CN214319122U - Transformable toy assembly - Google Patents

Abstract

The utility model discloses a deformation toy component, which comprises a deformation toy and a transmitter, wherein the transmitter comprises a trigger, a driving mechanism and a switching piece, and the deformation toy comprises a power mechanism and a traveling mechanism; when the transformable toy is mounted on the emitter and the driving mechanism drives the transformable toy, the switching piece enables the power mechanism to be separated from the traveling mechanism; when the trigger is pulled to enable the transformable toy to be launched, the switching piece is separated from the transformable toy, the power mechanism is combined with the advancing mechanism and transmits, and after the transformable toy travels for a stroke under the action of the advancing mechanism, the transformable toy is transformed and switched to rotate. The utility model provides a deformation toy is launched, takes place to warp after one section stroke of walking and switches into the rotation, realizes deformation toy from walking to the pivoted process of playing, has increased the surprise of toy and has felt and interesting.

Description

Transformable toy assembly

Technical Field

The utility model relates to a toy technical field especially relates to a deformation toy subassembly.

Background

Most of the existing mainstream top launching toys can only rotate after being launched out until the rotation stops, and the top does not feel surprise.

The existing low-end walking toy starts to walk forwards after being driven and launched by the launcher, or after being manually stored with energy, or after being manually pushed, only has the walking function, but stops walking when the energy is insufficient, and the design is simpler; some high-end walking toys can be triggered by collision and suction clips to deform in the walking process, but after deformation, the walking is stopped or the walking is continued, namely the movement mode is not changed, and the high-end walking toys also lack surprise and interestingness.

Therefore, there is a need for a transformable toy building set that is transformable by movement, and that provides increased surprise and interest.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provide a transformation toy component which can be deformed by movement, increases the surprise and is interesting.

The technical scheme of the utility model provides a deformation toy assembly, which comprises a deformation toy and a transmitter, wherein the transmitter comprises a trigger, a driving mechanism and a switching piece, and the deformation toy comprises a power mechanism and a traveling mechanism;

when the transformable toy is mounted on the emitter and the driving mechanism drives the transformable toy, the switching piece enables the power mechanism to be separated from the traveling mechanism;

when the trigger is pulled to enable the transformable toy to be launched, the switching piece is separated from the transformable toy, the power mechanism is combined with the advancing mechanism and transmits, and after the transformable toy travels for a stroke under the action of the advancing mechanism, the transformable toy is transformed and switched to rotate.

Further, when the transformable toy is mounted on the launcher, the driving mechanism is connected with the power mechanism and accelerates the power mechanism;

after the trigger is pulled, the driving mechanism is separated from the power mechanism.

Further, the transmitter further comprises a separating member;

when the driving mechanism is connected with the power mechanism, the separating piece is locked by the trigger;

and releasing the separating piece after the trigger is pulled, and separating the power mechanism from the driving mechanism by the separating piece.

Further, the separating piece is a turning plate arranged on the upper surface of the launcher, and after the trigger is pulled, the rear end of the turning plate turns upwards and lifts up, so that the deformed toy has a tendency of walking forwards.

Further, at least part of the driving mechanism penetrates through the overturning plate and extends out of the upper surface of the emitter to be connected with the power mechanism.

Furthermore, a sliding groove is formed in the front end of the upper surface of the launcher, and after the turnover plate is turned upwards and lifted, the transformable toy slides out of the front end of the launcher along the sliding groove.

Furthermore, after the transformable toy is launched, the power mechanism drives the advancing mechanism to move, so that the transformable toy can walk;

when the transformable toy rotates, the power mechanism and the advancing mechanism are disconnected for transmission.

Furthermore, the launcher also comprises a lock hook, and a lock groove matched with the lock hook is arranged on the deformation toy;

when the transformable toy is mounted on the launcher, the latch hook is locked by the trigger, and the latch hook is inserted into the latch groove to lock the transformable toy;

after the trigger is pulled, the trigger drives the lock hook to be disengaged from the lock groove, and the deformation toy is unlocked.

Further, the deformation toy further comprises a deformation member, the deformation toy comprises at least a first form and a second form:

in the first form, the deformable member is used as a member in an animal form;

after the deformation toy walks for a certain stroke, the power mechanism enables the deformation piece to deform, the deformation toy is switched to the second form, and the deformation toy is used as a gyroscope tip in a gyroscope form.

Further, the transformable toy further comprises a transmission mechanism;

after the transformable toy is launched, the transmission mechanism is combined with the power mechanism and the advancing mechanism, and the power mechanism drives the advancing mechanism to move through the transmission mechanism;

after the deformation piece deforms, the deformation piece enables the transmission mechanism to be separated from the power mechanism and the advancing mechanism, and the power mechanism idles.

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

the utility model provides a when the deformation toy is driven on the transmitter, running gear and power unit are the separation, so the transmitter transmits the power that transmits for power unit can not be lost by running gear, only after this deformation toy is launched, running gear just combines with power unit, realize the deformation toy walking, and should deform the toy and switch the walking motion into rotary motion after one section stroke of walking, realize the follow walking of deformation toy to the pivoted process of playing, the surprise and the interest of toy have been increased.

