CN215195427U - Combined toy - Google Patents

Abstract

The utility model discloses a combined toy, which comprises a simulator and a deformation toy; the imitation device comprises a first acousto-optic module and an emission unit, wherein the first acousto-optic module can generate acousto-optic effect through external triggering; the transformable toy has a first configuration and a second configuration; after the transformable toy in the first form is mounted on the simulator, the transformable toy can be launched when the launching unit of the simulator is triggered, and the transformable toy is triggered to transform from the first form to the second form. The utility model discloses well imitator can play alone, produces the reputation effect through first reputation module. The simulator and the deformable toy can be played in a combined mode, and the deformable toy is triggered to deform while being launched. The utility model discloses a playing method is various, and object for appreciation nature, interest are stronger.

Description

Combined toy

Technical Field

The utility model relates to the technical field of toys, in particular to a combined toy.

Background

Most simulators in the market are only in common structural configuration, are mainly designed to simulate the prop shape of a certain cartoon or TV play, and increase the acousto-optic effect on the basis, however, the design is simple in operation, single in playing method and poor in playability, and cannot arouse the interest of consumers for a long time.

The existing launcher is only used for launching the launched piece, the launcher can not be played independently, and the toy is low in interestingness.

Therefore, it is necessary to design a combined toy with various playing methods, playability and strong interest.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provide a combined toy with various playing methods, playability and stronger interest.

The technical proposal of the utility model provides a combined toy, which comprises a simulator and a deformation toy;

the simulator comprises a first acousto-optic module and an emission unit, wherein the first acousto-optic module can generate acousto-optic effect through external triggering;

the transformable toy has a first configuration and a second configuration;

after the transformable toy in the first form is mounted on the simulator, the transformable toy can be launched when the launching unit of the simulator is triggered, and the transformable toy is triggered to transform from the first form to the second form.

Further, the launching unit comprises a sliding seat and a launching spring, the transformable toy is inserted into the sliding seat, when the transformable toy and the sliding seat slide to the preparation launching end, the launching spring is compressed, and when the launching spring is released, the launching spring drives the sliding seat to launch the transformable toy from the launching end.

Furthermore, the launching unit further comprises a sliding groove and a push sheet, the sliding seat slides along the sliding groove, the sliding seat extends out of a connecting column towards the push sheet, the connecting column penetrates through the sliding groove and then is connected with the push sheet, and the push sheet is connected with one end of the launching spring;

when the sliding seat slides along the sliding groove, the pushing sheet is driven, and the pushing sheet drives one end of the launching spring to move together.

Further, the launching unit further comprises a locking assembly, and when the sliding seat slides to the preparation launching end, the locking assembly locks the push sheet.

Furthermore, the launching unit further comprises an unlocking assembly, the unlocking assembly pushes the locking assembly when rotating, the locking assembly releases the push sheet, the push sheet drives the sliding seat and the deformable toy to eject forwards under the action of the launching spring, and the deformable toy is launched out.

Furthermore, the emission unit further comprises a false triggering prevention assembly, and the false triggering prevention assembly is telescopically arranged at the bottom of the simulator;

when the emulator is lifted, the bottom end of the false trigger prevention member protrudes from the bottom of the emulator to lock the firing unit;

and when the false triggering prevention assembly is jacked upwards, the transmitting unit is unlocked.

Further, the simulator also comprises a turning support leg, wherein before the transformable toy is launched, the turning support leg is turned downwards, and the turning support leg supports a prepared launching end of the simulator, so that the launching end of the simulator is inclined downwards.

Further, the deformation toy comprises a body and a deformation piece, wherein the deformation piece is connected with the body through a deformation buckle;

the deformation toy comprises a roller and a rolling trigger unit, the deformation toy is launched by the simulator, the roller rolls, the roller drives the rolling trigger unit to operate, and the rolling trigger unit is used for triggering the unlocking of the deformation buckle to separate the deformation piece from the body.

Further, the rolling trigger unit comprises a turbine, a gear set and an unlocking gear, the gear set comprises a large gear and a small gear which are coaxially and fixedly connected, and the unlocking gear comprises a tooth part and an unlocking part;

the turbine is coaxially and fixedly connected with the roller wheel, the turbine is meshed with the large gear, and the small gear is meshed with the tooth part of the unlocking gear;

when the gyro wheel rotates, drive the turbine, the gear train with the unblock gear rotates, works as the unblock gear rotates unblock portion promotes when warping the buckle and removing, the deformation with the body separation, the deformation rotates deformation.

