CN220478107U - Deformation toy and launching toy - Google Patents

Abstract

The application discloses deformation toy and transmission toy, deformation toy includes first main part, second main part and transfer line, first main part is equipped with first movable mechanism, second main part is equipped with second movable mechanism, the transfer line respectively with first movable mechanism and second movable mechanism swing joint, first movable mechanism is suitable for driving the transfer line activity, so that the transfer line drives second main part folding for first main part, and drive second movable mechanism folding for second main part, make deformation toy switch into folding form by the unfolding form, through the cooperation of each part, deformation toy can realize that a key is folding, convenient and fast.

Description

Deformation toy and launching toy

Technical Field

The application relates to the technical field of toys, in particular to a deformation toy and a launching toy.

Background

The transformable toy, i.e., the toy whose shape can be changed, generally has at least two kinds of shapes that can be switched, and in the related art, the shape switching of the transformable toy is complicated. For example, when the transformable toy is switched from the unfolded configuration to the folded configuration, it is necessary to operate a plurality of parts of the transformable toy one by one, which takes a long time and makes the operation complicated.

Disclosure of Invention

The present application aims to solve, at least to some extent, one of the technical problems in the related art. To this end the application proposes a deformation toy.

To achieve the above object, the present application discloses a transformable toy, the transformable toy comprising:

a first main body part provided with a first movable mechanism;

a second main body part provided with a second movable mechanism; and

the transmission rod is respectively and movably connected with the first movable mechanism and the second movable mechanism;

the first moving mechanism is suitable for driving the transmission rod to move, so that the transmission rod drives the second main body part to fold relative to the first main body part, and drives the second moving mechanism to fold relative to the second main body part, and the deformation toy is switched from an unfolding form to a folding form.

In some embodiments of the present application, the first movable mechanism includes an operation portion rotatably connected to the first main body portion, and the operation portion is provided with a first gear;

one end of the transmission rod is rotatably connected with the first main body part and is provided with a second gear, the second gear is meshed with the first gear, and the other end of the transmission rod is rotatably connected with the second main body part;

When the transformable toy is switched from the unfolding mode to the folding mode, the operating part drives the first gear to rotate along a first direction, the first gear drives the transmission rod to rotate along a second direction through the second gear so as to fold relative to the first main body part, and the second main body part moves along with the transmission rod and rotates along the first direction so as to fold relative to the first main body part, so that the transmission rod drives the second moving mechanism to move and fold.

In some embodiments of the present application, when the transformable toy is switched from the unfolded configuration to the folded configuration, the second main body portion moves along with the transmission rod to meet the resistance so as to rotate along the first direction.

In some embodiments of the present application, the second movable mechanism includes a rear leg rotatably connected to the second body portion;

when the transformable toy is switched from the unfolding mode to the folding mode, the rear legs move along with the second main body part and are abutted against the first main body part so as to rotate and fold relative to the second main body part, and the second main body part is blocked.

In some embodiments of the present application, the second movable mechanism includes a front leg, the front leg and the second body portion being rotatably connected;

When the transformable toy is switched from the unfolding mode to the folding mode, the front legs move along with the second main body part and are abutted against the first main body part so as to rotate and fold relative to the second main body part.

In some embodiments of the present application, the second movable mechanism includes:

a rack provided in the second main body; and

the wings are rotatably connected with the second main body part, the wings are provided with third gears, and the third gears are meshed with the racks;

when the deformation toy is switched from the unfolding mode to the folding mode, the transmission rod drives the rack to move, and the rack drives the third gear to rotate, so that the wings rotate and fold towards the second main body part.

In some embodiments of the present application, the wing comprises:

the first joint is rotatably connected with the second main body part, and the third gear is arranged on the first joint;

the second joint is rotatably connected with the first joint, and is provided with a first connecting piece; and

the pull rod is movably arranged on the first joint, one end of the pull rod is provided with a first clamping protrusion, and the other end of the pull rod is connected with the first connecting piece;

The second main body part is provided with a guide surface, when the deformation toy is switched from the unfolding mode to the folding mode, the first clamping protrusion is abutted with the guide surface, so that the pull rod drives the first connecting piece to move under the action of the guide surface, and the second joint is enabled to rotate and fold relative to the first joint.

In some embodiments of the present application, the second movable mechanism includes a neck portion rotatably connected to the second main body portion, the neck portion being provided with a second connecting member;

when the deformation toy is switched from the unfolding mode to the folding mode, the transmission rod drives the second connecting piece to move so that the neck part is folded relative to the second main body part in a rotating mode.

In some embodiments of the present application, the second movable mechanism further includes:

the head part is rotatably connected with the neck part and is provided with a fourth gear; and

the corner part is rotatably connected with the neck part and is provided with a fifth gear, and the fifth gear is meshed with the fourth gear;

when the deformation toy is switched from the unfolding mode to the folding mode, the head moves along with the neck and is abutted against the first main body part so as to rotate and fold relative to the neck, and the head drives the corner to rotate, so that the corner is folded relative to the neck.

In some embodiments of the present application, the transformable toy further comprises a locking member adapted to lock the transmission rod when the transformable toy is switched from the unfolded configuration to the folded configuration.

In some embodiments of the present application, the deformation toy further includes a first elastic member, the locking member is further adapted to unlock the transmission rod, when the locking member unlocks the transmission rod, the transmission rod is adapted to reset under the action of the first elastic member, so as to drive the second body portion to be unfolded relative to the first body portion, and drive the second movable mechanism to be unfolded relative to the second body portion, so that the deformation toy is switched from the folded configuration to the unfolded configuration.

In some embodiments of the present application, the first body portion is provided with an opening, and the locking member is exposed to the opening, and an external object is adapted to strike the locking member through the opening, so that the locking member unlocks the transmission rod.

