CN210543357U - Toy body capable of being triggered at multiple places - Google Patents

Abstract

The utility model discloses a toy body that can trigger in many places, include: the toy comprises a body, a handle and a handle, wherein the body is provided with a plurality of action pieces, and each action piece forms one part of the shape of the toy body; the acousto-optic module is arranged in the body; the transmission module is movably arranged in the body, one end of the transmission module is arranged corresponding to the at least two action pieces, the other end of the transmission module is arranged corresponding to the acousto-optic module, and the at least two action pieces trigger the same acousto-optic module through the transmission module respectively when acting. The utility model discloses the toy body that can trigger in many places sets up a plurality of action pieces on the toy body and regards as the reputation trigger point, through the electronic function module linkage of transmission module with a plurality of action pieces and an integration, effectively reduces the production assembly degree of difficulty, reduces the product defective rate, reduces assembly man-hour, and reduction in production cost is favorable to the detection or the maintenance of product.

Description

Toy body capable of being triggered at multiple places

Technical Field

The utility model relates to a toy technical field especially relates to a toy body that can trigger in many places.

Background

The toy product with the electronic acousto-optic function cannot combine all electronic function modules together during product design due to the limitation of the internal space of the toy product and the scatter of the distribution of all function trigger interfaces of the toy product, thereby increasing the difficulty of product production and assembly and the assembly time, increasing the difficulty of product maintenance or repair, effectively ensuring the yield of the toy product and having a series of adverse effects.

At present, it is a conventional practice to divide the electronic functions of a product into a plurality of modules, and finally, to combine the functional modules together through connectors. Although the difficulty of production and assembly is reduced to a certain extent, the method cannot be effectively popularized in some products with limited cost.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, the utility model provides a toy body that can trigger in many places to the electronic function who solves the toy product has a plurality of modules, and the degree of difficulty of production assembly is big, and the assembler is long, problem with high costs.

According to the utility model discloses a but toy body that many places triggered, include: the toy comprises a body, a handle and a handle, wherein the body is provided with a plurality of action pieces, and each action piece forms one part of the shape of the toy body; the acousto-optic module is arranged in the body; the transmission module is movably arranged in the body, one end of the transmission module corresponds to at least two of the action pieces, the other end of the transmission module corresponds to the acousto-optic module, and at least two of the action pieces respectively trigger the acousto-optic module through the transmission module when acting.

According to the utility model discloses the toy body that can trigger in many places sets up a plurality of action pieces on the toy body as reputation trigger point, and the electronic function module linkage of rethread transmission module with a plurality of action pieces and an integration effectively reduces the production assembly degree of difficulty, reduces the product defective rate, reduces assembly man-hour, and reduction in production cost is favorable to the detection or the maintenance of product. The whole toy body is small in size and rich and diverse in modeling.

In some embodiments, the transmission module includes a push rod slidably disposed within the body and/or a lever rotatably disposed within the body.

In some embodiments, the acousto-optic module has at least two travel switches, and the transmission module includes at least two transmission sets disposed in one-to-one correspondence with at least two of the travel switches.

In some embodiments, the acousto-optic module includes a sound emitter and/or a light emitter.

In some embodiments, the toy body is a robot having a switchable humanoid form and an aircraft form.

Preferably, the action member comprises at least one of the following: a head part which can movably trigger the acousto-optic module; the nose piece can movably trigger the acousto-optic module; the cap piece can movably trigger the acousto-optic module; the top wing piece of the acousto-optic module can be movably triggered; a hand part which can movably trigger the acousto-optic module; the leg part can movably trigger the acousto-optic module; the tail wing piece of the acousto-optic module can be movably triggered.

Preferably, when the action part comprises a leg part which can movably trigger the acousto-optic module, the leg part extends out of the body in the human-shaped form, the leg part retracts into the body in the aircraft form, and the leg part can trigger the transmission module in the extending or retracting processes.

In some embodiments, the actuator further comprises a rotatable propeller disposed on the body.

In some embodiments, when the action piece comprises a top wing piece which can movably trigger the acousto-optic module, the action piece further comprises an engine gas nozzle and a pop-up assembly connected between the top wing piece and the engine gas nozzle, and the top wing piece pops up the engine gas nozzle through the pop-up assembly when moving.

