CN211328144U - Linkage deformation toy - Google Patents

Abstract

The utility model discloses a linkage transformation toy, which comprises a first toy body and a second toy body, wherein the first toy body is provided with a first trigger mechanism and a first unfolding mechanism; in a first state, the first unfolding mechanism is in a folded state, and the first toy body locks the second toy body above the first toy body; when the first trigger mechanism is triggered, the first toy body unlocks the second toy body and ejects the second toy body from the upper portion of the first toy body, then the first trigger mechanism controls the first unfolding mechanism to unfold, and the linkage transformable toy enters a second state. The utility model discloses when first state, first toy body and second toy body are fit structure, and when first trigger mechanism was triggered, it upwards popped out the second toy body to trigger first toy body, and first toy body warp simultaneously, once triggered and accomplished first toy body and second toy body's separation and first toy body warp, and the deformation process links up.

Description

Linkage deformation toy

Technical Field

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

Background

The conventional transformable toy generally changes a toy body from one form to another form by triggering a triggering mechanism, and specifically comprises two triggering modes, namely manual triggering and external toy body triggering, wherein the transformable toy triggered by the external toy body is called a linkage transformable toy.

The existing linkage deformation toy has two linkage modes, wherein one mode is that after a first toy body enters a second toy body to trigger the second toy body to deform, the first toy body automatically breaks away from the second toy body, and the linkage deformation toy is single in linkage action and not strong in interestingness; and secondly, the second toy body is deformed after clamping the first toy body, and then the second toy body is ejected out by manually triggering the triggering mechanism on the second toy body, so that the linkage deformation mode needs manual operation in the deformation process, the continuity of the linkage toy deformation process cannot be embodied, and the ornamental value is poor. Therefore, it is necessary to provide a linkage transformation toy with continuous transformation, and enhanced interest and enjoyment.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provide a linkage deformation toy with continuous deformation, interest and stronger ornamental value.

The technical scheme of the utility model provides a linkage deformation toy, which comprises a first toy body and a second toy body, wherein the first toy body is provided with a first trigger mechanism and a first unfolding mechanism;

in a first state, the first unfolding mechanism is in a folded state, and the first toy body locks the second toy body above the first toy body;

when the first trigger mechanism is triggered, the first toy body unlocks the second toy body and ejects the second toy body from the upper portion of the first toy body, then the first trigger mechanism controls the first unfolding mechanism to unfold, and the linkage transformable toy enters a second state.

Further, the first trigger mechanism comprises a first trigger part, and the first trigger part is arranged at the front end of the first toy body;

the linkage transformation toy also comprises a first trigger piece for triggering the first trigger part;

when the first trigger part is adsorbed to the first trigger piece, the first trigger part is triggered to unlock the second toy body.

Further, the first trigger part comprises a pressure rod and a first suction piece for sucking the first trigger piece;

the front end of the pressure lever is located at the front end of the first toy body, the pressure lever is provided with a first locking hook protruding upwards and used for locking the second toy body, the first suction piece is located at the front end of the pressure lever, when the first suction piece is adsorbed to the first trigger piece, the first trigger piece pushes the pressure lever to move backwards, and the first locking hook unlocks the second toy body.

Further, the first trigger mechanism further comprises an action part, and the action part is arranged at the rear end of the first trigger part;

in the first state, the operating unit locks the first deployment mechanism in the folded state;

when the first trigger part is adsorbed to the first trigger piece, the action part is triggered to upwards bounce the second toy body and unlock the first unfolding mechanism.

Further, the action part comprises an elastic pushing piece and a locking rod piece, and the elastic pushing piece is partially protruded out of the upper surface of the first toy body;

when the first trigger part adsorbs the first trigger part, the first trigger part triggers the elastic pushing part to upwards bounce the second toy body, and then the elastic pushing part drives the locking rod part to unlock the first unfolding mechanism.

Further, the first deployment mechanism comprises at least one first elastic deployment portion;

in a first state, the first trigger mechanism locks the first elastic unfolding part;

when the first trigger mechanism is triggered, the first elastic unfolding parts are unlocked to unfold, and at least one first elastic unfolding part pushes the first toy body to turn over integrally, so that the first toy body enters a second state.

Further, the second toy body is provided with a second trigger mechanism and a second unfolding mechanism;

after the second toy body is popped up, when the second trigger mechanism is triggered, the second trigger mechanism controls the second unfolding mechanism to unfold, and the linkage transformable toy enters a third state.