In some embodiments of the present application, the transformable toy further comprises a second elastic member, and the second elastic member is adapted to drive the second main body portion to reset during the process of switching the transformable toy to the unfolding mode, so that the second main body portion is unfolded in a rotating manner relative to the first main body portion;

The deformation toy further comprises a third elastic piece, wherein the third elastic piece is suitable for driving the rack to reset in the process of switching the deformation toy to the unfolding form, so that the wings rotate and unfold relative to the second main body;

and/or the deformation toy further comprises a fourth elastic piece, wherein the fourth elastic piece is suitable for driving the pull rod to reset in the process of switching the deformation toy to the unfolding form, so that the second joint is unfolded in a rotating way relative to the first joint;

and/or the deformation toy further comprises a fifth elastic piece, wherein the fifth elastic piece is suitable for driving the head to reset in the process of switching the deformation toy to the unfolding mode, so that the head rotates and unfolds relative to the neck;

and/or the deformation toy further comprises a sixth elastic piece, wherein the sixth elastic piece is suitable for driving the neck to reset in the process of switching the deformation toy to the unfolding mode, so that the neck is unfolded in a rotating mode relative to the second main body part.

In some embodiments of the present application, the front and rear legs are adapted to return under the force of gravity to rotate for deployment relative to the second body portion during switching of the transformable toy to the deployed configuration.

The application also discloses a launching toy, which comprises a launcher and the deformation toy, wherein the deformation toy is suitable for being placed on the launcher to be launched by the launcher.

In some embodiments of the present application, the launcher comprises a pull handle configured to be rotatably disposed, and an operating portion adapted to removably engage the pull handle to cause the transformable toy to switch from the expanded configuration to the collapsed configuration when the pull handle is pulled.

According to the technical scheme, through the mutual matching of the first main body part, the second main body part, the first movable mechanism, the second movable mechanism and the transmission rod, one piece of the deformation toy can be folded, the components are not required to be folded respectively, the operation is more convenient and quick, and the use experience is improved.

Additional advantages of the application 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 application.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and other designs can be obtained according to the structures shown in these drawings without the need of creative efforts for a person skilled in the art.

FIG. 1 is a schematic illustration of a transformable toy in some embodiments being switched from an expanded configuration to a collapsed configuration;

FIG. 2 is a schematic illustration of a transformable toy in some embodiments being switched from an expanded configuration to a collapsed configuration;

FIG. 3 is a partial schematic view of a transformable toy in a deployed configuration in some embodiments;

FIG. 4 is an exploded view of the structure shown in FIG. 3;

FIG. 5 is an exploded view of the structure shown in FIG. 3;

FIG. 6 is a partial schematic view of a transformable toy in a collapsed configuration in some embodiments;

FIG. 7 is an exploded view of the structure shown in FIG. 6;

FIG. 8 is a partial schematic view of a transformable toy in some embodiments switched from an expanded configuration to a collapsed configuration;

FIG. 9 is a partial schematic view of a transformable toy in some embodiments switched from an expanded configuration to a collapsed configuration;

FIG. 10 is a partial schematic view of a transformable toy in a deployed configuration in some embodiments;

FIG. 11 is an exploded view of the structure shown in FIG. 10;

FIG. 12 is a partial schematic view of a transformable toy in a deployed configuration in some embodiments;

FIG. 13 is an exploded view of the structure shown in FIG. 12;

FIG. 14 is a partial schematic view of a transformable toy in some embodiments switched from an expanded configuration to a collapsed configuration;

FIG. 15 is a partial schematic view of a transformable toy in a deployed configuration in some embodiments;

FIG. 16 is a partial schematic view of a transformable toy in a deployed configuration in some embodiments;

FIG. 17 is a partial schematic view of a transformable toy in a deployed state in some embodiments;

FIG. 18 is a partial schematic view of a transformable toy in some embodiments being switched from an expanded configuration to a collapsed configuration;

FIG. 19 is a partial schematic view of a transformable toy in some embodiments switched from an expanded configuration to a collapsed configuration;

FIG. 20 is a partial schematic view of a transformable toy in a deployed configuration in some embodiments;

FIG. 21 is a schematic view of the structure of FIG. 20 in a folded configuration;

FIG. 22 is a schematic view of wings in an extended configuration in some embodiments;

FIG. 23 is an exploded view of the structure shown in FIG. 22;

FIG. 24 is a schematic view of wings in a folded configuration in some embodiments;

FIG. 25 is an exploded view of the structure shown in FIG. 24;

FIG. 26 is a schematic illustration of a transformable toy being switched from an unfolded configuration to a folded configuration by a launcher in some embodiments;

fig. 27 is a schematic view of a toy deformation mounted to a launcher in some embodiments.

Reference numerals illustrate:

a transformable toy 100; transmitter 200, pull handle 210, and clamping slot 220;

a first body portion 1000, an opening 1100; the second body part 2000, the guide surface 2100, the transmission rod 3100, the second gear 3110, the convex portion 3120, the locking portion 3130, the locking portion 3140, the locking member 3200, the slide rod 3210, the lock hook 3211; a wafer 4000; a first movable mechanism 5000, an operation portion 5100, and a first gear 5110; second movable mechanism 6000, front leg 6100, rear leg 6200, wing 6300, first knuckle 6310, third gear 6311, second knuckle 6320, first connector 6321, pull rod 6330, first click 6331, second click 6332, rack 6340, neck 6400, second connector 6410, head 6510, fourth gear 6511, corner 6520, fifth gear 6521; first elastic member 7100, second elastic member 7200, third elastic member 7300, fourth elastic member 7400, fifth elastic member 7500, sixth elastic member 7600, and seventh elastic member 7700.

The realization, functional characteristics and advantages of the present application will be further described with reference to the embodiments, referring to the attached drawings.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, are intended to be within the scope of the present application.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear … …) in the embodiments of the present application are merely used to explain the relative positional relationship, movement, etc. between the components in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is correspondingly changed.

In the present application, unless explicitly specified and limited otherwise, the terms "coupled," "secured," and the like are to be construed broadly, and for example, "secured" may be either permanently attached or removably attached, or integrally formed; can be mechanically or electrically connected; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art as the case may be.

