CN214913342U - Transformable toy - Google Patents

Abstract

The utility model discloses a deformation toy, which comprises a toy main body, wherein the toy main body comprises a claw wheel, a rotating wheel, a movable action piece and a first locking piece for locking the action piece; the claw wheel is matched with at least one rotating wheel of the toy main body; when the external toy is brought into the claw wheel which rotates under the driving of the rotating wheel and is used for triggering the first locking piece, the first locking piece unlocks the action piece. When people operate the toy main body, the claw wheel drives the external toy to trigger the first locking piece to be unlocked, so that the action piece moves. Therefore, the interactivity between people and the toy is improved, and the playing pleasure is increased. The structure of pure machinery is adopted to realize triggering, so that the structure of the deformation toy is simpler, and the production cost is reduced.

Description

Transformable toy

Technical Field

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

Background

The toy is an indispensable article in children's life, and adds fun in life. With the development of technology, the types of toys on the market are more and more abundant.

The existing deformation toy comprises a toy main body and a deformation part, wherein the deformation part can move relative to the toy main body, and the deformation part is deformed relative to the toy main body by triggering a buckling position on the toy main body. At present, the mode of locking and unlocking by triggering the button position comprises the following steps: 1. the collision triggers unlocking, namely the collided part extends out of the toy, and when the collided part is collided in the playing process of the toy, the button position can be driven to unlock, so that the deformation of the toy body is realized; 2. magnetism is inhaled linkage unblock, is equipped with magnet in the toy main part promptly, then is equipped with the metal that can be inhaled by magnetism on another outside toy spare of playing with this toy cooperation, when both are close to each other, magnet can adsorb this toy with outside toy spare on, utilize magnet magnetic force to inhale mutually and let outside toy spare go to trigger and detain the position unblock.

However, the two modes have defects, the first mode is that the triggered probability is low, or the collision part is required to drive the buckle position to unlock in the playing process at a higher speed or force, the experience effect is poor, the playing pleasure is reduced, and the playing method combined with an external toy piece cannot be realized; and adopt magnet magnetic force to attract mutually and trigger, experience effect is good a little, nevertheless makes toy cost higher and preparation complicated, and the product and the patent that adopt magnetism to inhale the unblock in current market are more moreover, are difficult to form the advantage.

Based on the above technical problems, improvements thereof are required.

SUMMERY OF THE UTILITY MODEL

The technical proposal of the utility model aims to provide a deformation toy with low cost, increased operational feeling and improved interest.

The technical scheme of the utility model provides a deformation toy, which comprises a toy main body, wherein the toy main body comprises claw wheels, a rotating wheel, a movable action piece and a first locking piece for locking the action piece; the claw wheel is matched with at least one rotating wheel of the toy main body; when the claw wheel which rotates under the driving of the rotating wheel brings an external toy into the claw wheel to be used for triggering the first locking piece, the first locking piece unlocks the action piece.

Further, the first lock member is slidably coupled to the toy body; the first locking piece comprises a first abutting part used for being in contact with the external toy piece and a first clamping part used for being clamped with the action piece; when the first clamping part is clamped with the action piece, the action piece is locked; the external toy piece is in contact with the first abutting portion and triggers the first locking piece to slide, the first clamping portion is separated from the action piece, and the action piece is unlocked.

Further, the action piece comprises a movable plate and an elastic piece connected with the movable plate, and the movable plate is movably connected with the toy main body; when the movable piece is locked, the movable plate is clamped with the first clamping portion, and the elastic piece is in an energy storage state; when the moving part is unlocked, the movable plate is separated from the first clamping portion, the elastic piece is in an energy releasing state, and the movable plate moves towards the direction far away from the toy main body.

Furthermore, the action piece also comprises a movable rotating shaft, and the movable plate is a turnover plate which is rotatably connected to the bottom of the toy main body through the movable rotating shaft; the elastic piece is a first torsion spring which is sleeved on the movable rotating shaft; when the action piece is locked, the turnover plate is clamped with the first clamping part, and the first torsion spring is in an energy storage state; when the action piece is unlocked, the turnover plate is separated from the first clamping portion, the first torsion spring is in an energy releasing state, and the turnover plate is turned over towards the direction far away from the first clamping portion, so that the toy body is made to pop up in the air.

Furthermore, the rotating wheel comprises two wheels which are oppositely arranged, and a connecting rod which can rotate along with the wheels is connected between the two wheels; the claw wheel is connected with the connecting rod, and the connecting rod drives the claw wheel to rotate.

Further, the toy body comprises a gear set, and the claw wheel is connected with the connecting rod through the gear set.

Furthermore, the deformation toy also comprises a movable deformation piece, and the deformation piece is movably connected to the toy main body; the toy main body is provided with a second locking piece for locking the deformation piece; the second lock piece is triggered to unlock the deformation piece.

Further, the external toy piece enables the action piece to trigger the second locking piece by triggering the first locking piece to unlock the action piece; the second lock is slidably connected to the toy body; the second lock piece comprises a second abutting part and a second clamping part used for clamping the deformation piece; after the action piece is unlocked, the second abutting portion is triggered to move, the second abutting portion drives the second clamping portion to be separated from the deformation piece, and the deformation piece deforms.

Further, the actuator comprises a trigger tab for triggering the second abutment; the second locking piece is provided with a through hole for the trigger bump to extend into, and the second abutting part is located in the through hole.

Furthermore, the deformation toy also comprises a movable toy piece, and the toy main body comprises a movable combining piece; the combining piece is connected with the movable toy piece and can drive the movable toy piece to move.

Further, the toy body comprises an ejector and a third lock piece for locking the ejector; when the first locking piece unlocks the action piece, the action piece triggers the third locking piece unlocks the ejection piece to move.

