CN211328142U - 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; when the toy is in the first state, the first toy body is clamped above the second toy body, and the first unfolding mechanism is in a folded state; when the first trigger mechanism is triggered, the first trigger mechanism controls the first toy body to be separated from the second toy body, the first unfolding mechanism is controlled to be unfolded and the second toy body is pushed out, and the linkage transformable toy enters a second state. The utility model discloses trigger and just accomplished the separation of first toy body and second toy body and the deformation of first toy body once, the deformation process links up, has stronger interest.

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;

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

when the first trigger mechanism is triggered, the first trigger mechanism controls the first toy body to be separated from the second toy body, the first unfolding mechanism is controlled to be unfolded and the second toy body is pushed out, 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 rotatably 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 separated from the second toy body and rotates upwards to the second state.

Further, a clamping groove is formed in the second toy body, and a telescopic clamping piece is arranged on the first trigger part;

when the toy is in the first state, the clamping piece extends out of the first triggering portion and is clamped in the clamping groove, the first triggering portion is locked on the second toy body, when the toy is in the second state, the clamping piece retracts into the first triggering portion to be separated from the clamping groove, and the first triggering portion is separated from the second toy body.

Further, the first trigger part comprises a first elastic piece, two clamping pieces, a pressing rod piece and a first suction piece for sucking the first trigger piece;

the pressing rod piece and the first suction piece are positioned at the front end of the first triggering part, the front end of the pressing rod piece protrudes out of the front end of the first suction piece, the two clamping pieces are positioned at the rear end of the pressing rod piece, and the two clamping pieces are respectively connected to two ends of the first elastic piece;

when the first suction piece is adsorbed to the first trigger piece, the first trigger piece pushes the compression bar piece to extrude the two clamping pieces to compress the first elastic piece, so that the two clamping pieces retract into the first trigger part.

Further, the first unfolding mechanism comprises a pushing part, and the pushing part is locked at the bottom of the first toy body in a first state;

after the first trigger mechanism is triggered, the pushing part pops downwards and pushes the second toy body to move.

Furthermore, the first unfolding mechanism comprises a locking part and at least one elastic unfolding part, the locking part is provided with at least one locking lug, and in a first state, each locking lug correspondingly locks one elastic unfolding part;

after the first trigger mechanism is triggered, the first trigger mechanism pushes the locking part to enable the locking lug to unlock the elastic unfolding part, the elastic unfolding part is unfolded to a second state, and at least one of the elastic unfolding part is unfolded downwards and pushes the second toy body to move.

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

after the second toy body is pushed out, when the second trigger mechanism is triggered, the second trigger mechanism controls the second unfolding mechanism to unfold, and the linkage deformation 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.

Furthermore, the second trigger part comprises a first elastic locking piece and a second adsorption piece for adsorbing the second trigger piece, and the front end of the first elastic locking piece protrudes out of the front end of the second adsorption piece;

the second unfolding mechanism comprises an elastic overturning part arranged at the bottom of the second toy body, the first elastic locking piece locks the elastic overturning part in a first state and a second state, the second adsorption piece adsorbs the second trigger piece, the second trigger piece pushes the first elastic locking piece to unlock the elastic overturning part, and the elastic overturning part overturns to a third state.

Further, the second unfolding mechanism further comprises a bullet-starting part arranged at the top of the second toy body;

the second trigger part also comprises a second elastic locking piece, the lower surface of the second elastic locking piece is provided with a convex extrusion block, and the elastic overturning part is provided with a push block matched with the extrusion block;

when the elastic locking piece is in a first state and a second state, the second elastic locking piece locks the elastic part; when the elastic overturning part overturns to the third state, the pushing block pushes the extrusion block, so that the second elastic locking piece is triggered to unlock the bouncing part, and the bouncing part bounces to the third state.

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

the utility model discloses an in the embodiment, the linkage warp toy, when first state, first toy body and second toy body are fit structure, when first trigger mechanism is triggered, trigger first toy body and the separation of second toy body, first toy body warp simultaneously to first toy body pushes away second toy body from first toy body at first toy body in deformation process, once triggered and accomplished first toy body and the separation of second toy body and the first deformation of playing specifically, the deformation process links up, has stronger interest.