The simulator comprises a simulator and at least two plug-in cards, wherein the simulator is provided with a slot, and after the plug-in cards are inserted into the slot, the plug-in cards trigger the first acousto-optic module to emit acousto-optic effect.

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

when the combined toy of the utility model is regarded as the simulator, the combined toy not only has the wearable function, the simulation function and the sound and light function of the prior simulator, but also has the functions of emitting the deformation toy, triggering the deformation toy to realize deformation and triggering the sound and light effect; when the device is used as a launcher, the device not only has a launching function, but also can trigger an acousto-optic effect, and even if no object to be launched exists, the launcher can also have a function of playing alone. The utility model discloses a playing method is various, and object for appreciation nature, interest are 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 diagram of an emulator in an embodiment of the present invention;

FIG. 2 is a schematic view of a transformable toy loaded onto a simulator in accordance with an embodiment of the present invention;

FIG. 3 is a schematic view of a transformable toy according to an embodiment of the present invention in a first configuration;

FIG. 4 is a schematic view of a transformable toy according to an embodiment of the present invention in a second configuration;

fig. 5 is an exploded view of the emulator in an embodiment of the present invention;

fig. 6 is a partial schematic view of an emulator in an embodiment of the present invention;

fig. 7 is a partial enlarged view of the simulator at the chute according to an embodiment of the present invention;

fig. 8 is a partial enlarged view of the hook and tail buckle of the emulator according to an embodiment of the present invention;

fig. 9 is a schematic view illustrating the locking of the pushing plate and the locking assembly according to an embodiment of the present invention;

fig. 10 is a schematic view illustrating the unlocking of the push plate and the locking assembly according to an embodiment of the present invention;

fig. 11 is a schematic view of the handle and locking assembly prior to unlocking in an embodiment of the present invention;

fig. 12 is a schematic diagram of an anti-false triggering component according to an embodiment of the present invention;

fig. 13 is a schematic diagram of a locking assembly and a second sound and light module according to an embodiment of the present invention;

FIG. 14 is a front perspective view of a transformable toy according to one embodiment of the present invention in a second configuration;

FIG. 15 is a rear perspective view of a transformable toy according to one embodiment of the present invention in a second configuration;

fig. 16 is a schematic bottom view of a transformable toy according to an embodiment of the present invention.

Reference symbol comparison table:

the emulator 01: a cover plate 011, a lower shell 012 and a slot 013;

a first acousto-optic module 1;

the transmitting unit 2: the device comprises a sliding seat 21, a launching spring 22, a sliding groove 23, a push sheet 24, a hook 25, a first spring 26, a locking assembly 27, a handle 28, an anti-false triggering assembly 29, a connecting column 211, a clamping position 212, a guide groove 231, a sinking platform 232, a jack 241, a wing plate 242, a first guide surface 271, a second spring 272, an eccentric wheel 281, a torsion spring 282, a safety rod 291, an unlocking block 292, a return spring 293 and a second guide surface 292 a;

the turning support leg 3 and the second sound and light module 4 are arranged;

the transformable toy 02: the clamping device comprises a body 021, a deformation piece 022, a deformation buckle 023, a tail buckle 024, a trunk 025, a buckle mounting plate 026, a pushing spring 027, a first deformation piece 022-1, a second deformation piece 022-2, a third deformation piece 022-3, a fourth deformation piece 022-4, a fifth deformation piece 022-5, a first buckle 023-1, a second buckle 023-2, a third buckle 023-3, a fourth buckle 023-4, a fifth buckle 023-5, a sixth buckle 023-6, a seventh buckle 023-7, an eighth buckle 023-8, a ninth buckle 023-9 and a tenth buckle 023-10;

inserting a card 03: trigger protrusion 031, trigger recess 032;

a roller 7;

scroll trigger unit 8: the worm gear 81, the gear set 82, the unlocking gear 83, the large gear 821, the small gear 822, the tooth 831, and the unlocking portion 832;

an auxiliary wheel 9.

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.

In one embodiment of the present invention, as shown in fig. 1-2, a combination toy includes a simulator 01 and a transformable toy 02;

the simulator 01 comprises a first acousto-optic module 1 (see fig. 12) and an emitting unit 2, wherein the first acousto-optic module 1 can generate acousto-optic effect through external triggering;

the transformable toy 02 has a first configuration and a second configuration;

after the transformable toy 02 in the first form is mounted on the simulator 01, the transformable toy 02 is launched when the launching unit 2 of the simulator 01 is triggered, and the transformable toy 02 is triggered to transform from the first form to the second form.