By adopting the technical scheme, the method has the following beneficial effects:

this deformation toy drives the first latch fitting of outside toy contact through the rotatable claw wheel of operation toy main part to the action piece activity of triggering the toy main part has improved child and has participated in feeling and interactive feeling to the operation of deformation toy, has increased the enjoyment of playing. And the claw wheel is driven by the rotation of the rotating wheel, and belongs to a pure mechanical triggering mode, so that the overall structure of the deformation toy is simpler, and the production cost is reduced.

Drawings

FIG. 1 is a perspective view of a transformable toy according to one embodiment of the present invention;

FIG. 2 is an exploded view of a transformable toy according to one embodiment of the present invention;

FIG. 3 is an exploded view of the toy body according to an embodiment of the present invention;

FIG. 4 is a bottom view of the toy body according to an embodiment of the present invention;

FIG. 5 is a schematic view of the interior of a toy body according to an embodiment of the present invention;

fig. 6 is a schematic view of a claw wheel, a rotating wheel and a gear set according to an embodiment of the present invention;

fig. 7 is a schematic view illustrating the locking of the actuator according to an embodiment of the present invention;

FIG. 8 is a schematic view of an embodiment of the present invention during movement of the actuator;

fig. 9 is a schematic view of the actuator after unlocking according to an embodiment of the present invention;

fig. 10 is a schematic view of a first locking element and a first retaining element according to an embodiment of the present invention;

fig. 11 is a schematic view of a second locking element and a second retaining element in accordance with an embodiment of the present invention;

fig. 12 is a schematic view of a deformable member before deformation according to an embodiment of the present invention;

fig. 13 is a schematic view of a deformable member deformed according to an embodiment of the present invention;

fig. 14 is an exploded view of a deformable member according to an embodiment of the invention;

FIG. 15 is a schematic view of a toy body and a movable toy member according to an embodiment of the present invention;

fig. 16 is a schematic view of an ejector and a third locking member in accordance with an embodiment of the present invention;

fig. 17 is a schematic view of a third locking member locking the ejector plate in accordance with an embodiment of the present invention.

Reference numerals:

toy body 10 claw wheel 1 wheel 2 wheel 21

Connecting rod 22 actuator 3 plate 31 trigger projection 311

The locking hole 312 moves the elastic member 33 of the shaft 32 and the first locking member 4

The first abutting portion 41, the first engaging portion 42, the mounting groove 43 and the combining member 44

First gear 51, second gear 52, third gear 53 of gear set 5

Connecting shaft 54 gear shaft 55 second latch 6 second abutment 61

Second clamping part 62 through hole 63, first spring 7 and second spring 8

Toy shell 9 receiving hole 91 first stopper 92 first through hole 93

Second through hole 94, third through hole 95, second stopper 96 and ejector 97

Ejector plate 971 ejects spring 972 slot 973 and third locking piece 98

Third abutment portion 981 third engagement portion 982 outer toy piece 20 retainer plate 201

Deforming piece 30 connecting seat 301 deforming main body 302 deforming arm 303

Second torsion spring 305 connected to the rotating shaft 304 for moving the toy 40

Detailed Description

The following describes the present invention with reference to the accompanying drawings.

It is easily understood that, according to the technical solution of the present invention, a plurality of structural modes and implementation modes that can be mutually replaced by those of ordinary skill in the art can be achieved without changing the spirit of the present invention. Therefore, the following detailed description and the accompanying drawings are only exemplary illustrations of the technical solutions of the present invention, and should not be construed as limiting or restricting the technical solutions of the present invention in its entirety or as a limitation of the present invention.

The terms of orientation of up, down, left, right, front, back, top, bottom, and the like referred to or may be referred to in this specification are defined relative to the configuration shown in the drawings, and are relative terms, and thus may be changed correspondingly according to the position and the use state of the device. Therefore, these and other directional terms should not be construed as limiting terms.

As shown in fig. 1-9, a transformable toy according to an embodiment of the present invention includes a toy body 10, the toy body 10 includes a claw wheel 1, a rotating wheel 2, a movable operating member 3, and a first locking member 4 for locking the movable operating member 3.

The claw wheel 1 is engaged with at least one rotating wheel 2 of the toy body 10.

When the claw wheel 1, which is rotated by the turning wheel 2, brings the external toy 20 into the position for triggering the first lock 4, the first lock 4 unlocks the operating member 3.

The transformable toy is a toy capable of changing the shape of the transformable toy, and the interest of people in playing can be improved. The toy body 10 can be changed after the outer toy piece 20 is touched with the toy body 10.

For convenience of description, the longitudinal direction of the toy body 10 is taken as the front-rear direction, and the width direction of the toy body 10 is taken as the left-right direction, wherein the external toy piece 20 is positioned in front of the toy body 10.

The toy body 10 comprises a claw wheel 1 and a rotating wheel 2, the claw wheel 1 is connected with the rotating wheel 2, and the claw wheel 1 is driven to rotate by the rotating wheel 2. The toy body 10 includes an operating member 3 and a first lock member 4. When the toy body 10 is in contact with the outer toy piece 20, the claw wheel 1 is able to touch the outer toy piece 20 and bring the outer toy piece 20 towards the first lock piece 4. When the outer toy element 20 touches the first lock element 4, the first lock element 4 unlocks the actuator 3, so that the actuator 3 is activated.

Alternatively, the turning wheel 2 is a turntable rotatable in the toy body 10, and the turntable is connected with the claw wheel 1 through a gear or a belt, etc. At least part of the rotary disc is exposed out of the toy body 10, and a user can stir the rotary disc to rotate so as to drive the claw wheel 1 to rotate. In other embodiments, the rotating wheel 2 can also be a rotating French strip or the like as long as the claw wheel 1 can be driven to rotate.

