CN111686459B - Toy combination capable of emitting rotating body - Google Patents

Abstract

The invention discloses a toy combination capable of emitting a rotating body, which comprises: walking toy and rotator, walking toy includes: the main body is provided with an accommodating space, the accommodating space is provided with a transmitting position, the operating part is movably arranged on the main body and is provided with a locking position and an unlocking position, the operating part is locked at the locking position through an operating lock, the operating part is blocked at the transmitting position when being locked and fixed, the transmitting position can be released when the operating part moves to the unlocking position or is separated from the main body, the driving mechanism is provided with a rotation output part, the driving mechanism is connected with the traveling mechanism so as to drive the rotation output part to rotate through the traveling mechanism, the triggering part is matched with the operating lock, the operating part is released by the driving operating lock when the triggering part is triggered, and the rotating body can be separated from the accommodating space and rotate when the transmitting position is released. The combined toy of the embodiment of the invention can be deformed to launch the rotating body which is hidden in the walking toy and rotates, and the rotating body can continuously rotate after being launched.

Description

Toy combination capable of emitting rotating body

Technical Field

The invention relates to the technical field of toys, in particular to a toy combination capable of emitting a rotating body.

Background

At present, the spinning top is popular among the majority of young people, and the existing mainstream spinning top toy emitter accelerates the spinning top toy mainly by manually pulling a rack or a rope, and then emits the spinning top. The gyro only has a play method of accelerating and launching, can not satisfy the interest of player, and when using the rack to give the gyro acceleration moreover, the rack is not only inconvenient to carry, and breaks easily, and the rack damages and makes the gyro can not normally play to make the gyro scrap.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art. Therefore, an object of the present invention is to provide a toy set capable of launching a rotating body, which can be deformed to launch the rotating body hidden in the walking toy to rotate, and the rotating body can continue to rotate after being launched.

According to the toy combination of the dischargeable rotator of the embodiment of the invention, the toy combination comprises: walking toy and rotator, walking toy includes: the device comprises a main body, an action piece, a driving mechanism and a trigger piece, wherein the main body is provided with an accommodating space, the accommodating space is provided with a transmitting position, the main body is provided with a walking mechanism, the action piece is movably arranged on the main body or detachably arranged on the main body, the action piece is provided with a locking position and an unlocking position, the action piece is locked at the locking position through an action lock, the action piece is blocked at the transmitting position when in the locking position, the action piece is constructed to move towards the unlocking position or to be separated from the unlocking position from the main body, the action piece can release the transmitting position when moving to the unlocking position or separating from the main body, the driving mechanism is provided with a rotation output piece, the rotation output piece is arranged on the main body or the action piece, the driving mechanism is connected with the walking mechanism so as to be driven by the walking mechanism to drive the rotation output piece to rotate, the trigger piece with the action lock cooperation, the trigger piece drives when receiving the trigger the action lock releases the action piece, the rotator is at least partly established in the accommodation space, be equipped with on the rotator with the joint portion that the rotation output piece combined together, the rotator can break away from when launching the position is released the accommodation space and rotate.

According to the toy combination capable of emitting the rotating body, the action piece can move between the locking position and the unlocking position, the trigger piece is matched with the action lock, and the action lock limits the action piece, so that the action piece is limited in the locking position. Furthermore, the driving mechanism is connected with the traveling mechanism, and the rotating output piece in the driving mechanism can drive the rotating body to rotate, so that the traveling mechanism can drive the rotating body to rotate when traveling. From this, when trigger receives when triggering, trigger and drive the action lock activity, so that the action lock no longer is spacing to the action, thereby make the action can follow the activity of lock solid position to unblock position, and then can open the transmission position, the back is opened to the transmission position, the rotator can be followed the transmission position and launched, and not only can keep rotatory after the rotator transmission, and rotator and walking toy are two mutually independent individualities, can play respectively, thereby can increase the play method of walking toy, and the rotator can give the amazing of player's vision from the transmission of walking toy, and then can improve the interest of playing, the thrill is felt.

In some embodiments of the present invention, the action member is retractably provided on the main body, and the action member is extended to deform the walking toy when unlocked; or the action piece is arranged at the bottom of the main body, and the action piece is turned downwards or ejected downwards when unlocked so as to empty the walking toy.

In some embodiments of the present invention, the walking toy further comprises: and the launching mechanism is used for launching the rotating body away from the accommodating space.