Further, the second trigger mechanism comprises a second trigger part arranged at the front end of the second toy body;

the linkage transformation toy also comprises a second trigger piece used for triggering the second trigger part;

when the second trigger part is adsorbed to the second trigger piece, the second trigger part controls the second unfolding mechanism to unfold to a third state.

Further, the second trigger part comprises an elastic locking block and a second adsorption piece for adsorbing the second trigger piece;

the front end of the elastic locking block is positioned at the front end of the second toy body, the second adsorption piece is positioned at the front end of the elastic locking block, and the elastic locking block is provided with a second locking hook protruding downwards;

the second unfolding mechanism comprises an elastic overturning part, and the elastic overturning part is locked at the bottom of the second toy body by the second locking hook in a first state and a second state;

when the second adsorption piece adsorbs the second trigger piece, the second trigger piece pushes the elastic locking block to unlock the elastic overturning part, and the elastic overturning part overturns to a third state.

Further, the second unfolding mechanism further comprises at least one springing part and at least one second elastic unfolding part, and the second elastic unfolding part is connected with the springing part;

when in the first state and the second state, the spring part and the second elastic unfolding part are locked at the top of the second toy body;

when the elastic overturning part overturns, the elastic part is unlocked to bounce, and meanwhile, the second elastic unfolding part unfolds to a third state.

After adopting above-mentioned technical scheme, have following beneficial effect:

the utility model discloses an in the embodiment, the linkage warp the toy when first state, first toy body and second toy body are fit structure, and when first trigger mechanism was triggered, it upwards popped out the second toy body to trigger first toy body, and first toy body warp simultaneously, once triggered the separation of having accomplished first toy body and second toy body and the deformation of first toy body, the deformation process links up, has stronger interest.

In another embodiment of this embodiment, the second toy body ejected upward can further trigger deformation, and the playability is strong.

Drawings

The disclosure of the present invention will become more readily understood by reference to the drawings. It should be understood that: these drawings are for illustrative purposes only and are not intended to limit the scope of the present disclosure. In the figure:

FIG. 1 is a schematic view of a transformable linkage toy according to an embodiment of the present invention in a first state;

fig. 2 is a schematic view of a first toy body in a first state according to an embodiment of the present invention;

fig. 3 is a schematic view of an internal structure of the first toy body according to an embodiment of the present invention;

fig. 4 is an exploded view of the internal structure of the first toy body according to an embodiment of the present invention;

fig. 5 is a schematic view of the first toy body in the second state according to an embodiment of the present invention;

fig. 6 is a schematic view of a second toy body in a second state according to an embodiment of the present invention;

fig. 7 is an exploded view of a second toy body in an embodiment of the invention;

fig. 8 is an exploded view of a kick-up portion and a second elastic deployment portion of a second toy body according to an embodiment of the present invention;

fig. 9 is a bottom schematic view of a second toy body in an embodiment of the invention;

fig. 10 is a schematic view of the second toy body in a third state according to an embodiment of the present invention;

fig. 11 is an internal structural diagram of the second toy body in the third state according to an embodiment of the present invention.

Reference symbol comparison table:

a first toy body 100, a first trigger mechanism 10, a first deployment mechanism 20, a first housing 30;

a first trigger part 01, a first trigger 02, and an action part 03;

the pressing rod 11, the first locking hook 111, the first baffle 112, the extrusion end 113 and the first suction piece 12;

the elastic pushing piece 31, the convex block 311, the locking rod piece 32, the third locking hook 321 and the rotating fastener 33;

a first elastic spreading member 41, a second elastic spreading member 42, a third elastic spreading member 43, a second upper arm 431, a second lower arm 432, a fourth elastic spreading member 44, a fourth locking hook 441, a first upper arm 442, a first lower arm 443;

a second toy body 200, a second trigger mechanism 40, a second deployment mechanism 50, an inner housing 60, an outer housing 70;

a second trigger part 05, a second trigger piece 06, an elastic turnover part 07 and a spring-up part 08;

an elastic locking block 51, a second locking hook 511, a second baffle 512 and a second adsorption piece 52;

a locking groove 71, an elastic locking piece 81, a first connecting piece 82, a second connecting piece 83, a third connecting piece 84 and an elastic piece 85;

a fifth elastic development member 91, a sixth elastic development member 92;

a fifth locking hook 601, a top case 701, a left case 702, a right case 703, and a rear case 704.

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.

