CN218774293U - Electric toy - Google Patents

Abstract

The utility model discloses an electric toy, which comprises a shell, a motor, a transmission component and an action execution module, wherein the motor drives the action execution module through the transmission component, the transmission component comprises a first swing tooth and a second swing tooth, and the action execution module comprises a first action module and a second action module; when the motor rotates towards a first direction, the first swing tooth is in transmission connection with the first action module, and the second swing tooth is separated from the second action module; when the motor rotates towards the second direction, the first swing tooth is separated from the first action module, and the second swing tooth swings towards the second action module and drives the second action module to move. The utility model discloses a motor drives the motion of different action modules respectively towards the rotation of equidirectional, has increased diversity, interest and the object for appreciation nature of electronic toy.

Description

Electric toy

Technical Field

The utility model relates to the technical field of toys, in particular to an electric toy.

Background

The existing electric toy is driven by a motor to execute specific actions, and different actions can be executed by arranging a plurality of motors. However, under the increasing material and cultural demands of people, the interest, playability and form of the electric toy product have higher requirements.

Therefore, there is a need to design and develop various types of electric toys with enhanced interest and playability.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provide an electric toy with stronger interest and playability.

The technical scheme of the utility model provides an electric toy, including shell, motor, drive assembly and action execution module, the motor passes through the drive assembly drive the action execution module, the drive assembly includes first pendulum tooth and second pendulum tooth, the action execution module includes first action module and second action module;

when the motor rotates towards a first direction, the first swing tooth is in transmission connection with the first action module, and the second swing tooth is separated from the second action module;

when the motor rotates towards the second direction, the first swing tooth is separated from the first action module, and the second swing tooth swings towards the second action module and drives the second action module to move.

Further, the first action module comprises a first state and a second state, and the first action module further comprises a holder;

when the first swing tooth is in transmission connection with the first action module, the first action module is switched from the second state to the first state and is kept in the first state by the holding piece.

Further, the second action module comprises a third state and a fourth state;

when the second swing tooth is in transmission connection with the second action module, the second swing tooth is in a third state;

when the second swing teeth and the second action module are disconnected from transmission, the second swing teeth are in a fourth state;

after the second swing tooth swings towards the second action module, the second action module is alternately switched between the third state and the fourth state, meanwhile, the second action module drives the holding piece to release the holding of the first state, and the first action module is switched to the second state.

Further, the first action module further comprises a crank connecting rod, a push rod and a first action connecting rod;

when the first swing tooth is in transmission connection with the first action module, the first swing tooth drives the crank connecting rod to reciprocate along a linear direction, the crank connecting rod drives the push rod, the push rod drives the first action connecting rod to be switched to the first state, and the retaining piece retains the first action connecting rod in the first state.

Further, first action connecting rod rotates around the central axis of self, be equipped with push point and locking point on the first action connecting rod, the push rod promotes push point and drive first action connecting rod rotates, works as the locking point rotate with during the position of holder joint, first action connecting rod stall, the push rod no longer acts push point.

Further, the second motion module comprises an incomplete gear and a second motion link, the incomplete gear comprises a toothed portion and a non-toothed portion;

when the second swing tooth is meshed with the tooth part, the second action connecting rod is switched to a third state;

and when the second swing tooth corresponds to the toothless part, the second action connecting rod is switched to a fourth state.

Furthermore, the second action connecting rod rotates around the central axis of the second action connecting rod, and the incomplete gear is coaxially and fixedly connected with the second action connecting rod.

Furthermore, an unlocking point is arranged on the second action connecting rod, and when the unlocking point rotates to be in contact with the holding piece, the unlocking point drives the holding piece to release the holding of the first state.

Further, the housing includes a first housing and a second housing, the first housing is connected to the first actuation module, and the second housing is connected to the second actuation module.

Further, the first housing includes a head portion: in the first state, the mouth of the head is opened; in the second state, the mouth of the head is closed;

the second housing includes an arm: in the third state, the arm swings upwards; in the fourth state, the arm swings downward.

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

the utility model discloses a motor drives the motion of different action modules respectively towards the rotation of equidirectional, has increased diversity, interest and the object for appreciation nature of electronic toy.