In addition, descriptions such as those related to "first," "second," and the like, are provided for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated in this application. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be regarded as not exist and not within the protection scope of the present application.

In some embodiments of the present application, as shown in fig. 1, 2, 4 and 8, the deformation toy includes a first body 1000, a second body 2000 and a driving rod 3100, the first body 1000 is provided with a first moving mechanism 5000, the second body 2000 is provided with a second moving mechanism 6000, the driving rod 3100 is movably connected with the first moving mechanism 5000 and the second moving mechanism 6000, the first moving mechanism 5000 is suitable for driving the driving rod 3100 to move, so that the driving rod 3100 drives the second body 2000 to fold relative to the first body 1000, and drives the second moving mechanism 6000 to fold relative to the second body 2000, so that the deformation toy is switched from an unfolded configuration to a folded configuration.

In particular, the transformable toy has an expanded configuration and a collapsed configuration, which are relatively speaking, the expanded configuration taking up more space than the collapsed configuration. For example, in connection with fig. 1, the transformable toy is switched from the unfolded configuration to the folded configuration, the transformable toy is a trolley in the folded configuration, and is a horse in the unfolded configuration, and of course, the transformable toy may be transformed into other configurations, which will not be described in detail herein.

The first body 1000 forms the bottom of the transformable toy, the first body 1000 is supported on the supporting surface, the whole transformable toy is supported, when the transformable toy is in the unfolded state, the second body 2000 is supported on the first body 1000 through the transmission rod 3100, the second body 2000 is positioned above the first body 1000 and unfolded relative to the first body 1000, the second movable mechanism 6000 is unfolded relative to the second body 2000, and the transformable toy is in the unfolded state through the unfolding of the second body 2000 and the second movable mechanism 6000.

When the transformable toy needs to be switched from the unfolded configuration to the folded configuration, the first moving mechanism 5000 is operated, so that the first moving mechanism 5000 can drive the transmission rod 3100 to move, it can be understood that the first moving mechanism 5000 needs to have a connection relationship with the transmission rod 3100, and force is transferred through the connection relationship, so that under the action of the first moving mechanism 5000, the state of the transmission rod 3100 is changed, and the driving between other parts mentioned below is also the same, and the detailed description is omitted below. When the transmission lever 3100 is moved, the second body part 2000 connected to the transmission lever 3100 is also moved so that the state of the second body part 2000 is changed, thereby achieving folding of the second body part 2000 with respect to the first body part 1000. Meanwhile, the transmission rod 3100 drives the second movable mechanism 6000 to move, so that the state of the second movable mechanism 6000 is changed, and the second movable mechanism 6000 is folded relative to the second main body 2000.

Therefore, through the scheme, the second main body 2000 and the second movable mechanism 6000 can be synchronously folded, and the second main body 2000 and the second movable mechanism 6000 do not need to be operated respectively, so that the folding speed of the deformation toy is improved, and the use experience is improved.

In some embodiments of the present application, the first movable mechanism 5000 is driven by the driving rod 3100 through the cooperation of gears, so that the structure of the deformed toy is more compact. As shown in fig. 1, 3, 4 and 5, the first movable mechanism 5000 includes an operation portion 5100, the operation portion 5100 is rotatably connected with the first body portion 1000, the operation portion 5100 is provided with a first gear 5110, one end of the transmission rod 3100 is rotatably connected with the first body portion 1000 and provided with a second gear 3110, the second gear 3110 is engaged with the first gear 5110, and the other end of the transmission rod 3100 is rotatably connected with the second body portion 2000.

The rotatable connection between the operation portion 5100 and the first main body portion 1000 is not limited in this embodiment, so that the operation portion 5100 can be operated to rotate the operation portion 5100 relative to the first main body portion 1000, and since the first gear 5110 is disposed on the first operation portion 5100, the first operation portion 5100 can drive the first gear 5110 to rotate, for example, the rotation axes of the first gear 5110 and the operation portion 5100 are coaxially disposed, and when the operation portion 5100 is operated to rotate the operation portion 5100, the first gear 5110 can be driven to rotate. The transmission rod 3100 is rotatably connected with the first body portion 1000, and the transmission rod 3100 is provided with a second gear 3110, the second gear 3110 needs to be coaxially arranged with the transmission rod 3100 relative to the rotation axis of the first body portion 1000, when the first gear 5110 rotates, the second gear 3110 can be driven to rotate, and the second gear 3110 can be driven to rotate.

For example, when the transformable toy is to be switched from the unfolded configuration to the folded configuration, the operation portion 5100 is rotated in a first direction (e.g. clockwise), so that the first gear 5110 drives the second gear 3110 to rotate in a second direction (e.g. counterclockwise), that is, the transmission rod 3100 rotates in the second direction, and the transmission rod 3100 drives the second body portion 2000 to approach the first body portion 1000. It will be appreciated that when the transmission lever 3100 is rotated in the second direction, which corresponds to the transmission lever 3100 gradually approaching the first body portion 1000, the folding of the transmission lever 3100 with respect to the first body portion 1000 is also completed.

The second body portion 2000 is designed to rotate in a first direction relative to the transmission rod 3100 while following the movement of the transmission rod 3100, that is, the second body portion 2000 needs to rotate (in a first direction) while following the revolution (in a second direction) of the transmission rod 3100, and the revolution and rotation directions of the second body portion 2000 are different, so that the position between the second body portion 2000 and the first body portion 1000 is changed more easily, and the second body portion 2000 is gradually close to the first body portion 1000, so that the second body portion 2000 is folded relative to the first body portion 1000. Also by such design, the second body portion 2000 may be inclined with respect to the first body portion 1000 when the transformable toy is in the expanded configuration, so that the transformable toy occupies a larger space when in the expanded configuration.