In another embodiment of the utility model, the pushed-away second toy body can further trigger deformation, and the playability is stronger.

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 first state of a transformable toy according to an embodiment of the present invention;

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

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

fig. 4 is an exploded view of the first trigger part according to an embodiment of the present invention;

fig. 5 is an internal structural view of the first toy body according to an embodiment of the present invention;

fig. 6 is an exploded view of the first toy body in an embodiment of the present invention;

fig. 7 is a schematic view of the first toy body in the second state according to an embodiment of the present invention;

fig. 8 is an exploded view of a second toy body in an embodiment of the present invention;

fig. 9 is an internal structural view of a second toy body according to an embodiment of the present invention;

fig. 10 is an exploded view of a kick-up portion of a second toy body according to an embodiment of the present invention;

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

Reference symbol comparison table:

the first toy body 100, the first trigger mechanism 10, the first unfolding mechanism 20, the first shell 30 and the turnover piece 301;

the first trigger part 01, the connecting block 11, the third torsion piece 111, the clamping piece 12, the inclined matching surface 121, the first elastic piece 13, the pressing rod piece 14, the protruding part 141, the first suction piece 15 and the trigger part shell 16;

a first trigger 02;

the locking part 03, the first locking piece 31, the second locking lug 311, the third locking lug 312, the second locking piece 32, the fourth locking lug 321, the fifth locking lug 322, the third locking piece 33 and the first locking lug 331;

a first elastic spreading portion 41, a locking groove 411, a second elastic spreading portion 42, a third elastic spreading portion 43, a fourth elastic spreading portion 44, and a fifth elastic spreading portion 45;

a second toy body 200, a second trigger mechanism 40, a second unfolding mechanism 50, a second shell 60 and a mounting ring 601;

a second trigger part 05, a first elastic locking piece 51, a first locking hook 511, a second adsorption piece 52, a second elastic piece 53, a second elastic locking piece 54, a squeezing block 541, a second locking hook 542,

A second trigger 06;

the elastic turnover part 07, the first rotating shaft 71, the fifth torsion piece 72, the clamping groove 73 and the pushing block 74;

a bullet-starting portion 08, a first bullet-starting member 81, a body portion 811, a head portion 812, a second bullet-starting member 82, an upper arm 821, a lower arm 822, a first torsion member 83, and a second rotation shaft 84.

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 and 2, 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 and 2, the first toy body 100 is snapped over the second toy body 200, and the first deployment mechanism 20 is in a collapsed state;

when the first trigger mechanism 10 is triggered, the first trigger mechanism 10 controls the first toy body 100 to be separated from the second toy body 200, and controls the first unfolding mechanism 20 to unfold and push out the second toy body 200, so as to interlock the transformable toy into the second state, wherein the second state of the first toy body 100 is shown in fig. 7.

Specifically, in the first state, the first toy body 100 is stacked on the second toy body 200 and is integrally engaged with the second toy body 200, wherein the first trigger mechanism 10 of the first toy body 100 extends out of the first casing 30, and the first unfolding mechanism 20 is retracted inside the first casing 30.

When the first trigger mechanism 10 on the first toy body 100 is triggered, the first toy body 100 and the second toy body 200 are separated, and the first toy body 100 is triggered to deform and push the second toy body 200 to move forward.

In this embodiment, when the first toy body 100 and the second toy body 200 are in the first state of the combined body, they are in the shape of an automobile, with the head as a front end, the tail as a rear end, i.e., the left side is the front end and the right side is the rear end in fig. 1 to 11, and this definition will be continued in the following description.

With respect to the first toy body 100:

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

In the present embodiment, the first triggering mechanism 10 realizes the conversion of the linkage transforming toy from the first state to the second state through the mechanical linkage structure.

Further, as shown in fig. 1, 2 and 7, the first trigger mechanism 10 includes a first trigger part 01, and the first trigger part 01 is rotatably provided 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 shown in fig. 1 and 2, the first toy body 100 is superimposed on the second toy body 200, the first trigger part 01 extends downward and engages with the front end of the second toy body 200, and when the first trigger part 01 is attracted to the first trigger part 02, the first trigger part 01 is detached from the second toy body 200 and rotates upward to the second state shown in fig. 7.