Optionally, the launching mechanism includes a rocker having at least one end extending into the accommodating space, the rocker is rotatably connected to the main body, the rocker is configured to rotate towards a direction extending out of the launching site, and the rocker holds the rotating body in rotation.

Furthermore, the emission position is located at the top of the accommodating space, the rocker is located at the bottom of the accommodating space, or the rocker is sleeved outside the lower part of the rotating body.

In some embodiments of the present invention, the launching site is located at the bottom of the accommodating space, and the action member includes a flip plate rotatably provided at the bottom of the main body, the flip plate slapping downward after being unlocked to empty the walking toy, and opening the launching site.

Optionally, the toy assembly capable of launching the rotating body further includes a launching mechanism slidably disposed in the accommodating space, a matching portion combined with the rotating body is disposed on the rotation output member, and the launching mechanism disengages the rotating body from the matching portion when triggered.

Furthermore, the rotation output piece is a hollow piece, the launching mechanism comprises a thimble, the thimble is slidably arranged in the rotation output piece, the matching part is arranged on the rotation output piece, and the thimble is connected with the matching part to drive the matching part to move when being triggered.

In some embodiments of the invention, the rotational output is located on the actuation member, and the drive mechanism comprises: first driving chain and second driving chain, first driving chain establishes in the main part, the one end of first driving chain with running gear links to each other, the second driving chain is established on the action piece, the one end of second driving chain with rotate the output piece and link to each other, and be in when the action piece is located the unlocking position the other end of second driving chain with the other end of first driving chain links to each other when the action piece is located the open position the other end of second driving chain with the other end of first driving chain breaks away from.

In some embodiments of the invention, the drive mechanism comprises: the one-way transmission assembly is positioned between the travelling mechanism and the rotation output piece, and the one-way transmission assembly is constructed to drive the rotation output piece to rotate when the travelling mechanism only performs one-way transmission.

In some embodiments of the present invention, a bearing is further disposed in the accommodating space, and the bearing is supported and fitted on the rotating body, or the bearing is connected to the rotation output member.

Optionally, the trigger is at least one of a collision mechanical trigger, a remote control trigger and an induction trigger.

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 an embodiment of an actuator of a walking toy of the toy assembly according to an embodiment of the present invention in a locked position;

FIG. 2 is a schematic view of an embodiment of an action member of a walking toy of the toy assembly according to an embodiment of the present invention in an unlocked position;

FIG. 3 is a cross-sectional view of FIG. 2;

FIG. 4 is a schematic view of a toy playset according to an embodiment of the present invention at an angle with the outer casing removed;

FIG. 5 is a schematic view of a toy playset according to an embodiment of the present invention shown at an alternate angle with the outer casing removed;

FIG. 6 is a schematic diagram of the cooperative arrangement of the action member, the launching delatch assembly, the launching mechanism, the action lock and the trigger member of the toy assembly according to an embodiment of the present invention;

fig. 7 is a schematic view showing the structure of the combination of the traveling mechanism, the driving mechanism and the rotating body according to the embodiment of the present invention.

FIG. 8 is a schematic view of a configuration of a transmitting rotator in another embodiment of a toy playset according to an embodiment of the present invention;

FIG. 9 is a schematic diagram of another embodiment of a toy playset according to an embodiment of the present invention;

FIG. 10 is a cross-sectional view of another embodiment of a toy playset according to an embodiment of the present invention;

figure 11 is a schematic view of another embodiment of a toy playset according to an embodiment of the present invention with the outer housing, the action member, the action lock, and the flipping panel removed.

Reference numerals:

100: a toy combination capable of emitting a rotating body;

1: a walking toy; 11: a main body; 111: a traveling mechanism; 12: an actuation member; 121: a turnover plate; 13: a drive mechanism; 31: a rotation output member; 1311: a fitting portion; 132: a first drive chain; 133: a second drive chain; 134: a one-way transmission assembly; 14: a trigger; 15: a launching mechanism; 151: a seesaw; 152: a thimble; 16: an action lock; 17: a bearing; 18: launching an unlocking assembly;

2: a rotating body; 21: a bonding portion.