The interlocking transformation toy of the present embodiment, as shown in fig. 1, includes a first toy body 100 and a second toy body 200, the first toy body 100 being provided with a first trigger mechanism 10 and a first deployment mechanism 20 (see fig. 5);

in the first state shown in fig. 1, the first unfolding mechanism 20 is in a folded state, and the first toy body 100 locks the second toy body 200 above the first toy body 100;

when the first trigger mechanism 10 is triggered, the first toy body 100 unlocks the second toy body 200 and ejects the second toy body 200 from above, and then the first trigger mechanism 10 controls the first unfolding mechanism 20 to unfold, so that the interlocking transformation toy enters the second state shown in fig. 5 and 6.

With respect to the first toy body 100:

the first trigger mechanism 10 of the first toy body 100 is disposed in the first casing 30, and in the first state, the first unfolding mechanism 20 is folded in the first casing 30, the second toy body 200 is superposed above the first toy body 100, the first toy body 100 and the second toy body 200 are of a composite structure, and the linkage transformable toy is in a form of a car. When the first trigger mechanism 10 is triggered, the first toy body 100 pushes out the second toy body 200 and then turns over and deforms the second toy body 200 into the state shown in fig. 5, and the pushed-out second toy body 200 is in the state shown in fig. 6.

In the present embodiment, in the first state, the front end is the front end, and the rear end is the rear end, i.e. the left side of fig. 1-11 is the front end, and the right side is the rear end, and this definition is continued in the following description.

Optionally, the first trigger mechanism 10 may control the first toy body 100 to push out the second toy body 200 and control the first unfolding mechanism 20 to unfold and deform through a mechanical linkage structure and/or an electric control element.

In this embodiment, the first trigger mechanism 10 realizes the conversion of the linkage transformation toy from the first state to the second state through a mechanical linkage structure.

Further, as shown in fig. 1, the first trigger mechanism 10 includes a first trigger part 01, and the first trigger part 01 is disposed at the front end of the first toy body 100;

the linkage transformation toy also comprises a first trigger piece 02 for triggering the first trigger part 01;

in the first state, the first trigger part 01 locks the second toy body 200, and when the first trigger part 01 is attracted to the first trigger piece 02, the first trigger part 01 is triggered to unlock the second toy body 200.

Specifically, the first trigger part 01 is disposed at the front end of the first toy body 100, i.e., the head position. In the first state, the first trigger 02 and the first toy body 100 are in a separated state, and when the first trigger 01 is triggered, the first trigger 02 attracts the first trigger 02 to be close to the first trigger 01, and the first trigger 01 is triggered when the first trigger 02 impacts the first trigger 01 and is adsorbed by the first trigger 01. The first trigger member 02 is integrally formed with the first toy body 100 in the second state as shown in fig. 5.

In this embodiment, the first trigger mechanism 10 is triggered by adsorbing the first trigger member 02, and optionally, the first trigger mechanism 10 may be triggered by setting a button to be manually pressed, or setting an electric control mechanism to turn on a switch or remotely control the switch.

Further, as shown in fig. 3 and 4, the first triggering part 01 includes a pressing rod 11 and a first suction member 12 for sucking the first triggering member 02;

the front end of the pressing rod 11 is located at the front end of the first toy body 100, the pressing rod 11 is provided with a first locking hook 111 protruding upwards and used for locking the second toy body 200, the first suction piece 12 is located behind the front end of the pressing rod 11, when the first suction piece 12 is adsorbed to the first trigger piece 02, the first trigger piece 02 pushes the pressing rod 11 to move backwards, and the first locking hook 111 unlocks the second toy body 200.

Specifically, as shown in fig. 4, the pressing rod 11 is telescopically disposed in the first housing 30, the front end of the pressing rod 11 is provided with a first baffle 112, the first baffle 112 is located at the front end of the first triggering portion 01, and the first suction attachment 12 is fixedly mounted in the first housing 30 and located behind the first baffle 112. The first attraction member 12 is made of a magnetic material, and the first trigger member 02 is made of a magnetic material or a magnetically attractable metal material such as iron. When the first trigger 02 enters the magnetic field of the first suction attachment 12, the first trigger 02 is attracted by the first suction attachment 12 and moves towards the first suction attachment 12, and during the movement, the first trigger 02 presses the first baffle 112 to push the compression bar 11 to the rear.