In some embodiments, the actuator further comprises a removable cover disposed on the surface of the body, and the removable cover comprises at least one of a glasses cover disposed on the front side of the body, a buttocks cover disposed on the rear side of the body, and hand parts disposed on the left and right sides of the body.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic view of the internal structure of the present invention;

fig. 2 is a schematic perspective view of a first embodiment of the present invention;

fig. 3 is a schematic perspective view of a first embodiment of the present invention;

fig. 4 is a schematic perspective view of a second embodiment of the present invention;

fig. 5 is a schematic perspective view of a second embodiment of the present invention;

fig. 6 is a schematic three-dimensional structure diagram of a second embodiment of the present invention.

Reference numerals:

a toy body 100,

A main body 10,

An action piece 11,

Head member 111, nose member 112, hat member 113, top wing member 114, hand member 115, leg member 116, body 1161, leg link 1162, tail member 117, propeller 118, engine jet 119, removable cover 120, eyewear cover 1201, buttocks cover 1202, nose piece 112, nose piece 113, and leg members 116, and leg link 1162,

An acousto-optic module 20,

A travel switch 21,

A sound producing component 201, a light emitting component 202,

A transmission module 30,

A transmission set 310,

A push rod 31, a lever 32,

And a caster 40.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The following describes a toy body 100 capable of being triggered at multiple locations according to an embodiment of the present invention with reference to the drawings.

As shown in fig. 1, a toy body 100 capable of being triggered at multiple locations according to an embodiment of the present invention includes: a body 10, an acousto-optic module 20 and a transmission module 30.

The body 10 is provided with a plurality of action pieces 11, each action piece 11 forms a part of the shape of the toy body 100, so that the formed toy body 100 has a plurality of actions, and when different action pieces 11 move, the toy body 100 can have different shapes and shapes, thereby having the capability of deformation, and greatly increasing the playing methods of the toy body 100. The acousto-optic module 20 is arranged in the body 10, and different sound effects or light effects can be generated through the acousto-optic module 20, so that the acousto-optic module is more interesting and is beneficial to attracting the attention of children or operators. The transmission module 30 is movably disposed in the body 10, one end of the transmission module 30 is disposed corresponding to the at least two actuators 11, the other end of the transmission module 30 is disposed corresponding to the acousto-optic module 20, and the at least two actuators 11 respectively trigger the same acousto-optic module 20 through the transmission module 30 during actuation. That is to say, the transmission of the transmission module 30 can communicate the two parts of the acting part 11 and the acousto-optic module 20, and after any one of the acting parts 11 acts, the acousto-optic module 20 can be triggered through the transmission module 30, so as to emit acousto-optic effect.

Since the actuators 11 trigger the acousto-optic module 20 through the linkage of the transmission module 30 rather than the direct contact, the plurality of actuators 11 can be distributed at various positions on the body 10, and the trigger switches of the plurality of actuators 11 can be concentrated at the same position through the linkage of the transmission module 30, for example, all the trigger switches are concentrated on the same main board, so as to trigger the acousto-optic module 20. Through the mode, the electronic function modules of the action pieces 11 can be integrated together, and the whole modular design of the electronic function of the toy body 100 is facilitated, so that the number of assembly components is reduced, the difficulty and the cost of product production and assembly are reduced, and the reliability of the product function is ensured.

According to the utility model discloses can many places trigger play body 100 sets up a plurality of action pieces 11 on playing body 100 and as reputation trigger point, and rethread transmission module 30 links the electronic function module of a plurality of action pieces 11 and an integration, effectively reduces the production assembly degree of difficulty, reduces the product defective rate, and in the time of reducing the assembly, reduction in production cost is favorable to the detection or the maintenance of product. The whole toy body 100 is small in size and rich and various in modeling.

In some embodiments, as shown in FIG. 1, the transmission module 30 includes a push rod 31 slidably disposed within the body 10 and/or a lever 32 rotatably disposed within the body. For example, the transmission module 30 includes a push rod 31, when the actuator 11 is activated, the push rod 31 is pushed to slide horizontally or vertically, so that the other end of the push rod 31 triggers the acousto-optic module 20; alternatively, the transmission module 30 includes a lever 32, and when the actuator 11 is actuated, the lever 32 is pushed to rotate, so that the other end of the lever 32 triggers the acousto-optic module 20; alternatively, the transmission module 30 includes a push rod 31 and a lever 32, and the push rod 31 slides and then rotates the lever 32, thereby triggering the acousto-optic module 20. Therefore, a plurality of motion members 11 can correspond to different types of transmission modules 30, for example, the transmission module 30 corresponding to one motion member 11 only comprises the push rod 31, the transmission module 30 corresponding to another motion member 11 only comprises the push rod 31 and the lever 32, and the motion member 11 can select different types of transmission modules 30 according to different positions. The linkage structure of the push rod 31 and the lever 32 is simple, reliable, economical and practical, and is beneficial to reducing the production cost on the premise of ensuring reliable linkage.