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 or similar 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 accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to 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", "back", "top", "bottom", "inner", "outer", and the like, indicate orientations and positional relationships based on the orientations and positional relationships shown in the drawings, are used for convenience in describing the present invention and simplifying the 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 thus, should not be construed as limiting the present invention. Furthermore, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; 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 meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

A toy set 100 of launchable rotors according to an embodiment of the present invention will be described with reference to fig. 1-11.

As shown in fig. 1 to 11, a toy set 100 of a dischargeable rotator according to an embodiment of the present invention includes: a walking toy 1 and a rotator 2, and the walking toy 1 includes: a main body 11, an action member 12, a driving mechanism 13 and a trigger member 14.

Specifically, the main body 11 of the walking toy 1 is provided with a containing space, the containing space is provided with a launching position, the main body 11 is provided with a walking mechanism 111, an action piece 12 is movably arranged on the main body 11, or the action piece 12 is detachably arranged on the main body 11, the action piece 12 is provided with a locking position and an unlocking position, the action piece 12 is locked in the locking position through the action lock 16, the action piece 12 is blocked at the emission position when being locked, the action piece 12 is constructed to be normally movable towards the unlocking position or constructed to be separated from the unlocking position to the main body 11, the action piece 12 can release the emission position when being moved to the unlocking position or separated from the main body 11, the driving mechanism 13 is provided with a rotation output piece 131, the rotation output piece 131 is arranged on the main body 11 or the action piece 12, the driving mechanism 13 is connected with the walking mechanism 111 to drive the rotation output piece 131 to rotate by the walking mechanism 111, the trigger piece 14 is matched with the action lock 16, and the trigger piece 14 drives the action lock 16 to release the action piece 12 when being triggered. In addition, the rotating body 2 is at least partially disposed in the accommodating space, and the rotating body 2 is provided with a coupling portion 21 coupled to the rotation output member 131, so that the rotating body 2 can be separated from the accommodating space and rotate when the launching site is released.

That is, the action member 12 of the walking toy 1 in the toy combination 100 has two positions, and when the action member 12 is locked, the overall shape of the toy combination 100 is the same as that of a general walking toy, which may be a toy car shape, a quadruped shape, or a robot shape, and in addition, other shapes such as a flyable toy, a rollable ball toy, a bounceable toy, etc. may be included in the walking toy without limitation. When the action member 12 is locked, the rotating body 2 can be hidden in the accommodating space of the walking toy 1, so that the rotating body 2 can move together with the walking toy 1. When action 12 is in the position of unblock, the molding of toy combination 100 changes, and action 12 no longer restricts the rotator 2 of hiding in walking toy 1 to make rotator 2 can launch from walking toy 1 in, rotator 2 is launched the back, and rotator 2 and walking toy 1 are two independent individualities, can realize playing respectively, in order to improve the enjoyment of playing.

Specifically, the accommodating space is provided in the main body 11 of the walking toy 1, so that the rotating body 2 can be accommodated in the accommodating space, and the walking mechanism 111 can drive the walking toy 1 to move. When the action piece 12 is located at the locking position, the action piece 12 shields a part of the launching position, so that the action piece 12 limits the rotating body 2 in the accommodating space, and the rotating body 2 is more firmly hidden in the walking toy 1. Walking toy 1 can act as the warehouse when the walking, and the accommodation space is equivalent to the storehouse, because action 12 shelters from partial transmission position, is equivalent to the storehouse door and closes, and rotator 2 can't pass in and out the storehouse freely. When the actuator 12 is moved from the locked position to the unlocked position, it corresponds to opening the storehouse, so that the rotator 2 accommodated in the storehouse can enter and exit the storehouse.

Further, the action part 12 is arranged on the main body 11, and the action part 12 is movable on the main body 11, for example, the action part 12 can rotate relative to the main body 11, the action part 12 can also be separated from the main body 11, the action part 12 can also perform other activities, so that the emission site can be opened after the action part 12 is moved, and the specific movement mode of the action part 12 is not limited.

In addition, the movable position of the operating element 12 is divided into a locking position and an unlocking position, when the operating element 12 is in the locking position, the operating lock 16 can lock the operating element 12 and limit the operating element 12, so that the operating element 12 can be firmly kept in the locking position, and when the operating element 12 is in the locking position, the operating element 12 can shield the launching position, so that the operating element 12 can limit the rotating body 2 accommodated in the accommodating space. When the action lock 16 moves and unlocks the action piece 12, the action piece 12 can move from the locking position to the unlocking position, and in the moving process, the action piece 12 can open the launching position, so that the rotating body 2 in the accommodating space can be launched out of the walking toy 1 through the launching position. For example, a resilient member such as a torsion spring may be provided on the actuator 12, the resilient member is in a stored energy state when the actuator 12 is in the locked position, and the resilient member is released after the actuator lock 16 is unlocked, thereby driving the actuator 12 to rotate toward the unlocked position.