A first locking hook 111 protruding from the upper surface of the pressing lever 11 protrudes from the upper surface of the first casing 30 (see fig. 2), and the first locking hook 111 engages with the bottom of the second toy body 200 to lock the second toy body 200 in the first state. When the first trigger 02 pushes the pressing lever 11 backward, the first locking hook 111 is disengaged from the second toy body 200, unlocking the second toy body 200.

Wherein, the pressing rod 11 can be installed in the first housing 30 through an elastic member such as a spring, thereby achieving the extension and contraction of the pressing rod 11. In the present embodiment, the extension and contraction of the pressing lever 11 is realized by engaging with the operating portion 03 located behind the pressing lever.

Further, as shown in fig. 3 and 4, the first trigger mechanism 10 further includes an actuating portion 03, and the actuating portion 03 is disposed at the rear end of the first trigger portion 01;

in the first state, the operating portion 03 locks the first deployment mechanism 20 in the folded state;

when the first trigger part 01 is attracted to the first trigger piece 02, the trigger action part 03 ejects the second toy body 200 upward and unlocks the first unfolding mechanism 20.

The action portion 03 is used to push the second toy body 200 away from the first toy body 100 and unlock the first unfolding mechanism 20. As shown in fig. 3, the action portion 03 is provided behind the pressing lever 11, and when the pressing lever 11 is pushed, the action portion 03 is pressed, thereby triggering the action portion 03 to eject the second toy body 200 and unlock the first unfolding mechanism 20.

Specifically, the action portion 03 includes an elastic pushing member 31 and a lock link member 32;

the elastic push piece 31 is installed in the first casing 30 by an elastic member (not shown) such as a spring, and the elastic push piece 31 is partially protruded from the upper surface of the first casing 30, as shown in fig. 2, the elastic push piece 31 is provided at the rear end portion of the upper surface of the first toy body 100, and when the action portion 03 is triggered, the elastic push piece 31 is ejected toward the front end by an elastic force, thereby pushing the second toy body 200 to be ejected forward.

As shown in fig. 3, two extrusion ends 113 extend from the rear end of the compression bar 11, two rotating fasteners 33 are disposed behind the two extrusion ends 113, the two rotating fasteners 33 are L-shaped, the middle of the rotating fastener 33 is installed in the first housing 30 through torsion members (not shown) such as a torsion spring, and one end of the rotating fastener is engaged with the extrusion ends 113, and the other end of the rotating fastener is clamped at the front end of the elastic pushing member 31 to limit the forward movement of the elastic pushing member 31. When the pressing rod 11 presses backwards, the two pressing ends 113 push the rotating fastener 33 to rotate, the rotating fastener 33 is separated from the elastic pushing piece 31, and the elastic pushing piece 31 is ejected forwards under the action of elastic force, so that the second toy body 200 is pushed to eject.

The locking bar 32 is provided with a third locking hook 321, the first unfolding mechanism 20 is correspondingly provided with a fourth locking hook 441 matched with the third locking hook 321, and in the first state, the third locking hook 321 and the fourth locking hook 441 are matched to lock the first unfolding mechanism 20 in the first shell 30. As shown in fig. 3, the locking lever 32 is located on one side of the elastic pushing piece 31, and the side of the elastic pushing piece 31 is correspondingly provided with a projection 311, when the elastic pushing piece 31 is ejected forwards, the projection 311 drives the locking lever 32 to move forwards, and the third locking hook 321 and the fourth locking hook 441 are disengaged, so as to unlock the first unfolding mechanism 20.

Further, as shown in fig. 4, the first spreading mechanism 20 includes four first elastic spreading portions, specifically, a first elastic spreading member 41, a second elastic spreading member 42, a third elastic spreading member 43, and a fourth elastic spreading member 44, the four elastic spreading portions are all installed in the housing 30 through torsion members (not shown) such as torsion springs, and the four elastic spreading portions are sequentially disposed below the first trigger mechanism 10 from top to bottom. The fourth locking hook 441 is provided on the fourth elastic spreading piece 44, and in the first state, the fourth elastic spreading piece 44 is locked by the locking lever 32, and the first elastic spreading piece 41, the second elastic spreading piece 42, and the third elastic spreading piece 43 are locked by the fourth elastic spreading piece 44. When the fourth elastic spreading member 44 is unlocked by the locking bar member 32, the fourth elastic spreading member 44 is spread, and since the fourth spreading member 44 is located at the bottom of the first toy body 100, the first toy body 100 is driven to be turned 180 ° in the width direction in the turning process, and then the third elastic spreading member 43, the second elastic spreading member 42 and the first elastic spreading member 41 are sequentially spread, and the first toy body 100 is deformed into the second state shown in fig. 5.