Drawings

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

FIG. 1 is a schematic view of a transformable toy assembly in one embodiment of the invention, at or in preparation for acceleration;

FIG. 2 is a schematic illustration of a transformable toy assembly after launching in an embodiment of the invention;

FIG. 3 is a schematic view of the internal structure of a transformable toy assembly during or in preparation for acceleration in one embodiment of the present invention;

FIG. 4 is a schematic view of the interior of a transformable toy building set after launching in an embodiment of the invention;

fig. 5 is a schematic view of the internal structure of the transformable toy in a second state according to an embodiment of the present invention;

FIG. 6 is a schematic bottom view of a transformable toy according to one embodiment of the present invention;

fig. 7 is a schematic top view of an emitter according to an embodiment of the present invention;

fig. 8 is a schematic view of the internal structure of one side of the transmitter according to an embodiment of the present invention;

fig. 9 is a schematic diagram of the internal structure of the other side of the emitter according to an embodiment of the present invention;

FIG. 10 is a schematic view of a first configuration of a transformable toy according to an embodiment of the present invention;

FIG. 11 is a schematic view of a second form of a transformable toy according to an embodiment of the present invention;

fig. 12 is a schematic view of the inner structure of the transformable toy according to an embodiment of the present invention before the power mechanism is combined with the traveling mechanism;

fig. 13 is a schematic view of the internal structure of the transformable toy according to an embodiment of the present invention before the power mechanism and the transmission mechanism are combined;

fig. 14 is a schematic view of the inner structure of the transformable toy according to an embodiment of the present invention when the power mechanism is combined with the traveling mechanism;

fig. 15 is a schematic view of the second form of the transformable toy according to an embodiment of the present invention.

Reference symbol comparison table:

the transformable toy 10:

the power mechanism 1: the top shell 11, the middle shaft 12, the middle shaft worm 13 and the power input part 14;

the traveling mechanism 2: a wheel 21, a second gear set 22, a third gear set 23;

deformation piece 3: a locking groove 31, a head 32;

the transmission mechanism 4:

the clutch unit 41: clutch lever 411, first gear train 412, front bracket 4111, rear bracket 4112, acting part 4113, first gear 4121, second gear 4122, third gear 4123, and clutch worm 4124;

the locking unit 42: a pressing block 421, a rotating cam 422 and a transmission wheel 423;

a hook groove 101;

the emitter 20:

a driving mechanism 5, a switching piece 6 and a locking hook 8;

the separating member 7: a hook 71, a rotating end 72;

a trigger 9: a toggle part 91, a linkage 92;

the sliding slot 201.

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. 1-5, a transformable toy assembly comprises a transformable toy 10 and a launcher 20, the launcher 20 comprises a trigger 9, a driving mechanism 5 and a switching member 6, the transformable toy 10 comprises a power mechanism 1 and a traveling mechanism 2;

when the transformable toy 10 is mounted on the launcher 20 and the driving mechanism 5 drives the transformable toy 10, the switching member 6 separates the power mechanism 1 from the traveling mechanism 2;

when the trigger 9 is pulled to launch the transformable toy 10, the switching piece 6 is separated from the transformable toy 10, the power mechanism 1 is combined with the traveling mechanism 2 and transmits, and after the transformable toy 10 travels a stroke under the action of the traveling mechanism 2, the transformable toy 10 is transformed and switched to rotate.

As shown in fig. 1, the transformable toy 10 is mounted on the launcher 20, and the driving mechanism 5 of the launcher 20 accelerates the transformable toy 10. The driving mechanism 5 can be driven by pulling the pull rope repeatedly back and forth, or pulling the handle, or driving the power mechanism 1 by pulling the pull rope.

When the vehicle is accelerated to a desired state, the trigger 9 is pulled, the transformable toy 10 is launched as shown in fig. 2, and the transformable toy 10 starts to walk after being separated from the launcher 20.

In this embodiment, the transformable toy 10 is shaped like a turtle, and climbs forward like a turtle.

As shown in fig. 5, after walking for a certain distance, the transformable toy 10 is transformed and switched to rotate. The transformable toy 10 is transformed into a top form to realize a rotation similar to a top toy.

When the transformable toy 20 in this embodiment is driven on the launcher, the traveling mechanism 2 is separated from the power mechanism 1, so the power transmitted to the power mechanism 1 by the launcher is not lost by the traveling mechanism 2, only after the transformable toy is launched, the traveling mechanism 2 is combined with the power mechanism 1 to realize the traveling of the transformable toy, and after the transformable toy travels a certain travel, the traveling motion is switched to the rotating motion, so that the playing process from the traveling to the rotating of the transformable toy 20 is realized, and the surprise and the interest of the toy are increased.

In some embodiments of the present invention, as shown in fig. 3-4, the transformable toy 10 includes a power mechanism 1, and when the transformable toy 10 is mounted on the launcher 20, the driving mechanism 5 is connected with the power mechanism 1 and accelerates the power mechanism 1;

after the trigger 9 is pulled, the driving mechanism 5 is separated from the power mechanism 1.

In some embodiments of the present invention, as shown in fig. 4, the transmitter 20 further comprises a separating member 7;

when the driving mechanism 5 is connected with the power mechanism 1, the separating piece 7 is locked by the trigger 9;

after the trigger 9 is pulled, the separating piece 7 is released, and the separating piece 7 separates the power mechanism 1 from the driving mechanism 5.