Drawings

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

FIG. 1 is a perspective view of an electric toy according to an embodiment of the present invention;

fig. 2 is a side view of the electric toy of an embodiment of the present invention with the second housing omitted;

fig. 3 is a perspective view of the electric toy of an embodiment of the present invention with the housing omitted;

FIG. 4 is a partially exploded view of FIG. 3;

fig. 5 is a side view of an internal power mechanism of the electronic toy according to an embodiment of the present invention;

fig. 6 is a perspective view of an internal power mechanism of the electric toy according to an embodiment of the present invention;

fig. 7 is a schematic diagram illustrating a first action module in a first state according to an embodiment of the present invention;

fig. 8 is a schematic diagram of the first action module switching from the first state to the second state according to an embodiment of the present invention.

Reference symbol comparison table:

the shell 1: a first shell 11, a second shell 12, an upper jaw 111, a lower jaw 112;

a motor 2;

the transmission assembly 3: the first swing tooth 31, the second swing tooth 32, the complete gear ring 321 and the incomplete gear ring 322;

the first action module 4: a retainer 41, a crank link 42, a push rod 43, a first operating link 44, a first return spring 45, a crank gear 421, a slider 422, a thumb wheel 4211, and a slide groove 4221;

the second action module 5: an incomplete gear 51, a second operating link 52, a second return spring 53, a tooth portion 511, and a toothless portion 512;

inner shell 6: a first oscillating tooth groove 61 and a second oscillating tooth groove 62;

push point A, lock point B, unlock point C.

Detailed Description

The following describes the present invention with reference to the accompanying drawings.

It is easily understood that, according to the technical solution of the present invention, a plurality of structural modes and implementation modes that can be mutually replaced by those of ordinary skill in the art can be achieved without changing the spirit of the present invention. Therefore, the following detailed description and the accompanying drawings are only exemplary illustrations of the technical solutions of the present invention, and should not be construed as limiting or restricting the technical solutions of the present invention in its entirety or as a limitation of the present invention.

The terms of orientation of up, down, left, right, front, back, top, bottom, and the like referred to or may be referred to in this specification are defined relative to the configuration shown in the drawings, and are relative terms, and thus may be changed correspondingly according to the position and the use state of the device. Therefore, these and other directional terms should not be construed as limiting terms.

In some embodiments of the present invention, as shown in fig. 1-4, the electronic toy includes a housing 1, a motor 2, a transmission assembly 3 and an action execution module, the motor 2 drives the action execution module through the transmission assembly 3, the transmission assembly 3 includes a first swing tooth 31 and a second swing tooth 32, and the action execution module includes a first action module 4 and a second action module 5;

when the motor 2 rotates towards the first direction, the first swing tooth 31 is in transmission connection with the first action module 4, and the second swing tooth 32 is separated from the second action module 5;

when the motor 2 rotates towards the second direction, the first swing tooth 31 is separated from the first action module 4, and the second swing tooth 32 swings towards the second action module 5 and drives the second action module 5 to move.

Specifically, as shown in fig. 1, the housing 1 includes a first housing 11 and a second housing 12, the first housing 11 is connected to the first action module 4, the second housing 12 is connected to the second action module 5, the housing 1 is shaped like an animal and includes a head and two arms, the first action module 4 is used for driving the head to move, and the second action module 5 is used for driving the arms to move.

As shown in fig. 2, the head of the first housing 11 includes an upper jaw 111 and a lower jaw 112, and the first action module 4 may drive the upper jaw 111 to open upwards, so that the upper jaw 111 and the lower jaw 112 are separated from each other, and a mouth is opened.

As shown in fig. 1, the second motion module 5 can drive the second housing 12 to swing up and down to perform a flapping motion.

As shown in fig. 3-4, the electric toy further includes an inner housing 6, and the motor 2, the transmission assembly 3, the first action module 4 and the second action module 5 are all mounted in the inner housing 6. The motor 2 is directly connected with the transmission assembly 3, and the transmission assembly 3 comprises a first oscillating tooth 31 and a second oscillating tooth 32.

As shown in fig. 4, the inner housing 6 includes a left portion and a right portion, and a first swing tooth groove 61 and a second swing tooth groove 62 are formed on inner walls of the left portion and the right portion, a rotating shaft of the first swing tooth 31 is inserted into the first swing tooth groove 61, and a rotating shaft of the second swing tooth 32 is inserted into the second swing tooth groove 62.