In some embodiments, as shown in FIG. 1, the acousto-optic module 20 has at least two travel switches 21, and the transmission module 30 includes at least two transmission sets 310 disposed in one-to-one correspondence with the at least two travel switches 21. In this way, the transmission sets 310 correspond to the travel switches 21 one by one, and after the action member 11 is triggered, the corresponding transmission set 310 is triggered, then the corresponding travel switch 21 is started, and finally the acousto-optic module 20 is triggered. Therefore, at least two action pieces 11 can correspond to the transmission group 310 and the travel switch 21 one by one, so that the acousto-optic module 20 can be triggered independently after each action piece 11 is triggered, and the triggering success rate and flexibility of the acousto-optic effect are improved.

In some embodiments, as shown in FIG. 1, the acousto-optic module 20 includes a sound emitting element 201 and/or a light emitting element 202. When the acousto-optic module 20 comprises the sounding part 201, sound effects such as various animation character original sounds can be generated; when the acousto-optic module 20 comprises the light emitting piece 202, gorgeous light effect can be emitted; when the acousto-optic module 20 includes the sound emitting member 201 and the light emitting member 202, both sound effect and light effect can be generated, thereby improving playability.

In some embodiments, the sound generating component 201 may be a speaker, and the light emitting component 202 may be an LED lamp or a color-changing lamp, which is simple in structure and beneficial to reduce cost. In addition, the speaker, the LED lamp, and the color-changing lamp are all known in the art, and the forms of the sound emitting member 201 and the light emitting member 202 are not limited thereto, and will not be described in detail here.

In some embodiments, toy body 100 is a robot having a switchable humanoid form and an aerial vehicle form. Thereby enabling the toy body 100 to be switched between a humanoid form and an aircraft form, and improving the enjoyment of the game.

Preferably, as shown in fig. 2 to 6, the actuation member 11 comprises at least one of the following components:

the head part 111 of the acousto-optic module 20 can be movably triggered, and when an operator touches the head part 111, the transmission module 30 generates linkage to trigger the acousto-optic module 20 to generate sound and light effects.

The nose piece 112 of the acousto-optic module 20 can be actively triggered, and when the operator touches the nose piece 112, the transmission module 30 generates linkage to trigger the acousto-optic module 20 to generate sound and light effects.

The cap member 113 of the acousto-optic module 20 can be movably triggered, and when the cap member 113 is touched by an operator, the transmission module 30 generates linkage to trigger the acousto-optic module 20 to generate sound and light effects.

The top wing piece 114 of the acousto-optic module 20 can be actively triggered, and when the operator touches the top wing piece 114, the transmission module 30 generates linkage to trigger the acousto-optic module 20 to generate sound and light effects.

The hand part 115 of the acousto-optic module 20 can be movably triggered, when an operator touches the hand part 115, for example, when the hand part 115 is pulled out from the body 10 to be switched into a human shape, the transmission module 30 generates linkage to trigger the acousto-optic module 20 to generate sound and light effects.

The leg part 116 of the acousto-optic module 20 can be triggered movably, and when the operator touches the leg part 116, the transmission module 30 generates linkage to trigger the acousto-optic module 20 to generate sound and light effects.

The tail piece 117 of the acousto-optic module 20 can be triggered movably, and when the operator touches the tail piece 117, the transmission module 30 generates linkage to trigger the acousto-optic module 20 to generate sound and light effects.

In this way, the action pieces 11 are various in form and rich in variety, so that the playability of the toy body 100 is greatly improved, and the functions are more.