As shown in fig. 1, the emulator 01 includes a first acousto-optic module 1, the first acousto-optic module 1 is built in the emulator 01, and an acousto-optic effect can be generated by external triggering to realize independent play of the emulator 01. The appearance of simulator 01 can simulate a wearable weapon, and when triggering first acousto-optic module 1, the sound effect of the weapon when striking is sent out, and the scintillation light effect of different colours is sent out simultaneously, produces the effect of cool dazzling, attracts children. As shown in fig. 2, the simulator 01 is combined with a transformable toy 02 to enable a new play. The simulator 01 serves as a launcher of the transformable toy 02, has a launching function, and can launch the transformable toy 02 and simultaneously trigger the transformation of the transformable toy 02. The transformation toy 02 is a launched object, and when the transformed toy is launched, the transformation is realized, different forms are presented, and the interest and the playability of the toy are increased.

In some embodiments of the present invention, as shown in fig. 3, the first configuration of the transformable toy 02 is folded into a train configuration,

after the transformable toy 02 is installed on the simulator 01, the simulator 01 can launch the transformable toy 02 and trigger the transformable toy 02 to transform to the second form at the same time of launching.

In some embodiments of the present invention, as shown in fig. 4, the transformable toy 02 is expanded and transformed to form an animal model of birds.

In this embodiment, the emulator 01 can play alone to realize different sound and light effects. The simulator 01 and the deformable toy 02 can be played in a combined mode, the deformable toy 02 is triggered to deform when the deformable toy 02 is launched, the playing method is diversified, and the playability and the interestingness are stronger.

In some embodiments of the present invention, as shown in fig. 1-2, the first acousto-optic module 1 is further provided with at least two insertion cards 03, a slot 013 is provided on the emulator 01, an insertion end of the insertion card 03 is provided with a trigger protrusion 031 and a trigger groove 032, and after the insertion card 03 is inserted into the slot, the different forms of trigger protrusion 031 and the combination of trigger groove 032 trigger the first acousto-optic module 1 to emit different acousto-optic effects.

The plug-in card 03 can have many, and the shape that triggers sand grip 031 and trigger recess 032 on every plug-in card 03 all is inequality, and consequently different plug-in cards 03 insert slot 013 in, trigger first reputation module 1 and produce different reputation effects for the sound effect of simulation weapon under the different battle modes, and produce different light efficiencies.

Specifically, as shown in fig. 2, there are three card inserts 03, and the first card insert 03 from top to bottom is provided with a trigger protrusion 031 and a trigger groove 032; the second card 03 is also provided with a trigger protrusion 031 and a trigger groove 032, which are only arranged at the opposite positions to the first card 03; the third card 03 is provided with two triggering convex strips 031.

Alternatively, the insertion card 03 may have a larger number, and the trigger protrusion 031 and the trigger groove 032 may have a larger number of different combinations.

In some embodiments of the present invention, as shown in fig. 5, the launching unit 2 includes a sliding base 21 and a launching spring 22, the toy 02 is inserted into the sliding base 21, when the toy 02 and the sliding base 21 slide to the prepared launching end, the launching spring 22 is compressed, and when the launching spring 22 is released, the launching spring 22 drives the sliding base 21 to launch the toy 02 from the launching end.

Specifically, as shown in fig. 5, the slide seat 21 is provided with a detent 212; as shown in fig. 3, the tail of the transformable toy 02 is provided with a tail buckle 024. When the transformable toy 02 is inserted into the position-fixing position 212 through the tail buckle 024, the transformable toy is mounted on the simulator 01.

Further, as shown in fig. 5, the simulator 01 includes two hooks 25 and a first spring 26, and the two hooks 25 and the first spring 26 are installed below the slide base 21 corresponding to the position of the detent 212.

As shown in fig. 8, two hooks 25 penetrate into the sliding base 21 for hooking the tail buckle 024 to mount the transformable toy 02 on the sliding base 21.

The two hooks 25 are connected into a whole, the bottom end of the first spring 26 is abutted with the hooks 25, the top end is abutted with the bottom surface of the sliding seat 21, and the first spring 26 has a tendency of pushing the hooks 25 to move downwards. When the transformable toy 02 is placed on the slide base 21, the tail buckle 024 enters the position-retaining part 212 of the slide base 21 and is located between the two hooks 25, but the two hooks 25 do not yet longitudinally restrain the tail buckle 024. When the slide base 21 is slid backward to the preliminary firing end (i.e., the extreme end), the two hooks 25 move downward by the first spring 26 to hook the tail 024, thereby holding the transformable toy 02 at the preliminary firing end.