Specifically, the toy body 10 includes a toy casing 9, four wheels 21 are connected to a bottom end of the toy casing 9, and the left and right wheels 21 are opposite to each other to form the wheel 2. The claw wheel 1 is rotatably arranged in the toy shell 9 and can be driven to rotate by the wheel 21. Therefore, when the toy is designed into a toy car, the rotation of the claw wheel 1 is driven without additionally arranging other parts, and the claw wheel 1 is driven to rotate by utilizing the principle that the wheel 21 rotates when the toy car runs, so that the production cost is greatly reduced, the structure of the toy is simpler, and more space can be left for setting new functions.

Optionally, a fluted disc is arranged on the inner side of the wheel 21, and the claw wheel 1 is connected with the fluted disc through a gear; or the inner side of the wheel 21 is provided with a driving wheel, the claw wheel 1 is provided with a driven wheel, and the driving wheel is connected with the driven wheel through a conveying belt. Of course, the wheel 21 and the claw wheel 1 may be connected by other connecting structures, as long as the claw wheel 1 can be driven to rotate by the wheel 21.

As shown in fig. 2, the toy case 9 is provided with a receiving hole 91 opened toward the outer toy 20, and the coupling claw of the claw wheel 1 is inserted into the receiving hole 91. A slidable first lock member 4 is attached to the toy housing 9, and at least a part of the first lock member 4 is located in the receiving hole 91. The bottom end of the toy shell 9 is connected with a movable action piece 3, and the action piece 3 comprises a first state and a second state. When the action piece 3 is in the first state, the action piece 3 is connected with the first locking piece 4, and the first locking piece 4 locks the action piece 3.

When the toy body 10 is operated to contact the outer toy member 20 with at least a portion of the outer toy member 20 being positioned in the receiving hole 91, the coupling claws of the claw wheel 1 contact the outer toy member 20. As the claw wheel 1 rotates, the coupling claw drives the outer toy piece 20 to continue moving into the toy housing 9. The external toy element 20 pushes the first lock element 4 under the influence of the coupling claw, so that the first lock element 4 is moved. The first locking piece 4 is separated from the action piece 3 after moving, and the action piece 3 is unlocked to move, so that the action piece 3 moves from the first state to the second state. The whole process is realized by adopting a purely mechanical structure, so that the structure of the toy main body 10 is simpler, and the production cost is reduced. Moreover, in the deformation process, people are required to operate the toy main body 10 to contact with the external toy piece 20, the toy main body 10 is deformed through the personal operation of people, the interactivity between people and the toy is increased, and the playing pleasure is improved.

Alternatively, the outer end of the connection claw of the claw wheel 1 is provided with a hook, by which the external toy piece 20 can be better hooked by the hook when the connection claw is in contact with the external toy piece 20, thereby driving the external toy piece 20 to move.

Of course, the connection claws of the claw wheel 1 may be provided with suction cups, friction members, adhesive members, etc. to be engaged with the external toy member 20, so that the claw wheel 1 is more firmly connected with the external toy member 20. In which case a suction cup is provided as an example. When setting up to the sucking disc on the claw wheel 1, the sucking disc is connected on the outer tip of connecting the claw, and when connecting the claw and drive the sucking disc and contact with outside toy 20, the claw of connecting extrudees the sucking disc, makes the air discharge in the sucking disc, utilizes atmospheric pressure to make the sucking disc firmly hold outside toy 20 to the realization drives outside toy 20 and removes. Alternatively, the shape of toy body 10 may be varied, such as a car, truck, van, etc., so as to enrich the shape of toy body 10.

Optionally, the external toy 20 may be in various shapes, such as a football, a flying disc, a flying saucer, etc., as long as it can be moved by the claw wheel 1, so as to enrich the external toy 20 and better attract people to play.

Optionally, a driving motor is arranged in the toy casing 9, the driving motor is connected with the wheel 21, and the driving motor drives the wheel 21 to rotate.

The transformable toy can also be used in a multi-player race in which a person can operate different toy bodies 10 to compete for one outer toy member 20. Wherein the first toy body 10 that comes into contact with the external toy piece 20 and is deformed is judged as winning. Therefore, the playing pleasure is further improved.

In one embodiment, as shown in fig. 2-3 and 5, the wheel 2 includes two wheels 21 disposed opposite to each other, and a connecting rod 22 capable of rotating along with the wheels 21 is connected between the two wheels 21. The claw wheel 1 is connected with a connecting rod 22, and the connecting rod 22 drives the claw wheel 1 to rotate.

Specifically, the toy body 10 includes a toy case 9, and two sets of wheels 2 are connected to the lower end of the toy case 9 at an interval in the front-rear direction, wherein the claw wheel 1 is connected to the wheel 2 closer to the external toy member 20. The runner 2 includes two wheels 21 and a connecting rod 22, the two wheels 21 are arranged at intervals in the left-right direction, the connecting rod 22 is connected between the two wheels 21, and the connecting rod 22 can rotate along with the rotation of the wheels 21. The claw wheel 1 is sleeved on the connecting rod 22 and is in interference fit with the connecting rod 22, so that the claw wheel 1 can rotate along with the rotation of the connecting rod 22. A plurality of connection claws are arranged on the claw wheel 1 at intervals, and in the rotating process of the claw wheel 1, the connection claws can extend into the accommodating holes 91 to touch the external toy 20. So set up, easy to assemble does not have other adapting unit between jowl wheel 1 and the connecting rod 22, has reduced manufacturing cost.

In one embodiment, as shown in fig. 2 and 6, the toy body 10 includes a gear set 5, and the claw wheel 1 is connected to the connection rod 22 through the gear set 5.