The trigger 14 may be coupled to the action lock 16, and when the trigger 14 is not triggered, the action lock 16 locks the action 12 to lock the action 12. When the trigger 14 is triggered, the trigger 14 drives the action lock 16 to move, so that the action lock 16 unlocks the action member 12, and the action member 12 can move from the locking position to the unlocking position.

In addition, the driving mechanism 13 may be connected to the traveling mechanism 111, so that the traveling mechanism 111 may drive the driving mechanism 13 to move when traveling. Specifically, the driving mechanism 13 includes a rotation output member 131, the rotation output member 131 may be disposed on the main body 11, and the rotation output member 131 may also be disposed on the operation member 12, so that the rotation output member 131 can be more firmly engaged with the walking toy 1, and the walking mechanism 111 can drive the rotation output member 131 to rotate. Furthermore, the rotation output member 131 can extend into the accommodating space and be engaged with the engaging portion 1311 of the rotating body 2, so that the rotation output member 131 can drive the rotating body 2 to rotate when rotating, and the rotating body 2 can rotate when being in the accommodating space.

When the action member 12 is located at the unlocking position, the launching position is opened, and the rotation output member 131 and the action member 12 can be separated at the moment, so that the action member 12 can be separated from the walking toy 1 from the launching position, and the action member 12 can keep rotating after being separated, thereby increasing the playing method of the toy combination 100 and improving the novelty and the interest of playing.

According to the toy assembly 100 capable of launching a rotator of the embodiment of the invention, the action piece 12 can move between the locking position and the unlocking position, the trigger piece 14 is matched with the action lock 16, and the action lock 16 limits the action piece 12, so that the action piece 12 is limited in the locking position. Further, the driving mechanism 13 is connected to the traveling mechanism 111, and the rotation output member 131 in the driving mechanism 13 can drive the rotating body 2 to rotate, so that the traveling mechanism 111 can drive the rotating body 2 to rotate. Therefore, when the trigger 14 is triggered, the trigger 14 drives the action lock 16 to move, so that the action lock 16 is not limited to the action 12, so that the action 12 can move from the locking position to the unlocking position, and then the emission position can be opened, after the emission position is opened, the rotator 2 can be emitted from the emission position, and after the rotator 2 is emitted, the rotator 2 can keep rotating, and the rotator 2 and the walking toy 1 are two independent individuals, which can play respectively, so that the playing methods of the walking toy 1 can be increased, and the rotator 2 can emit the visual stimulation to the player from the walking toy 1, and further the interest and the stimulation of the playing can be improved.

It can be understood that rotator 2 can be the top, through top and the cooperation of joint portion 21 for rotation output member 131 can drive the top and rotate in the accommodation space, can carry out the top match after the top launches, through running gear 111 activity so that the top rotates, has increased the method of playing of top, compares with giving the top acceleration through pull rod, rope etc. and compares, uses running gear 111 activity so that the top rotates, can prevent that the pull rod from breaking and making the toy scrap. In addition, the combined toy is also convenient to carry, and in the carrying process, the spinning top is contained in the walking toy 1, so that the spinning top is prevented from being lost. Of course, the rotating body 2 may have other structures, such as a toy with a small animal, a doll with a human figure, etc., and is not limited herein.

In some embodiments of the present invention, the walking toy 1 further comprises: the launching unlocking assembly 18 is arranged on the main body 11, one end of the launching unlocking assembly 18 extends to the action part 12, the other end of the launching unlocking assembly 18 is locked on the launching mechanism 15, and when the action part 12 moves to the unlocking position, the action part 12 triggers the launching unlocking assembly 18 to move, so that the launching mechanism 15 is unlocked by the launching unlocking assembly 18.