Specifically, as shown in fig. 2, the first triggering portion 01 is connected to the front end of the first toy body 100 through a connecting block 11, one end of the connecting block 11 is connected to the first toy body 100 through a third torsion member 111 (see fig. 5), and the other end is connected to the first casing 30 through a fourth torsion member (not shown), and the third torsion member 111 and the fourth torsion member may be torsion springs for providing a torsion force.

In the first state shown in fig. 1 and 2, the first trigger part 01 extends downward through the connecting block 11 and engages with the front end of the second toy body 200, and at this time, the first trigger piece 02 is separated from the first toy body 100. When the first trigger part 01 is attracted to the first trigger member 02, the first trigger part 01 is triggered to be separated from the second toy body 200, and under the action of the torsional force provided by the third torsion member 111 and the fourth torsion member, the first trigger part 01 rotates relative to the connecting block 11, and simultaneously, the connecting block 11 also rotates relative to the first toy body 100, so that the first trigger part 01 is turned upwards to the second state shown in fig. 7.

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. 2, the second toy body 200 is provided with an engaging groove (not shown), and the first trigger part 01 is provided with a retractable engaging member 12;

in the first state, the engaging member 12 extends out of the first triggering portion 01 and is engaged in the engaging groove to lock the first triggering portion 01 on the second toy body 200, and in the second state, the engaging member 12 retracts into the first triggering portion 01 to disengage from the engaging groove, and the first triggering portion 01 disengages from the second toy body 200.

In this embodiment, the first trigger portion 01 and the first toy body 100 are clamped by the clamping member 12, and when the first trigger portion 01 is adsorbed to the first trigger member 02, the clamping member 12 is pushed to retract into the first trigger portion 01 through the mechanical linkage structure, so that the clamping member 12 is separated from the clamping groove, the clamping between the first trigger portion 01 and the second toy body 200 is released, and the first trigger portion 01 and the second toy body 200 are separated.

Specifically, as shown in fig. 3 and 4, the first trigger part 01 includes a first elastic member 13, two engaging members 12, a pressing bar member 14, and a first suction member 15 for sucking the first trigger member 02;

the pressing rod piece 14 and the first suction piece 15 are positioned at the front end of the first triggering part 01, the front end of the pressing rod piece 14 protrudes out of the front end of the first suction piece 15, the two clamping pieces 12 are positioned at the rear end of the pressing rod piece 14, and the two clamping pieces 12 are respectively connected to two ends of the first elastic piece 13;

when the first suction device 15 is sucked to the first trigger device 02, the first trigger device 02 pushes the pressing rod 14 to squeeze the two engaging members 12 to compress the first elastic member 13, so that the two engaging members 12 retract into the first trigger portion 01.

Specifically, the first elastic member 13, the engaging member 12, the pressing bar member 14 and the first suction attachment 15 are installed in the triggering portion casing 16, the pressing bar member 14 is U-shaped, an open end of the pressing bar member faces the front end of the first toy body 100, the first suction attachment 15 is located in the pressing bar member 14, and the two engaging members 12 are connected to two ends of the first elastic member 13 and are transversely disposed above a rear end of the pressing bar member 14. As shown in fig. 4, two protrusions 141 are provided above the rear end of the presser bar 14, the lower surfaces of the two engaging members 12 are provided with inclined engaging surfaces 121, and the two protrusions 141 are respectively engaged with the two inclined engaging surfaces 121.

The first attraction piece 15 is made of a magnetic material, and the first trigger piece 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 piece 15, the first trigger 02 is attracted by the first suction piece 15 and moves towards the first suction piece 15, in the process, the first trigger 02 pushes the pressing rod piece 14 to move towards the rear end, and the two protrusions 141 on the pressing rod piece 14 move along the inclined matching surfaces 121 on the lower surfaces of the two clamping pieces 12, so that the two clamping pieces 12 are pushed to compress the first elastic piece 13, and the two clamping pieces 12 are retracted into the first trigger part 01.

Optionally, more than two snap pieces 12 can be provided. The engaging member 12 and the pressing member 14 can be matched by a locking structure, for example, the engaging member 12 is disposed along the moving direction of the pressing member 14 and is installed in the triggering portion housing 16 by an elastic member, in the first state, the engaging member 12 is locked in the extended state by the locking member, and when the first triggering member 02 pushes the pressing member 14 to move, the pressing member 14 synchronously pushes the locking member to unlock the engaging member 12, so that the engaging member 12 retracts into the first triggering portion 01 under the action of the elastic member.

