CN217409725U - Combined acousto-optic toy - Google Patents

Abstract

The application discloses a combined acousto-optic toy, which comprises a first acousto-optic toy, a second acousto-optic toy and a single toy; the first acousto-optic toy comprises a first acousto-optic assembly; the second acoustic light toy comprises a second acoustic light assembly; the toy cell comprises a first combination portion, the first acousto-optic toy comprises a first joint portion, and the second acousto-optic toy comprises a second joint portion; the combined acousto-optic toy at least comprises a first structural form and a second structural form; when in the first configuration, the single toy is connected with the first joint part through the first combination part and triggers the first acousto-optic assembly to start; when the toy is in the second configuration, the single toy is connected with the second joint part through the first combination part and triggers the second sound and light assembly to start. The player and the toy have the advantages of strong interactivity, high interest, various playing forms and higher playability.

Description

Combined acousto-optic toy

Technical Field

The application relates to the technical field of toys, in particular to a combined acousto-optic toy.

Background

The existing magic wand toy has the advantages that the existing magic wand toy is simple in structure, single in playing method, poor in interestingness and difficult to arouse the interest of children, and the existing magic wand toy can generally achieve the functions of sound production and light emission if being popular with children.

Therefore, it is necessary to design a sound-light triggered toy with high interest, various forms and high playability.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the not enough of prior art, provide a modular reputation toy, the interactivity between player and the toy is strong, and is interesting high, and the form of playing is various, has higher object for appreciation nature.

The technical scheme of the application provides a combined acousto-optic toy which comprises a first acousto-optic toy, a second acousto-optic toy and a single toy;

the first acousto-optic toy comprises a first acousto-optic assembly;

the second acoustic light toy comprises a second acoustic light assembly;

the toy cell comprises a first combination portion, the first acousto-optic toy comprises a first joint portion, and the second acousto-optic toy comprises a second joint portion;

the combined acousto-optic toy at least comprises a first structural form and a second structural form;

when in the first configuration, the single toy is connected with the first joint part through the first combination part and triggers the first acousto-optic assembly to start;

when the toy is in the second configuration, the single toy is connected with the second joint part through the first combination part and triggers the second sound and light assembly to start.

Preferably, the second acousto-optic toy further comprises a third joint, and the combined acousto-optic toy further comprises a third configuration;

when the toy is in the third configuration, the single toy is connected with the third joint part through the first combination part and is fixed on the second acousto-optic toy.

Preferably, the second acoustic and optical toy further includes a second base and a cover, the cover is movably connected to the second base, the second joint portion is disposed on the second base, and the second acoustic and optical assembly is disposed on the second base;

the second acousto-optic toy comprises an on state and an off state;

when in the open state, the cover is opened;

when the toy is in the closed state, the cover body is closed, and a containing cavity for containing the single toy is formed between the second seat body and the cover body.

Preferably, the second acoustic-optic toy further comprises an inserting part, the second seat body is provided with an inserting port, and the inserting part is detachably mounted in the inserting port;

when the inserting part is inserted into the inserting port, the inserting part triggers the second sound light assembly to start.

Preferably, the second acoustic light toy further comprises a trigger button electrically connected with the second acoustic light assembly and used for triggering the second acoustic light assembly to act.

Preferably, the first acousto-optic toy further includes a first seat and a cover-shaped housing, the first engaging portion is disposed on the first seat, the first acousto-optic assembly is disposed on the first seat, and the cover-shaped housing is detachably mounted on the first seat.

Preferably, the cover-shaped housing comprises a trigger piece, and the first seat body is provided with an accommodating groove;

when the trigger piece is inserted into the accommodating groove, the first acousto-optic assembly is triggered to start.

Preferably, a first limiting structure is arranged between the first seat body and the cover-shaped shell;

the first limiting structure comprises a first connecting part and a second connecting part, the first connecting part is arranged on one of the first seat body or the cover-shaped shell, and the second connecting part is arranged on the other one of the first seat body or the cover-shaped shell;

after the trigger piece is inserted into the accommodating groove, the first connecting portion and the second connecting portion are connected to fix the cover-shaped shell and the first base.

Preferably, the first acousto-optic toy further comprises a rod body and an acousto-optic body, the acousto-optic body comprises a third acousto-optic component for outputting acousto-optic sound, and a trigger mechanism for triggering the third acousto-optic component to act is arranged between the rod body and the acousto-optic body;

the first acousto-optic toy at least comprises an extension state and a folding state;

when in the extended configuration, the acousto-optic body is movable to a first position relative to the rod, the acousto-optic body being in an upper portion of the rod;

when the sound-light body is in the folding state, the sound-light body moves to a second position relative to the rod body, and the sound-light body and the rod body are in the folding state;

when the telescopic type portable electronic device is switched to the extension state or the folding state, the triggering mechanism triggers the third acousto-optic component to act, and the third acousto-optic component outputs acousto-optic.

Preferably, a locking mechanism is provided between the rod and the acousto-optic body, the locking mechanism comprising a locking portion which is capable of holding the acousto-optic body in the first position or the second position.

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

this application can combine to play with monoblock toy and first reputation toy and second reputation toy, and can trigger first reputation subassembly and second reputation subassembly through monoblock toy and start for interactive reinforcing between player and the toy, the player also can freely make up the monoblock toy and play with first reputation toy and second reputation toy, makes the form of playing diversified, has improved the interest and the object for appreciation nature of toy.

Drawings

The disclosure of the present application 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 application. In the figure:

FIG. 1 is a schematic view of a second acousto-optic toy of the present invention in one embodiment;

fig. 2 is another perspective view of the second acousto-optic toy of the present invention in one embodiment;

FIG. 3 is a schematic view of the internal structure of a second acousto-optic toy according to one embodiment of the present invention;

FIG. 4 is a schematic view of the present invention in one embodiment of a one-piece toy body;

fig. 5 is a schematic view of a first acousto-optic toy according to one embodiment of the invention;

FIG. 6 is an exploded view of a first acousto-optic toy according to one embodiment of the present invention;

fig. 7 is a schematic view of the present invention in one embodiment of a hood-shaped housing;

fig. 8 is a partial enlarged view of the invention at a in fig. 7 in one embodiment;

FIG. 9 is a schematic view of the present invention with the hood-shaped housing removed from the first acousto-optic toy in one embodiment;

fig. 10 is a schematic view of the first seat according to one embodiment of the present invention;

FIG. 11 is an enlarged view of a portion of FIG. 10 at B;

fig. 12 is a schematic view of a pedestal according to one embodiment of the present invention;

FIG. 13 is a schematic view of the first acousto-optic toy of the present invention in an extended state in one of its embodiments;

fig. 14 is a schematic view of the first acousto-optic toy of the present invention in a collapsed state in one embodiment;

FIG. 15 is an enlarged view of a portion of FIG. 13 at C;

fig. 16 is a schematic view of the internal structure of the acousto-optic body according to one embodiment of the present invention;

fig. 17 is a schematic view of the first rotating part of the present invention in one of its embodiments;

fig. 18 is a schematic view of a first acousto-optic toy according to another embodiment of the invention in an extended state;

fig. 19 is a schematic view of a first acousto-optic toy according to another embodiment of the invention in a collapsed state;

FIG. 20 is an enlarged view of a portion of FIG. 19 at D;

fig. 21 is a schematic view of the upper end of the body of the present invention in one embodiment;

fig. 22 is a schematic view of a second locking member of the present invention in one embodiment;

fig. 23 is a schematic view of a first acousto-optic toy according to yet another embodiment of the invention in an extended state;

fig. 24 is a schematic view of a first acousto-optic toy according to a further embodiment of the invention in a collapsed state;

fig. 25 is a schematic view of a second rotating portion of the present invention in one embodiment;

fig. 26 is a schematic view of a wing portion of the present invention in one embodiment.

