or between the second and third blocks such that there is a running fit between each two directly connected blocks.

Preferably, when the toy door is in the closed state, the first block, the second block and the third block are in the folded state.

Preferably, a structure that the toy door is spliced with the first building block through a male head and a female head is adopted, wherein the axial direction of the male head and the axial direction of the female head are perpendicular to the axial direction of the building block pin.

The space capsule toy comprises a toy body and a toy door arranged on the toy body, wherein the toy door can be arranged on the toy body in an opening and closing mode through a toy door rotating structure.

Preferably, the structure also has at least one of the following structures:

the inside and/or the outside of the toy door is provided with a building block splicing structure;

the inside and/or the outside of the toy body are/is provided with a building block splicing structure;

the toy body is internally provided with an accommodating space;

the toy door and the toy body are both of a layered structure formed by splicing a plurality of building blocks;

the middle part is a cylindrical structure;

the two ends of the bracket are in a convex structure;

the inner surface of the toy door is spliced with a building block or a non-building block model.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the toy door, the common rotating structure that the building block pins and the building blocks are matched is adopted, the building block pins and the building blocks are hidden inside the building block body but not exposed when the toy door is closed, the joint of the toy door and the toy body is smooth and has no unevenness, the toy is attractive in appearance, the toy door and the toy body have no interference when the toy door is opened, the toy door can move in a translation mode and can move in a rotating mode when the toy door is opened, the toy door is particularly suitable for an environment with limited space, the practicability of the toy is improved, and the experience of a player is greatly improved.

2. The toy door can adjust the orientation within the range of 0-180 degrees when in a fully opened state, so that the toy door can be adjusted to different orientations, and the interestingness of the toy is increased.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic view of a rotating structure of a toy door according to the present invention, wherein the toy door is in a fully opened state, and a laminated wood board is joined to an inner side surface of the toy door to form a planar structure;

FIG. 2 is a schematic view of a toy door of the present invention connected to a first block, a second block, and a third block;

FIG. 3 is a schematic structural view of a toy door pivot structure wherein rotational damping exists between the building block pin and the building block;

FIG. 4 is a schematic view of a rotating structure of the toy door of the present invention, wherein the toy door is in a closed position;

FIG. 5 is a schematic structural view of a rotating structure of the toy door when the toy door is in a closed state, wherein the toy body is not shown;

FIG. 6 is a schematic view of a door pivot structure of the present invention, wherein the door is fully open and the inside of the door is provided with male and/or female heads;

FIG. 7 is a schematic structural view of the toy door in a position between the closed position and the fully open position;

FIG. 8 is a schematic structural view of a toy door pivot structure wherein the building block pin and the building block are free to pivot relative to each other;

FIG. 9 is a schematic view of the toy door in a fully opened position showing the interior configuration of the receiving space;

FIG. 10 is a schematic structural view of the space capsule toy after the built-up wood boards are partially spliced inside the space capsule toy;

FIG. 11 is a schematic structural view of a toy door in a closed position, wherein a wood-laminated board is attached to an inner surface of the toy door;

FIG. 12 is a schematic view of a prior art toy door in a hinged configuration;

FIG. 13 is a schematic view of a prior art hinged toy door, wherein the toy door is in a closed position;

FIG. 14 is a structural schematic diagram of the cross-section of FIG. 13;

FIG. 15 is a schematic view of a prior art hinge hidden inside the body of a toy;

fig. 16 is a schematic view of a prior art hinge portion hidden inside a toy body, with the toy door open and interfering.

The figures show that:

first building block 1

Hinge part 101

Toy door 102

Toy body 103

Second building block 2

Third building block 3

Building block pin 4

Building block 5

Building block hole 51

Building block board 6

Detailed Description

The present invention will be described in detail with reference to specific examples. The following examples will assist those skilled in the art in further understanding the invention, but are not intended to limit the invention in any way. It should be noted that it would be obvious to those skilled in the art that various changes and modifications can be made without departing from the spirit of the invention. All falling within the scope of the present invention.

The invention provides a toy door rotating structure which comprises a first building block 1 spliced on a toy door 102, a second building block 2 with one end rotationally matched with a toy body 103, and a third building block 3 with two ends respectively rotationally matched with the other end of the second building block 2 and the first building block 1, wherein the toy door 102 can be switched between a completely opened state and a completely closed state under the driving of external force, as shown in figures 1, 2 and 3.