Further, as shown in fig. 5-6, the launching unit 2 further includes a sliding groove 23 and a push piece 24, the sliding base 21 slides along the sliding groove 23, the sliding base 21 extends out of a connection post 211 towards the push piece 24, the connection post 211 passes through the sliding groove 23 and then is connected with the push piece 24, and the push piece 24 is connected with one end of the launching spring 22;

when the sliding base 21 slides along the sliding slot 23, the pushing piece 24 is driven, and the pushing piece 24 drives one end of the launching spring 22 to move together.

Specifically, the simulator 01 includes a cover plate 011, the cover plate 011 forms a slide groove 23, and the slide base 21, the hook 25, and the first spring 26 are mounted in the slide groove 23 and can slide back and forth along the slide groove 23.

As shown in fig. 5, the sliding groove 23 is provided with two guide grooves 231, and the connecting post 211 of the sliding base 21 passes through the guide groove 231 and then is connected to the insertion hole 241 of the insertion piece 24 installed below the cover plate 011. The length of the guide groove 231 is greater than or equal to the sliding stroke of the slider 21.

When the slide base 21 slides backward, the insert pieces 24 are carried to slide backward together. The insertion piece 24 is connected to the front end of the launching spring 22, and the rear end of the launching spring 22 abuts against the inner wall of the lower housing 012 of the emulator 01. As the tab 24 slides rearward, the firing spring 22 is compressed.

Further, as shown in fig. 7, a sinking platform 232 is disposed at the rear end of the guiding slot 231 of the sliding slot 23, and when the sliding base 21 drives the hook 25 to slide to the sinking platform 232, the hook 25 and the first spring 26 fall to the bottom of the sinking platform 232, because the first spring 26 tends to push the hook 25 downward. When the slide base 21 slides to the sinking platform 232, the first spring 26 pushes the hook 25 downward, so that the tail buckle 024 is tightly pressed and hooked with the two hooks 25 along the longitudinal direction, and the transformation toy 02 is kept locked by the hook 25 at the position.

Since the sinking platform 232 is located at the extreme end of the sliding groove 231, when the sliding base 21 and the hook 25 drop into the sinking platform 232, the transformable toy 02 slides to the preliminary launching end of the simulator 01 and is held in this position, and the launching unit 2 is charged and ready to launch.

When the launching unit 2 is triggered, the sliding base 21 and the hook 25 slide forward along the sliding groove 23, i.e. are pulled out upward from the sinking platform 232, at this time, the hook 25 and the tail buckle 024 are released, the deformed toy 02 is released, and the deformed toy 02 is launched after acquiring kinetic energy.

In some embodiments of the present invention, as shown in fig. 9, the launching unit 2 further includes a locking assembly 27, and when the sliding base 21 slides to the preparation launching end, the locking assembly 27 locks the push plate 24.

Specifically, as shown in fig. 10, a wing 242 extends from each of the left and right sides of the pushing piece 24, and before the pushing piece 24 is pushed rearward, the wing 242 of the pushing piece 24 contacts the upper surface of the first guide surface 271 of the locking assembly 27. When the pushing piece 24 is pushed backward, the wing plate 242 slides backward along the first guide surface 271 of the locking assembly 27.

The bottom of the locking assembly 27 is provided with a second spring 272, and the second spring 272 makes the locking assembly 27 in a tendency of rising upwards. When the push plate 24 is not slid, the wing 242 is on the upper surface of the locking assembly 27, so that the locking assembly 27 is restricted from moving upward.

As shown in fig. 9, when the hook 25 slides to the extreme end, the locking member 27 moves up to a position flush with the height of the wing 242 by the second spring 272, and thus the front end of the wing 242 interferes with the rear end of the first guide surface 271, so that the push piece 24 cannot slide forward. Thereby holding the slide 21, the hook 25 and the transformable toy 02 mounted on the slide 21 at the ready-to-launch end.

Further, the launching unit 2 further comprises an unlocking assembly, when the unlocking assembly rotates, the locking assembly 27 is pushed, the locking assembly 27 releases the push sheet 24, the push sheet 24 drives the sliding base 21 and the transformable toy 02 to be ejected forwards under the action of the launching spring 22, and the transformable toy 02 is launched out.

Specifically, as shown in fig. 11, the unlocking assembly includes a handle 28, and the handle 28 is rotatably connected to a cover plate 011 (the cover plate 011 is omitted in fig. 11) of the emulator 01. An eccentric 281 is provided at a hinge of the handle 28, and the eccentric 281 is in contact with the locking assembly 27.