Reference symbol comparison table:

first acousto-optic toy 1:

a first acousto-optic assembly 10;

first seat 11: the accommodating groove 111, the first trigger switch 112, the second connecting portion 113, the limiting groove 1131, the insertion opening 1132, the first positioning portion 114, the blocking plate 115, the pedestal 116, and the elastic contact 1161;

the cover-shaped housing 12: the trigger 121, the first connecting portion 122, the limiting member 1221, and the second positioning portion 1222;

a first engaging portion 13;

the rod body 14: a first rotating base 141, a limiting hole 142, a connecting base 143;

the acousto-optic body 15: a third acousto-optic assembly 151, a third trigger switch 152, a housing 153;

the trigger mechanism 16: a first linkage rod 161, a second elastic piece 162, a contact part 163 and a limit bump 164;

the lock mechanism 17: the first rotating part 171, the first rotating shaft 1711, the first locking part 1712, the first elastic part 1713, the limiting bayonet 1714, the sliding seat 172, the second locking part 1721, the third elastic part 1722, the second rotating part 173, the limiting clamping block 1731, the limiting clamping groove 1732, the movable block 1733 and the fourth elastic part 1734;

wing portion 18: the second rotating shaft 181, the convex teeth 1811, the clamping ring 182 and the groove 1821;

second sound light toy 2:

a second sound-light assembly 21, a second trigger switch 211, a second joint 22, a third joint 23, a second base 24, a placing panel 241, a socket 242, a cover 25, a socket 26, and a trigger button 27;

the toy block 3:

a first combining portion 31.

Detailed Description

Embodiments of the present application are further described below with reference to the accompanying drawings.

It is easily understood that according to the technical solutions of the present application, those skilled in the art can substitute various structures and implementations without changing the spirit of the present application. Therefore, the following detailed description and the accompanying drawings are merely illustrative of the technical solutions of the present application, and should not be construed as limiting or restricting the technical solutions of the present application in their entirety.

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. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present application, it should be noted that unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as being fixed or detachably connected, or integrally connected; can be mechanically or electrically connected; the two components can be directly connected or indirectly connected through an intermediate medium, and the two components can be communicated with each other. The foregoing is to be understood as belonging to the specific meanings in the present application as appropriate to the person of ordinary skill in the art.

In one embodiment of the utility model, a combined acousto-optic toy is disclosed, which comprises a first acousto-optic toy 1, a second acousto-optic toy 2 and a single toy 3;

the first acousto-optic toy 1 includes a first acousto-optic assembly 10;

the second acoustic light toy 2 includes a second acoustic light assembly 21;

the toy in one piece 3 includes a first combining portion 31, the first acousto-optic toy 1 includes a first engaging portion, and the second acousto-optic toy 2 includes a second engaging portion 22;

the combined acousto-optic toy at least comprises a first configuration and a second configuration;

when in the first configuration, the toy cell 3 is connected to the first joint portion through the first combining portion 31 and triggers the first acousto-optic assembly 10 to start;

when in the second configuration, the toy cell 3 is connected to the second joint 22 via the first combining portion 31 and triggers the second acoustic and optical assembly 21 to activate.

Further, the first acousto-optic assembly 10 includes a first light emitting element, a first sound emitting element, a first trigger circuit and a first trigger switch 112, wherein the first light emitting element and the first sound emitting element are electrically connected in the first trigger circuit, and the first trigger switch 112 is used for controlling on/off of the first trigger circuit. The second acousto-optic component 21 includes a second light emitting element, a second sound emitting element, a second trigger circuit and a second trigger switch 211, wherein the second light emitting element and the second sound emitting element are electrically connected in the second trigger circuit, and the second trigger switch 211 is used for controlling on/off of the second trigger circuit.

When in the first configuration, the first combination portion 31 is connected to the first joint portion 13 to trigger the first trigger switch 112 to operate, so that the first trigger circuit is closed, and the first light-emitting element and the first sound-emitting element are activated.

When in the second configuration, the first combining portion 31 is connected to the second connecting portion 22 to trigger the second trigger switch 211 to operate, so that the second trigger circuit is closed, and the second light emitting element and the second sound emitting element are activated.

Preferably, the first combining portion 31 is disposed at the bottom of the toy cell 3, the first combining portion 31 is a recessed opening, the first engaging portion and the second engaging portion 22 are inserts, and when the toy cell 3 is combined with the first acousto-optic toy 1 or the second acousto-optic toy 2, the inserts are inserted into the recessed opening, and simultaneously the first trigger switch 112 or the second trigger switch 211 is triggered, so that the first trigger circuit or the second trigger circuit is closed.

Alternatively, the first combining portion 31 is an insert, and the first engaging portion and the second engaging portion 22 are insert openings.

Wherein, the single toy 3 can be designed into different shapes according to requirements, such as pet shape, building shape or vehicle shape.

In this application, the player can freely combine and play monomer toy 3 with first reputation toy 1 or second reputation toy 2, simultaneously, when installing monomer toy 3 at first reputation toy 1 or second reputation toy 2, can trigger first reputation subassembly 10 or the action of second reputation subassembly 21 through monomer toy 3 to interactive between player and the toy has been improved, also make the form of playing of toy more diversified simultaneously, can improve the interest of toy and the interest of transferring the player better.

In some embodiments of the present invention, the second acousto-optic toy 2 further includes a third joint 23, and the combined acousto-optic toy further includes a third configuration;

when in the third configuration, the single toy 3 is connected to the third joint portion 23 through the first combining portion 31 and fixed to the second acousto-optic toy 2.

Further, the second engaging portion 22 and the third engaging portion 23 are each provided in plurality, wherein a plurality of the toy cells 3 can be connected to the second engaging portion 22 and the third engaging portion 23.

Specifically, the second joint 22 is linked with the second optical component 21, and the third joint 23 is not linked with the second optical component 21, wherein the second optical component 21 can be triggered to output sound and light when the player connects the toy-in-cell 3 with the second joint 22, and the second optical component 21 does not act when the player connects the toy-in-cell 3 with the third joint 23. Therefore, the player can freely select to mount the unit toy 3 to the second engaging part 22 or the third engaging part 23, so that the play form of the toy is increased, and the playability of the toy is improved.

In some embodiments of the present invention, the second acousto-optic toy 2 further includes a second seat 24 and a cover 25, the cover 25 is movably connected to the second seat 24, the second joint 22 is disposed on the second seat 24, and the second acousto-optic assembly 21 is disposed on the second seat 24;

the second acousto-optic toy 2 comprises an open state and a closed state;

when in the open state, the cover 25 is opened;

when in the closed state, the cover 25 is closed, and a receiving cavity for receiving the toy block 3 is formed between the second seat 24 and the cover 25.

Further, the second audio-visual toy 2 is box-shaped, one side of the cover 25 is hinged to the second seat 24 and can be turned over to be opened, and the other end of the cover 25 can be fastened to the second seat 24, so that the cover 25 is kept closed.