Preferably, as shown in fig. 1, when the actuator 11 includes a leg 116 that can movably trigger the acousto-optic module 20, the leg 116 extends out of the body 10 in the human form, the leg 116 retracts into the body 10 in the aircraft form, and the leg 116 can trigger the transmission module 30 when extending or retracting. For example, when the toy body 100 needs to be changed into the aircraft shape, the leg members 116 are retracted into the body 10, and the transmission module 30 is triggered to start the acousto-optic module 20 to generate the acousto-optic effect; when the human-shaped form is required to be changed, the leg parts 116 extend out of the body 10, and the transmission module 30 is triggered to turn off the acousto-optic module 20, so as to turn off the acousto-optic effect.

In a specific example, as shown in fig. 1, the leg part 116 includes a main body 1161 and a leg link 1162, a top portion of the leg link 1162 is rotatably connected in the body 10, and the main body 1161 is rotatably connected to a bottom portion of the leg link 1162. When the leg member 116 is retracted into the body 10, the main body 1161 is turned over counterclockwise and moved into the body 10, so as to drive the leg link 1162 to rotate clockwise and upward, push the push rod 31 of the transmission module 30 to slide, and then the lever 32 is rotated to activate the travel switch 21, thereby triggering the acousto-optic module 20.

In some embodiments, as shown in fig. 2 and 3, the actuator 11 further includes a rotatable propeller 118 disposed on the body 10. For example, the propeller 118 is rotatably provided on the body 10, and the propeller 118 can be rotated by manually pulling the propeller to increase the interest of the player. Of course, the propeller 118 may also be disposed on the body 10 through a motor, so that the propeller 118 is driven to rotate by the motor. By arranging the propeller 118, the toy body 100 can simulate the flying effect, and the simulation effect is better.

In some embodiments, as shown in fig. 4-6, when the actuation member 11 includes a top wing member 114 that is movable to trigger the acousto-optic module 20, the actuation member 11 further includes an engine nozzle 119, and a pop-up assembly (not shown) connected between the top wing member 114 and the engine nozzle 119, through which the engine nozzle 119 is popped up when the top wing member 114 is moved. When the top wing member 114 is depressed, the top wing member 114 unlocks the ejection assembly, thereby releasing the engine nozzles 119 for ejection, thereby creating a harsh deformation effect. The ejection assembly can be a combined structure of a pressing block and a spring, the top wing piece 114 is stopped against the pressing block, the pressing block can be released through the movement of the top wing piece 114, so that the engine gas nozzle 119 is ejected under the elastic action of the spring, and the engine gas nozzle 119 can be pressed back to reset by hands when not needed. Of course, the pop-up assembly in the present embodiment is not limited to the above structure, and will not be described herein again.

In some embodiments, as shown in fig. 5, the actuator 11 further includes a removable cover 120 disposed on the surface of the body 10, and the removable cover 120 includes at least one of a glasses cover 1201 disposed on the front side of the body 10, a buttocks cover 1202 disposed on the rear side of the body 10, and hand parts 115 disposed on the left and right sides of the body 10. For example, the glasses cover 1201 is movably arranged on the body 10, and can be manually shifted up and down to open and cover the glasses, so that the playing interest is increased; the hip cover 1202 is movably arranged on the body 10 and can be manually opened; hand member 115 is rotatably mounted on body 10 for rotation to serve as a weapon. By the mode, the number and the types of the action pieces 11 of the toy body 100 are effectively increased, and the interestingness and the entertainment are stronger.

In some embodiments, the glasses cap 1201 can be made as a detachable piece made of transparent material, which is beneficial to realizing replacement and increasing the richness of the toy types.

In some embodiments, as shown in figure 1, a plurality of casters 40 are movably disposed within body 10 for walking on the ground when toy body 100 is in the aerial vehicle mode. For example, three casters 40 may be provided, one caster being provided on the front side of the body 10, and two casters being symmetrically distributed on the rear side. Of course, the number of casters 40 is not limited thereto and will not be described herein.

Specific embodiments of the present invention will be described below with reference to the accompanying drawings.

Example one

As shown in fig. 2 and 3, a multi-triggerable toy figure 100 includes: a body 10, an acousto-optic module 20 and a transmission module 30. A plurality of action members 11 are provided on the body 10, each action member 11 forming a part of the figure of the toy body 100. The acousto-optic module 20 includes a sound emitting member 201 and a light emitting member 202, wherein the light emitting member 202 is disposed at the front side of the body 10, and the sound emitting member 201 is disposed in the body 10. The transmission module 30 is movably disposed in the body 10, one end of the transmission module 30 is disposed corresponding to the at least two actuators 11, the other end of the transmission module 30 is disposed corresponding to the acousto-optic module 20, and the at least two actuators 11 respectively trigger the same acousto-optic module 20 through the transmission module 30 during actuation.