Further, as shown in fig. 4 and 5, the fourth elastic spreading member 44 includes a first upper arm 442 and a first lower arm 443, wherein the first upper arm 442 is connected to the first housing 30, the first lower arm 443 is connected to the first upper arm 442 via a torsion member (not shown), the first lower arm 443 abuts against the lower surface of the first upper arm 442 in the first state, and the first lower arm 443 is synchronously spread and extends out of the first upper arm 442 while the first upper arm 442 is spread. The third resilient spreading member 43 also includes a second upper arm 431 and a second lower arm 432, which are identical in structure to the fourth resilient spreading member 44 and will not be described again.

Alternatively, the first elastic spreading member 41, the second elastic spreading member 42 and the third elastic spreading member 43 may be locked by the lock link 32 or other locking members may be provided. At least one first elastic spreading portion may be provided, which pushes the first toy body 100 to turn over as a whole while spreading.

With respect to the second toy body 200:

as shown in fig. 6, the second toy body 200 is provided with a second trigger mechanism 40 and a second deployment mechanism 50 (see fig. 7);

when the second trigger mechanism 40 is triggered after the second toy body 200 is ejected upward, the second trigger mechanism 40 controls the second unfolding mechanism 50 to unfold, and the transformable toy is interlocked into the third state shown in fig. 10 and 11.

Specifically, the second toy body 200 includes an inner housing 60 (see fig. 7) and an outer housing 70, wherein the second trigger mechanism 40 is disposed within the inner housing 60 and the second deployment mechanism 50 is disposed outside the inner housing 60. The outer housing 70 includes a top housing 701, a left housing 702, a right housing 703 and a back housing 704, the top housing 701, the left housing 702, the right housing 703 and the back housing 704 are all connected to the second unfolding mechanism 50, the second trigger mechanism 40 locks the second unfolding mechanism 50 on the outer surface of the inner housing 60 in the first state and the second state, and when the second trigger mechanism is triggered, the outer housing 70 is unfolded synchronously with the second unfolding mechanism 50, which is described in detail below.

In the embodiment, after the first toy body 100 and the second toy body 200 are separated, and the first toy body 100 is transformed into the second state, the transformed and separated second toy body 200 can be further triggered, so that the interest of the linked transformation toy is further increased.

Optionally, the second triggering mechanism 40 may control the second unfolding mechanism 50 to unfold and deform through a mechanical linkage and/or an electric control element.

In this embodiment, the second trigger mechanism 40 realizes the transition of the second toy body 200 from the second state to the third state through a mechanical linkage structure.

Further, as shown in fig. 6, the second trigger mechanism 40 includes a second trigger portion 05 provided at the front end of the second toy body 200;

when the second trigger part 05 is adsorbed to the second trigger piece 06, the second trigger part 05 controls the second unfolding mechanism 50 to unfold to the third state.

Specifically, the second trigger part 05 is disposed at the front end of the second toy body 200, i.e., the head position. In the second state, the second trigger piece 06 and the second toy body 200 are in a separated state, and in the triggering state, the second trigger part 05 attracts the second trigger piece 06 to be close to the second trigger part 05, and the second trigger piece 06 impacts the second trigger part 05 and is adsorbed by the second trigger part 05, that is, the second trigger piece 06 and the second toy body 200 are in an integrated structure in the third state shown in fig. 10 and 11.

The second toy body 200 is the same as the first toy body 100, and the second trigger mechanism 40 is triggered in an absorption mode, optionally, a button is arranged to trigger manually by pressing, or an electric control mechanism is arranged to trigger the second trigger mechanism 40 by opening a switch or in a remote control mode.

Further, as shown in fig. 7, the second trigger part 05 includes an elastic locking block 51 and a second adsorbing member 52 for adsorbing the second trigger member 06;

the front end of the elastic locking block 51 is positioned at the front end of the second toy body 200, the second adsorption piece 52 is positioned at the front end of the elastic locking block 51, and the elastic locking block 51 is provided with a second locking hook 511 protruding downwards;

the second unfolding mechanism 50 includes an elastic turning part 07, and the elastic turning part 07 is locked at the bottom of the second toy body 200 by a second locking hook 511 in the first state and the second state;

when the second adsorbing member 52 adsorbs the second triggering member 06, the second triggering member 06 pushes the elastic locking block 51 to unlock the elastic turnover part 07, and the elastic turnover part 07 turns over to the third state.