Preferably, a placing panel 241 is disposed on the second base 24, and the plurality of second engaging portions 22 and the plurality of third engaging portions 23 are disposed on the placing panel 241, respectively, wherein the second trigger switch 211 is disposed below the second engaging portion 22, and when the unitary toy 3 is mounted on the second engaging portion 22, the second engaging portion 22 triggers the second trigger switch 211 to close, so that the second trigger circuit is closed and the second acousto-optic component 21 acts to output acousto-optic light.

Further, the second trigger switch 211 is a pressure sensitive switch, and thus when the toy unit 3 is mounted at the second engaging portion 22, the toy unit 3 applies gravity to the pressure sensitive switch, thereby triggering the pressure sensitive switch to be closed.

Alternatively, a movable rod is provided in the second engaging portion 22, the movable rod being capable of moving in the longitudinal direction, and when the unitary toy 3 is mounted on the second engaging portion 22, the unitary toy 3 pushes the movable rod to move in the direction of the second trigger switch 211, so that the movable rod triggers the second trigger switch 211 to close.

In some embodiments of the present invention, the second acousto-optic toy 2 further includes a plug portion 26, the second seat 24 is provided with a plug port 242, and the plug portion 26 is detachably installed in the plug port 242;

when the plug part 26 is inserted into the plug interface 242, the plug part 26 triggers the second acoustic light assembly 21 to start.

Further, the second trigger switch 211 may be further disposed in the insertion opening 242, and when the insertion portion 26 is inserted into the insertion opening 242, the insertion portion 26 triggers the second trigger switch 211, so that the second acousto-optic assembly 21 is activated, thereby further improving the play form of the toy.

In some embodiments of the present invention, the second acousto-optic toy 2 further includes a trigger button 27, and the trigger button 27 is electrically connected to the second acousto-optic assembly 21 and is used for triggering the second acousto-optic assembly 21 to act. The trigger button 27 is used to control the on/off of the second trigger circuit, and a player can manually press the trigger button 27 to control the on/off of the second trigger circuit, and further control the action of the second acousto-optic module 21.

In some embodiments of the present invention, as shown in fig. 5, the first acousto-optic toy 1 further includes a first housing 11 and a cover-shaped housing 12, the first engaging portion 13 is disposed on the first housing 11, the first acousto-optic assembly 10 is disposed on the first housing 11, and the cover-shaped housing 12 is detachably mounted on the first housing 11.

As shown in fig. 6, the cover-shaped housing 12 includes a trigger 121, and the first seat 11 is provided with a receiving groove 111;

when the trigger 121 is inserted into the receiving groove 111, the first acousto-optic assembly 10 is triggered to start.

Wherein, first pedestal 11 can be used for bearing cover shape casing 12, and cover shape casing 12 detachably installs on first pedestal 11, and first pedestal 11 can combine in order to improve playability with the toy of multiple different grade type. Preferably, the first housing 11 is mounted on the stick body as the top end portion of the magic stick for the player to play with. Alternatively, the first housing 11 can also be mounted on a toy vehicle or game table.

Further, when the cover-shaped housing 12 is mounted on the first seat 11, a containing cavity is formed between the cover-shaped housing 12 and the first seat 11, and the containing cavity can be used for containing small toys, so as to meet different play requirements of players.

Still further, as shown in fig. 6, the trigger 121 is disposed at the bottom of the hood-shaped housing 12, the first trigger circuit includes a first trigger switch 112, the first trigger switch 112 is disposed in the receiving groove 111, when the hood-shaped housing 12 is installed on the first seat 11, the trigger 121 at the bottom of the hood-shaped housing 12 is inserted into the receiving groove 111 on the first seat 11 and contacts with the first trigger switch 112, so as to trigger the first trigger circuit to be closed, and the first acousto-optic assembly 10 is started and outputs acousto-optic, so as to realize the linkage between the hood-shaped housing 12 and the first acousto-optic assembly 10.

Optionally, the trigger element 121 is a metal element, and the trigger element 121 is capable of conducting electricity, wherein the accommodating groove 111 disconnects the first trigger circuit, both ends of the accommodating groove 111 are conductive plates connected to the first trigger circuit, and when the trigger element 121 is inserted into the accommodating groove 111, the trigger element 121 contacts the conductive plates at both ends of the accommodating groove 111 to close the first trigger circuit.

Further, the first acousto-optic assembly 10 includes a first light-emitting element and a first sound-emitting element, wherein the first acousto-optic assembly 10 can be disposed on a circumferential side wall of the first seat 11, and when the cover-shaped shell 12 is installed, the periphery of the first seat 11 emits sound and light to realize interaction with a player. The first acousto-optic assembly 10 can be mounted on the upper end surface of the first base 11, and after the cover-shaped housing 12 is mounted, the cover-shaped housing 12 covers the first acousto-optic assembly 10, and the first acousto-optic assembly 10 outputs sound and light outwards through the cover-shaped housing 12.

In some embodiments of the present invention, a first limiting structure is disposed between the first seat 11 and the cover 12;

as shown in fig. 6, the first limiting structure includes a first connecting portion 122 and a second connecting portion 113, the first connecting portion 122 is disposed on one of the first seat 11 or the hood-shaped housing 12, and the second connecting portion 113 is disposed on the other of the first seat 11 or the hood-shaped housing 12;

after the trigger 121 is inserted into the receiving groove 111, the first connecting portion 122 is connected to the second connecting portion 113 to fix the cover-shaped housing 12 to the first seat 11.

The first connecting portion 122 and the second connecting portion 113 can fix the hood-shaped housing 12 and the first seat 11 relative to each other, that is, the hood-shaped housing 12 cannot be separated from the first seat 11.

Further, as shown in fig. 6 and 10, the receiving groove 111 is disposed in the middle of the first seat 11, preferably, the trigger member 121 is cylindrical, the receiving groove 111 is cylindrical matching the trigger member 121, the diameter of the receiving groove 111 is slightly larger than that of the trigger member 121, and when the cover-shaped housing 12 is installed, the cover-shaped housing 12 is inserted into the receiving groove 111 from top to bottom so that the cover-shaped housing 12 is installed on the first seat 11.

Optionally, the trigger 121 is prism-shaped, and the receiving groove 111 is prism-shaped to match the trigger 121.

As shown in fig. 6 and 9, a pedestal 116 is further disposed on the first seat 11, the pedestal 116 is disposed in the middle of the receiving groove 111, wherein when the hood-shaped housing 12 is mounted on the first seat 11, the outer wall of the trigger 121 abuts against the inner wall of the receiving groove 111, and the inner wall of the trigger 121 abuts against the outer wall of the pedestal 116, so that the hood-shaped housing 12 can be fixed in the horizontal direction and is not easy to move. In addition, the cover-shaped housing 12 and the first seat 11 are connected together by the first limiting structure, so that the cover-shaped housing 12 and the first seat 11 are fixed in the longitudinal direction, and further the cover-shaped housing 12 and the first seat 11 are relatively fixed.

Still further, when the cover-shaped housing 12 is inserted into the accommodating groove 111, the lower end surface of the trigger part 121 triggers to contact with the first trigger switch 112 and trigger the first trigger circuit to be closed, so that the trigger part 121 can keep contacting with the first trigger switch 112 through the first limiting structure, and the first acousto-optic component keeps outputting acousto-optic signals.