When the handle 28 is rotated backward (i.e., the ready-to-fire end), the cam 281 pushes the locking assembly 27 downward, so that the rear end of the first guide surface 271 moves downward and releases the push-piece 24, and the push-piece 24 is ejected forward by the firing spring 22, thereby driving the slide 21 and the transformable toy 02 to be ejected forward.

When the handle 28 is flipped forward, the cam 281 releases the locking assembly 27 and the locking assembly 27 returns upward to the initial position under the influence of a return spring (not shown).

Further, as shown in fig. 9, the emission unit further includes a false triggering prevention member 29, and a bottom end of the false triggering prevention member 29 protrudes from a bottom of the emulator 01;

when the sliding seat 21 slides to the preparation transmitting end, the false triggering prevention assembly 29 locks the push sheet 24;

when the false trigger prevention member 29 is pushed up, the push piece 24 is unlocked.

Specifically, as shown in fig. 11 to 12, the false triggering prevention assembly 29 includes a safety lever 291, an unlocking block 292, and a return spring 293, the bottom end of the safety lever 291 protrudes downward through the lower housing 012 of the emulator 01, the upper end of the safety lever 291 contacts the bottom surface of the unlocking block 292, the top surface of the unlocking block 292 is connected to the two return springs 293, and the return spring 293 contacts the inner wall of the cover plate 011.

Normally, the return spring 293 pushes the unlocking block 292 and the safety lever 291 downward so that the safety lever 291 comes out of the lower housing 012. At this time, as shown in fig. 9, the second guide surface 292a is provided on the unlocking block 292, the other wing 242 of the pushing piece 24 abuts against the rear end of the second guide surface 292a, and the unlocking block 292 and the locking assembly 27 cooperate to prevent the pushing piece 24 from being ejected forward by the launching spring 22. The anti-false trigger assembly 29 prevents a child from rotating the handle 28 to launch the transformable toy 02 when the simulator 01 is not ready to be launched due to a malfunction.

Before the simulator 01 is ready to be launched, the bumper 291 is lifted up by the ground or the game table, the bumper 291 pushes the unlocking block 292 upward, and the unlocking block 292 no longer acts on the wing 242 of the push plate 24. When handle 28 is rotated, handle 28 pushes locking assembly 27 downward, releasing blade 24, and causing the transformable toy 02 to be launched. The wing 242 slides forward along the second guide surface 292a, and the second guide surface 292a contacts the upper surface of the wing 242.

When the push piece 24 is pushed backward again, the wing 242 slides backward along the second guide surface 292a until the front end of the wing 242 abuts against the rear end of the second guide surface 292 a.

The false triggering prevention assembly 29 is arranged to ensure that the simulator 01 can operate the launching of the toy 02 only when being placed on the ground or the game table, so that the toy 02 can slide or run on the ground or the game table after being launched.

Further, as shown in fig. 10, a torsion spring 282 is sleeved at one hinged end of the handle 28, and when the handle 28 is turned backwards, the torsion spring 282 is deformed to store energy. When the handle 28 is flipped forward to return to the initial position, the torsion spring 282 returns to its original position.

In some embodiments of the utility model, as shown in fig. 13, simulator 01 still includes second sound optical module 4, and when handle 28 rotated, eccentric wheel 281 promoted locking subassembly 27 downwards, and locking subassembly 27 pressed the switch of second sound optical module 4 downwards, produced different reputation effect when realizing the transmission for sound when the simulated emission produced different light efficiencies.

In some embodiments of the present invention, as shown in fig. 1-2, the simulator 01 further includes a turning support leg 3, before the toy 02 is launched, the turning support leg 3 is turned downwards, and the turning support leg 3 supports the prepared launching end of the simulator 01, so that the launching end of the simulator 01 is tilted downwards.

When the simulator 01 is played alone or the transformable toy 02 is mounted to the simulator 01, the turning legs 3 can be turned upward and received in the rear of the simulator 01. The emulator 01 is maintained in a horizontal state at this time, so that the insertion of the insertion card 03 or the installation of the transformable toy 02 to the emulator 01 is facilitated.

When the transformable toy 02 is loaded and ready to be launched, the turning legs 3 are turned downward and backward, so that the turning legs 3 are in contact with the ground or the game table, and the tail end of the simulator 01 is supported, so that the front end of the simulator 01 is lower than the tail end of the simulator 01, namely, the launching end of the simulator 01 is inclined downward.

Thus, after the transformable toy 02 is launched, the transformable toy 02 is separated from the simulator 01, and then slides downwards to the ground or the game table, so that the transformable toy 02 can be overturned.