When the second body 2000 rotates along the first direction, the second body 2000 drives the relative position between the second moving mechanism 6000 and the transmission rod 3100 to change, so that the connection relationship between the second moving mechanism 6000 and the transmission rod 3100 changes, and when the connection relationship between the second moving mechanism 6000 and the transmission rod 3100 changes, the transmission rod 3100 can drive the second moving mechanism 6000 to move, so that the second moving mechanism 6000 is folded relative to the second body 2000. It can be appreciated that the driving of the second moving mechanism 6000 by the driving rod 3100 may be direct driving or indirect driving, including driving between other components may be direct driving or indirect driving, and the description is not repeated.

In some embodiments of the present application, as shown in connection with fig. 8 and 9, when the transformable toy is switched from the unfolded configuration to the folded configuration, the second body portion 2000 follows the movement of the driving lever 3100 to encounter resistance, thereby rotating in the first direction.

Specifically, when the transformable toy is switched from the unfolded configuration to the folded configuration, the transmission rod 3100 rotates in the second direction, thereby driving the second body portion 2000 to revolve along the second direction, and when the second body portion 2000 rotates to a certain extent in the second direction, the second body portion 2000 encounters an obstacle, and is forced to rotate (spin) along the first direction, so that the second body portion 2000, the transmission rod 3100 and the first body portion 1000 complete overlapping similar to the shape of a Z, and folding is achieved. It is understood that the second body 2000 may be blocked in a plurality of ways, for example, the second body 2000 may be turned in the second direction to a certain extent to encounter the first body 1000, and the second body 2000 may encounter the first body 1000 directly to the second body 2000, or the first body 1000 may indirectly to the second body 2000.

The first body 1000 will be described by taking an example in which the second body 2000 is indirectly blocked. In some embodiments of the present application, as shown in connection with fig. 8 and 18, the second articulating mechanism 6000 includes a rear leg 6200, the rear leg 6200 and the second body portion 2000 being rotatably coupled; when the transformable toy is switched from the unfolded configuration to the folded configuration, the rear legs 6200 move along with the second main body portion 2000 and are abutted against the first main body portion 1000, so that the rear legs 6200 rotate and fold relative to the second main body portion 2000, and the second main body portion 2000 is blocked.

Specifically, when the transformable toy is switched from the unfolded configuration to the folded configuration, the transmission rod 3100 rotates along the second direction, so as to drive the second body portion 2000 to rotate (revolve) along the second direction, at this time, the rear leg 6200 disposed on the second body portion 2000 also rotates (revolve) along the second body portion 2000 until the rear leg 6200 contacts the first body portion 1000, and the rear leg 6200 encounters the obstruction of the first body portion 1000, which corresponds to the obstruction of the second body portion 2000, so as to force the second body portion 2000 to rotate (rotate) along the first direction, and at the same time, as the transmission rod 3100 continues to rotate along the second direction, the second body portion 2000 is driven to continuously approach the first body portion 1000, so that the rear leg 6200 can be forced to rotate relative to the second body portion 2000 to realize folding, and therefore, it can be seen that the transmission rod 3100 drives the rear leg 6200 to transmit force through the second body portion 2000, which belongs to indirect driving.

Further, in some embodiments of the present application, as further shown in connection with fig. 8 and 18, the second movable mechanism 6000 includes a front leg 6100, the front leg 6100 being rotatably connected to the second main body portion 2000; when the transformable toy is switched from the unfolded configuration to the folded configuration, the front leg 6100 moves along with the second body portion 2000 and contacts the first body portion 1000 to rotate and fold relative to the second body portion 2000, thereby increasing the deformable components of the transformable toy.

Specifically, the rotational connection portion between the second body portion 2000 and the transmission lever 3100 is disposed between the front leg 6100 and the rear leg 6200, and when the transformable toy is switched from the unfolded configuration to the folded configuration, the transmission lever 3100 rotates in the second direction, the second body portion 2000 rotates (rotates) in the first direction, at this time, the front leg 6100 disposed on the second body portion 2000 also contacts the first body portion 1000 along with the movement of the second body portion 2000, and forces the front leg 6100 to rotate relative to the second body portion 2000 to fold along with the movement of the second body portion 2000 gradually approaching the first body portion 1000, similar to the rear leg 6200.

In some embodiments of the present application, referring to fig. 8 to 13, and fig. 19 to 21, the second movable mechanism 6000 includes a rack 6340 and wings 6300, and the movable wings 6300 are provided to increase the interest of the transformable toy. The rack 6340 is disposed on the second main body 2000, the wing 6300 is disposed on the second main body 2000, and the wing 6300 is rotatably connected with the second main body 2000, the wing 6300 is provided with a third gear 6311, the third gear 6311 is meshed with the rack 6340, when the deformed toy is switched from the unfolded configuration to the folded configuration, the transmission rod 3100 drives the rack 6340 to move, and the rack 6340 drives the third gear 6311 to rotate, so that the wing 6300 rotates and folds towards the second main body 2000.

Specifically, the rack 6340 is movably disposed in the second body portion 2000 in a linear manner, when the transformable toy is switched from the unfolded configuration to the folded configuration, the transmission rod 3100 drives the second body portion 2000 to move, the second body portion 2000 rotates (rotates in the first direction) relative to the transmission rod 3100, and at this time, the relative positions of the transmission rod 3100 and the rack 6340 change, so that the transmission rod 3100 can drive the rack 6340 to move. For example, when the second body portion 2000 rotates (rotates in the first direction) relative to the transmission rod 3100, the protrusion 3120 pushes the rack 6340, so that the rack 6340 moves, and the rack 6340 and the third gear 6311 are meshed, so that the rack 6340 can drive the third gear 6311 and the wing 6300 to rotate, and as long as the movement direction of the rack 6340 and the third gear 6311 is designed, the wing 6300 can be made to rotate toward the second body portion 2000 and gradually approach the second body portion 2000, so that the wing 6300 is folded.