Optionally, an avoidance port is formed in the lower end surface of the trigger 121, and when the avoidance port of the trigger 121 moves to the upper side of the first trigger switch 112, the trigger 121 cannot contact the first trigger switch 112, so that the first acousto-optic component cannot act to output acousto-optic. That is, the hood-shaped housing 12 can be kept connected to the first housing 11, and the first acousto-optic module can be deactivated.

In some embodiments of the present invention, as shown in fig. 8-10, the first connecting portion 122 is a limiting member 1221, and the second connecting portion 113 is a limiting groove 1131;

the limiting groove 1131 is provided with an insertion opening 1132 into which the limiting piece 1221 is inserted, and the insertion opening 1132 is communicated with the limiting groove 1131;

when the trigger 121 is inserted into the receiving groove 111, the limiting member 1221 is inserted into the insertion opening 1132, and the cover-shaped housing 12 is rotated to insert the limiting member 1221 into the limiting groove 1131.

Further, as shown in fig. 8, the limiting member 1221 is a protrusion extending outward along the outer wall of the trigger 121, as shown in fig. 10, the limiting groove 1131 is an annular groove formed in the side wall of the accommodating groove 111, wherein the insertion opening 1132 is longitudinally disposed and is capable of allowing the limiting member 1221 to be inserted into the limiting groove 1131 from top to bottom, and then the cover-shaped housing 12 is rotated, so that the limiting member 1221 is separated from the insertion opening 1132, and the cover-shaped housing 12 and the first holder 11 are longitudinally fixed by the limiting member 1221 and the limiting groove 1131.

In the process of rotating the hood-shaped housing 12, the bottom of the trigger 121 is always in contact with the first trigger switch 112, so that the first acousto-optic module 10 can be ensured to operate continuously.

In some optional embodiments of the present invention, the first connection portion 122 is a first thread, and the second connection portion 113 is a second thread;

after the trigger 121 is inserted into the receiving groove 111, the cover-shaped housing 12 is rotated so that the first fastening body 11 is screwed with the cover-shaped housing 12 by the first and second threads.

Wherein the cover housing 12 is inserted into the receiving slot 111, and the trigger member 121 is screwed into the receiving slot 111 by rotating the cover housing 12, i.e. the cover housing 12 and the first fastening body 11 are fastened by screwing the first screw thread and the second screw thread.

Alternatively, the first connecting portion 122 may also be a spring pin, and the second connecting portion 113 may also be a pin hole, and after the trigger 121 is inserted into the receiving groove 111, the spring pin is inserted into the pin hole under the elastic action to fix the hood-shaped housing 12 and the first fastening body 11.

Alternatively, the first position-limiting structure can also be a latch disposed on the first fastening structure 11, and after the trigger 121 is inserted into the receiving slot 111, the cover shell 12 and the first fastening structure 11 are fixed together by using the latch.

In some embodiments of the present invention, the positioning device further includes a second positioning structure, the second positioning structure includes a first positioning portion 114 and a second positioning portion 1222, the first positioning portion 114 is disposed on one of the limiting member 1221 or the limiting groove 1131, and the second positioning portion 1222 is disposed on the other of the limiting member 1221 or the limiting groove 1131;

when the trigger 121 rotates to the locking position, the first positioning portion 114 is connected to the second positioning portion 1222 and limits the relative rotation between the first seat 11 and the cover housing 12.

Preferably, the first positioning portion 114 is disposed in the limiting groove 1131, the second positioning portion 1222 is disposed on the limiting member 1221, and when the trigger 121 is rotated to the locking position, the first positioning portion 114 and the second positioning portion 1222 are connected together, so as to limit the trigger 121 from further rotating, so that the first holder 11 and the cover-shaped housing 12 can be further fixed.

Further, the end of the limiting groove 1131 is provided with a blocking plate 115, and the limiting piece 1221 can be blocked by the blocking plate 115 to limit the limiting piece 1221 from continuously moving along the limiting groove 1131.

In some embodiments of the present invention, the first positioning portion 114 is a latch, and the second positioning portion 1222 is a notch, and when the trigger 121 rotates to the locking position, the latch is snapped into the notch and limits the relative rotation between the first seat 11 and the cover-shaped shell 12.

Preferably, as shown in fig. 11, the latch is disposed on an upper end surface or a lower end surface of the limiting groove 1131, as shown in fig. 5, the recess is disposed on an upper end surface or a lower end surface of the limiting member 1221, and when the trigger 121 is rotated to the locking position, the latch is latched into the recess, so that the limiting member 1221 cannot continue to slide along the limiting groove 1131, that is, the trigger 121 cannot rotate, so that the hood-shaped housing 12 and the first holder 11 are relatively fixed.

In some embodiments of the present invention, the cover-shaped casing 12 is a transparent structure, the first acousto-optic assembly 10 includes a first light emitting element, at least one first light emitting element is disposed on the first seat 11 and covered by the cover-shaped casing 12, and light of the first light emitting element can be emitted outwards through the cover-shaped casing 12.

Wherein, the first light-emitting component is connected in the first trigger circuit, when the first trigger circuit is closed, the first light-emitting component is powered on and opened, and the first light-emitting component is arranged in the cover-shaped shell 12, so that the first light-emitting component can emit light in the cover-shaped shell 12 at the same time of installing the cover-shaped shell 12 on the first seat body 11, thereby the playability of the toy is higher.

Alternatively, the cover-shaped housing 12 may be made of transparent materials with different colors, so that the light emitted from the first light-emitting element through the cover-shaped housing 12 has different colors. Or, the first light-emitting element can emit light rays with different colors so as to adapt to different toys for playing. Still alternatively, the first light emitting element may be a flashing light, and when the first light emitting element is activated, the first light emitting element can flash to emit light.

Alternatively, the first light emitting element can also be disposed on an outer wall of the first housing 11, and the first light emitting element can emit light outside the cover housing 12 when the cover housing 12 is mounted on the first housing 11.

In some embodiments of the present invention, the first trigger circuit includes a first trigger switch 112 for controlling the closing of the first trigger circuit, as shown in fig. 6, the first trigger switch 112 is disposed on the first seat 11, a pedestal 116 is disposed in the accommodating groove 111, as shown in fig. 12, an elastic contact piece 1161 is disposed on the pedestal 116, and the elastic contact piece 1161 is disposed above the first trigger switch 112;

when the trigger 121 is inserted into the accommodating groove 111, the trigger 121 presses against the elastic contact piece 1161 and causes the elastic contact piece 1161 to actuate to trigger the first trigger switch 112, so that the first trigger circuit is closed;

when the trigger 121 is separated from the receiving cavity 111, the elastic contact 1161 is separated from the first trigger switch 112, and the first trigger circuit is turned off.

Specifically, the elastic contact 1161 is a plastic sheet, one end of the elastic contact 1161 is a fixed end, the other end is a trigger end, the fixed end is fixedly connected to the pedestal 116, and the trigger end is disposed above the first trigger switch 112. When the trigger 121 is inserted into the receiving groove 111, the bottom of the trigger 121 contacts the trigger end of the elastic contact piece 1161 and pushes the trigger end to move downward and contact the first trigger switch 112, so that the first trigger switch 112 is closed, and the first trigger circuit is in a connected state. When the cover-shaped housing 12 is detached from the first seat 11, the triggering part 121 is separated from the triggering end, and the elastic contact 1161 makes the triggering end separated from the first triggering switch 112 under the elastic action of itself, so as to turn off the first triggering switch 112, i.e. make the first triggering circuit in an off state.