The plurality of action pieces 11 comprise a nose piece 112 for movably triggering the acousto-optic module 20, a rotatable hand piece 115, a leg piece 116 for movably triggering the acousto-optic module 20, a movable tail wing piece 117, a rotatable propeller 118, and a glasses cover 1201 movably arranged on the front side of the body 10, wherein the body 10 is also internally provided with a movable caster 40. Wherein, the nose piece 112 and the leg piece 116 are respectively provided with the transmission module 30 to trigger the acousto-optic module 20.

The transmission module 30 corresponding to the nose piece 112 comprises a push rod 31, the push rod 31 is horizontally and slidably arranged in the body 10, and the other end of the push rod 31 is correspondingly provided with a travel switch 21 of the acousto-optic module 20, so that the travel switch 21 is opened after the nose piece 112 is pressed, and the acousto-optic module 20 is triggered. The transmission module 30 corresponding to the leg member 116 includes a push rod 31 and a lever 32, the push rod 31 is vertically and slidably disposed in the body 10, the leg member 116 abuts against one end of the push rod 31, the other end of the push rod 31 abuts against one end of the lever 32, and the other end of the lever 32 is correspondingly provided with another travel switch 21 of the acousto-optic module 20. During the retraction of the leg member 116 into the body 10, the leg member 116 rotates counterclockwise and pushes the push rod 31 to move upward, so that the lever 32 rotates counterclockwise to open another travel switch 21, and the acousto-optic module 20 is triggered.

The toy body 100 is a robot having a switchable human-shaped form and an aircraft form. In the figure form, the leg members 116 are provided at the bottom of the body 10 and supported on the ground or a platform, the hand members 115 are provided at the left and right sides of the body 10, the propellers 118 are provided at the top of the body 10, and the tail wing members 117 abut against the body 10. In the aircraft configuration, the leg member 116 is folded counterclockwise and then stored at the rear side of the body 10, the tail member 117 is folded counterclockwise and opened, the hand member 115 is stored in the body 10, and the caster 40 is released from the body 10 to be supported on the ground or a platform.

Example two

As shown in fig. 4 to 6, a toy body 100 capable of being triggered at multiple places comprises: a body 10, an acousto-optic module 20 and a transmission module 30. A plurality of action members 11 are provided on the body 10, each action member 11 forming a part of the figure of the toy body 100. The acousto-optic module 20 includes a sound emitting member 201 and a light emitting member 202, wherein the light emitting member 202 is disposed at the front side of the body 10, and the sound emitting member 201 is disposed in the body 10. The transmission module 30 is movably disposed in the body 10, one end of the transmission module 30 is disposed corresponding to the at least two actuators 11, the other end of the transmission module 30 is disposed corresponding to the acousto-optic module 20, and the at least two actuators 11 respectively trigger the same acousto-optic module 20 through the transmission module 30 during actuation.

The plurality of motion parts 11 include a movable top wing part 114, a rotatable hand part 115, a leg part 116 for movably triggering the acousto-optic module 20, and a glasses cover 1201 movably disposed at the front side of the body 10, and a movable caster 40 is further disposed in the body 10. The action member 11 further comprises an engine air nozzle 119, a pop-up assembly connected between the top wing member 114 and the engine air nozzle 119, and a removable cover 120 provided on the surface of the body 10, wherein the removable cover 120 comprises at least one of a glasses cover 1201 provided on the front side of the body 10, a buttocks cover 1202 provided on the rear side of the body 10, and hand members 115 provided on the left and right sides of the body 10. The light emitting member 202 may be specifically disposed at the front end of the engine nozzle 119, and when the top wing member 114 is pressed, the top wing member 114 may unlock the pop-up assembly, thereby releasing the engine nozzle 119 to pop it up, thereby achieving a cool deformation effect.

The transmission module 30 corresponding to the leg member 116 includes a push rod 31 and a lever 32, the push rod 31 is vertically and slidably disposed in the body 10, the leg member 116 abuts against one end of the push rod 31, the other end of the push rod 31 abuts against one end of the lever 32, and the other end of the lever 32 is correspondingly provided with another travel switch 21 of the acousto-optic module 20. During the retraction of the leg member 116 into the body 10, when the leg member 116 rotates counterclockwise, the push rod 31 is pushed to move upward, so that the lever 32 rotates counterclockwise and then opens the other stroke switch 21, triggering the acousto-optic module 20.