In some embodiments of the present invention, as shown in fig. 3-4, the transformable toy 02 includes a body 021 and a transformable member 022, wherein the transformable member 022 is connected to the body 021 via a transformable buckle 023;

in the first form, the transformable toy 02 is in the shape of a car; in the second state, the deformation member 022 is turned and unfolded relative to the body 021, and is deformed into an animal shape.

Specifically, the deformation member 022 includes a first deformation member 022-1, a second deformation member 022-2, a third deformation member 022-3, a fourth deformation member 022-4, and a fifth deformation member 022-5.

As shown in fig. 3, the first deformable member 022-1 and the second deformable member 022-2 are two parts of the front part of the upper shell of the train in the first form; as shown in fig. 4, the first deformation member 022-1 and the second deformation member 022-2 are turned and unfolded upwards and left and right to form the main wing shape of the beast.

As shown in fig. 3, a third transformation 022-3 and a fourth transformation 022-4 (not shown in fig. 3) are left and right portions of a rear portion of an upper shell of a train; as shown in FIG. 4, the third deformable member 022-3 and the fourth deformable member 022-4 are turned and unfolded towards the left and right sides to form the shape of the paraspinal wings of the animal.

As shown in fig. 3, a fifth deformation 022-5 is a top shell of the train; as shown in fig. 4, the fifth deforming member 022-5 is turned backward and unfolded to form a tail shape of the beast.

As shown in fig. 3, the body 021 serves as a chassis of the train; as shown in fig. 4, the body 021 is shaped as a standing base of the animal.

In this embodiment, the deformable buckle 023 comprises a first buckle 023-1, a second buckle 023-2, a third buckle 023-3, a fourth buckle 023-4, a fifth buckle 023-5, a sixth buckle 023-6, a seventh buckle 023-7, an eighth buckle 023-8, a ninth buckle 023-9 and a tenth buckle 023-10.

As shown in FIG. 14, the body 021 is provided with a first buckle 023-1, a second buckle 023-2 and a third buckle 023-3, the first deformable member 022-1 is provided with a fourth buckle 023-4, the second deformable member 022-2 is provided with a fifth buckle 023-5, and the trunk 025 is provided with a sixth buckle 023-6.

The body part 025 is rotatably connected with the body 021, the body part 025 is folded and hidden between the body 021 and the fifth deformation part 022-5 in the first state, and the body part 025 is turned upwards and unfolded in the second state to form the body shape of the magical animal. The first and second deformation members 022-1 and 022-2 are rotatably coupled to the left and right sides of the trunk 025, and the third and fourth deformation members 022-3 and 022-4 are also rotatably coupled to the left and right sides of the trunk 025.

In the first state, the first buckle 023-1 is matched with the fourth buckle 023-4 to lock the first deformation piece 022-1 at the upper left front part of the body 021; the second buckle 023-2 is matched with the fifth buckle 023-5 to lock the second deformation piece 022-2 at the right front upper part of the body 021; third catch 023-3 mates with sixth catch 023-6 to lock torso 025 above body 021.

As shown in FIG. 15, a seventh buckle 023-7 is arranged on the third deforming part 022-3, an eighth buckle 023-8 is arranged on the fourth deforming part 022-4, a ninth buckle 023-9 is arranged on the left side of the fifth deforming part 022-5, and a tenth buckle 023-10 is arranged on the right side.

When in the first state, the seventh buckle 023-7 is matched with the ninth buckle 023-9 to lock the third deformation piece 022-3; eighth snap 023-8 mates tenth snap 023-10 locking fourth variant piece 022-4 and fifth variant piece 022-5 at the same time.

Alternatively, the first and second configurations of the transformable toy 02 may have other configurations, and the transforming member 022 may include other different plurality of members.

The utility model discloses an in some embodiments, as shown in fig. 16, the deformation toy 02 includes gyro wheel 7 and roll trigger unit 8, and after the deformation toy 02 was launched by simulator 01, gyro wheel 7 rolled, and gyro wheel 7 drove the operation of roll trigger unit 8, and roll trigger unit 8 is used for triggering and warp buckle 023 unblock, makes deformation piece 022 and body 021 separation.

Specifically, at least two rollers 7 are installed at the rear end of the bottom of the body 021 and serve as wheels of the train. The bottom front end of the body 021 is also provided with two auxiliary wheels 9. After launching, the rollers 7 and auxiliary wheels 9 roll rapidly on the ground or playing surface, causing the entire transformable toy 02 to travel forward.