Optionally, an elastic member is disposed between the elastic contact piece 1161 and the first holder 11, and the elastic member can drive the triggering end of the elastic contact piece 1161 to be separated from the first trigger switch 112.

In some embodiments of the present invention, as shown in fig. 6, the toy building set further includes a toy building set 3, as shown in fig. 4, a first combination portion 31 is disposed on the toy building set 3, as shown in fig. 6, a first engagement portion 13 is disposed on the first seat 11, the first combination portion 31 is detachably connected to the first engagement portion 13, and the cover-shaped shell 12 covers the periphery of the toy building set 3.

Further, the toy units 3 can be designed into different shapes according to requirements, such as different pets, different automobiles and different buildings, so that the toy is more diversified. The single toy 3 can be fixedly connected with the first seat 11 through the third connecting portion and the first engaging portion 13, so as to improve the playability of the toy.

The first combining portion 31 is an insertion opening, the first connecting portion 13 is an insertion piece, and the insertion piece is inserted into the insertion opening for fixing when connecting.

In some optional embodiments of the present invention, a fourth trigger circuit and a fourth acousto-optic module are disposed in the toy cell 3, the fourth acousto-optic module is electrically connected to the fourth trigger circuit and is used for outputting acousto-optic signals, when the first combining portion 31 is connected to the first engaging portion 13, the fourth trigger circuit is triggered to be closed, and the fourth acousto-optic module outputs acousto-optic signals.

Further, a fourth acousto-optic assembly includes a fourth light emitting element and a fourth sound emitting element. When the first combining portion 31 is connected to the first joining portion 13, the single toy 3 can emit light, and the playability of the toy is further improved.

Alternatively, a fourth light emitting element is disposed on the first joint part 13, the toy cell 3 is disposed in a transparent structure, and when the first joint part 31 is connected with the first joint part 13, the fourth light emitting element and a fourth sound emitting element are triggered, and the fourth light emitting element is activated and can emit light through the toy cell 3.

The manner of triggering the fourth acousto-optic module when the first combination unit 31 and the first joint unit 13 are connected may be realized by the first trigger switch 112.

Optionally, both the first combining portion 31 and the first engaging portion 13 are magnets, or one of the first combining portion 31 and the first engaging portion 13 is a magnet and the other is an iron piece, and the first combining portion 31 and the first engaging portion 13 are connected together by magnetic attraction. The first combining portion 31 is provided with a first conductive terminal, the first joint portion 13 is provided with a second conductive terminal, the second conductive terminal is connected with the fourth trigger circuit, and when the first combining portion 31 is connected with the first joint portion 13, the first conductive terminal and the second conductive terminal are contacted, so that the fourth trigger circuit is conducted.

In some embodiments of the present invention, as shown in fig. 13, it includes a rod 14 and a sound-light body 15, the rod 14 is movably connected to the sound-light body 15, the sound-light body 15 includes a third sound-light component 151 for outputting sound and light, and a trigger mechanism 16 for triggering the third sound-light component 151 to act is disposed between the rod 14 and the sound-light body 15;

the first acousto-optic toy at least comprises an extension state and a folding state;

as shown in fig. 13, 18 and 23, when in the extended state, the acousto-optic body 15 moves to the first position relative to the rod 14, and the acousto-optic body 15 is located at the upper part of the rod 14;

as shown in fig. 14, 19 and 24, when in the collapsed state, the acousto-optic body 15 moves to the second position relative to the rod 14, and the acousto-optic body 15 and the rod 14 are in the collapsed state;

when the switch is switched to the extended state or the retracted state, the triggering mechanism 16 triggers the third acousto-optic device 151 to operate, and the third acousto-optic device 151 outputs acousto-optic light.

Further, the stick 14 is used for holding, and the sound and light body 15 can be designed into different shapes according to actual requirements, wherein the sound and light body 15 has a light-transmitting casing 153, the third sound and light assembly 151 is disposed inside the light-transmitting casing 153, the third sound and light assembly 151 includes a third light-emitting element and a third sound-generating element, when the third sound and light assembly 151 is triggered, the third light-emitting element can emit light outwards through the light-transmitting casing 153, and the third sound-generating element makes sound.

More specifically, the third acousto-optic assembly 151 includes a third trigger circuit, wherein the third trigger circuit has a third trigger switch 152 for controlling the third trigger circuit to open and close, the trigger mechanism 16 is linked with the third trigger switch 152, so that when a player plays, the player can drive the acousto-optic body 15 and the rod 14 to move relatively, when the acousto-optic body 15 moves to the first position or the second position, i.e. the toy is in an extended state or a retracted state, and at the same time, the trigger mechanism 16 triggers the third trigger switch 152 to operate, so that the third trigger circuit is closed, and the third acousto-optic assembly 151 starts to output acousto-optic signals. Therefore, the toy can realize the action of the third acousto-optic component 151 in linkage when deforming, so that the linkage of the toy is stronger, and the interaction with a player is stronger.

It should be noted that the triggering mechanism 16 can trigger the third acousto-optic element 151 to operate only when the acousto-optic body 15 moves to the first position, can trigger the third acousto-optic element 151 to operate only when the acousto-optic body 15 moves to the second position, or can trigger the third acousto-optic element 151 to operate when the acousto-optic body 15 moves to both the first position and the second position.

Preferably, when the acousto-optic body 15 moves to the first position, the triggering mechanism 16 triggers the third acousto-optic assembly 151 to output acousto-optic, and when the acousto-optic body 15 is at the second position, the triggering mechanism 16 does not trigger the third acousto-optic assembly 151 to output acousto-optic, so that when a player switches the toy from the folding state to the extension state during playing, the player can trigger the third acousto-optic assembly 151 to act, thereby simulating the process of exercise or transformation, and improving the playability of the toy.

In some embodiments of the present invention, as shown in fig. 16, 22 and 25, a locking mechanism 17 is provided between the rod 14 and the acousto-optic body 15, and the locking mechanism 17 includes a locking portion for holding the acousto-optic body 15 in the first position or the second position.

When the acousto-optic body 15 moves to the first position or the second position, the locking part connects the acousto-optic body 15 and the rod body 14, so that the acousto-optic body 15 and the rod body 14 are relatively fixed, the acousto-optic body 15 cannot move relative to the rod body 14, the acousto-optic body 15 can be kept at the first position or the second position, and the toy can be kept in an extending state or a folding state.

Preferably, the locking part is interlocked with the acousto-optic body 15, and when the acousto-optic body 15 moves to the first position or the second position, the locking part locks the acousto-optic body 15 and the rod body 14.

Alternatively, the locking portion can be controlled manually, i.e., when the acousto-optic body 15 is moved to the first position or the second position, the player locks by manually touching the locking portion.

In some optional embodiments of the present invention, as shown in fig. 15 and 16, the locking mechanism 17 includes a first rotating portion 171, the first rotating portion 171 connects the acousto-optic body 15 and the rod 14, and the acousto-optic body 15 and the rod 14 can be turned over with respect to each other by the first rotating portion 171;

as shown in fig. 16, the locking portion includes a first locking member 1712, and the first locking member 1712 is movably disposed on the acousto-optic body 15;

when locked, the first locking member 1712 locks the first rotating portion 171 and restricts the relative rotation of the first rotating portion 171 and the rod 14, so that the sound-emitting body 15 is held at the first position or the second position.