Specifically, when the toy door 102 is in a closed state, as shown in fig. 11, the toy door 102 is buckled on the toy body 103 in a matching manner, and the first building block 1, the second building block 2 and the third building block 3 are all accommodated in the toy body 103, so that the rotating structure of the toy is not exposed when the whole toy is observed from the outside, and the appearance is attractive; in a preferred embodiment, the toy door 102 has a first mating structure thereon, and the toy body 103 has a second mating structure thereon that mates with the first mating structure such that the first mating structure mates with the second mating structure when the toy door 102 is in the closed position to allow the toy door 102 to be stably retained on the toy body 103. In practical application, the first splicing structure is a male connector, and the second splicing structure is a female connector; or first mosaic structure is female, and second mosaic structure is public, and in a variation, toy door 102 sets up on the edge opposite face of toy door 102 and toy body 103 when being in the closed condition and has the building blocks hole that corresponds, also can realize the steady maintenance at toy body 103 when toy door 102 is in the closed condition through the concatenation of configuration building blocks round pin 4 in the building blocks hole.

It should be noted that the toy door 10 can also be stably maintained on the toy body 103 when the toy door 10 is in the closed state by the interference fit between the shape of the toy door and the opening of the toy body 103, and the toy door should be flexibly selected according to specific products and application scenarios when being specifically designed.

Further, when the toy door 102 is adjusted to the fully opened state from the closed state, the toy door 102 drives the second block 2 and the third block 3 to extend to the outside of the toy body 103 through the first block 1, and the toy door 102 can be separated from the toy body 103 in a translation and/or rotation manner to be switched to the fully opened state.

In a preferred embodiment, a structure that a building block 5 is matched with a building block pin 4 is adopted between a first building block 1 and a third building block 3, a structure that a building block 2 is matched with a toy body 103 is adopted between a second building block 2 and the third building block 3, a building block hole 51 is configured on the building block 5, the building block hole 51 is matched with the building block pin 4, and rotational damping is provided between the building block hole 51 and the building block pin 4, so that the building block pin 4 can rotate in the building block hole 51 only under the driving of external force, a player has better damping hand feeling, and the high-grade feeling of the toy is improved; in a variant, the effect of the door rotation switch of the invention is also achieved in that there is no rotational damping between the building hole 51 and the building pin 4, so that the building pin 4 can rotate in the building hole 51 under the weight of the toy door 102 itself.

As shown in fig. 4, 5, 6, 7, 9, 10, 11, the toy door 102 can be rotated as needed to adjust the orientation of the toy door 102 to achieve a particular function when in the fully open position, and in a preferred embodiment, the toy door 102 can be rotated in a range of 0 ° to 180 ° when in the fully open position.

As shown in fig. 4 and 5, when the toy door 102 is in the closed state, the first building block 1, the second building block 2 and the third building block 3 are in the folded state, so that the space occupied inside the toy body 103 can be greatly reduced, more space can be made to place more building block models inside the toy body 103, and the interest and the story of the toy can be increased.

Besides, the toy door 102 and the first building block 1 preferably adopt a structure spliced by male and female heads, wherein the axial direction of the male and female heads is perpendicular to the axial direction of the building block pin 4, so that the first building block 1 is arranged in a mode parallel to the inner wall of the building block door 102, and the saving of the inner space of the toy body 103 is also facilitated.

In practical application, the rotating structure of the toy door of the invention can be simplified, in a variation, the third building block 3 is omitted, so that the other end of the second building block 2 is directly connected with the first building block 1, and the effect of switching the toy door 102 between fully opened and closed can be realized through the structure of the rotating fit between the other end of the second building block 2 and the first building block 1; in another variation, the present invention further includes one or more fourth blocks, the fourth blocks are disposed between the first block 1 and the third block 3 and/or between the second block 2 and the third block 3, such that each two directly connected blocks are rotatably engaged, and the number of blocks in the door rotation structure is increased such that any two blocks in the whole door rotation structure are rotatably engaged, thereby greatly increasing flexibility of posture adjustment when the door 102 is in an open state, and in practical applications, it should be considered that all blocks in the door rotation structure should be in a stacked structure in which all blocks are sequentially stacked when the door 102 is in a closed state, so as to reduce occupation of an internal space, and the specific design can be flexibly selected according to practical application scenarios.

The invention also provides a capsule toy, which comprises a toy body 103 and a toy door 102 matched with the toy body 103, wherein the toy door 102 is arranged on the toy body 103 through a toy door rotating structure, so that the whole capsule toy has high-grade feeling and good interestingness.

Specifically, the space capsule toy can adopt various structures and shapes, for example, a building block splicing structure is arranged inside and/or outside the toy door 102, a building block splicing structure is arranged inside and/or outside the toy body 103, the building block splicing structure can be male or female, as shown in fig. 4, 5 and 6, male and female head structures are arranged on the inner side surface and the outer side surface of the toy door 102 and the toy body 103 and used for splicing other structures, so that the shapes are richer, as shown in fig. 1, the wood stacking plates 6 are spliced on the inner surface of the wood stacking door 102, and the inner surface forms a plane to realize corresponding functions; the middle part is cylindrical structure, and both ends are the structure of evagination, and toy body 103's internal configuration accommodation space, accommodation space can hold other building blocks or non-building blocks stage property to increase the story nature and the interest of toy.