Specifically, as shown in fig. 9, a hook 71 is provided on the bottom surface of the separating member 7, a link member 92 is provided on the trigger 9, and the link member 92 is locked with the hook 71. When the trigger 9 is pulled, the trigger 9 drives the link member 92 to be separated from the hook 71, and the rotating end 72 of the separating member 7 is turned upward by a torsion spring (not shown) and pushes the transformable toy 10 upward.

In some embodiments of the present invention, as shown in fig. 7, the separating member 7 is a turning plate disposed on the upper surface of the transmitter 20, and after the trigger 9 is pulled, the rear end of the turning plate turns upward and lifts up, so that the transformable toy 10 tends to walk forward.

Specifically, the separating member 7 is a rectangular turnover plate, the front end (rotating end 72) of the turnover plate is rotatably connected to the housing of the transmitter 20, and the hook 71 is disposed on the bottom surface of the rear end. The left side in fig. 7 is the rear end of the transmitter 20, and the right side is the front end of the transmitter 20. When the hook 71 is separated from the link member 92, the rear end of the flip plate is flipped upward, and the transformable toy 10 located above the flip plate is driven to flip upward together, so that the transformable toy 10 is tilted forward and has a tendency to walk forward.

In some embodiments of the present invention, as shown in fig. 7, at least a portion of the driving mechanism 5 passes through the turnover plate and extends from the upper surface of the transmitter 20 for connection with the power mechanism 1.

After extending upwards from the turnover plate, the driving mechanism 5 is connected with the power mechanism 1 of the transformable toy 10, and can drive and accelerate the power mechanism 1. When the turning plate is turned upwards, the power mechanism 1 of the transformable toy 10 is separated from the driving mechanism 5. Set up the through-hole that supplies actuating mechanism 5 to pass on the upset plate, when the upset plate overturned, between actuating mechanism 5 and the upset plate noninterference.

In some embodiments of the present invention, as shown in fig. 7, a sliding groove 201 is provided at the front end of the upper surface of the launcher 20, and after the turnover plate is turned upwards and lifted, the transformable toy 10 slides out from the front end of the launcher 20 along the sliding groove 201.

The sliding groove 201 provides a passage for the transformable toy 10 to walk, so that the transformable toy 10 can walk on the sliding groove 201 and complete transformation, and finally slide out from the front end of the sliding groove 201 without falling out by the side halfway.

In some embodiments of the present invention, as shown in fig. 12, the transformable toy 10 further includes a traveling mechanism 2, and after the transformable toy 10 is launched, the power mechanism 1 drives the traveling mechanism 2 to move, so that the transformable toy 10 travels;

when the transformation toy 10 rotates, the power mechanism 1 and the advancing mechanism 2 are disconnected for transmission.

In some embodiments of the present invention, as shown in fig. 3-4, transmitter 20 further comprises a switch 6;

when the transformable toy 10 is installed on the launcher 20 and the power mechanism 1 is connected with the driving mechanism 5, the switching member 6 separates the power mechanism 1 from the traveling mechanism 2;

when the transformable toy 10 is launched, the switching member 6 is separated from the transformable toy 10, and the power mechanism 1 is coupled to and driven by the traveling mechanism 2.

In some embodiments of the present invention, as shown in fig. 6-7, the launcher 20 further includes a latch hook 8, and the transformable toy 10 is provided with a latch slot 101 engaged with the latch hook 8;

when the transformable toy 10 is mounted on the launcher 20, the latch hook 8 is locked by the trigger 9, and the latch hook 8 is inserted into the latch groove 101 to lock the transformable toy 10;

after the trigger 9 is pulled, the trigger 9 drives the latch hook 8 to be disengaged from the latch slot 101, and the transformable toy 10 is unlocked.

Specifically, as shown in fig. 8, a toggle part 91 is provided on the trigger 9, and the toggle part 91 contacts with the lower end of the latch hook 8.

When the trigger 9 is pulled, the trigger 9 rotates the latch hook 8, so that the latch hook 8 is released from the latch slot 101.

In some embodiments of the present invention, as shown in fig. 10-11, the transformable toy 10 further includes a transformable member 3, the transformable toy 10 including at least a first configuration and a second configuration:

in the first configuration, the deformable member 3 is used as a member in the animal configuration;

after the transformable toy 10 travels a certain travel, the power mechanism 1 transforms the transformable member 3, and switches the transformable toy 10 to the second form, and the transformable toy 10 serves as a gyroscope tip in the gyroscope form.

Specifically, fig. 10 shows the first configuration of the transformable toy 10, in which the transformable toy 10 is in the form of a tortoise, the transformable member 3 is the head and neck of the tortoise, and the transformable toy 10 can walk in the first configuration.

Fig. 11 shows a second configuration of the transformable toy 10, in which the transformable component 3 is transformed by being turned downward, and the head 32 of the transformable component 3 can be in contact with the ground or the playing surface as a fulcrum when the transformable toy 10 is rotated, thereby providing a rotation effect similar to a spinning top toy.

Alternatively, the first configuration of the transformable toy 10 may also be other animal configurations, such as: hedgehog, mouse, etc. The deformation piece 3 can also be in a tail shape, an arm shape or the like. The first form may also be other running toy forms, such as: automobiles, airplanes, ships, etc.

In the first mode, when the power mechanism 1 is combined with the traveling mechanism 2, the traveling mechanism 2 is driven to move, so that the transformable toy 10 travels.