Further, as shown in fig. 16, the first rotating unit 171 includes a first rotating shaft 1711, the first rotating base 141 is provided on the acousto-optic body 15, the first rotating unit 171 is connected to the first rotating base 141 through the first rotating shaft 1711, and the first rotating unit 171 is fixedly connected to the rod 14. Therefore, the sound element 15 and the rod 14 can be relatively rotated by the first rotating portion 171, that is, the sound element 15 can be rotated about the first rotating axis 1711.

Still further, the first rotating portion 171 is provided at the upper end of the rod 14, and the acousto-optic body 15 is rotatably connected to the upper end of the rod 14 through the first rotating portion 171, so that the acousto-optic body 15 can be turned over with respect to the rod 14. When the acousto-optic body 15 moves to the first position, the acousto-optic body 15 is turned over to be in the same plane with the rod body 14, so that the acousto-optic body 15 is located at the upper end of the rod body 14, and the toy is in an extending state. When the sound and light body 15 moves to the second position, the sound and light body 15 and the rod 14 are folded together, and the toy is in a folded state. When the acousto-optic body 15 is in the first position or the second position, the first locking member 1712 locks the first rotating portion 171, so that the acousto-optic body 15 and the rod body 14 cannot rotate relatively.

In some embodiments of the present invention, as shown in fig. 17, the first rotating portion 171 is provided with a limit bayonet 1714;

when the locking is performed, the first locking member 1712 is inserted into the limit bayonet 1714 to limit the relative rotation between the first rotating part 171 and the rod 14, so that the sound-light body 15 is kept at the first position or the second position;

when the locking part is separated from the limit bayonet 1714 during unlocking, the acousto-optic body 15 and the rod body 14 can rotate relatively.

Preferably, as shown in fig. 16, the first locking member 1712 is movably disposed on one side of the first rotating portion 171, the limit bayonet 1714 is disposed on a side wall of the first rotating portion 171, a rotating opening is disposed at the bottom of the acousto-optic body 15, one side of the rotating opening is open, the opposite end is closed, when the acousto-optic body 15 moves to the first position, the first rotating portion 171 rotates into the rotating opening, and the closed side of the rotating opening abuts against the first rotating portion 171, so that the first rotating portion 171 cannot further rotate. When the acousto-optic body 15 moves to the first position, the first locking member 1712 is inserted into the limiting bayonet 1714, so that the first rotating portion 171 is limited from rotating, and the acousto-optic body 15 is kept at the first position. When unlocking, the first locking member 1712 disengages from the limit bayonet 1714, so that the first rotating portion 171 can rotate, and the toy can be switched between states.

Optionally, two limit bayonets 1714 are disposed on the first rotating portion 171, and correspondingly, when the acousto-optic body 15 moves to the first position, the first locking element 1712 is correspondingly inserted into one of the limit bayonets 1714 so as to limit the rotation of the first rotating portion 171, so that the acousto-optic body 15 can be maintained at the first position. When the acousto-optic body 15 moves to the second position, the first locking member 1712 is correspondingly inserted into the other limiting bayonet 1714 so as to limit the rotation of the first rotating part 171, so that the acousto-optic body 15 can be kept at the second position.

Further, as shown in fig. 16, the acousto-optic body 15 includes a housing 153, a first locking member 1712 is slidably disposed in the housing 153, a first elastic member 1713 is disposed between the first locking member 1712 and the housing 153, and when the acousto-optic body 15 moves to the first position or the second position, the first locking member 1712 is kept inserted into the limiting bayonet 1714 under the elastic force of the first elastic member 1713.

Optionally, the first locking element 1712 can be manually inserted into or removed from the limit bayonet 1714, so as to achieve locking and unlocking, that is, a part of the first locking element 1712 can penetrate out of the housing 153 of the acousto-optic body 15 for the operation of a player.

In some embodiments of the present invention, as shown in fig. 16, the triggering mechanism 16 includes a first linkage rod 161, the first linkage rod 161 is movably disposed on the acousto-optic body 15;

when the retractable display device is switched to the extended state or the retracted state, the first rotating portion 171 triggers the first linkage rod 161, and the first linkage rod 161 acts to trigger the third acousto-optic assembly 151 to act.

Further, as shown in fig. 16, the first linkage rod 161 is slidably disposed in the housing 153, the second elastic member 162 is disposed between the first linkage rod 161 and the housing 153, the first linkage rod 161 and the first locking member 1712 are respectively disposed on two sides of the first rotating portion 171, and the third trigger switch 152 is disposed on the other side of the first linkage rod 161. When the acousto-optic body 15 moves to the first position or the second position, the side wall of the first rotating portion 171 contacts with one end of the first linkage rod 161 and pushes the first linkage rod 161 to slide toward the third trigger switch 152, so that the first linkage rod 161 and the third trigger switch 152 are triggered, and the third trigger circuit is closed. When the state is switched, the first linkage rod 161 is separated from the first rotating portion 171, and the elastic force of the second elastic member 162 drives the first linkage rod 161 to slide in the direction away from the third trigger switch 152, so that the first linkage rod 161 is separated from the third trigger switch 152, that is, the third trigger circuit is disconnected, and the third acousto-optic assembly 151 stops outputting acousto-optic light.

In the present application, the first linkage rod 161 and the first locking member 1712 are respectively disposed at two sides of the first rotating portion 171, so that when the acousto-optic body 15 moves to the first position or the second position, the first locking member 1712 and the first linkage rod 161 can simultaneously act, thereby simultaneously achieving the locking and triggering of the light emitting assembly.

Preferably, the acousto-optic body 15 is star-shaped, when in an extended state, the acousto-optic body 15 is unfolded 180 degrees from the rod 14, and when in a collapsed state, the acousto-optic body 15 is folded on one side of the rod 14.

Alternatively, the acousto-optic body 15 can also be designed in other different shapes as required.

In some optional embodiments of the present invention, as shown in fig. 18-20, the locking mechanism 17 further includes a sliding seat 172, the sliding seat 172 is slidably connected to the rod 14 and can slide along the rod 14, and the acousto-optic body 15 is fixedly connected to the sliding seat 172;

as shown in fig. 22, the locking part includes a second locking piece 1721, and the second locking piece 1721 is movably disposed on the sliding seat 172;

when locked, the second locking member 1721 locks the sliding seat 172 and restricts the sliding seat 172 from sliding relative to the rod 14, so that the sound body 15 is kept at the first position or the second position.

Further, as shown in fig. 18-20, the sliding seat 172 is slidably disposed on the rod 14, and the acousto-optic body 15 is fixedly connected to the sliding seat 172 and can slide up and down along the rod 14 along with the sliding seat 172. When the acousto-optic body 15 moves to the first position, the sliding seat 172 drives the acousto-optic body 15 to slide to the upper end of the rod 14, and the second locking member 1721 connects the sliding seat 172 and the rod 14, so that the sliding seat 172 cannot slide relative to the rod 14, and the acousto-optic body 15 can be kept at the first position. When the acousto-optic body 15 moves to the second position, the sliding seat 172 drives the acousto-optic body 15 to slide to the lower end of the rod 14, and the second locking piece 1721 connects the sliding seat 172 and the rod 14, so that the sliding seat 172 is kept at the lower end of the rod 14, and the acousto-optic body 15 can be kept at the second position.