Further, in some embodiments of the present application, in order to make the wing 6300 unfold to a greater extent when the transformable toy is in the unfolded configuration and fold to a greater extent when the transformable toy is in the folded configuration, as shown in connection with fig. 19 to 25, the wing 6300 includes a first joint 6310, a second joint 6320 and a pull rod 6330, the first joint 6310 is provided with the aforementioned third gear 6311, the second joint 6320 is rotatably connected with the first joint 6310, the second joint 6320 is provided with a first connecting piece 6321, the pull rod 6330 is movably provided at the first joint 6310, one end of the pull rod 6330 is provided with a first catch 6331, the other end of the pull rod 6330 is connected with the first connecting piece 6321, the second body portion 2000 is provided with a guide surface 2100, and when the transformable toy is switched from the unfolded configuration to the folded configuration, the first catch 6331 is abutted with the guide surface 2100 so as to enable the pull rod 6330 to move the first connecting piece 6321 under the action of the guide surface 2100 and enable the second joint 6320 to rotate relative to the first joint 6310.

Specifically, when the transformable toy is in the expanded configuration, the wings 6300 are expanded relative to the second main body portion 2000, the second joints 6320 of the wings 6300 are expanded relative to the first joints 6310, and when the transformable toy is switched from the expanded configuration to the folded configuration, the transmission rod 3100 drives the racks 6340 to move so that the wings 6300 gradually approach the second main body portion 2000, the wings 6300 gradually approach the second main body portion 2000 until the first blocking protrusions 6331 meet the blocking of the guide surface 2100, the pull rods 6330 are moved under the blocking action of the guide surface 2100 as the wings 6300 approach the second main body portion 2000, the pull rods 6330 drive the first connectors 6321 and the second joints 6320 to move, and as long as the moving direction of the pull rods 6330 and the moving direction of the first connectors 6321 are designed, the wings 6300 can rotate relative to the first joints 6310 to fold in the process of approaching the second main body portion 2000.

For example, the pull rod 6330 is disposed in the first joint 6310, the first end of the pull rod 6330 is provided with a first locking protrusion 6331, the first locking protrusion 6331 penetrates from the first joint 6310 to the outside of the first joint 6310, a strip-shaped hole through which the first locking protrusion 6331 can reciprocate is formed at a portion of the first joint 6310 penetrated by the first locking protrusion 6331, a hole site is disposed at the other end of the pull rod 6330, a first connecting piece 6321 is also disposed in the first joint 6310, a second locking protrusion 6332 is disposed at the first connecting piece 6321, and the second locking protrusion 6332 penetrates through the hole site at the other end of the pull rod 6330. When the transformable toy is switched from the unfolded configuration to the folded configuration, the wings 6300 approach the second main body portion 2000 from top to bottom until the first clamping protrusions 6331 meet the blocking of the guide surface 2100, at this time, as the wings 6300 continue to approach the second main body portion 2000, under the blocking action of the guide surface 2100, the first clamping protrusions 6331 move in the elongated holes of the first joints 6310, so as to realize the movement of the pull rods 6330, and the pull rods 6330 pull the first connecting pieces 6321 through the cooperation of the holes and the second clamping protrusions 6332, so that the first connecting pieces 6321 can rotate relative to the second clamping protrusions 6332, so that the second joints 6320 rotate relative to the first joints 6310 to fold.

In some embodiments of the present application, as shown in fig. 8, 9 and 14 to 17, the second moving mechanism 6000 includes a neck 6400, the neck 6400 is rotatably connected to the second body 2000, the neck 6400 is provided with a second connector 6410, and when the deformed toy is switched from the unfolded configuration to the folded configuration, the driving rod 3100 drives the second connector 6410 to move, so that the neck 6400 is rotationally folded relative to the second body 2000, and by setting the neck 6400, the number of movable parts of the deformed toy is increased, so that the deformed toy is more interesting when in the unfolded configuration.

Specifically, when the transformable toy is switched from the unfolded configuration to the folded configuration, the transmission rod 3100 rotates in the second direction, so as to drive the second body portion 2000 to rotate (rotate) in the first direction, at this time, the neck portion 6400 provided on the second body portion 2000 also moves along with the second body portion 2000, and along with the relative position of the second body portion 2000 and the transmission rod 3100, the connection relationship between the transmission rod 3100 and the second connector 6410 changes, so as to drive the neck portion 6400 to rotate and fold.

For example, neck portion 6400 has second link 6410, and when the toy is in the unfolded configuration, second link 6410 extends toward link 3100 and is engaged with engagement portion 3130, and when the toy is switched from the unfolded configuration to the folded configuration, link 3100 rotates in the second direction, second body 2000 rotates (rotates) in the first direction, and when second body 2000 rotates (rotates) in the first direction, second link 6410 encounters the engagement portion 3130, thereby forcing neck portion 6400 to rotate (clockwise in the first direction) with respect to second body 2000, and folding of neck portion 6400 is achieved.

Further, in some embodiments of the present application, as further shown in fig. 8, 9 and 14-17, the second moving mechanism 6000 further includes a head 6510 and a corner 6520, the head 6510 is rotatably connected to the neck 6400, the head 6510 is provided with a fourth gear 6511, the corner 6520 is rotatably connected to the neck 6400, the corner 6520 is provided with a fifth gear 6521, the fifth gear 6521 is meshed with the fourth gear 6511, and when the deformed toy is switched from the unfolded configuration to the folded configuration, the head 6510 moves along the neck 6400 and abuts against the first body 1000 to rotationally fold relative to the neck 6400, and the head 6510 drives the corner 6520 to rotationally fold relative to the neck 6400.

Specifically, when the transformable toy is switched from the unfolded configuration to the folded configuration, the neck portion 6400 rotates relative to the second body portion 2000 (along the first direction, clockwise) under the action of the transmission rod 3100, and in the process of rotating the neck portion 6400, the head portion 6510 is driven to abut against the first body portion 1000, and since the head portion 6510 and the neck portion 6400 are rotatably connected, the head portion 6510 is forced to rotate relative to the neck portion 6400, and only the stress direction when the head portion 6510 abuts against the first body portion 1000 is designed in advance, the head portion 6510 can be folded rotationally relative to the neck portion 6400 when abutting against the first body portion 1000. Since the head 6510 is provided with the fourth gear 6511 and the corner 6520 is provided with the fifth gear 6521, the fifth gear 6521 can be driven by the fourth gear 6511 when the head 6510 rotates, thereby achieving the rotational folding of the corner 6520.