The gear set 5 includes a first gear 51, a second gear 52 and a third gear 53 for rotating the claw wheel 1. The first gear 51 is sleeved on the connecting rod 22, the second gear 52 is meshed between the first gear 51 and the third gear 53, and the claw wheel 1 is connected with the third gear 53 through the connecting shaft 54. Of course, the gear set 5 may also be composed of more than 3 gears, as long as the claw wheel 1 can be driven to rotate by the connecting rod 22 through the gear set 5.

Specifically, a gear set 5 is arranged in the toy shell 9, the gear set 5 is connected between the claw wheel 1 and a connecting rod 22, the connecting rod 22 drives the gear set 5 to rotate firstly, and then the gear set 5 drives the claw wheel 1 to rotate. By the arrangement, a larger distance and space are reserved between the claw wheel 1 and the wheel 21, so that structural arrangement and function component addition can be better carried out, for example, the wheel 21 can be designed to be in a position with a smaller diameter and a more rear position; for example, ejection features may be added to effect ejection of the outer toy member 20 again after actuation.

The gear set 5 includes a first gear 51, a second gear 52 and a third gear 53. The first gear 51 is sleeved on the connecting rod 22 and is in interference fit with the connecting rod 22, so that the connecting rod 22 can drive the first gear 51 to rotate. The second gear 52 is mounted in the toy housing 9 via a gear shaft 55, and the second gear 52 is fitted over the gear shaft 55 and is in clearance fit with the gear shaft 55 such that the second gear 52 can rotate on the gear shaft 55. The third gear 53 is installed in the toy casing 9 through the connecting shaft 54, the connecting shaft 54 is rotatably connected with the toy casing 9, the third gear 53 is sleeved on the connecting shaft 54 and is in interference fit with the connecting shaft 54, so that the third gear 53 can drive the connecting shaft 54 to rotate when rotating, the claw wheel 1 is sleeved on the connecting shaft 54, and the claw wheel 1 is driven to rotate by the connecting shaft 54.

The second gear 52 is engaged between the first gear 51 and the third gear 53, the first gear 51 rotates the second gear 52, and then the second gear 52 rotates the third gear 53. The claw wheel 1 is connected with the connecting rod 22 through the gear set 5, so that the influence of shaking of the connecting rod 22 on the claw wheel 1 is reduced, and the claw wheel 1 can rotate more stably. Also, when designed, the rotation rate of the dog wheel 1 can be changed by changing the gear ratio among the first gear 51, the second gear 52, and the third gear 53. For example, if the gear set 5 is an acceleration gear set, the rotation rate of the dog wheel 1 is greater than that of the connecting rod 22; if the gear set 5 is a reduction gear set, the rotation rate of the dog wheel 1 is smaller than that of the connecting rod 22.

In one embodiment, as shown in fig. 2 and 5, the outer toy member 20 is provided with a retainer plate 201 for abutment with the claw wheel 1. A retainer plate 201 protruding upward is attached to the upper surface of the outer toy member 20, and the coupling claws of the claw wheel 1 are brought into contact with the retainer plate 201 when the retainer plate 201 is positioned in the receiving hole 91. The retainer plate 201 increases the contact area with the claw wheel 1, so that the claw wheel 1 can more stably drive the external toy piece 20 to move.

In one embodiment, as shown in Figs. 3-5 and 7-9, first locking element 4 is slidably attached to toy body 10. The first lock 4 includes a first abutting portion 41 for contacting the external toy member 20 and a first catching portion 42 for catching the operating member 3. When the first clamping portion 42 is clamped with the operating piece 3, the operating piece 3 is locked. When the external toy 20 contacts the first abutting portion 41 and triggers the first lock 4 to slide, the first engaging portion 42 is separated from the actuator 3, and the actuator 3 is unlocked.

Specifically, first locking element 4 is slidably connected to toy housing 9, which is slidable in the front-rear direction. The front end of the first lock 4 is connected with a first abutting portion 41 which can touch the external toy 20, and the lower end of the first lock 4 is connected with a first clamping portion 42 which extends downwards. The movable connection of action piece 3 is in the bottom of toy casing 9, is provided with first through-hole 93 on the diapire of toy casing 9, and first joint portion 42 passes first through-hole 93 downwards and stretches out to the below of toy casing 9.

When the actuator 3 is in the first state, at least a part of the first abutting portion 41 is located in the accommodating hole 91, the first engaging portion 42 engages with the actuator 3, and the actuator 3 is locked. When the claw wheel 1 moves the outer toy piece 20, the outer toy piece 20 comes into contact with the first abutting portion 41 and pushes the first lock piece 4 to move backward. After the first lock 4 moves backward, the first engaging portion 42 is separated from the operating member 3, and the operating member 3 is unlocked. So set up and reduced manufacturing cost, the pure mechanical connection mode through first joint portion 42 and action 3 joint can used repeatedly moreover, and is not fragile.

Alternatively, the external toy member 20 has a disk shape, and the first abutting portion 41 has a circular arc plate shape with a concave surface facing the external toy member 20, thus increasing a contact area with the external toy member 20.

In one embodiment, as shown in fig. 3-4 and 7-9, the action member 3 includes a movable plate 31 and an elastic member 33 connected to the movable plate 31, and the movable plate 31 is movably connected to the toy body 10. When the movable element 3 is locked, the movable plate 31 is engaged with the first engaging portion 42, and the elastic element 33 is in the energy storage state. When the movable element 3 is unlocked, the movable plate 31 is separated from the first engaging portion 42, the elastic element 33 is in the energy releasing state, and the movable plate 31 moves in a direction away from the toy body 10.

Specifically, the movable plate 31 is movably connected to the bottom end of the toy housing 9, the movable plate 31 is provided with a locking hole 312, and the elastic member 33 is connected between the movable plate 31 and the toy housing 9.