Further, for increasing the stability of whole toy, make the toy be difficult to scatter, toy door 102, toy body 103 all adopt the lamellar structure that a plurality of building blocks concatenation formed, through setting up multilayer structure, and the concatenation of staggering can be preferred when the building blocks concatenation between layer and layer, and the stability that can greatly increased building blocks promotes the senior sense of building blocks.

In practical application, building blocks or non-building blocks can be spliced on the inner surface of the toy door 102, if a doll is spliced, the role of an astronaut is simulated, when the door is closed, the doll is positioned in the accommodating space, and when the door is opened, the doll is positioned in the space through adjusting the orientation of the inner surface of the toy door 102, so that the interest of the toy is greatly improved.

The toy door rotating structure can also be applied to various environments with limited space, and in one possible embodiment, due to the fact that the space at the cave opening of the cave, which reaches through the tunnel, is narrow, the toy door rotating structure can achieve the maximization of space utilization when the door is opened and closed, and the requirement of the narrow space is met.

In the description of the present application, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present application and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present application.

The foregoing description of specific embodiments of the present invention has been presented. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes or modifications may be made by one skilled in the art within the scope of the appended claims without departing from the spirit of the invention. The embodiments and features of the embodiments of the present application may be combined with each other arbitrarily without conflict.

Claims (10)

1. A toy door rotating structure is characterized by comprising a first building block (1) spliced on a toy door (102), a second building block (2) with one end rotationally matched with a toy body (103), and a third building block (3) with two ends rotationally matched with the other end of the second building block (2) and the first building block (1) respectively;

the toy door (102) is switchable between a fully open and a closed state;

when the toy door (102) is in a closed state, the toy door (102) is buckled on the toy body (103) in a matching manner, and the first building block (1), the second building block (2) and the third building block (3) are contained in the toy body (103);

when the toy door (102) is adjusted to a fully opened state from a closed state, the toy door (102) drives the second building block (2) and the third building block (3) to extend to the outside of the toy body (103) through the first building block (1) respectively, and the toy door (102) can be switched to the fully opened state in a translation and/or rotation mode.

2. The toy door rotating structure according to claim 1, wherein a structure in which the building block (5) and the building block pin (4) are engaged is adopted between the first building block (1) and the third building block (3), between the second building block (2) and the toy body (103), and between the second building block (2) and the third building block (3).

3. The toy door rotating structure as claimed in claim 2, wherein the building block (5) is provided with a building block hole (51), and the building block hole (51) is matched with the building block pin (4);

wherein there is rotational damping between the building block hole (51) and the building block pin (4) such that the building block pin (4) is only allowed to rotate in the building block hole (51) driven by an external force; or

The building block holes (51) and the building block pins (4) have no rotational damping between them so that the building block pins (4) can rotate in the building block holes (51) under the weight of the toy door (102) itself.

4. A toy door rotating structure according to claim 1, wherein the toy door (102) has a first engaging structure thereon, and the toy body (103) has a second engaging structure thereon matching the first engaging structure such that the first engaging structure and the second engaging structure are matingly engaged when the toy door (102) is in the closed state to enable the toy door (102) to be stably held on the toy body (103). Preferably, the first splicing structure is a male connector, and the second splicing structure is a female connector; or

The first splicing structure is a female head, and the second splicing structure is a male head.

5. The toy door rotating structure according to claim 1, wherein the toy door (102) is capable of rotating in a range of 0 ° to 180 ° in a fully opened state.

6. A toy door turning structure according to claim 1, characterized in that it further comprises one or more fourth blocks arranged between the first (1) and third (3) and/or between the second (2) and third (3) blocks such that there is a turning fit between each two directly connected blocks.

7. Toy door turning construction according to claim 1, characterized in that the first (1), second (2) and third (3) building blocks are in a folded state when the toy door (102) is in a closed state.

8. The toy door rotating structure according to claim 1, wherein the toy door (102) is connected to the first building block (1) by a male-female joint, wherein the axial direction of the male-female joint is perpendicular to the axial direction of the building block pin (4).

9. A capsule toy comprising a toy body (103) and a toy door (102) arranged on said toy body (103), said toy door (102) being openably and closably arranged on said toy body (103) by means of a toy door turning structure according to any one of claims 1 to 8.

10. The space capsule toy of claim 1, further comprising at least one of:

the inside and/or the outside of the toy door (102) is provided with a building block splicing structure;

the inside and/or the outside of the toy body (103) is provided with a building block splicing structure;

the toy body (103) is internally provided with an accommodating space;

the toy door (102) and the toy body (103) are both of a layered structure formed by splicing a plurality of building blocks;

the middle part is a cylindrical structure;

the two ends of the bracket are in a convex structure;

the inner surface of the toy door (102) is spliced with a building block or non-building block model.

Images