When the motor 2 rotates in the forward direction, the motor 2 drives the transmission assembly 3 to rotate, so that the first swing tooth 31 is in transmission connection with the first action module 4, and the second swing tooth 32 is separated from the second action module 5.

When the motor 2 rotates reversely, the motor 2 drives the transmission assembly 3 to rotate, so that the second swing tooth 32 swings towards the second action module 5 and drives the second action module 5 to move, and meanwhile, the first swing tooth 31 is separated from the first action module 4.

In this embodiment, the motor rotates towards different directions to respectively drive the motion of different action modules, thereby presenting different effects and increasing the diversity, interest and playability of the electric toy.

Alternatively, the housing 1 may have other shapes, such as an animal shape, a figure shape, or a toy shape.

Alternatively, the first motion module 4 may drive the first housing 11 to swing, rotate, or move along a straight line. The second motion module 5 can drive the second housing 12 to swing, rotate or move along a straight line.

Further, as shown in fig. 5-7, the first motion module 4 includes a first state and a second state, the first motion module 4 further includes a holder 41;

when the first swing tooth 31 is in transmission connection with the first motion module 4, the first motion module 4 is switched from the second state to the first state and is held in the first state by the holding member 41.

In this embodiment, in the first state, the first action module 4 makes the first housing 11 in the state where the upper jaw 111 and the lower jaw 112 are opened; in the second state, the first motion module 4 closes the upper jaw 111 and the lower jaw 112.

When the first swing tooth 31 is in transmission connection with the first action module 4, the first action module 4 drives the upper jaw 111 from the closed state to the open state, and the holding member 41 keeps the upper jaw 111 in the open state.

Further, as shown in fig. 5 and 8, the second action module 5 includes a third state and a fourth state;

when the second swing tooth 32 is in transmission connection with the second action module 5, the second swing tooth is in a third state;

when the second swing tooth 32 is disconnected from the second action module 5, the state is in a fourth state;

after the second swing tooth 32 swings towards the second action module 5, the second action module 5 is alternately switched between the third state and the fourth state, meanwhile, the second action module 5 drives the holding piece 41 to release the holding of the first state, and the first action module 4 is switched to the second state.

In this embodiment, in the third state, the second swing tooth 32 is in transmission connection with the second motion module 5, and the second motion module 5 drives the arm to swing upward; in the fourth state, the second swing tooth 32 is disconnected from the second motion module 5, and the second motion module 5 drives the arm to swing downward. The second swing teeth 32 and the second action module 5 are alternately driven and disconnected, so that the action of alternately swinging the arm up and down is realized.

At the same time, the second motion module 5 brings the holding member 41 to release the holding of the first state, so that the upper jaw 111 of the first housing 11 returns to the position closed with the lower jaw 112.

In an embodiment of the present invention, as shown in fig. 5 and 7, the first motion module 4 further includes a crank connecting rod 42, a push rod 43, and a first motion connecting rod 44;

when the first oscillating tooth 31 is in transmission connection with the first action module 4, the first oscillating tooth 31 drives the crank connecting rod 42 to reciprocate along the linear direction, the crank connecting rod 42 drives the push rod 43, the push rod 43 drives the first action connecting rod 44 to switch to the first state, and the retaining member 41 retains the first action connecting rod 44 in the first state.

Specifically, as shown in fig. 5, the crank connecting rod 42 includes a crank gear 421 and a slider 422, the crank gear 421 can be engaged with the first swing tooth 31, a thumb wheel 4211 is provided at an edge of the crank gear 421, a sliding slot 4221 is provided on the slider 422, and the thumb wheel 4211 is inserted into the sliding slot 4221. When the first swing tooth 31 drives the crank gear 421 to rotate, the dial wheel 4211 drives the slider 422 to move downward, the slider 422 drives the push rod 43 to move downward, the push rod 43 drives the first action link 44 to rotate clockwise, and the first action link 44 drives the upper jaw 111 to open upward during rotation. When the first action link 44 rotates until the maxilla 111 is opened to the maximum angle, the holder 41 locks the first action link 44 so that the first action link 44 is held in the first state, and then the crank link 42 will no longer act on the first action link 44.