That is, when the actuator 12 is in the closed position, one end of the launching unlocking assembly 18 is engaged with the actuator 12, and the other end of the launching unlocking assembly 18 locks the launching mechanism 15 to limit the launching mechanism 15, so that the launching mechanism 15 is engaged with the lower portion of the walking toy 1 and the launching mechanism 15 is prevented from actively squeezing the walking toy 1. When the action piece 12 moves towards the unlocking position, the action piece 12 drives the launching unlocking assembly 18 matched with the action piece 12 to move, the launching unlocking assembly 18 does not limit the launching mechanism 15 any more after moving, so that the launching mechanism 15 rotates forwards to push the walking toy 1 arranged on the launching mechanism, and the walking toy 1 is ejected out of the toy car from the launching port.

In some embodiments of the present invention, the action member 12 is retractably provided on the main body 11, and the action member 12 is unfolded when unlocked to deform the walking toy 1, or the action member 12 is provided on the bottom of the main body 11, and the action member 12 is flipped downward or projected downward when unlocked to empty the walking toy 1.

In one example, as shown in fig. 3, the action member 12 is disposed on the upper side of the main body 11, the action member 12 can move relative to the main body 11, for example, the action member 12 can rotate relative to the main body 11, and the upper side of the main body 11 can be opened after the action member 12 rotates to the rear side, so that the rotator 2 hidden in the main body 11 is exposed, and meanwhile, the walking toy 1 is deformed after the action member 12 rotates, so that the overall shape of the upper toy assembly 100 is changed, thereby enhancing the interest of the play.

In another example, as shown in fig. 9, the action member 12 is disposed at the bottom of the main body 11, and the action member 12 can rotate downward, specifically, when the action member 12 is locked by the action lock 16, the action member 12 is locked and can not move, and when the action lock 16 unlocks the action member 12, the action member 12 rotates backward to turn to the unlocking position, and during the downward rotation, the action member 12 can slap the ground, so that the walking toy 1 can jump and empty, and the walking toy 1 can provide a launching space for the rotator 2 to fall out from the main body 11, so that the rotator 2 can not be interfered during launching, so as to ensure that the rotator 2 can still rotate after launching.

In some embodiments of the present invention, the walking toy 1 further comprises: the launching mechanism 15 is used for launching the rotating body 2 away from the accommodating space, that is, the launching mechanism 15 can be arranged on the main body 11, the launching mechanism 15 is matched with the rotating body 2, when the action piece 12 moves from the locking position to the unlocking position, the launching mechanism 15 is triggered, and after the launching mechanism 15 is triggered, the rotating body 2 matched with the launching mechanism can be launched towards the launching position, so that the rotating body 2 can be launched.

In the specific embodiment shown in fig. 2-7, the launching mechanism 15 includes a rocker 151 with at least one end extending into the receiving space, the rocker 151 is rotatably connected to the main body 11, the rocker 151 is configured to rotate towards the direction extending out of the launching position, and the rocker 151 holds the rotator 2 during rotation.

That is to say, when the rocker 151 is disposed on the main body 11, one end of the rocker 151 may be disposed in the accommodating space, and the other end of the rocker 151 may not be disposed in the accommodating space, so that both ends of the rocker 151 may be disposed in the accommodating space, and the specific arrangement of the rocker 151 is not limited herein. One end of the rocker 151 can be arranged on the main body 11 through the rotating shaft, so that the rocker 151 can rotate relative to the main body 11, specifically, the rocker 151 can be triggered when the action piece 12 moves towards the unlocking position, so that the rocker 151 is not limited, and then one end of the rocker 151 provided with the rotating shaft can rotate, and the other end of the rocker 151 can tilt. Further, the seesaw 151 may be rotated toward the launch site, and the rotator 2 is provided on the seesaw 151, whereby, when the seesaw 151 is tilted, the seesaw 151 may lift the rotator 2 and eject the rotator 2 out of the launch site to the walking toy 1.

Wherein, can be at torsional spring on the axis of rotation of wane 151, when action 12 is located the lock maintenance position, can restrict wane 151 activity, the torsional spring is in the energy storage state this moment, when action 12 is towards the activity of unblock position, the torsional spring energy release to make wane 151 can rotate towards the transmission position, also make wane 151 can hold up rotator 2 simultaneously.

In the above embodiment, the emission position is located at the top of the accommodating space, the rocker 151 is located at the bottom of the accommodating space, or the rocker 151 is externally sleeved at the lower part of the rotator 2, that is, when the emission position is formed at the top of the accommodating space, the rocker 151 is suitable for being arranged at the bottom of the accommodating space, so that the rocker 151 can tilt towards the emission position when tilting, and the rocker 151 can eject the rotator 2.