Still further, as shown in fig. 19, the trigger mechanism 16 includes a contact portion 163, and the contact portion 163 is provided at an upper end or a lower end of the stick body 14. The third trigger switch 152 is disposed at the upper end or the lower end of the sliding seat 172, and when the acousto-optic body 15 moves to the first position or the second position, the third trigger switch 152 disposed on the sliding seat 172 contacts the contact portion 163, so as to trigger the third trigger switch 152 to be closed, and further the third trigger circuit is connected, and the light emitting component outputs acousto-optic.

Preferably, as shown in fig. 19 and 20, the touching part 163 is disposed at the upper end of the rod 14, and the third trigger switch 152 is disposed at the upper end of the sliding seat 172, so that when the toy is switched to the extended state, the touching part 163 can trigger the third trigger switch 152 to operate, so that the third acousto-optic assembly 151 outputs acousto-optic.

Alternatively, the contact part 163 can be disposed at the lower end of the stick 14, and the third trigger switch 152 is disposed at the lower end of the sliding seat 172, so that when the sound and light body 15 moves to the second position, the contact part 163 at the lower end of the stick 14 can contact the third trigger switch 152.

Optionally, a third trigger switch 152 is disposed on each of the upper and lower ends of the sliding seat 172, and correspondingly, a contact portion 163 is disposed on each of the upper and lower ends of the rod 14, so that the toy can trigger the third acousto-optic assembly 151 to start in both the extended state and the retracted state.

Optionally, a first acousto-optic toy 1 is connected to the upper end of the rod 14, wherein the first acousto-optic toy 1 is fixedly connected to the upper end of the rod 14, when the acousto-optic body 15 moves to the first position, the third trigger switch 152 on the upper end of the sliding seat 172 contacts with the bottom of the first acousto-optic toy 1, so that the third trigger circuit is closed, and the third acousto-optic assembly 151 outputs acousto-optic light.

Alternatively, as shown in fig. 21, the first trigger switch 112 of the first acousto-optic toy 1 is disposed on the lower end surface of the base, and when the acousto-optic body 15 moves to the first position, the upper end surface of the sliding seat 172 contacts with the first trigger switch 112 and triggers the first trigger switch 112, so that the first acousto-optic assembly 10 outputs acousto-optic.

In some embodiments of the present invention, as shown in fig. 22, the rod 14 is provided with a limiting hole 142;

when locking, the second locking element 1721 is inserted into the limiting hole 142 and limits the sliding seat 172 and the rod 14 to slide relatively, so that the sound-light body 15 is kept at the first position or the second position.

When the second locking piece 1721 is disengaged from the limiting hole 142 during unlocking, the acousto-optic body 15 and the rod 14 can slide relatively.

Further, the second locking member 1721 is slidably disposed in the sliding seat 172, wherein one limiting hole 142 is disposed at each of the upper end and the lower end of the rod 14, and when the acousto-optic body 15 moves to the first position or the second position, the second locking member 1721 is inserted into the limiting hole 142 so that the sliding seat 172 cannot slide relative to the rod 14, and thus the acousto-optic body 15 is fixed at the first position or the second position.

Preferably, as shown in fig. 22, a third elastic member 1722 is disposed between the second locking member 1721 and the sliding seat 172, the second locking member 1721 always keeps a trend of moving toward the rod 14 under the elastic force of the third elastic member 1722, that is, when the acousto-optic device 15 moves to the first position or the second position, the second locking member 1721 is pushed to be inserted into the position-limiting hole 142 under the elastic force of the third elastic member 1722.

Further, the end of the second locking element 1721 is spherical, and correspondingly, the limiting hole 142 is a spherical hole, so that when unlocking, a player only needs to forcibly slide the acousto-optic body 15 to leave the first position or the second position, and the second locking element 1721 can be separated from the limiting hole 142 under the guiding action of the spherical hole 142 and the second locking element 1721.

Alternatively, the second locking member 1721 may be manually inserted into the position limiting hole 142, and in particular, at least a portion of the second locking member 1721 may protrude from the sliding seat 172, and when the sound-emitting body 15 moves to the first position or the second position, a player may lock the position limiting hole 142 by operating the second locking member 1721.

Preferably, the acousto-optic bodies 15 are designed in a petal shape, and the two groups of acousto-optic bodies 15 are respectively and symmetrically arranged on two sides of the sliding seat 172.

Alternatively, the acousto-optic body 15 can be designed into other different shapes according to requirements.

In some optional embodiments of the present invention, as shown in fig. 25, the locking mechanism 17 further includes a second rotating portion 173, the second rotating portion 173 connects the acousto-optic body 15 and the rod 14, and the acousto-optic body 15 and the rod 14 can rotate relatively through the second rotating portion 173;

as shown in fig. 25, the locking portion includes a limiting latch 1731, the limiting latch 1731 is disposed on the second rotating portion 173, and a limiting latch 1732 is disposed on the rod 14;

when the sound bar is locked, the limiting clamping block 1731 is clamped into the limiting clamping groove 1732 and limits the sound lighting body 15 and the bar body 14 to rotate relatively, so that the sound lighting body 15 is kept at the first position or the second position;

when the lock is unlocked, the limiting clamping block 1731 is separated from the limiting clamping groove 1732, and the acousto-optic body 15 and the rod body 14 can rotate relatively.

Further, as shown in fig. 23 and 24, the rod 14 further includes a connection seat 143, the second rotating portion 173 is fixedly connected to the acousto-optic body 15, and the second rotating portion 173 is rotatably connected to the connection seat 143. As shown in fig. 25, a movable block 1733 is slidably disposed in the connecting base 143, a fourth elastic member 1734 is disposed between the movable block 1733 and the connecting base 143, a limiting locking slot 1732 is disposed on the movable block 1733, and the movable block 1733 has a tendency to move toward the second rotating portion 173 under the action of the fourth elastic member 1734, so that the movable block 1733 is always kept abutting against the second rotating portion 173.

Still further, as shown in fig. 25, the second rotating portion 173 is substantially cylindrical, wherein a limiting surface is disposed on the second rotating portion 173, the limiting surface is a plane, the limiting fixture block 1731 is disposed on the limiting surface, the acousto-optic body 15 can be switched between the first position and the second position through the second rotating portion 173, when the acousto-optic body 15 rotates to the first position or the second position, the movable block 1733 abuts against the limiting surface under the elastic force of the fourth elastic member 1734, and the limiting fixture block 1731 on the limiting surface is clamped into the limiting fixture groove 1732 of the movable block 1733, so as to limit the rotation of the second rotating portion 173, i.e. the acousto-optic body 15 can be kept at the first position or the second position. When the state needs to be switched, the player only needs to rotate the acousto-optic body 15 forcefully, so that the acousto-optic body 15 drives the second rotating part 173 to rotate, and the limiting fixture block 1731 can be separated from the limiting groove 1821.

Preferably, two sets of position limiting blocks 1731 are respectively disposed on two opposite sides of the second rotating portion 173, that is, the second rotating portion 173 rotates 180 degrees to switch the acousto-optic body 15 from the first position to the second position.

Alternatively, the locking part may further include a latch pin and a pin hole provided on the second rotating part 173, and when the acousto-optic part is moved to the first position or the second position, the latch pin is inserted into the pin hole to restrict the second rotating part 173 from rotating.

In some embodiments of the present invention, as shown in fig. 25, the triggering mechanism 16 includes a limiting protrusion 164, and the limiting protrusion 164 is disposed on the second rotating portion 173;

when the acousto-optic body 15 rotates to the first position or the second position relative to the rod 14, the limit bump 164 triggers the third acousto-optic component 151.