After the transformation toy 10 walks for a certain distance, the traveling mechanism 2 drives the transformation element 3 to transform, when the transformation element 3 transforms to a set position, the transformation toy 10 is switched to a second state, the transformation element 3 separates the power mechanism 1 from the traveling mechanism 2, the transformation toy 10 does not continue to walk, and the transformation toy is switched to the power mechanism 1 to drive the whole transformation toy 10 to rotate.

In this embodiment, the power mechanism 1 drives the transformation toy 10 to walk through the traveling mechanism 2, the traveling mechanism 2 simultaneously drives the transformation element 3 to transform, the transformation element 3 cuts off the transmission between the power mechanism 1 and the traveling mechanism 2, and the motion mode of the transformation toy 10 is switched from walking to rotating. Realizes a series of continuous actions of walking, deforming and rotating the deformation toy 10, and increases the surprise and interest of the toy when playing.

In an embodiment of the present invention, as shown in fig. 11, the contact area between the deformed toy 3 and the playing surface is located on the rotation axis of the deformed toy 10 rotating in the second state.

The deformation member 3 can be contacted with the ground or the game table as a top, and the deformation toy 10 rotates with the contact point between the deformation member 3 and the ground as a fulcrum when rotating in the second state.

Alternatively, the second configuration of the transformable toy 10 may also be a wheel-like rolling mode. After the deformation piece 3 is deformed, the deformation toy 10 can be in a wheel shape or a sphere shape, and the power mechanism 1 drives the whole deformation toy 10 to rotate or roll.

In some embodiments of the present invention, as shown in fig. 12, the transformable toy 10 further includes a transmission mechanism 4;

after the transformable toy 10 is launched, the transmission mechanism 4 is combined with the power mechanism 1 and the advancing mechanism 2, and the power mechanism 1 drives the advancing mechanism 2 to move through the transmission mechanism 4;

after the deformation piece 3 deforms, the deformation piece 3 enables the transmission mechanism 4 to be separated from the power mechanism 1 and the advancing mechanism 2, and the power mechanism 1 idles.

Specifically, as shown in fig. 12, in the initial state of the first mode, the transmission mechanism 4 is separated from the power mechanism 1 and the traveling mechanism 2, and the transformable toy 10 is in the form of a turtle but does not travel.

As shown in fig. 14, when the transmission mechanism 4 is coupled to the power mechanism 1 and the traveling mechanism 2 and transmits the power, the transmission mechanism 4 transmits the power of the power mechanism 1 to the traveling mechanism 2, so that the transformed toy 10 in the form of a tortoise starts to travel.

As shown in fig. 15, after the transformation toy 10 travels a certain distance, the transformation element 3 gradually turns downward and transforms, and when the transformation element 3 transforms to the second form, the transformation element 3 separates the transmission mechanism 4 from the power mechanism 1 and the traveling mechanism 2, and the power mechanism 1 idles. Because the deformation piece 3 is contacted with the ground or the game table, after the power mechanism 1 continues to rotate, the whole deformation toy 10 is driven to rotate by taking the head 32 of the deformation piece 3 as a fulcrum.

In this embodiment, after the deformation member 3 is deformed, the position of the transmission mechanism 4 is changed, and the connection between the power mechanism 1 and the traveling mechanism 2 is cut off.

Alternatively, a switching unit of the transmission mechanism 4 may be added, and when the switching unit is triggered after the transformable toy 10 travels a certain distance, the switching unit switches the transmission mechanism 4 to be separated from the power mechanism 1 and the travel mechanism 2. The deformation member 3 is deformed and serves only as a fulcrum when the deformation toy 10 is rotated, or serves only as a component of the second form.

In some embodiments of the present invention, as shown in fig. 12, the transmission mechanism 4 further includes a clutch unit 41;

in the first mode, when the clutch unit 41 is switched to be combined with the power mechanism 1, the clutch unit 41 is combined with the traveling mechanism 2 and transmits power;

after the deformation piece 3 is changed, the deformation piece 3 disconnects the transmission between the clutch unit 41 and the power mechanism 1 and the traveling mechanism 2.

The clutch unit 41 has a movable structure and can be driven to transmit or disconnect transmission between the power mechanism 1 and the travel mechanism 2.

As shown in fig. 12, the clutch unit 41 is disconnected from the power mechanism 1 and the traveling mechanism 2, and the tortoise does not travel. The power mechanism 1 is driven by an external driving mechanism, and the power mechanism 1 idles but does not transmit power.

As shown in fig. 14, the clutch unit 41 is coupled to the power mechanism 1 and the traveling mechanism 2 for transmission, and the power mechanism 1 drives the four wheels 21 of the traveling mechanism 2 to rotate, so that the transformed toy 10 in the turtle shape (the first shape) travels forward.

As shown in fig. 15, the deformable member 3 pushes the clutch unit 41, so that the clutch unit 41 is again disconnected from the power mechanism 1 and the traveling mechanism 2, and the power mechanism 1 idles again.

In some embodiments of the present invention, as shown in fig. 12-13, the clutch unit 41 includes a clutch lever 411 and a first gear set 412;

in the first state, when the clutch rotating rod 411 is driven to rotate to enable the first gear set 412 to be combined with the power mechanism 1 and the advancing mechanism 2, the advancing mechanism 2 drives the transformable toy 10 to travel;

after the deformation piece 3 deforms, the deformation piece 3 drives the clutch rotating rod 411 to rotate reversely, so that the first gear set is disconnected from the power mechanism 1 and the advancing mechanism 2 for transmission.