Further, the first unfolding mechanism 20 includes a pushing portion, which is locked at the bottom of the first toy body 100 in the first state; when the first trigger mechanism 10 is triggered, the pushing portion is ejected downward and pushes the second toy body 200 to move.

The pushing portion is mounted at the bottom of the first toy body 100 through an elastic piece or a torsion piece, and is locked through a locking structure in the first state, the locking structure is matched with the first trigger mechanism 10, when the first trigger mechanism 10 is triggered, the locking structure releases the locking of the pushing portion, and the pushing portion pops up and pushes the second toy body 200.

Further, as shown in fig. 5 to 7, the first spreading mechanism 20 further includes a locking portion 03 and five elastic spreading portions, namely a first elastic spreading portion 41, a second elastic spreading portion 42, a third elastic spreading portion 43, a fourth elastic spreading portion 44 and a fifth elastic spreading portion 45, wherein five locking protrusions are disposed on the locking portion 03, and each locking protrusion locks one elastic spreading portion in a first state;

after the first trigger mechanism 10 is triggered, the first trigger mechanism 10 pushes the locking part 03 to unlock the five elastic unfolding parts from the locking projection, so that the five elastic unfolding parts are unfolded to the second state shown in fig. 7, and the first elastic unfolding part 41 is unfolded downward and pushes the second toy body 200 to move.

Specifically, as shown in fig. 6, the locking portion 03 and five elastic expansion portions are mounted on the first housing 30, wherein the five elastic expansion portions are rotatably mounted on the first housing 30 by torsion members (not shown) such as torsion springs. The locking part 03 includes a first locking piece 31, a second locking piece 32, and a third locking piece 33 which are sequentially disposed in the front-rear direction of the first toy body 100. The second elastic expansion portion 42 and the third elastic expansion portion 43 are respectively located on both sides of the first lock member 31; both sides of the first lock 31 are provided with a second locking projection 311 engaged with the second elastic spreading portion 42 and a third locking projection 312 engaged with the third elastic spreading portion 43. The fourth elastic expansion part 44 and the fifth elastic expansion part 45 are respectively positioned at both sides of the second locking piece 32; the second locking piece 32 is provided at both sides with a fourth locking protrusion 321 engaged with the fourth elastic spreading portion 44 and a fifth locking protrusion 322 engaged with the fifth elastic spreading portion 45. The third locking piece 33 is provided with a first locking protrusion 331 protruding downward, the first elastic expansion portion 41 is located below the third locking piece 33, and the first elastic expansion portion 41 is provided with a locking groove 411 matched with the first locking protrusion 331.

As shown in fig. 2 and 5, in the first state, the first locker 31 locks the second elastic expansion portion 42 and the third elastic expansion portion 43 in the first casing 30, the second locker 32 locks the fourth elastic expansion portion 44 and the fifth elastic expansion portion 45 at both sides of the first casing 30, and the third locker 33 locks the first elastic expansion portion 41 at the bottom of the first casing 30, and at this time, the first toy body 100 has a shape of a car body. After first trigger part 10 is triggered, first trigger part 01 upwards overturns, and connecting block 11 promotes first latch 31 backward during the upset, and first latch 31 promotes second latch 32 and third latch 33 in proper order, and five elasticity portions of expanding are simultaneously unlocked to first latch 31, second latch 32 and third latch 33.

The first elastic spreading part 41 is the pushing part, and is located at the bottom of the first toy body 100, and in the view shown in fig. 6, the first elastic spreading part 41 is turned clockwise by 180 ° under the torsional force of the torsion member, and pushes the second toy body 200 below to move forward while turning.

In this embodiment, the first trigger part 01 is turned over and five elastic unfolding parts are unfolded as shown in fig. 7, at this time, the first toy body 100 is in the shape of a puppy, wherein the first trigger part 01 is used as the head of the puppy and clamps the first trigger piece 02, the first elastic unfolding part 41 is located on the abdomen of the puppy, and the remaining four elastic unfolding parts are respectively used as the four legs of the puppy. A rotatable flip 301 is also provided on the upper surface of the first housing 30, and serves as a tail of the dog and can be manually rotated.