Alternatively, the center of the seesaw 151 may be formed as a hollow structure, and the rotator 2 may be fitted in the hollow structure, so that the peripheral wall structure of the seesaw 151 may support the rotator 2 when the seesaw 151 lifts and pulls the rotator 2. Of course, it can be understood that a rotation slot may also be formed on the rocker 151, the rotation body 2 is fitted in the rotation slot, when the driving mechanism 13 drives the rotation body 2 to rotate, the rotation body 2 can rotate in the rotation slot more stably, and when the rocker 151 tilts, the rotation slot can lift and launch the rotation body 2. The specific structure of the rocker 151 is not limited herein, and may satisfy the function.

In the specific embodiment shown in fig. 9-11, the launching site is located at the bottom of the accommodating space, the operating member 12 includes a flip plate 121 rotatably disposed at the bottom of the main body 11, the flip plate 121 slaps downward after being unlocked to empty the walking toy 1, and the launching site is opened, that is, when the launching site is formed at the bottom of the accommodating space, the flip plate 121 in the operating member 12 can shield the launching site, and the flip plate 121 can be flipped, when the operating member 12 is located at the locking site, the flip plate 121 shields the launching site, so that the rotating body 2 in the accommodating space is limited, and the rotating body 2 cannot freely enter and exit the accommodating space at this time. When the action piece 12 turns to the unlocking position, the turnover plate 121 can be triggered to turn over, specifically, the turnover plate 121 rotates downwards, and the emission position can be opened, so that the rotator 2 can be separated from the emission position to the walking toy 1, meanwhile, when the turnover plate 121 rotates downwards, the ground can be flapped, so that the walking toy 1 can be emptied, in the emptying process of the walking toy 1, a larger space is provided for the emission of the rotator 2, so that the rotator 2 can be separated from the walking toy 1 better, and the interference is avoided, so that the walking toy 1 has two playing methods, in addition, the rotator 2 emits stimulation capable of providing vision for a player from the walking toy 1, and the interest and the stimulation of playing can be improved.

In the above embodiment, when the flip board 121 is flipped to open the launching position, the rotating body 2 can move downward under its own weight and disengage from the walking toy 1, i.e. the component of the launching mechanism 15 is not needed. Of course, in order to achieve better operation effect, the launching mechanism 15 may also be provided, specifically as follows:

in some embodiments of the present invention, as shown in fig. 10, the toy combination 100 further includes a launching mechanism 15 slidably disposed in the accommodating space, a matching portion 1311 combined with the combining portion 21 is disposed on the rotation output member 131, the launching mechanism 15 disengages the rotating body 2 from the matching portion 1311 when being triggered, that is, the launching mechanism 15 can slide relative to the accommodating space, and after the launching mechanism 15 is triggered, the launching mechanism 15 moves in the accommodating space and drives the matching portion 1311 of the combining portion 21 to disengage, so that the rotating body 2 is not limited, and the rotating body 2 can disengage from the toy combination 100. In addition, by combining the combining portion 21 with the matching portion 1311, when the rotation output member 131 rotates, the matching portion 1311 rotates together with the rotation output member 131, so that the matching portion 1311 can drive the combining portion 21 to rotate, and when the combining portion 21 rotates, the rotating body 2 combined with the combining portion 21 can rotate. When the flipping board 121 is turned to the unlocking position, the launching mechanism 15 is triggered and activated, and the engaging portion 1311 is separated from the engaging portion 21, so that the rotation body 2 can be separated from the walking toy 1. When the flipping board 121 turns to the unlocking position, the launching mechanism 15 can drive the matching part 1311 to move, so that the combining part 21 is separated from the matching part 1311, and after the combining part 21 is separated from the matching part 1311, the rotating body 2 is not limited, so that the rotating body 2 can be launched from the launching position.

Optionally, the launching mechanism 15 includes a thimble 152 slidably disposed in the accommodating space, the thimble 152 disengages the coupling portion 21 from the mating portion 1311 when being triggered, specifically, one end of the thimble 152 may be connected to the launching mechanism 15, and the other end of the thimble 152 may be mated with the mating portion 1311, so that, after the launching mechanism 15 is triggered, the launching mechanism 15 is activated and the thimble 152 is triggered to move, while the thimble 152 is activated and the mating portion 1311 is activated, and then the mating portion 1311 may be separated from the coupling portion 21, so that the rotating body 2 is not limited.