Specifically, the elastic locking block 51 is telescopically installed in the inner housing 60 through an elastic member (not shown) such as a spring, the front end of the elastic locking block 51 is provided with a second baffle 512 extending downward, the second baffle 512 is located at the front end of the second triggering portion 05, and the second absorbing member 52 is fixedly installed in the inner housing 60 and located behind the second baffle 512. Similar to the first triggering portion 01, the second adsorbing member 52 is made of a magnetic material, and the second triggering member 06 is made of a magnetic material or a magnetically attractable metal material such as iron. In the process that the second absorbing piece 52 absorbs the second triggering piece 06, the second triggering piece 06 pushes the elastic locking block 51 to the rear.

As shown in fig. 9, the elastic turning part 07 is rotatably installed below the inner case 60 by a torsion member (not shown) such as a torsion spring, and the elastic turning part 07 is provided therein with a locking groove 71 engaged with the second locking hook 511. In the first state, the second locking hook 511 of the elastic locking block 51 protruding downward protrudes out of the lower surface of the inner case 60 to lock the elastic turning part 07. When the second trigger 06 pushes the elastic locking piece 51 to the rear, the second locking hook 511 is disengaged from the locking groove 71, and the elastic turning part 07 is turned over by 180 °.

Because the elastic turnover part 07 is arranged at the bottom of the second toy body 200, when the elastic turnover part 07 is turned over, the second toy body 200 is pushed to be wholly bounced upwards, and the interestingness of the deformation process of the second toy body 200 is increased.

Further, as shown in fig. 10 and 11, the second spreading mechanism 50 further includes a spring-starting portion 08 and two second elastic spreading portions, namely a fifth elastic spreading member 91 and a sixth elastic spreading member 92, both of which are connected to the spring-starting portion 08;

in the first state shown in fig. 1 and the second state shown in fig. 6, the spring portion 08 and both the second elastic expansion portions are locked to the upper surface of the inner case 60;

when the elastic turning part 07 turns over, the unlocking spring part 08 springs up, and at the same time, the two second elastic deployment parts are deployed to the third state shown in fig. 10 and 11.

Specifically, as shown in fig. 7, an elastic locking piece 81 is disposed in the inner housing 60, a locking portion at an upper end of the elastic locking piece 81 protrudes from an upper surface of the inner housing 60, and the locking portion is matched with the springing portion 08 to lock the springing portion 08 in the first state and the second state. The elastic locking piece 81 is located on one side of the rotating shaft end of the elastic turning part 07, when the elastic turning part 07 turns, the rotating shaft end of the elastic turning part 07 pushes the elastic locking piece 81 to move towards the front end, the elastic locking piece 81 is separated from the springing part 08, and the springing part 08 unlocks and bounces.

Referring to fig. 8 again, the bullet-ejecting section 08 includes a first link 82 and a second link 83, the first link 82 has one end rotatably mounted on the upper surface of the inner housing 60 by a torsion member (not shown), and the other end rotatably connected to the second link 83 by another torsion member (not shown), and the second link 83 is further connected to the top housing 701. In the first state and the second state, the elastic locking piece 81 is matched with the second connecting piece 83 to lock the spring part 08; when the elastic locking piece 81 unlocks the second connector 83, the first connector 82, the second connector 83, and the top case 701 are all sprung upward by the torsional force.

Further, a third connecting member 84 is connected in the top case 701, one end of the third connecting member 84 is connected with the top case 701 through a rotating shaft, an elastic member 85 is connected between the other end of the third connecting member 84 and the top case 701, the elastic member 85 is compressed in the first state and the second state, the third connecting member 84 retracts into the top case 701, and when the ejection part 08 is unlocked and the top case 701 is ejected, the elastic member 85 extends to eject the third connecting member 84 downwards out of the top case 701.

As for the second elastic deployment section, as shown in fig. 10 and 11, a fifth elastic deployment piece 91 and a sixth elastic deployment piece 92 are attached to both sides of the top case 701, respectively. One end of the fifth elastic spreading member 91 is rotatably connected to the top case 701 by a torsion member (not shown), and the other end is rotatably connected to the left case 702 by another torsion member (not shown); the sixth elastic spreading member 92 is disposed symmetrically to the fifth elastic spreading member 91, and has one end rotatably connected to the top case 701 by a torsion member (not shown) and the other end rotatably connected to the right case 703 by another torsion member (not shown).