Alternatively, the number of the elastic expansion portions includes, but is not limited to, five, and the first toy body 100 may be provided in other shapes. At least one elastic expansion portion may be provided as the pushing portion, which expands downward for pushing the second toy body 200 to move.

With respect to the second toy body 200:

as shown in fig. 2 and 11, the second toy body 200 is provided with a second trigger mechanism 40 and a second deployment mechanism 50;

when the second trigger mechanism 40 is triggered after the second toy body 200 is ejected, the second trigger mechanism 40 controls the second unfolding mechanism 50 to unfold, and the transformable toy is linked to enter the third state.

Specifically, when the interlocking transforming toy is in the first state and the second state, the second toy body 200 is in the state shown in fig. 2, and when the second trigger mechanism 40 is triggered, the second unfolding mechanism 50 is unfolded, and the second toy body 200 is transformed into the third state shown in fig. 11.

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.

Further, as shown in fig. 8, the second trigger mechanism 40 includes a second trigger part 05 provided at the front end of the second toy body 200, and the interlocking transformation toy further includes 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 the third state.

The second trigger mechanism 40 triggers the second trigger portion 05 by sucking the second trigger piece 06, in the same manner as the first trigger mechanism 10.

Like the first trigger mechanism 10, the second trigger mechanism 40 can be triggered by a button manually pressed, or an electric control mechanism can be provided, and the second trigger mechanism 40 can be triggered by turning on a switch or remotely controlling.

The adsorption triggering mode adopted by the embodiment does not need manual triggering and does not need electric energy consumption, the trolley is pushed to move, and the triggering part is automatically triggered when being close to the triggering part, so that the consistency is strong.

Further, as shown in fig. 8 and 9, the second trigger part 05 includes a first elastic locking member 51 and a second adsorbing member 52 for adsorbing the second trigger part 06, and a front end of the first elastic locking member 51 protrudes from a front end of the second adsorbing member 52;

the second unfolding mechanism 50 includes an elastic turning part 07 arranged at the bottom of the second toy body 200, in the first state and the second state, the first elastic locking piece 51 locks the elastic turning part 31, when the second adsorbing piece 52 adsorbs the second trigger piece 06, the second trigger piece 06 pushes the first elastic locking piece 51 to unlock the elastic turning part 07, and the elastic turning part 07 turns to the third state.

Specifically, the first elastic locking member 51 is square, the rear end of the first elastic locking member is elastically mounted on the second housing 60 through the second elastic member 53, the second suction member 52 is located in the first elastic locking member 51, and the second suction member 52 and the first elastic locking member 51 are not connected, and can move relatively. 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 adsorbable metal material such as iron. When the second suction member 52 is sucked to the second trigger member 06, the second trigger member 06 pushes the first elastic locking member 51 backward.

The elastic turning part 07 is rotatably installed below the second casing 08, as shown in fig. 9, specifically, one end of the elastic turning part 07 is installed on the second casing 08 through a first rotating shaft 71, and a fifth twisting member 72 for providing a twisting force is further disposed between the first rotating shaft 71 and the elastic turning part 07.

The first elastic locking member 51 is further provided with a first locking hook 511 extending downward, and the elastic turning part 07 is provided with a catching groove 73 engaged with the first locking hook 511. As shown in fig. 9, in the first state, the first locking hook 511 engages with the locking groove 73 to lock the elastic turning part 07 to the bottom of the second housing 60. When the first elastic locking piece 51 is pushed by the second trigger piece 06, the first locking hook 511 unlocks the elastic turnover part 07, the elastic turnover part 07 rotates counterclockwise by 180 ° to a third state in the viewing angle shown in fig. 9, and the second toy body 200 is driven to be bounced upward integrally in the turnover process.

The elastic turnover part 07 is arranged at the bottom of the second toy body 200, so that the change of the motion state of the second toy body 200 when being deformed is increased, and the elastic turnover part 07 can also be arranged at the top or the side for realizing the change of the appearance form of the second toy body 200.