When the actuator 3 is locked, the movable plate 31 is connected to the first engaging portion 42, and the hook of the first engaging portion 42 extends into the engaging hole 312 to engage with the engaging hole 312. At this time, the elastic member 33 is in the energy storage state, and the elastic member 33 deforms to generate elastic potential energy. When the first lock 4 moves backward, the operating member 3 is unlocked, the first catching portion 42 is separated from the catching hole 312, and the movable plate 31 loses the restriction of the first lock 4. At this time, the elastic member 33 is in the energy release state, and the elastic member 33 recovers the deformation to release the elastic potential energy, and the elastic potential energy is converted into the kinetic energy for pushing the movable plate 31 to move. At this time, the movable plate 31 is moved away from the toy body 10 and is in contact with the ground, so that the toy body 10 bounces off the ground. Thus, the deformation process of the toy main body 10 is more cool and splendid, and the visual feeling of playing is improved. It should be noted that the movable plate 31 may be movable in a rotating manner relative to the toy housing 9, in an up-and-down movement manner, in a moving manner away from the toy housing 9, or the like. Alternatively, the elastic member 33 is a connection spring, the connection spring extends vertically, an upper end of the connection spring is connected with the toy housing 9, a lower end of the connection spring is connected with the movable plate 31, and the movable plate 31 can move in a vertical direction. When the connection spring is in the de-energized state, the connection spring is extended and pushes the movable plate 31 to move downward. The movable plate 31 supports the connecting spring after contacting the ground, and the connecting spring pushes the toy housing 9 upward to empty the toy housing 9.

In one embodiment, as shown in fig. 3-4 and 7-9, the action member 3 further includes a movable rotating shaft 32, and the movable plate 31 is a turning plate rotatably connected to the bottom of the toy body 10 through the movable rotating shaft 32. The elastic member 33 is a first torsion spring, and the first torsion spring is sleeved on the movable rotating shaft 32. When the action piece 3 is locked, the turnover plate is clamped with the first clamping part 42, and the first torsion spring is in an energy storage state. When the action piece 3 is unlocked, the turnover plate is separated from the first clamping portion 42, the first torsion spring is in an energy releasing state, and the turnover plate is turned over towards the direction far away from the first clamping portion 42, so that the toy main body 10 is raised and bounced.

Specifically, the action member 3 is composed of a flipping plate, a movable rotating shaft 32, and a first torsion spring. The movable rotating shaft 32 is rotatably connected to the bottom end of the toy shell 9, and the turnover plate is connected with the movable rotating shaft 32. The first torsion spring is sleeved on the movable rotating shaft 32 and is positioned at the left side or the right side of the turnover plate. The fixed end of the first torsion spring is connected with the bottom end of the toy shell 9, and the force application end of the first torsion spring is connected with the turnover plate.

When the action member 3 is locked, the first torsion spring is deformed to generate elastic potential energy. When the action piece 3 is unlocked, the first torsion spring recovers deformation to release elastic potential energy, and the elastic potential energy is converted into kinetic energy for pushing the turnover plate to rotate. The flipping panel is flipped backwards and in the flipping process, the flipping panel contacts the ground, so that the toy body 10 bounces off the ground. Thus, the deformation process of the toy main body 10 is more cool and splendid, and the visual feeling of playing is improved.

Optionally, toy body 10 is flipped 360 degrees during the pop-up process and then dropped onto the ground surface. When the toy body 10 is dropped again to the ground, the transformation member 30 is in the transformed state.

Alternatively, the bottom end of the toy body 10 is provided with a receiving groove in which the movable shaft 32 is coupled. After the toy body 10 is bounced, the flipping board continues to rotate backward and is located in the receiving groove. Thus, the flipping board does not contact the ground after the toy body 10 falls to the ground again.

In one embodiment, as shown in figures 1, 5, 7-9 and 11-12, the transformable toy further includes a movable transforming member 30, the transforming member 30 being movably connected to the toy body 10. The toy body 10 is provided with a second locking piece 6 for unlocking the movement of the deforming member 30. The second locking element 6 is triggered to unlock the deformation element 30.

The deformable member 30 is capable of changing shape, having an initial state and a deformed state. In the initial state, the deformation element 30 is connected to the second locking element 6. When the second locking element 6 is separated from the deformation element 30, the deformation element changes from the initial state to the deformed state. So set up, richened the shape after the deformation toy warp, improved the visual experience when people play to increase the taste of playing.

In one embodiment, as shown in fig. 5 and 7-9, the external toy component 20 is activated by activating the first locking component 4 to unlock the actuator 3, such that the actuator 3 activates the second locking component 6 to unlock. Second locking element 6 is slidably attached to toy body 10. The second locker 6 includes a second abutting portion 61 and a second catching portion 62 for catching with the deforming member 30. After the action piece 3 is unlocked, the second abutting part 61 is triggered to move, the second abutting part 61 drives the second clamping part 62 to separate from the deformation piece 30, and the deformation piece 30 deforms.

Specifically, the second locking piece 6 is unlocked in a linkage manner through the action piece 3 and the first locking piece 4. Second locking element 6 is slidably connected within toy housing 9, which is slidable in a forward and rearward direction. Second latch fitting 6 is last to be provided with the second joint portion 62 that upwards extends, is provided with second through-hole 94 on the toy casing 9 roof, and second joint portion 62 passes second through-hole 94, stretches out to the top of the toy casing 9 body.