Specifically, the clutch lever 411 is a rotatable member, the first gear set 412 is mounted on the clutch lever 411, and a torsion spring (not shown) is mounted on a rotating shaft (not shown) of the clutch lever 411, so that the clutch lever 411 has a tendency to rotate to be coupled with the power mechanism 1 and the traveling mechanism 2.

In the first mode, before the transformable toy 10 travels, the clutch lever 411 is rotated to disengage the first gear set 412 from the power mechanism 1 and the traveling mechanism 2.

When the clutch lever 411 is disengaged, the clutch lever 411 rotates under the action of the torsion spring, so that the first gear set 412 is in transmission connection with the power mechanism 1 and the traveling mechanism 2.

After the deformation member 3 is deformed, the deformation member 3 acts on the clutch lever 411 to separate the first gear set 412 from the power mechanism 1 and the travel mechanism 2.

In some embodiments of the present invention, as shown in fig. 13, the first gear set 412 includes a first gear 4121, a second gear 4122 and a third gear 4123, the first gear 4121 is used for transmission with the power mechanism 1, and the second gear 4122 and the third gear 4123 are used for transmission with the traveling mechanism 2.

The clutch rotating rod 411 comprises a front support 4111, a rear support 4112 and an acting part 4113, wherein the rear support 4112 is provided with a first gear 4121 and a second gear 4122, the two second gears 4122 are respectively positioned at the left side and the right side of the first gear 4121, and when the first gear 4121 is driven by the power mechanism 1, the first gear 4121 drives the second gear 4122 to rotate; the front bracket 4111 is provided with a third gear 4123. The acting portion 4113 is acted to separate the clutch lever 411 from the power mechanism 1 and the traveling mechanism 2.

In some embodiments of the present invention, as shown in fig. 13, the power mechanism 1 includes a middle shaft 12, a middle shaft worm 13 and a power input member 14, and the power mechanism 1 passes through the clutch rotating rod 411 and is located in the middle of the clutch rotating rod 411. As shown in fig. 1, the power mechanism 1 further includes a top case 11.

The middle shaft 12 is fixedly sleeved with a middle shaft worm 13, the bottom end of the middle shaft 12 is connected with a power input part 14, the power input part 14 is connected with an external driving mechanism, and the power mechanism 1 is powered through the driving mechanism. The top end of the middle shaft 12 is connected with a top shell 11, and the top shell 11 is in a tortoise shape and is in a semicircular tortoise shell shape.

When the power input part 14 is driven, the middle shaft 12 is driven to rotate, and the middle shaft 12 drives the middle shaft worm 13 and the top shell 11 to rotate.

When the clutch rotary rod 411 is disengaged, the clutch rotary rod rotates under the action of the torsion spring, so that the middle shaft worm 13 is meshed with the first gear 4121, the first gear 4121 rotates to drive the second gear 4122 to rotate, and the second gear 4122 drives the wheel 21 (see fig. 1) to rotate, so that the deformation toy 10 walks.

In some embodiments of the present invention, as shown in fig. 12 and 14, the traveling mechanism 2 includes four wheels 21, a second gear set 22, and a third gear set 23, wherein the second gear set 22 is connected to the two wheels 21 on the right side of the deformation member 3, and the third gear set 23 is connected to the two wheels 21 on the left side of the deformation member 3.

When the first gear 4121 is engaged with the middle shaft worm 13, the two second gears 4122 are respectively connected with the second gear set 22 and the third gear set 23 for transmission, and the second gear set 22 and the third gear set 23 drive the four wheels 21 to rotate simultaneously.

Alternatively, the travel mechanism 2 is not limited to the rotational travel by wheels, but may be a crawler-type travel structure, or a travel structure in which a plurality of feet alternately crawl.

In some embodiments of the present invention, as shown in fig. 13-15, the transmission mechanism 4 further comprises a locking unit 42;

before the traveling mechanism 2 moves, the locking unit 42 locks the deformation member 3;

after the travel mechanism 2 moves, the locking unit 42 moves to release the deformation member 3, and the deformation member 3 deforms.

Specifically, as shown in fig. 13, in the first mode, before the travel mechanism 2 moves, the clutch unit 41 is disengaged from the lock unit 42, and the lock unit 42 locks the deformation piece 3 in the forward projecting position.

As shown in fig. 14, when the clutch unit 41 is driven in conjunction with the power mechanism 1 and the traveling mechanism 2, it is also engaged with the locking unit 42, and the locking unit 42 is moved to a position for releasing the deformation member 3.

As shown in fig. 15, the deformable member 3 is released and then turned downward.

In some embodiments of the present invention, as shown in fig. 15, the locking unit 42 includes a pressing block 421 and a rotating cam 422, the clutch unit 41 drives the rotating cam 422 to rotate, and the rotating cam 422 drives the pressing block 421 to separate from the deformation member 3.

The locking unit 42 further includes a transmission wheel 423, the transmission wheel 423 is connected with a rotating cam 422, the rotating cam 422 is inserted into the pressing block 421, and the rotating cam 422 can drive the pressing block 421 to reciprocate up and down when rotating. The clutch unit 41 further includes a clutch worm 4124, and the clutch worm 4124 is coaxially and fixedly connected with the third gear 4123.