When gyro wheel 7 rolled, drive roll trigger unit 8 operation, roll trigger unit 8 is used for triggering and warp buckle 023 unblock, and the piece 022 that warp after the unblock warp the second form, and the expansion is the magical beast molding.

In some embodiments of the present invention, as shown in fig. 16, the rolling trigger unit 8 includes a turbine 81, a gear set 82 and an unlocking gear 83, the gear set 82 includes a large gear 821 and a small gear 822 which are coaxially and fixedly connected, and the unlocking gear 83 includes a tooth portion 831 and an unlocking portion 832;

the turbine 81 is coaxially and fixedly connected with the roller 7, the turbine 81 is meshed with the large gear 821, and the small gear 822 is meshed with the tooth 831 of the unlocking gear 83;

when the roller 7 rotates, the turbine 81, the gear set 82 and the unlocking gear 83 are driven to rotate, when the unlocking gear 83 rotates to the unlocking part 832 to push the deformation buckle 023 to move, the deformation piece 022 is separated from the body 021, and the deformation piece 022 is rotationally deformed.

Specifically, the tooth 831 of the unlocking gear 83 is a circular arc tooth segment, the unlocking portion 832 is disposed adjacent to the tooth 831 in the circumferential direction, the unlocking portion 832 protrudes outward in the radial direction, and a gap is formed between the unlocking portion 832 and the tooth 831.

As shown in FIG. 16, a buckle mounting plate 026 and a push spring 027 are provided at the bottom of the body 021, and the buckle mounting plate 026 is fixedly connected to the first buckle 023-1, the second buckle 023-2 and the third buckle 023-3. The catch mounting plate 026 is compressed by the push spring 027 to a position close to the unlocking gear 83.

When the pinion 822 is engaged with the tooth 831 and drives the unlocking gear 83 to rotate, and when the vacant part rotates to the corresponding buckle mounting plate 026, the unlocking gear 83 does not act on the buckle mounting plate 026; when the unlocking part 832 rotates to the corresponding buckle mounting plate 026, the unlocking part 832 pushes the buckle mounting plate 026 forward, compressing the push spring 027, the buckle mounting plate 026 drives the first buckle 023-1, the second buckle 023-2 and the third buckle 023-3 to move, so that the first buckle 023-1, the second buckle 023-2 and the third buckle 023-3 are separated from the fourth buckle 023-4, the fifth buckle 023-5 and the sixth buckle 023-6, thereby triggering the deformation unfolding of the first deformation member 022-1, the second deformation member 022-2 and the trunk part, the first deformation member 022-1 and the second deformation member 022-2 respectively drive the third deformation member 022-3 and the fourth deformation member 022-4 to move, so that the seventh buckle 023-7 is separated from the ninth buckle 023-9, eighth catch 023-8 is separated from tenth catch 023-10, so as to further unlock fifth deforming piece 022-5, and finally, the whole deforming toy 02 is deformed to the second shape.

When the vacant part of the unlocking gear 83 rotates again to the corresponding catch mounting plate 026, the catch mounting plate 026 is restored to the initial position by the urging spring 027.

The playing method of the utility model in a preferred embodiment is as follows:

a first playing method comprises the following steps: the imitator 01 is played alone, inserts the plug-in card 03 into imitator 01, triggers first reputation module 1, and the plug-in card 03 has many, and every plug-in card 03 triggers different reputation effect.

And (2) playing a second method: the simulator 01 is used as a launcher of the deformable toy 02 to play, the deformable toy 02 is clamped on a sliding seat 21 of the simulator 01, then the sliding seat 21 and the deformable toy 02 are backwards slid to the rearmost end (a prepared launching end) together, so that the deformable toy 02 is loaded, and the launching unit 2 stores energy; then, the turning legs 3 are turned over downward, the imitator 01 is placed on the ground, and the mis-triggering prevention assembly 29 releases the locking of the push piece 24; finally, handle 28 is rotated rearwardly to unlock locking assembly 27, and to release push tab 24, and push tab 24 ejects slide 21 and transformable toy 02 forwardly together, slide 21 being separated from transformable toy 02, and transformable toy 02 being launched from simulator 01.

The deformation toy 02 slides on the ground after being separated from the simulator 01, the roller 7 rolls to drive the rolling trigger unit 8 to rotate, the rolling trigger unit 8 drives the buckle mounting plate 026 to move forwards, the buckle mounting plate 026 drives part of the deformation buckle 023 to be unlocked, the expansion deformation of the deformation piece 022 is realized, and the deformation toy 02 is switched to a second form.