In the present embodiment, the fifth elastic development member 91 and the sixth elastic development member 92 are locked by the back case 704, as shown in fig. 7 in particular: the rear case 704 is rotatably mounted at the rear end of the top case 701 by a torsion member (not shown), and the rear end of the inner case 60 is provided with a fifth locking hook 601, the fifth locking hook 601 is locked in cooperation with the rear case 704 in the first state and the second state, and the left case 702 and the right case 703 are locked in cooperation with the rear case 704 in the state shown in fig. 6 by the rear case 704. When the bullet-proof section 08 is popped up after unlocking, the top shell 701 pops up, the rear shell 704 is pushed to rotate downward to disengage the fifth locking hook 601, the rear shell 704 rotates upward under the action of the torsional force to unlock the left shell 702 and the right shell 703, and the fifth elastic deployment piece 91 and the sixth elastic deployment piece 92 are deployed to the third state shown in fig. 10 and 11.

Alternatively, the fifth elastic expansion piece 91 and the sixth elastic expansion piece 92 can also be locked by providing a locking piece; the number of the elastic turning parts 07, the bullet starting parts 08 and the second elastic unfolding parts in the second unfolding mechanism 50 can be set according to the design of the toy, and at least one elastic turning part and/or one bullet starting part and/or one second elastic unfolding part is/are arranged.

With respect to the interlocking transforming toy:

in summary, the interlocking transformation toy of the present embodiment, as shown in fig. 1, includes a first toy body 100, a second toy body 200, a first trigger 02 for triggering the first toy body 100, and a second trigger 06 for triggering the second toy body 200.

In the first state, the second toy body 200 is locked above the first toy body 100, and the interlocking transformation toy takes the shape of a cart. When the first trigger part 01 in the first toy body 100 is adsorbed to the first trigger part 02, the first trigger part 01 unlocks the second toy body 200, the action part 03 is triggered to pop out the second toy body 200, then the action part 03 unlocks the fourth elastic unfolding part 44, the fourth elastic unfolding part 44 pushes the first toy body 100 to turn over for 180 degrees along the width direction in the unfolding process, and the fourth elastic unfolding part 44 unlocks the first elastic unfolding part 41, the second elastic unfolding part 42 and the third elastic unfolding part 43 after unfolding. The first toy body 100 is transformed into the airplane configuration shown in fig. 5.

After the second toy body 200 is ejected by the operating portion 03, the second toy body 200 is in the second state as shown in fig. 6, in which the second toy body 200 is in the form of a cart, and the second unfolding mechanism 50 is locked above the inner case 60. When the second trigger part 05 adsorbs the second trigger piece 06, the second trigger part 06 unlocks the elastic turning part 07 positioned at the bottom of the second toy body 200, the elastic turning part 07 turns over for 180 degrees and drives the second toy body 200 to be integrally bounced, the elastic turning part 07 also pushes the elastic locking piece 81 to unlock the bouncing part 08 when turning, then the bouncing part 08 bounces to drive the rear shell 704 to rotate upwards, and the fifth elastic unfolding piece 91 and the sixth elastic unfolding piece 92 are unlocked to be unfolded to the third state shown in fig. 10 and 11.

The interlocking transformation toy in the embodiment has three states, the first state is that the first toy body 100 and the second toy body 200 are combined, the second state is that the first toy body 100 and the second toy body 200 are separated, the first toy body 100 is transformed, and the third state is that the second toy body 200 is also transformed. The deformation processes of the three states are consecutive and orderly, manual triggering is not needed in the whole process, and only the first toy body 100 and the second toy body 200 are pushed to move, so that the interestingness and the playability are high.

What has been described above is merely the principles and preferred embodiments of the present 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 (10)

1. A linked transformable toy, comprising a first toy body (100) and a second toy body (200), the first toy body (100) being provided with a first trigger mechanism (10) and a first deployment mechanism (20);

in a first state, the first unfolding mechanism (20) is in a folded state, and the first toy body (100) locks the second toy body (200) above the first toy body (100);

when the first trigger mechanism (10) is triggered, the first toy body (100) unlocks the second toy body (200) and ejects the second toy body (200) from the upper side of the first toy body, then the first trigger mechanism (10) controls the first unfolding mechanism (20) to unfold, and the linkage transformable toy enters a second state.