As shown in fig. 13, in the first mode, before the travel mechanism 2 moves, the clutch worm 4124 is disengaged from the transmission wheel 423. The lower end of the pressing piece 421 is inserted into the locking groove 31 of the deforming member 3, and the deforming member 3 is locked in the forward protruding position.

As shown in fig. 14, when the clutch unit 41 is engaged with the power mechanism 1 and the travel mechanism 2 for transmission, the clutch worm 4124 is engaged with the transmission gear 423. Because the third gear 4123 on the clutch rotating rod 411 is connected with the second gear set 22, the second gear set 22 drives the third gear 4123 to rotate, the third gear 4123 drives the clutch worm 4124 to rotate, the clutch worm 4124 drives the transmission wheel 423 to rotate, and the transmission wheel 423 drives the rotating cam 422 to rotate.

As shown in fig. 15, when the rotating cam 422 drives the pressing block 421 to rise upward, the pressing block 421 is separated from the locking groove 31 of the deformation member 3, the deformation member 3 is released, the deformation member 3 turns downward under the action of its own weight or the action of a torsion spring (not shown), and the torsion spring is installed at the rotating shaft (not shown) of the deformation member 3. When the deformation piece 3 is turned downwards until the head 32 is at the lowest end, the deformation piece 3 jacks up the clutch rotating rod 411, so that the clutch rotating rod 411 rotates to separate the first gear set 412 from the power mechanism 1 and the traveling mechanism 2, and simultaneously, the clutch worm 4124 is separated from the driving wheel 423.

In the second state, the power mechanism 1 continues to rotate, and the top shell 11 continues to rotate around the middle shaft 12. When the head 32 of the deforming part 3 contacts with the ground or the game table, the whole deforming toy 10 rotates by taking the contact point of the head 32 with the ground or the game table as a fulcrum, and the effect similar to the rotation of a gyroscope is realized.

In other embodiments of the present invention, as shown in fig. 7, the switching member 6 protrudes from the top surface of the launcher 20, and the switching member 6 is inserted into the transformable toy 10 when the transformable toy 10 is mounted on the launcher 20. As shown in fig. 6, the bottom end of clutch lever 411 is exposed from the bottom of transformable toy 10.

As shown in fig. 3, the switching element 6 pushes up the clutch lever 411, so that the first gear 4121 of the clutch unit 41 is disengaged from the middle shaft worm 13, and the transmission between the power mechanism 1 and the transmission mechanism 4 is disconnected.

As shown in fig. 4, when the transformable toy 10 is separated from the launcher 20, the switching member 6 does not act on the clutch lever 411, and the clutch unit 41 rotates to be transmitted in conjunction with the power mechanism 1 and the traveling mechanism 2, so that the transformable toy 10 starts to travel.

In other embodiments of the present invention, as shown in fig. 4, the separating member 7 may be a flip plate structure. When the trigger 9 is pulled, the trigger 9 releases the separating member 7, the separating member 7 is turned upward from the top surface of the launcher 20, and the separating member 7 pushes the transformable toy 10, so that the driving mechanism 5 is separated from the power mechanism 1, and the acceleration of the power mechanism 1 is stopped. At the same time, the release member 7 also releases the switching member 6 from the clutch lever 411, so that the switching member 6 no longer acts on the clutch unit 41, and the transformation toy 10 stops being accelerated and at the same time, the kinetic energy switched to the power mechanism 1 is transmitted to the traveling mechanism 2 to start traveling.

In other embodiments of the present invention, as shown in fig. 7, two latch hooks 8 protrude from the top surface of the emitter 20; as shown in fig. 6, the bottom surface of the transformable toy 10 is provided with two hook grooves 101 corresponding to the hook 8.

In the state of fig. 1, the latch hook 8 is locked with the hook groove 101 to lock the transformable toy 10 to the launcher 20, and the driving mechanism 5 of the launcher 20 accelerates the power mechanism 1 of the transformable toy 10.

In the state of fig. 2, the trigger 9 is pulled, the trigger 9 releases the separating member 7, and at the same time, the hook 8 is released from the hook groove 101, the space between the transformable toy 10 and the launcher 20 is unlocked, and the transformable toy 10 can be tilted forward and lifted by the separating member 7.

After that, the transformation toy 10 completes a series of actions from walking-transformation-rotation under the linkage of the power mechanism 1, the transmission mechanism 4, the transformation element 3 and the advancing mechanism 2, after the transformation toy 10 walks from the emitter 20, falls on the ground or the game table surface, and rotates on the ground or the game table surface until the power consumption of the power mechanism 1 is finished, and stops rotating.

The deforming member 6 may be manually flipped up to switch the deforming toy 10 from the second configuration back to the first configuration. Again mounted to the transmitter 20 in preparation for the next play.

Alternatively, the transformable toy 10 of the present invention may be played alone or in combination with the launcher 20. The transformable toy 10 may be accelerated directly by the power mechanism 1 through a rack, or accelerated by manually driving the power mechanism 1, or accelerated by a driving unit built in the transformable toy 10.

The preferred embodiment:

as shown in fig. 10-15, the transformable toy 10 includes a first configuration in the form of a turtle and a second configuration in the form of a top.

The transformation toy 10 comprises a power mechanism 1, a traveling mechanism 2, a transformation piece 3 and a transmission mechanism 4.