Further, as shown in fig. 7, the first actuating link 44 rotates around its central axis, the first actuating link 44 is provided with a pushing point a and a locking point B, the pushing rod 43 pushes the pushing point a and drives the first actuating link 44 to rotate, when the locking point B rotates to a position where it is engaged with the holder 41, the first actuating link 44 stops rotating, and the pushing rod 43 no longer acts on the pushing point a.

Specifically, the first actuating link 44 is cylindrical, and a pushing point a and a locking point B are protruded on the surface of the first actuating link 44. When the push rod 43 moves downwards, the push rod 43 pushes the push point a and drives the first action link 44 to rotate clockwise, and the first action link 44 drives the locking point B to move upwards to the upper end of the retaining member 41, so that the retaining member 41 locks the locking point B. At this time, the pushing point a and the pushing rod 43 no longer act, and the pushing rod 43 does not move downward or upward, and the first action link 44 is not driven to rotate.

Further, as shown in fig. 4 and 6, the second motion module 5 includes an incomplete gear 51 and a second motion link 52, the incomplete gear 51 including a toothed portion 511 and a non-toothed portion 512;

when the second swing tooth 32 is engaged with the tooth portion 511, the second action link 52 is switched to the third state;

when the second swing tooth 32 corresponds to the toothless portion 512, the second operating link 52 is switched to the fourth state.

Specifically, the second actuating link 52 is cylindrical and rotates around its central axis, and the incomplete gear 51 is coaxially and fixedly connected to the second actuating link 52.

As shown in fig. 6, the second oscillating tooth 32 includes a full ring gear 321 and a half ring gear 322 that are fixedly connected coaxially, the full ring gear 321 is engaged with a gear of the transmission assembly 3 between the electric machines 2, and the half ring gear 322 corresponds to the second oscillating tooth 32.

When the second swing tooth 32 rotates to the state that the incomplete gear ring 322 is meshed with the tooth part 511, the second action connecting rod 52 is driven to rotate upwards, and the second action connecting rod 52 drives the second shell 12 to lift upwards;

when the second swing tooth 32 rotates until the incomplete gear ring 322 corresponds to the toothless part 512, the second swing tooth 32 is disconnected from the toothed part 511, the second action link 52 rotates downward under the action of the second return spring 53, and the second action link 52 drives the second housing 12 to swing downward.

When the second swing tooth 32 rotates again to engage with the tooth portion 511, the second housing 12 is lifted up again, so that the second housing 12 swings up and down in a reciprocating manner.

Further, as shown in fig. 8, the second actuating link 52 is provided with an unlocking point C, and when the unlocking point C rotates to contact with the holder 41, the unlocking point C drives the holder 41 to release the holding of the first state.

Specifically, the outer surface of the second actuating link 52 protrudes with an unlocking point C, when the second actuating link 52 rotates to the unlocking point C and contacts with the holder 41, the unlocking point C shifts the holder 41 to rotate, so that the upper end of the holder 41 is separated from the locking point B, and the first actuating link 44 returns to the first state under the action of the first return spring 45, so that the upper jaw 111 of the first housing 11 is closed downward.

Further, as shown in fig. 4, a first through hole 63 and a second through hole 64 are formed on both the left and right portions of the inner shell 6, and both ends of the first action link 44 penetrate through the first through hole 63 and are connected with the first housing 11 after penetrating through the first through hole; both ends of the second actuating link 52 pass through the second through hole 64 and are connected to the second housing 12.

In a preferred embodiment of the present invention, the electric toy has the following playing methods:

when the motor 2 is controlled to rotate in the forward direction, the motor 2 drives the transmission assembly 3 to rotate, the first swing tooth 31 of the transmission assembly 3 swings to a position meshed with the crank gear 421, so as to drive the crank gear 421 to rotate, the crank gear 421 drives the slider 422 to move downwards, the slider 422 drives the push rod 43 to move downwards, the push rod 43 stirs the push point a to move downwards, so as to drive the first action connecting rod 44 to rotate, and simultaneously drives the lock point B to move upwards, so that the lock point B is locked with the retaining member 41, so as to keep the first action connecting rod 44 in the first state, and the first action connecting rod 44 drives the upper jaw 111 of the first housing 11 to keep in an upwards-opened position when in the first state, so that the head of the first housing 11 is in an opened state.