Specifically, as shown in fig. 25, the third trigger switch 152 is disposed in the connecting seat 143, the limit protrusion 164 is disposed to protrude outward in the radial direction of the second rotating portion 173 or protrude in the axial direction of the second rotating portion 173, and when the acousto-optic body 15 moves to the first position or the second position, the limit protrusion 164 contacts the third trigger switch 152, so that the third trigger circuit is closed, and the third acousto-optic assembly 151 outputs acousto-optic.

Preferably, acousto-optic body 15 is designed in a moon shape, in an extended state acousto-optic body 15 is turned upwards and in a collapsed state acousto-optic body 15 is turned downwards.

In some embodiments of the present invention, as shown in fig. 26, the acousto-optic body 15 is further provided with a wing portion 18, and the wing portion 18 is rotatably connected to the acousto-optic body 15;

as shown in fig. 13 and 18, when in the extended state, wing portions 18 rotate to spread apart;

as shown in fig. 14 and 19, when in the collapsed state, the wing portions 18 rotate to stow.

Specifically, as shown in fig. 26, the wing part 18 is rotatably connected to the acousto-optic body 15 through the second rotating shaft 181, wherein a plurality of convex teeth 1811 are provided on the circumference of the second rotating shaft 181, a clamping ring 182 having certain elasticity is wrapped on the outer circumference of the second rotating shaft 181, a plurality of concave grooves 1821 corresponding to the convex teeth 1811 are provided on the inner wall of the clamping ring 182, and a player can manually rotate the wing part 18 to unfold or store the wing part, and at the same time, when the player removes the force applied to the wing part 18, the convex teeth 1811 are engaged with the concave grooves 1821, so that the wing part 18 can maintain the current state. The player can adjust the rotation angle of the wing part 18 according to actual needs, so that the playability of the toy is improved.

In some embodiments of the present invention, the acousto-optic body 15 further includes a first trigger button, the first trigger button is used to control the third acousto-optic component 151 to open or close, and the player can manually control the third acousto-optic component 151 to open or close through the first trigger button.

In some embodiments of the present invention, a first acousto-optic toy 1 is disposed at the upper end of the rod 14, wherein the first acousto-optic toy 1 includes a first acousto-optic component and a second trigger button, the second trigger button can control the first acousto-optic component to open or close, and the player can control the first acousto-optic component to open or close through the second trigger button, so as to improve the playability.

In some embodiments of the present invention, the stick 14 is a telescopic rod, and the player can extend or shorten the stick 14 as required.

What has been described above is merely the principles and preferred embodiments of the present application. It should be noted that, for a person skilled in the art, several other modifications can be made on the basis of the principle of the present application, and these should also be considered as the scope of protection of the present application.

Claims (10)

1. A combined acousto-optic toy is characterized by comprising a first acousto-optic toy (1), a second acousto-optic toy (2) and a single toy (3);

said first acousto-optic toy (1) comprising a first acousto-optic assembly (10);

the second acoustic light toy (2) comprises a second acoustic light assembly (21);

the toy cell (3) comprises a first combination part (31), the first acousto-optic toy (1) comprises a first joint part (13), and the second acousto-optic toy (2) comprises a second joint part (22);

the combined acousto-optic toy at least comprises a first structural form and a second structural form;

when in the first configuration, the single-body toy (3) is connected with the first joint part (13) through the first combination part (31) and triggers the first acousto-optic assembly (10) to be started;

when in the second configuration, the single toy (3) is connected with the second joint part (22) through the first combination part (31) and triggers the second acousto-optic component (21) to be started.

2. The combined sound and light toy according to claim 1, wherein said second sound and light toy (2) further comprises a third interface (23), said combined sound and light toy further comprising a third configuration;

when in the third configuration, the single toy (3) is connected with the third joint part (23) through the first combination part (31) and is fixed on the second acousto-optic toy (2).

3. The combined acousto-optic toy according to claim 1, wherein the second acousto-optic toy (2) further includes a second seat (24) and a cover (25), the cover (25) is movably connected to the second seat (24), the second engaging portion (22) is disposed on the second seat (24), and the second acousto-optic component (21) is disposed on the second seat (24);

the second acousto-optic toy (2) comprises an opening state and a closing state;

when in the open state, the cover (25) is open;

when the toy is in the closed state, the cover body (25) is closed, and a containing cavity for containing the single toy (3) is formed between the second seat body (24) and the cover body (25).

4. The combined acousto-optic toy according to claim 3, wherein the second acousto-optic toy (2) further includes a plug-in portion (26), the second housing (24) is provided with a plug-in port (242), and the plug-in portion (26) is detachably mounted in the plug-in port (242);

when the inserting part (26) is inserted into the inserting port (242), the inserting part (26) triggers the second sound light component (21) to start.

5. The combined acousto-optic toy according to claim 1, characterized in that the second acousto-optic toy (2) further comprises a trigger button (27), the trigger button (27) being electrically connected to the second acousto-optic component (21) and being used for triggering the second acousto-optic component (21) to act.

6. The combined acousto-optic toy according to claim 1, characterized in that the first acousto-optic toy (1) further includes a first housing (11) and a cover housing (12), the first engaging portion (13) is provided on the first housing (11), the first acousto-optic assembly (10) is provided on the first housing (11), and the cover housing (12) is detachably mounted on the first housing (11).

7. The combined acousto-optic toy according to claim 6, characterized in that the hood-shaped housing (12) includes a trigger (121), and the first holder (11) is provided with a receiving groove (111);

when the trigger piece (121) is inserted into the accommodating groove (111), the first acousto-optic assembly (10) is triggered to start.

8. The combined acousto-optic toy according to claim 7, characterized in that a first limit structure is provided between the first seat (11) and the hood-shaped housing (12);

the first limiting structure comprises a first connecting part (122) and a second connecting part (113), the first connecting part (122) is arranged on one of the first seat body (11) or the cover-shaped shell (12), and the second connecting part (113) is arranged on the other one of the first seat body (11) or the cover-shaped shell (12);

after the trigger piece (121) is inserted into the accommodating groove (111), the first connecting portion (122) is connected with the second connecting portion (113) to fix the cover-shaped shell (12) and the first seat (11).

9. The combined acousto-optic toy according to claim 1, characterized in that the first acousto-optic toy (1) further comprises a rod (14) and an acousto-optic body (15), the acousto-optic body (15) comprises a third acousto-optic component (151) for outputting acousto-optic, and a trigger mechanism (16) for triggering the third acousto-optic component (151) to act is arranged between the rod (14) and the acousto-optic body (15);

the first acousto-optic toy (1) at least comprises an extension state and a folding state;

when in the extended configuration, the acousto-optic body (15) is movable to a first position relative to the wand (14), the acousto-optic body (15) being in an upper portion of the wand (14);

when the foldable bar is in the folded state, the acousto-optic body (15) moves to a second position relative to the bar body (14), and the acousto-optic body (15) and the bar body (14) are in the folded state;

when the telescopic type acousto-optic device is switched to the extension state or the folding state, the triggering mechanism (16) triggers the third acousto-optic component (151) to act, and the third acousto-optic component (151) outputs acousto-optic.

10. The combined acousto-optic toy according to claim 9, characterised in that a locking mechanism (17) is provided between the rod (14) and the acousto-optic body (15), the locking mechanism (17) including a locking portion capable of holding the acousto-optic body (15) in the first position or the second position.

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