The second latch 6 is also provided with a second abutment portion 61 that can contact the movable plate 31. When the deformation member 30 is in the initial state, the second clamping portion 62 is clamped with the deformation member 30. When the actuator 3 is in the second state, the movable plate 31 rotates backward and contacts the second abutting portion 61, and then pushes the second locking member 6 to move forward, so that the second engaging portion 62 is separated from the deformable member 30. After the deformation piece 30 is separated from the second clamping portion 62, the deformation piece 30 enters the deformation state from the initial state. The second locking piece 6 is simple in structure and convenient to produce and manufacture. And the whole process of triggering the unlocking of the second locking piece 6 is realized by a pure mechanical structure and is not easy to damage.

Alternatively, external toy 20 activates second latch 6 to unlock at the same time that first latch 4 is activated to unlock. Wherein, the second locking piece 6 is movably connected with the toy shell 9, and at least part of the second locking piece 6 extends to the vicinity of the first abutting part 41 or is fixedly connected with the first locking piece 4. When the claw wheel 1 drives the external toy piece 20 to move towards the direction close to the first locking piece 4, the external toy 20 touches the second locking piece 6 to move, or the first locking piece 4 is touched, and the first locking piece 4 drives the second locking piece 6 to move.

In one embodiment, as shown in fig. 3 and 7-10, the actuator 3 comprises an activation cam 311 for activating the second abutment 61. The second lock 6 is provided with a through hole 63 into which the trigger protrusion 311 extends, and the second abutting portion 61 is located in the through hole 63.

Specifically, the rear end of the movable plate 31 is connected to a trigger protrusion 311, a third through hole 95 is disposed on the bottom wall of the toy housing 9, and the trigger protrusion 311 can extend into the third through hole 95, and the third through hole 95 is located below the second abutting portion 61. When the action member 3 is unlocked, the trigger protrusion 311 rotates backward along with the movable plate 31, the trigger protrusion 311 extends into the third through hole 95 to contact with the second abutting portion 61, and then the second locking member 6 is pushed to move forward, so that the second clamping portion 62 is separated from the deformation member 30.

The second locking piece 6 is provided with a through hole 63 which penetrates vertically, and the second engaging portion 62 is positioned in front of the through hole 63. The through hole 63 includes a first hole wall and a second hole wall that are provided opposite to each other in the front-rear direction, and the first hole wall is located in front of the second hole wall. The first hole wall is the second contact part 61, or the second contact part 61 is formed on the first hole wall and extends inwards the through hole 63. The through hole 63 is aligned with the third through hole 95, so that the trigger protrusion 311 can enter the through hole 63 through the third through hole 95 and touch the second abutting portion 61. So set up, simple structure makes things convenient for manufacturing, reduces manufacturing cost.

In one embodiment, as shown in fig. 3, 5 and 10-11, first locking element 4 and second locking element 6 are each reset by a return spring. Therefore, the operation of people is facilitated, and people can play more conveniently.

Specifically, the toy housing 9 is connected with a first limiting member 92 and a second limiting member 96, the second limiting member 96 is located behind the first limiting member 92, a portion of the first limiting member 92 extends between the first locking member 4 and the second locking member 6, and a portion of the second limiting member 96 extends into the through hole 63. A return spring is connected between the first lock 4 and the first stopper 92 and between the second hole wall of the through hole 63 and the second stopper 96. For convenience of description, the return spring between the first lock 4 and the first stopper 92 is defined as a first spring 7, and the return spring between the second hole wall of the through hole 63 and the second stopper 96 is defined as a second spring 8.

The first spring 7 is used for driving the first locking piece 4 to reset, and the specific process is as follows. When the claw wheel 1 drives the outer toy member 20 to push the first lock member 4 to move backward, the first lock member 4 presses the first spring 7 backward, so that the first spring 7 is shortened. When the first lock 4 is separated from the movable plate 31, the first lock 4 loses the restriction of the movable plate 31, and at this time, the first spring 7 is extended to push the first lock 4 to move forward, so that the first lock 4 automatically returns to the initial position.

Optionally, a mounting groove 43 is provided on first locking element 4, which opens towards second locking element 6, and at least part of first spring 7 is located in mounting groove 43. The mounting groove 43 is used for positioning the first spring 7, and the mounting accuracy of the first spring 7 is ensured. Moreover, the mounting groove 43 restricts the position of the first spring 7, avoiding its play. A connecting column is arranged in the mounting groove 43, and the first spring 7 is sleeved on the connecting column, so that the stability of the first spring 7 is further increased.

The second spring 8 is used to drive the second locking element 6 to return, as follows. When the trigger protrusion 311 pushes the second locking element 6 to move forward, the second hole wall presses the second spring 8 forward, so that the second spring 8 is shortened, and at this time, the second spring 8 generates elastic potential energy. When the trigger protrusion 311 is separated from the second abutting portion 61, the second locker 6 loses the restriction of the trigger protrusion 311, and at this time, the second spring 8 is extended to release the elastic potential energy, and the elastic potential energy becomes the kinetic energy pushing the second locker 6 to move backward, so that the second locker 6 can automatically return to the initial position.

Optionally, a limiting groove with an opening facing the second hole wall is provided on the second limiting member 96, and at least a portion of the second spring 8 is located in the limiting groove, so as to prevent the second spring 8 from moving.

Optionally, a positioning column extending towards the limiting groove is connected to the second hole wall, and the second spring 8 is sleeved on the positioning column, so that the stability of the second spring 8 is further enhanced.

In one embodiment, as shown in fig. 1 and 12-14, the deforming member 30 includes a connecting seat 301, a deforming body 302, a deforming arm 303, a connecting rotating shaft 304 and a second torsion spring 305. The connecting seat 301 is fixedly connected to the toy body 10, the deformable body 302 is rotatably connected to the connecting seat 301 through a connecting rotation shaft 304, and the second torsion spring 305 is sleeved on the connecting rotation shaft 304. The transformation arm 303 has one end rotatably connected to the transformation body 302 and the other end slidably connected to the toy body 10. Before the deformation, the second torsion spring 305 is in a compressed state, and the deformation body 302 swings toward the toy body 10 and drives the deformation arm 303 to slide away from the connection seat 301. When the second torsion spring 305 is in the extended state, the deformation body 302 swings away from the toy body 10 and drives the deformation arm 303 to slide toward the connection seat 301.