Further, the second unfolding mechanism 50 further includes a bullet-ejecting portion 08 provided at the top of the second toy body 200;

the second trigger part 05 further comprises a second elastic locking piece 54, a convex extrusion block 541 is arranged on the lower surface of the second elastic locking piece 54, and a push block 74 matched with the extrusion block 541 is arranged on the elastic overturning part 07;

in the first state and the second state, the second elastic locking piece 54 locks the springing part 08; when the elastic turning part 07 turns to the third state, the pushing block 74 pushes the pressing block 541, so that the second elastic locking member 54 is triggered to unlock the springing part 08, and the springing part 08 bounces to the third state shown in fig. 11.

Specifically, the springing part 08 is disposed on the top of the second casing 60, the second elastic locking member 54 is mounted on the second casing 60 through a third elastic member (not shown), a raised second locking hook 542 is further disposed on the upper surface of the second elastic locking member 54, and the second locking hook 542 extends out of the upper surface of the second casing 60 to lock the springing part 08 on the upper surface of the second casing 60 in the first state and the second state.

When the elastic turning part 07 is triggered to turn over by 180 °, the pushing block 74 on the elastic turning part 07 pushes the pressing block 541 on the lower surface of the second elastic locking member 54 to push the second elastic locking member 54 backward, so that the second locking hook 542 unlocks the springing part 08, and the springing part 08 bounces upward to the third state shown in fig. 11.

In this embodiment, the elastic turning part 07 triggers the bounce part 08 to bounce, so that the second toy body 200 is bounced and reset and then deformed, the bouncing and deforming actions are in sequence, the deformation time is prolonged, and the change process is clear visually.

Further, as shown in fig. 10, the springing section 08 includes a first springing member 81 and two second springing members 82;

the first bounce member 81 and the two second bounce members 82 are both mounted on the top of the second toy body 200 by the first torsion member 83, and the two second bounce members 82 are located on both sides of the first bounce member 81;

in the first state and the second state, the second elastic locking member 54 locks the first resilient member 81,

the first resilient member 81 locks the two second resilient members 82, and when the second resilient locking member 54 is activated,

the first flip-up member 81 is flipped up while the unlocking second flip-up member 82 is flipped up.

Specifically, as shown in fig. 8, the upper surface of the second housing 60 is provided with a mounting ring 601, the first resilient member 81 is connected to the mounting ring 601 through the second rotating shaft 84, the second resilient member 82 is mounted on the second rotating shaft 84 through the first torsion member 83, and the first torsion member 83 is used for providing a torsion force.

The first resilient member 81 includes a body portion 811 and a head portion 812, wherein the body portion 811 is connected to the second shaft 84, the head portion 812 is connected to the body portion 811 by a second torsion member (not shown), and the head portion 812 is locked with the second resilient locking member 54.

The second ejector 82 includes an upper arm portion 821 and a lower arm portion 822, one end of the upper arm portion 821 is connected to the body portion 811, the other end is connected to the lower arm portion 822, the lower arm portion 822 is accommodated in the upper arm portion 821 in the first state and the second state, and the upper arm portion 821 is ejected in the third state.

As shown in fig. 11, the second toy body 200 is schematically illustrated in the third state, in which the pop-up portion 08 pops up on the upper surface of the second casing 60, and the pop-up portion 08 has a shape of a robot.

With respect to the interlocking transforming toy:

the interlocking transformation toy in the embodiment 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 first toy body 100 is stacked above the second toy body 200, the first trigger part 01 of the first toy body 100 extends downward and is clamped on the second toy body 200, when the first trigger part 01 is adsorbed to the first trigger part 02, the first trigger part 01 is separated from the second toy body 200 and overturns upward, the first trigger part 01 pushes the locking part 03 to unlock five elastic unfolding parts when overturned, the five elastic unfolding parts are unfolded, the first toy body 100 is deformed into a dog shape shown in fig. 7, and the first elastic unfolding part 41 pushes the second toy body 200 to move forward when overturned. The linkage transformable toy enters the second state.

In the first state and the second state, the second toy body 200 is in a trolley shape, when the second trigger part 05 is adsorbed to the second trigger piece 06, the elastic turnover part 07 at the bottom of the second toy body 200 is turned over and drives the second toy body 200 to bounce integrally, the elastic turnover part 07 is turned over for 180 degrees and then attached to the bottom of the second toy body 200, the second toy body 200 is reset, meanwhile, the elastic turnover part 07 pushes the second elastic locking piece 54 to unlock the bouncing part 08, the bouncing part 08 bounces to be in a robot shape, and at the moment, the second toy body 200 is in a robot driving shape as shown in fig. 11. The interlocking transforming toy enters a third state.