2. The interlocking transforming toy according to claim 1, wherein the first trigger mechanism (10) includes a first trigger portion (01), the first trigger portion (01) being provided at a front end of the first toy body (100);

the linkage transformation toy also comprises a first trigger piece (02) for triggering the first trigger part (01);

in the first state, the first trigger part (01) locks the second toy body (200), and when the first trigger part (01) is adsorbed to the first trigger piece (02), the first trigger part (01) is triggered to unlock the second toy body (200).

3. The interlocking transformation toy according to claim 2, characterized in that said first trigger part (01) comprises a pressure lever (11) and a first suction piece (12) for sucking said first trigger piece (02);

the front end of the pressure lever (11) is located at the front end of the first toy body (100), the pressure lever (11) is provided with a first locking hook (111) protruding upwards and used for locking the second toy body (200), the first suction piece (12) is located at the front end of the pressure lever (11), when the first suction piece (12) is sucked to the first trigger piece (02), the first trigger piece (02) pushes the pressure lever (11) to move backwards, and the first locking hook (111) unlocks the second toy body (200).

4. The interlocking transformation toy according to claim 2, wherein the first trigger mechanism (10) further comprises an action portion (03), the action portion (03) being provided at a rear end of the first trigger portion (01);

in the first state, the operating section (03) locks the first deployment mechanism (20) in the folded state;

when the first trigger part (01) is adsorbed to the first trigger piece (02), the action part (03) is triggered to pop up the second toy body (200) and unlock the first unfolding mechanism (20).

5. The interlocking transformation toy according to claim 4, wherein the action portion (03) includes an elastic push piece (31) and a lock lever piece (32), the elastic push piece (31) being partially protruded from an upper surface of the first toy body (100);

when the first unfolding mechanism (20) is locked by the locking rod (32) in a first state, when the first trigger part (01) is adsorbed to the first trigger part (02), the elastic pushing part (31) is triggered by the first trigger part (01) to pop up the second toy body (200), and then the elastic pushing part (31) drives the locking rod (32) to unlock the first unfolding mechanism (20).

6. The interlocking transforming toy according to claim 1, wherein the first unfolding mechanism (20) comprises at least one first elastic unfolding portion;

in a first state, the first trigger mechanism (10) locks the first elastic expansion part;

when the first trigger mechanism (10) is triggered, the first elastic unfolding parts are unlocked to unfold, and at least one first elastic unfolding part pushes the first toy body (100) to turn over integrally, so that the first toy body (100) enters a second state.

7. The interlocking transforming toy according to any one of claims 1 to 6, wherein the second toy body (200) is provided with a second triggering mechanism (40) and a second unfolding mechanism (50);

after the second toy body (200) is ejected upwards, when the second trigger mechanism (40) is triggered, the second trigger mechanism (40) controls the second unfolding mechanism (50) to unfold, and the linkage transformation toy enters a third state.

8. The interlocking transformation toy according to claim 7, wherein the second trigger mechanism (40) includes a second trigger portion (05) provided at a front end of the second toy body (200);

the linkage transformation toy also comprises a second trigger piece (06) for triggering the second trigger part (05);

when the second trigger part (05) is adsorbed to the second trigger piece (06), the second trigger part (05) controls the second unfolding mechanism (50) to unfold to a third state.

9. The interlocking transformation toy according to claim 8, characterized in that the second trigger part (05) comprises an elastic locking block (51) and a second suction piece (52) for sucking the second trigger piece (06);

the front end of the elastic locking block (51) is positioned at the front end of the second toy body (200), the second adsorption piece (52) is positioned at the front end of the elastic locking block (51), and the elastic locking block (51) is provided with a second locking hook (511) protruding downwards;

the second unfolding mechanism (50) comprises an elastic overturning part (07), and the elastic overturning part (07) is locked at the bottom of the second toy body (200) by the second locking hook (511) in a first state and a second state;

when the second adsorption piece (52) adsorbs the second trigger piece (06), the second trigger piece (06) pushes the elastic locking block (51) to unlock the elastic turnover part (07), and the elastic turnover part (07) is turned to a third state.

10. The ganged transformable toy according to claim 9, wherein the second deployment mechanism (50) further comprises at least one springing portion (08) and at least one second elastic deployment portion, the second elastic deployment portion being connected with the springing portion (08);

the spring part (08) and the second elastic unfolding part are locked at the top of the second toy body (200) in a first state and a second state;

when the elastic overturning part (07) overturns, the bullet-starting part (08) is unlocked to bounce, and meanwhile, the second elastic unfolding part is unfolded to a third state.

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