The power mechanism 1 comprises a top shell 11, a middle shaft 12, a middle shaft worm 13 and a power input part 14. The middle shaft 12 is fixedly sleeved with a middle shaft worm 13, the bottom end of the middle shaft 12 is connected with a power input part 14, the power input part 14 is connected with an external driving mechanism, and the power mechanism 1 is powered through the driving mechanism. The top end of the middle shaft 12 is connected with a top shell 11, and the top shell 11 is in a tortoise shape and is in a semicircular tortoise shell shape.

The travel mechanism 2 includes four wheels 21, a second gear set 22, and a third gear set 23, wherein the second gear set 22 is connected with the two wheels 21 on the right side of the deformation member 3, and the third gear set 23 is connected with the two wheels 21 on the left side of the deformation member 3.

The deformation piece 3 is the head and neck of a tortoise and comprises a head 32 and a locking groove 31. In the first state, the deformation piece 3 extends out of the front of the turtle shape; in the second configuration, the deformable element 3 is turned downwards as a top tip of the top figure.

The transmission mechanism 4 includes a clutch unit 41 and a lock unit 42.

The clutch unit 41 includes a clutch lever 411 and a first gear set 412, the clutch lever 411 is a rotatable member, the first gear set 412 is mounted on the clutch lever 411, and a torsion spring (not shown) is mounted on a rotating shaft (not shown) of the clutch lever 411, so that the clutch lever 411 has a tendency to rotate to be combined with the power mechanism 1 and the traveling mechanism 2. The clutch rotating rod 411 comprises a front support 4111, a rear support 4112 and an acting part 4113, wherein the rear support 4112 is provided with a first gear 4121 and a second gear 4122, the two second gears 4122 are respectively positioned at the left side and the right side of the first gear 4121, and when the first gear 4121 is driven by the power mechanism 1, the first gear 4121 drives the second gear 4122 to rotate; the front bracket 4111 is provided with a third gear 4123. The acting portion 4113 is acted to separate the clutch lever 411 from the power mechanism 1 and the traveling mechanism 2.

The power unit 1 passes through the clutch lever 411 and is located between the front bracket 4111 and the rear bracket 4112.

The first gear set 412 includes a first gear 4121, a second gear 4122 and a third gear 4123, the first gear 4121 is used for driving with the middle axis worm 13 of the power mechanism 1, and the second gear 4122 and the third gear 4123 are used for driving with the traveling mechanism 2.

The locking unit 42 includes a pressing block 421 and a rotating cam 422, the clutch unit 41 drives the rotating cam 422 to rotate, and the rotating cam 422 drives the pressing block 421 to separate from the deformation member 3. The locking unit 42 further includes a transmission wheel 423, the transmission wheel 423 is connected with a rotating cam 422, the rotating cam 422 is inserted into the pressing block 421, and the rotating cam 422 can drive the pressing block 421 to reciprocate up and down when rotating. The clutch unit 41 further includes a clutch worm 4124, and the clutch worm 4124 is coaxially and fixedly connected with the third gear 4123.

As shown in fig. 1 to 7, the shooter 20 is in a pistol-like shape, and the shooter 20 includes a drive mechanism 5, a switching member 6, a separating member 7, a latch hook 8, and a trigger 9.

The driving mechanism 5 is arranged inside the emitter 20, the driving mechanism 5 is driven by repeatedly pulling the pull rope for multiple times, and the driving mechanism 5 is connected with the power mechanism 1 to drive the power mechanism 1 to accelerate.

Switch 6 is provided on the top surface of launcher 20, and switch 6 is inserted into transformable toy 10 when transformable toy 10 is mounted on launcher 20. The switching element 6 is used to jack the clutch lever 411, so that the first gear 4121 of the clutch unit 41 is disengaged from the middle shaft worm 13, and the transmission between the power mechanism 1 and the transmission mechanism 4 is disconnected.

The separating member 7 is also disposed on the top surface of the emitter 20, and the separating member 7 is of a flip-board structure. When the trigger 9 is pulled, the trigger 9 releases the separating member 7, the separating member 7 is turned upward from the top surface of the launcher 20, and the separating member 7 pushes the transformable toy 10, so that the driving mechanism 5 is separated from the power mechanism 1, and the acceleration of the power mechanism 1 is stopped. At the same time, the release member 7 also releases the switching member 6 from the clutch lever 411, so that the switching member 6 no longer acts on the clutch unit 41, and the transformation toy 10 stops being accelerated and at the same time, the kinetic energy switched to the power mechanism 1 is transmitted to the traveling mechanism 2 to start traveling.

The latch hook 8 protrudes from the top surface of the launcher 20 to be engaged with two hook grooves 101 provided on the bottom surface of the transformable toy 10. The latch hook 8 is locked with the hook groove 101 to lock the transformable toy 10 on the launcher 20; when the trigger 9 is pulled, the trigger 9 pulls the latch hook 8 out of the hook slot 101, and the transformable toy 10 is unlocked from the launcher 20.

Trigger 9 can lock separator 7 and latch hook 8, and when trigger 9 was pulled, trigger 9 drove latch hook 8 unblock deformation toy 10, released separator 7 simultaneously, made the deformation toy 10 after the unblock incline forward, realized with actuating mechanism 5 and the separation of switching piece 6, finally realized the transmission to deformation toy 10.