The transformable toy 02 is launched in a train configuration and transformed to a second configuration in a beast configuration after traveling a distance above ground.

The utility model discloses a combined toy both can play alone, also can make up and play, when making up and playing, when the imitator launches the deformation toy, triggers the deformation toy and warp, makes the toy more interesting, can play for a long time, and object for appreciation nature, interest are stronger.

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 combination toy, characterized in that it comprises a simulator (01) and a transformable toy (02);

the simulator (01) comprises a first acousto-optic module (1) and an emission unit (2), wherein the first acousto-optic module (1) can generate acousto-optic effect through external triggering;

the transformable toy (02) has a first configuration and a second configuration;

after the transformable toy (02) in the first form is mounted on the simulator (01), the transformable toy (02) can be launched when the launching unit (2) of the simulator (01) is triggered, and the transformable toy (02) is triggered to transform from the first form to the second form.

2. The toy set of claim 1, wherein the launching unit (2) comprises a slide (21) and a launching spring (22), the transformable toy (02) being inserted into the slide (21), the transformable toy (02) and the slide (21) compressing the launching spring (22) when sliding towards the ready-to-launch end, the launching spring (22) bringing the slide (21) to launch the transformable toy (02) from the launch end when the launching spring (22) is released.

3. The combination toy of claim 2, wherein the launching unit (2) further comprises a sliding slot (23) and a push plate (24), the sliding seat (21) slides along the sliding slot (23), the sliding seat (21) extends out of a connecting column (211) towards the push plate (24), the connecting column (211) passes through the sliding slot (23) and then is connected with the push plate (24), and the push plate (24) is connected with one end of the launching spring (22);

when the sliding seat (21) slides along the sliding groove (23), the pushing sheet (24) is driven, and the pushing sheet (24) drives one end of the launching spring (22) to move together.

4. A combination toy according to claim 3, wherein the firing unit (2) further comprises a locking assembly which locks the push tab (24) when the slide (21) is slid to the ready firing end.

5. The combined toy as claimed in claim 4, characterized in that the launching unit (2) further comprises an unlocking assembly which, when rotated, pushes the locking assembly, which releases the push tab (24), the push tab (24) under the action of the launching spring (22) brings the slide (21) and the transformable toy (02) to launch forward, the transformable toy (02) being launched out.

6. The composed toy according to claim 1, characterized in that said emission unit (2) further comprises an anti-false triggering component telescopically arranged at the bottom of said imitator (01);

when the imitator (01) is lifted, the bottom end of the false trigger prevention component extends out of the bottom of the imitator (01) to lock the emission unit (2);

and when the false triggering prevention assembly is jacked upwards, the transmitting unit (2) is unlocked.

7. The combination toy of claim 1, wherein the simulator (01) further comprises a turning leg (6), the turning leg (6) is turned downward before the transformable toy (02) is launched, and the turning leg (6) supports a preliminary launching end of the simulator (01) such that the launching end of the simulator (01) is tilted downward.

8. The composed toy of claim 1, characterized in that the transformable toy (02) comprises a body (021) and a transforming piece (022), the transforming piece (022) being connected with the body (021) by a transforming snap (023);

warp toy (02) and include gyro wheel (7) and roll trigger element (8), warp toy (02) quilt after imitator (01) launches, gyro wheel (7) roll, gyro wheel (7) drive roll trigger element (8) operation, roll trigger element (8) are used for triggering warp buckle (023) unblock, make warp piece (022) with body (021) separation.

9. The combination toy of claim 8, wherein the rolling trigger unit (8) comprises a worm gear (81), a gear set (82) and an unlocking gear (83), the gear set (82) comprising a gearwheel (821) and a pinion (822) which are coaxially fixedly connected, the unlocking gear (83) comprising a toothing (831) and an unlocking portion (832);

the turbine (81) is coaxially and fixedly connected with the roller (7), the turbine (81) is meshed with the large gear (821), and the small gear (822) is meshed with the tooth part (831) of the unlocking gear (83);

when gyro wheel (7) rotate, drive turbine (81), gear train (82) with unblock gear (83) are rotated, work as unblock gear (83) are rotated and are arrived unblock portion (832) promote warp buckle (023) when removing, warp piece (023) with body (021) separation, it rotates deformation to warp piece (022).

10. The combination toy of claim 1, further comprising at least two insertion cards (03), wherein the emulator (01) has a slot (013), and when the insertion card (03) is inserted into the slot (013), the insertion card (03) triggers the first acousto-optic module (1) to emit an acousto-optic effect.

Images