Specifically, connecting seat 301 is connected to toy housing 9, connecting shaft 304 is connected to connecting seat 301, one end of deformation body 302 is connected to connecting shaft 304, the other end is connected to deformation arm 303 through the rotating shaft pin, and the front end of deformation arm 303 is connected to toy housing 9 in a sliding manner. The second torsion spring 305 is sleeved on the connecting rotating shaft 304, the fixed end of the second torsion spring 305 is connected with the toy shell 9, and the force application end of the second torsion spring 305 is connected with the deformation main body 302. The deformation body 302 is provided with a body hole connected with the hook of the second fastening portion 62.

When the deforming member 30 is in the initial state, the person pushes the deforming main body 302 to swing forward, so that the deforming main body 302 is clamped with the second clamping portion 62. When the deforming body 302 swings forward, the deforming arm 303 is driven to slide forward, and finally the deforming body 302 and the deforming arm 303 move to be in a straight line. At this time, the second torsion spring 305 is in a compressed state, and the second torsion spring 305 generates elastic potential energy. When the deformation member 30 is in the deformed state, the deformation body 302 is separated from the second clamping portion 62, and the deformation body 302 loses the restriction of the second clamping portion 62. At this time, the second torsion spring 305 stretches to release the elastic potential energy, and the elastic potential energy is changed into the kinetic energy to drive the deforming main body 302 to swing backwards. When the deformation body 302 swings backwards, the deformation arm 303 is driven to slide backwards, and finally, the deformation body 302 and the deformation arm 303 deform to be in a V shape. With the arrangement, the deformation piece 30 has visual impact of standing when deforming, thereby enriching the visual perception of people and stimulating the playing interest of people.

Alternatively, the shape of the deforming body 302 and the deforming arm 303 may be a robot arm, a robot, or the like.

In one embodiment, as shown in figures 3, 5 and 15, the transformable toy further includes a movable toy element 40 and the toy body 10 includes a movable coupling element 44. The engaging member 44 is connected to the movable toy 40 and can move the movable toy 40. By the arrangement, the playing method of the transformable toy is enriched, and the playing pleasure is improved.

The coupling member 44 is connected to the toy shell 9, and at least a portion of the coupling member 44 extends outwardly of the toy shell 9 to enable connection with the movable toy piece 40. The engaging member 44 can be triggered by the external toy 20 to move, thereby moving the movable toy 40. The movement of the movable toy piece 40 may be to deform or disengage from the coupling piece 44, etc.

Alternatively, the coupling member 44 is connected to the first lock member 4, the movable toy member 40 is another toy main body 10, and the coupling members 44 of the two toy main bodies 10 are connected to each other. When the first lock 4 of one of the toy bodies 10 moves the engaging member 44, the engaging member 44 moves the engaging member 44 and the first lock 4 of the other toy body 10, so that the first lock 4 of the other toy body 10 is unlocked.

Optionally, the engaging member 44 includes an ejection portion that includes a docking slot for connection with the movable toy member 40, the docking slot having a launching spring disposed therein. A hook rod for clamping the movable toy piece 40 is connected to the first locking piece 4. When the engaging member 44 is connected to the movable toy member 40, the portion of the movable toy member 40 is inserted into the abutting groove and presses the launching spring, compressing the launching spring, and the hook lever engages the movable toy member 40. When the external toy piece 20 touches the first locking piece 4, the first locking piece 4 drives the trip lever to separate from the movable toy piece 40, at which time the launching spring expands and ejects the movable toy piece 40.

In one implementation, as shown in fig. 1 and 16-17, toy body 10 includes an ejector 97 for contacting outer toy member 20 and a third lock 98 for locking ejector 97. When the first locking piece 4 unlocks the action piece 3, the action piece 3 triggers the third locking piece 98 to unlock the ejector 97 to move.

Specifically, the ejector 97 includes an ejector plate 971 and an ejector spring 972, the ejector plate 971 being slidably coupled within the toy housing 9. A third limiting member is connected to the toy housing 9, the third limiting member is located behind the ejection plate 971, and the ejection spring 972 is connected between the third limiting member and the ejection plate 971.

When the external toy 20 does not trigger the first locking member 4, the ejection plate 971 is connected to the third locking member 98, the ejection plate 971 presses the ejection spring 972, and the ejection spring 972 is compressed to generate elastic potential energy. When the external toy 20 triggers the first lock 4, the first lock 4 moves backward, and the movable plate 31 is separated from the first lock 4 and rotates backward. The movable plate 31 rotates backward to trigger the third locking piece 98 to unlock, and the third locking piece 98 is separated from the ejection plate 971. At this time, the ejection spring 972 recovers its shape, releases the elastic potential energy, and pushes the ejection plate 971 to move forward. The ejector plate 971, which is moved forward, hits the outer toy piece 20, ejecting the outer toy piece 20 out of the toy body 10. By the arrangement, the sense organ experience of people is further enriched, and the interest of people in playing is stimulated.