In some embodiments of the present application, as shown in connection with fig. 3 to 7, the transformable toy further comprises a locking member 3200, the locking member 3200 being adapted to lock the transmission rod 3100 when the transformable toy is switched from the unfolded configuration to the folded configuration, such that the transformable toy may be maintained in the folded configuration by the arrangement of the locking member 3200. That is, when the transformable toy is switched from the unfolded state to the folded state, the transmission rod 3100 is rotated in the second direction, and when the transmission rod 3100 is rotated to a preset position, that is, locked by the locking member 3200, so that the transformable toy is in the folded state to avoid accidental unfolding.

For example, the locking member 3200 includes a sliding rod 3210 and a seventh elastic member 7700, the sliding rod 3210 has a latch hook 3211, the driving rod 3100 has a locking portion 3140, when the driving rod 3100 rotates along the second direction, until the locking portion 3140 encounters the latch hook 3211, the locking portion 3140 drives the entire sliding rod 3210 to move through the latch hook 3211, the seventh elastic member 7700 elastically deforms to store elastic potential energy, when the driving rod 3100 rotates in place, the seventh elastic member 7700 releases the elastic potential energy, and the sliding rod 3210 returns under the action of the seventh elastic member 7700 to enable the latch hook 3211 to lock the locking portion 3140, thereby locking the driving rod 3100 by the locking member 3200. Since the second body 2000 and the second movable mechanism 6000 are driven by the driving rod 3100, after the driving rod 3100 is locked, that is, the second body 2000 and the second movable mechanism 6000 are locked.

Further, in some embodiments of the present application, as shown in fig. 5, the transformable toy further includes a first elastic member 7100, the locking member 3200 is further adapted to unlock the driving rod 3100, and when the locking member 3200 unlocks the driving rod 3100, the driving rod 3100 is adapted to reset under the action of the first elastic member 7100, so as to drive the second body portion 2000 to unfold relative to the first body portion 1000, and drive the second movable mechanism 6000 to unfold relative to the second body portion 2000, so that the transformable toy is switched from the folded configuration to the unfolded configuration.

Specifically, the locking member 3200 can lock the driving rod 3100 and unlock the driving rod 3100, when the driving rod 3100 rotates in the second direction and is locked by the locking member 3200, the first elastic member 7100 elastically deforms to store elastic potential energy, and when the locking member 3200 unlocks the driving rod 3100, the first elastic member 7100 releases the elastic potential energy to drive the driving rod 3100 to rotate in the first direction and reset. It will be appreciated that when the transformable toy is switched from the unfolded configuration to the folded configuration, the connection relationship between the transmission rod 3100 and the second body portion 2000 and the second movable mechanism 6000 is changed, and when the transmission rod 3100 is reset, the connection relationship between the transmission rod 3100 and the second body portion 2000 and the second movable mechanism 6000 is restored, so that when the transmission rod 3100 is reset, the second body portion 2000 can be driven to be unfolded relative to the first body portion 5000, and the second movable mechanism 6000 can be driven to be unfolded relative to the second body portion 2000.

The first elastic member 7100 may store elastic potential energy by compressing or expanding, and therefore, the first elastic member 7100 may be provided in various positions as long as it can provide a force required for resetting the transmission lever 3100. For example, the first elastic member 7100 is a torsion spring, and is disposed at a rotational connection portion between the transmission rod 3100 and the first body portion 1000, and it is understood that other elastic members are similar, and will not be repeated herein.

In some embodiments of the present application, the locking member 3200 is unlocked to the driving rod 3100 by means of the following scheme, and as shown in fig. 2, the first body part 1000 is provided with an opening 1100, the locking member 3200 is exposed to the opening 1100, and an external object is adapted to strike the locking member 3200 through the opening 1100, so that the locking member 3200 unlocks the driving rod 3100. Specifically, taking the wafer 4000 as an external object as an example, the wafer 4000 has a flat circular structure, and the wafer 4000 can strike the driving rod 3100 through the opening 1100. When the toy is in the folded configuration, the toy can be moved (launched) forward and the opening 1100 is aligned with the wafer 4000, and the wafer 4000 can strike the locking member 3200 through the opening 1100, so that the locking member 3200 moves to unlock the transmission rod 3100.

For example, taking the case that the locking member 3200 includes the sliding rod 3210 and the seventh elastic member 7700 as an example, when the wafer 4000 impacts the locking member 3200, that is, impacts the sliding rod 3210, at the moment that the wafer 4000 impacts the sliding rod 3210, the sliding rod 3210 drives the latch hook 3211 to move, so that the latch hook 3211 and the locking portion 3140 are separated, the first elastic member 7100 releases elastic potential energy to enable the transmission rod 3100 to move, the first elastic member 7100 drives the transmission rod 3100 to rotate rapidly along the first direction to reset, and the whole deformation toy is driven to turn over in the air under the action of inertia.

Further, the force provided by the first resilient member 7100 alone may place a high requirement on the first resilient member 7100 to switch from the folded configuration to the unfolded configuration, and for this reason, in order to make the deformed toy easier to switch from the folded configuration to the unfolded configuration, in some embodiments of the present application, as described in connection with fig. 12 and 13, the deformed toy further includes a second resilient member 7200, where the second resilient member 7200 is adapted to drive the second body portion 2000 to reset during the process of switching the deformed toy to the unfolded configuration, so that the second body portion 2000 rotates and unfolds relative to the first body portion 1000. Specifically, when the transformable toy is switched from the unfolded configuration to the folded configuration, the second body portion 2000 is turned relative to the transmission rod 3100 and folded relative to the first body portion 1000, at this time, the second elastic member 7200 is elastically deformed to store elastic potential energy, and when the transformable toy is switched from the folded configuration to the unfolded configuration, the transmission rod 3100 is reset to drive the second body portion 2000 to be released from the obstruction, and the second elastic member 7200 can release the elastic potential energy to apply a resetting force to the second body portion 2000, so that the second body portion 2000 is more smoothly driven to be reset.