The toy body 100 is a robot having a switchable human-shaped form and an aircraft form. In the human-shaped configuration, the leg members 116 are provided at the bottom of the body 10 and supported on the ground or a platform, the hand members 115 are provided at the left and right sides of the body 10, and the propellers 118 are provided at the top of the body 10. In the aircraft configuration, the hip cover 1202 is opened, the leg members 116 are stowed within the body 10 after being turned over anticlockwise, the hip cover 1202 is then closed, the hand members 115 are stowed within the body 10, and the castor wheels 40 are released from the body 10 for support on the ground or platform.

In conclusion, the toy body 100 is provided with a plurality of acousto-optic trigger points, including a fixed part, a rotatable part or a movable part on the head or the nose or the body which is easy to be touched by a player, and the interior of the toy body is linked with an electronic function module through a linkage part, so that the difficulty of production and assembly can be effectively reduced, the reject ratio of products can be reduced, the production and assembly time can be reduced, the purpose of reducing the product cost can be finally achieved, and meanwhile, the toy product can be made to be smaller. The utility model discloses utilize the manual rotatable or mobilizable position of deformation toy, realize the linkage, send the reputation effect in the action, the reputation effect when the role becomes the body in the imitative animation effectively improves the simulation effect of product.

Other constructions and operations of the toy body 100 according to embodiments of the present invention are known to those of ordinary skill in the art and will not be described in detail herein.

In the description herein, references to the description of the terms "embodiment," "example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. A toy body capable of being triggered at multiple places, which is characterized by comprising:

the toy comprises a body, a handle and a handle, wherein the body is provided with a plurality of action pieces, and each action piece forms one part of the shape of the toy body;

the acousto-optic module is arranged in the body;

the transmission module is movably arranged in the body, one end of the transmission module corresponds to at least two of the action pieces, the other end of the transmission module corresponds to the acousto-optic module, and at least two of the action pieces respectively trigger the acousto-optic module through the transmission module when acting.

2. The multi-triggerable toy body of claim 1, wherein the transmission module includes a push rod slidably disposed within the body and/or a lever rotatably disposed within the body.

3. The multi-triggerable toy body of claim 1, wherein the sound and light module has at least two travel switches, and the transmission module comprises at least two transmission sets disposed in one-to-one correspondence with the at least two travel switches.

4. The multi-triggerable toy body of claim 1, wherein the sound and light module includes a sound emitting member and/or a light emitting member.

5. A multi-triggerable toy body as claimed in any one of claims 1-4, wherein the toy body is a robot having a switchable humanoid form and an aircraft form.

6. The multi-triggerable toy body of claim 5, wherein the action member includes at least one of:

a head part which can movably trigger the acousto-optic module;

the nose piece can movably trigger the acousto-optic module;

the cap piece can movably trigger the acousto-optic module;

the top wing piece of the acousto-optic module can be movably triggered;

a hand part which can movably trigger the acousto-optic module;

the leg part can movably trigger the acousto-optic module;

the tail wing piece of the acousto-optic module can be movably triggered.

7. The multi-triggerable toy body of claim 6, wherein when the actuation member comprises a leg member that is moveable to trigger the sound and light module, the leg member extends out of the body in the humanoid configuration, the leg member retracts into the body in the aerial vehicle configuration, and the leg member triggers the transmission module when both extended and retracted.

8. The multi-triggerable toy body of claim 5, wherein the action member further comprises a rotatable propeller disposed on the body.

9. The multi-triggerable toy body of claim 6, wherein when the actuation member comprises a top wing member that can movably trigger the acousto-optic module, the actuation member further comprises an engine gas nozzle, and a pop-up assembly connected between the top wing member and the engine gas nozzle, wherein the top wing member, when in motion, pops up the engine gas nozzle through the pop-up assembly.

10. The multi-triggerable toy body of claim 5, wherein the actuation member further comprises a removable cover disposed on the surface of the body, the removable cover comprising at least one of a cover for glasses disposed on the front side of the body, a cover for buttocks disposed at the rear of the body, and hand members disposed on the left and right sides of the body.

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