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

when the first trigger mechanism (10) is triggered, the first trigger mechanism (10) controls the first toy body (100) to be separated from the second toy body (200), meanwhile, the first unfolding mechanism (20) is controlled to be unfolded and the second toy body (200) is pushed out, and the linkage transformation 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 rotatably 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);

when the toy is in a first state, the first toy body (100) is superposed above the second toy body (200), the first trigger part (01) extends downwards and is clamped at the front end of 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 separated from the second toy body (200) and rotates upwards to a second state.

3. The interlocking transformation toy according to claim 2, wherein the second toy body (200) is provided with a snap groove, and the first trigger part (01) is provided with a retractable snap piece (12);

when the toy is in the first state, the clamping piece (12) extends out of the first trigger part (01) and is clamped in the clamping groove to lock the first trigger part (01) on the second toy body (200), and when the toy is in the second state, the clamping piece (12) retracts into the first trigger part (01) to be separated from the clamping groove, and the first trigger part (01) is separated from the second toy body (200).

4. The interlocking transformation toy according to claim 2, characterized in that said first trigger part (01) comprises a first elastic member (13), two snap members (12), a presser bar member (14) and a first suction member (15) for sucking said first trigger member (02);

the pressing rod piece (14) and the first suction piece (15) are positioned at the front end of the first trigger part (01), the front end of the pressing rod piece (14) protrudes out of the front end of the first suction piece (15), the two clamping pieces (12) are positioned at the rear end of the pressing rod piece (14), and the two clamping pieces (12) are respectively connected to two ends of the first elastic piece (13);

when the first suction piece (15) is sucked to the first trigger piece (02), the first trigger piece (02) pushes the compression bar piece (14) to extrude the two clamping pieces (12) to compress the first elastic piece (13), so that the two clamping pieces (12) retract into the first trigger part (01).

5. The interlocking transforming toy according to claim 1, wherein the first unfolding mechanism (20) comprises a pushing portion that is locked at the bottom of the first toy body (100) in a first state;

after the first trigger mechanism (10) is triggered, the pushing part pops downwards and pushes the second toy body (200) to move.

6. The interlocking transformation toy according to claim 1, wherein the first unfolding mechanism (20) comprises a locking portion (03) and at least one elastic unfolding portion, at least one locking lug is provided on the locking portion (03), and each locking lug locks one elastic unfolding portion in the first state;

after the first trigger mechanism (10) is triggered, the first trigger mechanism (10) pushes the locking part (03) to enable the locking lug to unlock the elastic unfolding part, the elastic unfolding part is unfolded to a second state, and at least one of the elastic unfolding part is unfolded downwards and pushes the second toy body (200) to move.

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 pushed out, 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, wherein the second trigger part (05) comprises a first elastic locking piece (51) and a second suction piece (52) for sucking the second trigger piece (06), and the front end of the first elastic locking piece (51) protrudes from the front end of the second suction piece (52);

the second unfolding mechanism (50) comprises an elastic overturning part (07) arranged at the bottom of the second toy body (200), when the second unfolding mechanism is in a first state and a second state, the first elastic locking piece (51) locks the elastic overturning part (07), the second adsorption piece (52) adsorbs the second trigger piece (06), the second trigger piece (06) pushes the first elastic locking piece (51) to unlock the elastic overturning part (07), and the elastic overturning part (07) overturns to a third state.

10. The interlocking transformation toy of claim 9, wherein the second deployment mechanism (50) further comprises a kick-out portion (08) disposed at a top of the second toy body (200);

the second trigger part (05) further comprises a second elastic locking piece (54), a protruding extrusion block (541) is arranged on the lower surface of the second elastic locking piece (54), and a pushing block (74) matched with the extrusion block (541) is arranged on the elastic overturning part (07);

the second elastic locking piece (54) locks the springing part (08) in a first state and a second state; when the elastic overturning part (07) overturns to a third state, the pushing block (74) pushes the extrusion block (541), so that the second elastic locking piece (54) is triggered to unlock the springing part (08), and the springing part (08) bounces to the third state.

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