In some embodiments of the present application, as shown in fig. 11 and 13, the deformation toy further includes a third elastic member 7300, where the third elastic member 7300 is adapted to drive the rack 6340 to reset during the process of switching the deformation toy to the unfolding mode, so that the wing 6300 rotates and unfolds relative to the second main body portion 2000, similar to the resetting of the second main body portion 2000, the third elastic member 7300 provides an elastic force to reset the rack 6340, so that the wing 6300 is easier to reset, and reference to the resetting of the second main body portion 2000 is omitted herein.

In some embodiments of the present application, as shown in fig. 22 to 25, the deformation toy further includes a fourth elastic member 7400, where the fourth elastic member 7400 is adapted to drive the pull rod 6330 to return during the process of switching the deformation toy to the unfolded configuration, so that the second joint 6320 rotates and unfolds relative to the first joint 6310, similar to the return of the second body portion 2000, the fourth elastic member 7400 provides an elastic force to make the second joint 6320 easier to return, which is referred to as the return of the second body portion 2000 and will not be repeated herein.

In some embodiments of the present application, as shown in fig. 17, the fifth elastic member 7500 is adapted to drive the head 6510 to reset during the process of switching the deformation toy to the unfolding mode, so that the head 6510 rotates and unfolds relative to the neck 6400, and the corner 6520 rotates and unfolds relative to the neck 6400, similar to the resetting of the second body 2000, the fifth elastic member 7500 provides elastic force to make the head 6510 easier to reset, and reference can be made to the resetting of the second body 2000, and the repeated description is omitted herein, and when the head 6510 resets, the corner 6520 can be reset through the cooperation of the fourth gear 6511 and the fifth gear 6521.

In some embodiments of the present application, as shown in connection with fig. 15, the transformable toy further comprises a sixth elastic member 7600, wherein the sixth elastic member 7600 is adapted to return the neck portion 6400 during the transformation of the transformable toy to the expanded configuration, such that the neck portion 6400 is rotatably expanded relative to the second body portion 2000.

It will be appreciated that for the return of the front leg 6100 and the rear leg 6200, the return of the front leg 6100 and the rear leg 6200 may be made more smooth by providing an elastic member. In some embodiments of the present application, the resetting of the front leg 6100 and the rear leg 6200 is achieved based on the action of gravity, that is, when the transformable toy is switched to the folded configuration, the front leg 6100 and the rear leg 6200 are rotated and folded against the action of gravity under the action of the obstacle of encountering the first body portion 1000, and when the transformable toy is switched to the unfolded configuration, the front leg 6100 and the rear leg 6200 leave the first body portion 1000, so that the obstacle applied to the front leg 6100 and the rear leg 6200 by the first body portion 1000 disappears, and the front leg 6100 and the rear leg 6200 are reset under the action of gravity, thereby being rotated and unfolded relative to the second body portion 2000.

The second aspect of the present application discloses a launching toy, as shown in fig. 26 and fig. 27, where the launching toy includes a launcher 200 and a deformation toy mentioned in the foregoing embodiment, where the deformation toy may be placed on the launcher 200 so as to be launched by the launcher 200, and it is understood that the launcher 200 has an ejection mechanism, and the launching of the deformation toy is achieved by triggering the ejection mechanism, and the ejection mechanism may refer to a launcher in the related art, and the deformation toy included in the launching toy in this embodiment adopts the technical scheme of the foregoing embodiment, so at least has the beneficial effects brought by the technical scheme of the foregoing embodiment, and no repeated description is given here.

Further, as shown in fig. 27, the launcher 200 includes a pull handle 210, the pull handle 210 is configured to be rotatably disposed, the operation portion 5100 is adapted to be detachably engaged with the pull handle 210, so as to drive the transformable toy to switch from the unfolded configuration to the folded configuration when the pull handle 210 is pulled, and the child can more conveniently switch the transformable toy to the folded configuration through the disposition of the pull handle 210.

Specifically, when the transformable toy is in the unfolded configuration, the transformable toy is mounted on the launcher 200, the operation portion 5100 of the transformable toy is engaged with the pull handle 210, and the child pulls the pull handle 210 to rotate the operation portion 5100 (first direction, clockwise direction), thereby driving the transformable toy to switch to the folded configuration, for example, switching the transformable toy from the horse to the dolly, thereby preparing for launching the transformable toy (dolly) through the launcher 200.

The cooperation of the pull handle 210 and the operation portion 5100 may be as follows: when the deformed toy in the unfolded form is placed on the launcher 200, the operation portion 5100 is aligned with the clamping groove 220 and clamped from top to bottom, the child pulls the pull handle 210 to rotate, the pull handle 210 drives the operation portion 5100 to rotate so as to switch the deformed toy to the folded form, the clamping groove 220 is approximately horizontal, and when the launcher 200 launches the deformed toy, the deformed toy can be separated from the clamping groove 220 and launched.

The foregoing description is only of the preferred embodiments of the present application and is not intended to limit the scope of the claims, and all equivalent structural changes made in the present application and the accompanying drawings or direct/indirect application in other related technical fields are included in the scope of the present application.

Claims (16)

1. A transformable toy, characterized in that the transformable toy comprises:

a first main body part provided with a first movable mechanism;

a second main body part provided with a second movable mechanism; and

the transmission rod is respectively and movably connected with the first movable mechanism and the second movable mechanism;

the first moving mechanism is suitable for driving the transmission rod to move, so that the transmission rod drives the second main body part to fold relative to the first main body part, and drives the second moving mechanism to fold relative to the second main body part, and the deformation toy is switched from an unfolding form to a folding form.