When the motor 2 is controlled to rotate reversely, the motor 2 drives the transmission assembly 3 to rotate, the second swing tooth 32 of the transmission assembly 3 swings towards the direction of the incomplete gear 51, and meanwhile, the first swing tooth 31 is separated from the crank gear 421. When the second swing tooth 32 rotates to the state that the incomplete gear ring 322 is meshed with the tooth portion 511, the second swing tooth 32 drives the second action link 52 to rotate, and the second action link 52 drives the second shell 12 to swing upwards; when the partial ring gear 322 is not engaged with the toothed portion 511 and corresponds to the toothless portion 512, the second swing tooth 32 does not rotate the second action link 52, and the second action link 52 rotates downward by the second return spring 53, and at the same time, swings the second housing 12 downward. Subsequently, the incomplete ring gear 322 is again meshed with the teeth 511, and thereafter the above-described action is repeated to effect the reciprocating up-and-down swinging of the second housing 12, until the motor 2 stops rotating or rotates in the forward direction, to end the action of the second housing 12.

The rotation direction or stop of the motor 2 in the utility model can be switched by a control button manually; a control program may also be set, and when the set condition is satisfied, the corresponding control program is triggered to control the forward rotation or the reverse rotation, or stop, of the motor 2.

The utility model discloses a motor can realize the control to two sets of action modules to realize the switching of two kinds of different actions, and there is the associativity in the action switching between two sets of action modules, only when the second action module begins to move, first action module just can follow first state and switch to the second state. The utility model increases the diversity, the interest and the playability of the electric toy.

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

Claims (10)

1. An electric toy comprises a shell, a motor, a transmission assembly and an action execution module, wherein the motor drives the action execution module through the transmission assembly;

when the motor rotates towards a first direction, the first swing tooth is in transmission connection with the first action module, and the second swing tooth is separated from the second action module;

when the motor rotates towards the second direction, the first swing tooth is separated from the first action module, and the second swing tooth swings towards the second action module and drives the second action module to move.

2. The electronic toy of claim 1, wherein the first motion module includes a first state and a second state, the first motion module further including a retainer;

when the first swing tooth is in transmission connection with the first action module, the first action module is switched from the second state to the first state and is kept in the first state by the holding piece.

3. The electronic toy of claim 2, wherein the second motion module includes a third state and a fourth state;

when the second swing tooth is in transmission connection with the second action module, the second swing tooth is in a third state;

when the second swing teeth and the second action module are disconnected from transmission, the second swing teeth are in a fourth state;

after the second swing tooth swings towards the second action module, the second action module is alternately switched between the third state and the fourth state, meanwhile, the second action module drives the holding piece to release the holding of the first state, and the first action module is switched to the second state.

4. The electronic toy of claim 2, wherein the first motion module further comprises a crank link, a push rod, and a first motion link;

when the first swing tooth is in transmission connection with the first action module, the first swing tooth drives the crank connecting rod to reciprocate along a linear direction, the crank connecting rod drives the push rod, the push rod drives the first action connecting rod to be switched to the first state, and the retaining piece retains the first action connecting rod in the first state.

5. The electronic toy of claim 4, wherein the first actuating link rotates around its central axis, the first actuating link is provided with a pushing point and a locking point, the push rod pushes the pushing point and drives the first actuating link to rotate, when the locking point rotates to a position where the locking point is clamped with the holder, the first actuating link stops rotating, and the push rod does not act on the pushing point any more.

6. The electronic toy of claim 3, wherein the second motion module includes an incomplete gear including a toothed portion and a non-toothed portion and a second motion link;

when the second swing tooth is meshed with the tooth part, the second action connecting rod is switched to a third state;

and when the second swing tooth corresponds to the toothless part, the second action connecting rod is switched to a fourth state.

7. The electronic toy of claim 6, wherein the second actuating link rotates about its central axis, and the partial gear is fixedly connected coaxially with the second actuating link.

8. The electronic toy of claim 6, wherein the second actuating link is provided with an unlocking point, and when the unlocking point is rotated to contact the holding member, the unlocking point drives the holding member to release the holding of the first state.

9. The electronic toy of claim 3, wherein the housing includes a first housing and a second housing, the first housing coupled to the first action module and the second housing coupled to the second action module.

10. The electronic toy of claim 9, wherein the first housing includes a head portion: in the first state, the mouth of the head is opened; in the second state, the mouth of the head is closed;

the second housing includes an arm: in the third state, the arm swings upwards; in the fourth state, the arm swings downward.

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