The play of the transformable toy set of the preferred embodiment is as follows:

as shown in fig. 1, the transformable toy 10 is mounted on the launcher 20, and the driving mechanism 5 accelerates the power mechanism 1. At this time, the latch hook 8 locks the transformable toy 10 to the launcher 20, and the separate piece 7 is locked by the trigger 9 without being turned over; the switching element 6 separates the power mechanism 1 from the transmission mechanism 4.

As shown in fig. 2, when the trigger 9 is pulled, the release member 7 is turned over, the transformable toy 10 is separated from the transmitter 20, the driving mechanism 5 is separated from the power mechanism 1, and the switching member 6 is separated from the clutch unit 41. The power mechanism 1 and the advancing mechanism 2 are driven by the transmission mechanism 4 to drive the advancing mechanism 2 to rotate and realize the walking action of the turtle shape, and meanwhile, the power mechanism 1 also drives the deformation piece 3 to deform.

As shown in fig. 5, the transformable toy 10 is dropped from the launcher 20 after a stroke. At this time, the transformation element 3 is transformed to switch the transformation toy 10 from the tortoise configuration to the top configuration. At this time, the power mechanism 1 continues to rotate, the transmission between the power mechanism 1 and the traveling mechanism 2 is cut off again, and the deformation piece 3 is used as a top tip, so that the whole deformation toy 10 can rotate on the ground or a game table.

The transformable toy 10 of the present invention starts a series of walking-transforming-rotating actions after being launched, which brings a more interesting playing experience to the user.

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

Claims (10)

1. A transformable toy set comprising a transformable toy (10) and a launcher (20), characterized in that the launcher (20) comprises a trigger (9), a driving mechanism (5) and a switch (6), the transformable toy (10) comprises a power mechanism (1) and a travel mechanism (2);

when the transformable toy (10) is mounted on the launcher (20) and the driving mechanism (5) drives the transformable toy (10), the switching piece (6) separates the power mechanism (1) from the traveling mechanism (2);

when the trigger (9) is pulled to enable the transformable toy (10) to be launched, the switching piece (6) is separated from the transformable toy (10), the power mechanism (1) is combined with the traveling mechanism (2) and is in transmission, and after the transformable toy (10) travels for a stroke under the action of the traveling mechanism (2), the transformable toy (10) is transformed and switched to rotate.

2. A transformable toy set according to claim 1, characterized in that the driving mechanism (5) is connected to the power mechanism (1) and accelerates the power mechanism (1) when the transformable toy (10) is mounted to the launcher (20);

after the trigger (9) is pulled, the driving mechanism (5) is separated from the power mechanism (1).

3. A transformable toy assembly according to claim 2, characterized in that the launcher (20) further comprises a separate piece (7);

when the driving mechanism (5) is connected with the power mechanism (1), the separating piece (7) is locked by the trigger (9);

and releasing the separating piece (7) after the trigger (9) is pulled, wherein the power mechanism (1) is separated from the driving mechanism (5) by the separating piece (7).

4. A transformable toy set according to claim 3, characterized in that the separating member (7) is a flip-over plate provided on the upper surface of the launcher (20), and the rear end of the flip-over plate is flipped up and lifted up after the trigger (9) is pulled, so that the transformable toy (10) tends to walk forward.

5. A transformable toy set according to claim 4, characterized in that at least part of the driving mechanism (5) passes through the flip plate and is adapted to be connected to the power mechanism (1) after protruding from the upper surface of the launcher (20).

6. The transformable toy assembly of claim 4, wherein the front end of the upper surface of the launcher (20) is provided with a sliding groove along which the transformable toy (10) slides out from the front end of the launcher (20) after the flipping plate is flipped up and lifted.

7. A transformable toy set according to claim 1, characterized in that after the transformable toy (10) is launched, the power mechanism (1) moves the traveling mechanism (2) to make the transformable toy (10) travel;

when the transformable toy (10) rotates, the power mechanism (1) and the advancing mechanism (2) are disconnected for transmission.

8. A transformable toy set according to claim 1, characterized in that the launcher (20) further comprises a latch hook (8), the transformable toy (10) being provided with a latch slot (101) cooperating with the latch hook (8);

when the transformable toy (10) is mounted on the launcher (20), the latch hook (8) is locked by the trigger (9), and the latch hook (8) is inserted into the latch groove (101) to lock the transformable toy (10);

after the trigger (9) is pulled, the trigger (9) drives the lock hook (8) to be pulled out of the lock groove (101) to unlock the transformable toy (10).

9. A deformation toy assembly according to claim 7, characterized in that the deformation toy (10) further comprises a deformation member (3), the deformation toy (10) comprising at least a first and a second configuration:

in the first configuration, the deformable element (3) is used as a component in animal configuration;

after the deformation toy (10) walks for a certain travel, the power mechanism (1) enables the deformation piece (3) to deform, the deformation toy (10) is switched to the second form, and the deformation toy (10) is used as a gyroscope tip in a gyroscope form.

10. A transformable toy set according to claim 9, characterized in that the transformable toy (10) further comprises a transmission mechanism (4);

after the transformable toy (10) is launched, the transmission mechanism (4) is combined with the power mechanism (1) and the advancing mechanism (2), and the power mechanism (1) drives the advancing mechanism (2) to move through the transmission mechanism (4);

after the deformation piece (3) deforms, the deformation piece (3) enables the transmission mechanism (4) to be separated from the power mechanism (1) and the advancing mechanism (2), and the power mechanism (1) idles.

Images