Optionally, a clamping groove 973 is provided at the rear end of the ejection plate 971, a third abutting portion 981 and a third clamping portion 982 are provided on the third locking member 98, the third clamping portion 982 faces the clamping groove 973, the third abutting portion 981 extends downward out of the toy housing 9, and the third locking member 98 is slidably connected in the toy housing 9 and can slide vertically. When the movable plate 31 rotates rearward, the movable plate 31 touches the third abutting portion 981, so that the third locking piece 98 moves upward, thereby disengaging the third catching portion 982 from the catch 973. To sum up, the utility model discloses a deformation toy, including toy main part 10, toy main part 10 includes claw wheel 1, runner 2, mobilizable action piece 3, is used for the first locking piece 4 of locking action piece 3 activity. The claw wheel 1 is engaged with at least one rotating wheel 2 of the toy body 10. When the rotating wheel 2 rotates, the rotating wheel 2 drives the claw wheel 1 to rotate, the claw wheel 1 brings the external toy 20 into the external toy to trigger the first locking piece 4, and the first locking piece 4 unlocks the action piece 3. In the transformation process of the transformation toy, people operate the toy main body 10 to contact with the external toy 20 to realize transformation, so that people participate in the transformation process of the transformation toy, the participation degree of people is improved, and the playing interest is increased. And the whole deformation process is realized by adopting a purely mechanical structure, so that the whole deformation toy has a simpler structure, reduces the production cost and is not easy to damage.

According to the needs, the above technical schemes can be combined to achieve the best technical effect.

The foregoing is considered as illustrative only of the principles and preferred embodiments of the invention. It should be noted that, for those skilled in the art, on the basis of the principle of the present invention, several other modifications can be made, and the protection scope of the present invention should be considered.

Claims (11)

1. A deformation toy comprises a toy main body (10), and is characterized in that the toy main body (10) comprises claw wheels (1), rotating wheels (2), a movable action piece (3) and a first locking piece (4) for locking the action piece (3) to move;

the claw wheel (1) is matched with at least one rotating wheel (2) of the toy body (10);

when the rotating wheel (2) drives the claw wheel (1) to rotate, an external toy is brought into the claw wheel to be used for triggering the first locking piece (4), and the first locking piece (4) unlocks the action piece (3).

2. A transformable toy according to claim 1 wherein the first locking element (4) is slidably connected to the toy body (10);

the first locking piece (4) comprises a first abutting part (41) used for being in contact with the external toy piece (20) and a first clamping part (42) used for being clamped with the action piece (3);

when the first clamping part (42) is clamped with the action piece (3), the action piece (3) is locked;

outside toy spare (20) with first butt portion (41) contact triggers when first latch fitting (4) slide, first joint portion (42) with action (3) separation, action (3) are unlocked.

3. The deformation toy of claim 2, wherein the action member (3) comprises a movable plate (31) and an elastic member (33) connected to the movable plate (31), the movable plate (31) being movably connected to the toy body (10);

when the action piece (3) is locked, the movable plate (31) is clamped with the first clamping part (42), and the elastic piece (33) is in an energy storage state;

when the action piece (3) is unlocked, the movable plate (31) is separated from the first clamping portion (42), the elastic piece (33) is in an energy releasing state, and the movable plate (31) moves towards the direction far away from the toy main body (10).

4. The transformable toy of claim 3, wherein the action member (3) further comprises a movable rotating shaft (32), and the movable plate (31) is a flip plate rotatably connected to the bottom of the toy body (10) through the movable rotating shaft (32);

the elastic piece (33) is a first torsion spring which is sleeved on the movable rotating shaft (32);

when the action piece (3) is locked, the turnover plate is clamped with the first clamping part (42), and the first torsion spring is in an energy storage state;

when the action piece (3) is unlocked, the turnover plate is separated from the first clamping portion (42), the first torsion spring is in an energy releasing state, and the turnover plate is turned over towards the direction far away from the first clamping portion (42), so that the toy main body (10) is emptied and bounced.

5. A transformable toy as claimed in claim 1, characterized in that the turning wheel (2) comprises two wheels (21) arranged opposite each other, between which wheels (21) a connecting rod (22) is connected which can follow the wheels (21) in rotation;

the claw wheel (1) is connected with the connecting rod (22), and the connecting rod (22) drives the claw wheel (1) to rotate.

6. A transformable toy according to claim 5, characterized in that the toy body (10) comprises a gear set (5), the claw wheel (1) being connected with the connecting rod (22) through the gear set (5).

7. A transformable toy according to claim 1 further comprising a movable transformable member (30), said transformable member (30) being movably connected to said toy body (10);

a second locking piece (6) used for locking the deformation piece (30) is arranged on the toy main body (10);

the second locking element (6) is triggered to unlock the deformation element (30).

8. A transformable toy according to claim 7, characterized in that the outer toy part (20) is activated by the activation of the first locking part (4) to unlock the activation part (3) from movement, causing the activation part (3) to activate the second locking part (6);

the second lock piece (6) is slidably connected to the toy body (10);

the second locking piece (6) comprises a second abutting part (61) and a second clamping part (62) used for clamping with the deformation piece (30);

action piece (3) are by the unblock back, trigger second butt portion (61) motion, second butt portion (61) drive second joint portion (62) with deformation piece (30) separation, deformation piece (30) warp.

9. The deformation toy according to claim 8, characterized in that said action member (3) comprises an activation cam (311) for activating said second abutment (61);

the second locking piece (6) is provided with a through hole (63) for the trigger bump (311) to extend into, and the second abutting portion (61) is located in the through hole (63).

10. A transformable toy as claimed in claim 1 further comprising a movable toy piece (40), the toy body (10) comprising a movable coupling piece (44);

the combining piece (44) is connected with the movable toy piece (40) and can drive the movable toy piece (40) to move.

11. A transformable toy as claimed in claim 1 wherein said toy body (10) includes an ejector (97) and a third lock (98) for locking said ejector (97); first latch fitting (4) unblock during action piece (3), action piece (3) trigger third latch fitting (98) unblock it removes to launch piece (97).

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