2. The transformable toy of claim 1, wherein said first movable mechanism comprises an operation part rotatably connected with said first main body part, said operation part being provided with a first gear;

One end of the transmission rod is rotatably connected with the first main body part and is provided with a second gear, the second gear is meshed with the first gear, and the other end of the transmission rod is rotatably connected with the second main body part;

when the transformable toy is switched from the unfolding mode to the folding mode, the operating part drives the first gear to rotate along a first direction, the first gear drives the transmission rod to rotate along a second direction through the second gear so as to fold relative to the first main body part, and the second main body part moves along with the transmission rod and rotates along the first direction so as to fold relative to the first main body part, so that the transmission rod drives the second moving mechanism to move and fold.

3. A transformable toy according to claim 2, wherein when the transformable toy is switched from the unfolded configuration to the folded configuration, the second main body portion moves along with the transmission rod to be blocked so as to rotate in the first direction.

4. A transformable toy according to claim 3, wherein said second movable mechanism comprises a rear leg, said rear leg being rotatably connected to said second body portion;

when the transformable toy is switched from the unfolding mode to the folding mode, the rear legs move along with the second main body part and are abutted against the first main body part so as to rotate and fold relative to the second main body part, and the second main body part is blocked.

5. The transformable toy of claim 2, wherein said second movable mechanism comprises a front leg, said front leg and said second body portion being rotatably connected;

when the transformable toy is switched from the unfolding mode to the folding mode, the front legs move along with the second main body part and are abutted against the first main body part so as to rotate and fold relative to the second main body part.

6. The transformable toy of claim 2, wherein said second movable mechanism comprises:

a rack provided in the second main body; and

the wings are rotatably connected with the second main body part, the wings are provided with third gears, and the third gears are meshed with the racks;

when the deformation toy is switched from the unfolding mode to the folding mode, the transmission rod drives the rack to move, and the rack drives the third gear to rotate, so that the wings rotate and fold towards the second main body part.

7. The transformable toy of claim 6, wherein said wings comprise:

the first joint is rotatably connected with the second main body part, and the third gear is arranged on the first joint;

The second joint is rotatably connected with the first joint, and is provided with a first connecting piece; and

the pull rod is movably arranged on the first joint, one end of the pull rod is provided with a first clamping protrusion, and the other end of the pull rod is connected with the first connecting piece;

the second main body part is provided with a guide surface, when the deformation toy is switched from the unfolding mode to the folding mode, the first clamping protrusion is abutted with the guide surface, so that the pull rod drives the first connecting piece to move under the action of the guide surface, and the second joint is enabled to rotate and fold relative to the first joint.

8. A transformable toy according to claim 2, wherein said second movable mechanism comprises a neck portion rotatably connected to said second main body portion, said neck portion being provided with a second connecting member;

when the deformation toy is switched from the unfolding mode to the folding mode, the transmission rod drives the second connecting piece to move so that the neck part is folded relative to the second main body part in a rotating mode.

9. The transformable toy of claim 8, wherein said second movable mechanism further comprises:

The head part is rotatably connected with the neck part and is provided with a fourth gear; and

the corner part is rotatably connected with the neck part and is provided with a fifth gear, and the fifth gear is meshed with the fourth gear;

when the deformation toy is switched from the unfolding mode to the folding mode, the head moves along with the neck and is abutted against the first main body part so as to rotate and fold relative to the neck, and the head drives the corner to rotate, so that the corner is folded relative to the neck.

10. A transformable toy according to any one of claims 1 to 9, further comprising a locking member adapted to lock the transmission rod when the transformable toy is switched from the unfolded configuration to the folded configuration.

11. The transformable toy of claim 10, further comprising a first elastic member, wherein the locking member is further adapted to unlock the transmission rod, wherein when the locking member unlocks the transmission rod, the transmission rod is adapted to reset under the action of the first elastic member to drive the second main body portion to unfold relative to the first main body portion and drive the second movable mechanism to unfold relative to the second main body portion, so that the transformable toy is switched from the folded configuration to the unfolded configuration.

12. A transformable toy according to claim 11, wherein said first main body portion is provided with an opening, said locking member being exposed to said opening, and an external object being adapted to strike said locking member through said opening to unlock said transmission rod by said locking member.

13. The transformable toy of claim 11, further comprising a second elastic member adapted to return the second body portion during the transformation of the transformable toy to the expanded configuration such that the second body portion is rotationally expanded relative to the first body portion;

the deformation toy further comprises a third elastic piece, wherein the third elastic piece is suitable for driving the rack to reset in the process of switching the deformation toy to the unfolding form, so that the wings rotate and unfold relative to the second main body;

and/or the deformation toy further comprises a fourth elastic piece, wherein the fourth elastic piece is suitable for driving the pull rod to reset in the process of switching the deformation toy to the unfolding form, so that the second joint is unfolded in a rotating way relative to the first joint;

and/or the deformation toy further comprises a fifth elastic piece, wherein the fifth elastic piece is suitable for driving the head to reset in the process of switching the deformation toy to the unfolding mode, so that the head rotates and unfolds relative to the neck;

And/or the deformation toy further comprises a sixth elastic piece, wherein the sixth elastic piece is suitable for driving the neck to reset in the process of switching the deformation toy to the unfolding mode, so that the neck is unfolded in a rotating mode relative to the second main body part.

14. A transformable toy according to claim 11, wherein the front and rear legs are adapted to return under the influence of gravity to rotate for deployment relative to said second body portion during switching of said transformable toy to said deployed configuration.

15. A toy projectile comprising a projectile and a toy deformation according to any one of claims 1 to 14, the toy deformation being adapted to be placed on the projectile for being launched by the projectile.

16. The launching toy of claim 15, wherein the launcher comprises a pull handle configured to be rotatably disposed, and wherein the operating portion is adapted to removably engage the pull handle to cause the transformable toy to switch from the expanded configuration to the collapsed configuration when the pull handle is pulled.