Further, the rotation output member 131 is a hollow member having at least one open end, the launching mechanism 15 includes a thimble 152 provided in the rotation output member 131, for example, as shown in fig. 10 and 11, the upper end of the rotation output member 131 may be formed as an opening through which the thimble 152 may be fitted in the rotation output member 131, the other end of the thimble 152 may be fitted with a fitting portion 1311 of the rotation output member 131, and the thimble 152 may be relatively movable in the transfer output member, and when the thimble 152 is moved toward the fitting portion 1311, it may trigger the fitting portion 1311, so as to disengage the rotating body 2 fitted in the fitting portion 1311.

In some embodiments of the present invention, as shown in fig. 7, the rotation output member 131 is located on the operation member 12, and the driving mechanism 13 includes: the first transmission chain 132 is arranged in the main body 11, one end of the first transmission chain 132 is connected with the walking mechanism 111, the second transmission chain 133 is arranged on the action part 12, one end of the second transmission chain 133 is connected with the rotation output part 131, the other end of the second transmission chain 133 is connected with the other end of the first transmission chain 132 when the action part 12 is located at the unlocking position, and the other end of the second transmission chain 133 is separated from the other end of the first transmission chain 132 when the action part 12 is located at the opening position.

Therefore, when the traveling mechanism 111 travels, the traveling mechanism 111 can drive the first transmission chain 132 to move. When the second transmission chain 133 moves, it can drive the rotation output member 131 to rotate, and the rotation output member 131 rotates to drive the rotator 2 matched with the rotation output member to rotate, so that the rotator 2 can rotate well in the accommodating space.

Specifically, when the actuator 12 is locked, the first transmission chain 132 is connected between the traveling mechanism 111 and the second transmission chain 133, and the rotation output member 131 is connected between the second transmission chain 133 and the rotating body 2, so that when the traveling mechanism 111 rotates, the torque thereof can be transmitted from the first transmission chain 132 to the second transmission chain 133 and then transmitted from the second transmission chain 133 to the rotation output member 131, so that the rotation output member 131 can rotate, and the rotation output member 131 rotates to drive the rotating body 2 engaged therewith to rotate, thereby enabling the rotating body 2 to rotate. When the actuation member 12 is in the unlocked position, the second drive chain 133 is not connected to the first drive chain 132, so that the first drive chain 132 does not transmit torque to the second drive chain 133, and thus the rotation output member 131 does not rotate. Wherein, when action 12 is in the position of unblock, rotate output 131 not with rotator 2 cooperation, rotator 2 can be launched this moment, if rotate output 131 and rotate, it can not drive rotator 2 and rotate, only does not do useful work, consequently, separates first drive chain 132 and second drive chain 133, can make to rotate output 131 no longer to can reduce the energy loss of walking toy 1 when walking.

Further, the other end of the second transmission chain 133 and the other end of the first transmission chain 132 are respectively bevel gears, in other words, one end of the first transmission chain 132 engaged with the second transmission chain 133 is a bevel gear, and one end of the second transmission chain 133 engaged with the first transmission chain 132 is also a bevel gear, through the two bevel gears engaged transmission, the transmission direction of the power can be changed, specifically, the rotation axis of the bevel gear on the first transmission chain 132 around the rotation is perpendicular to the rotation axis of the bevel gear on the second transmission chain 133 around the rotation, so that the transmission direction of the second transmission chain 133 is perpendicular to the transmission direction of the first transmission chain 132, that is, the first transmission chain 132 rotates around the axis in the horizontal direction, and the second transmission chain 133 rotates around the axis in the vertical direction, when the power is transmitted to the rotating body 2, the rotating body 2 can rotate around the axis in the vertical direction, so that the rotating body 2 is launched, can more stably rotate on the ground, and further improves the stability of the rotation of the rotating body 2 after the launching and the launching.

As shown in fig. 5, for example, the drive mechanism 13 includes: and the one-way transmission assembly 134 is positioned between the travelling mechanism 111 and the rotation output piece 131, and the one-way transmission assembly 134 is configured to drive the rotation output piece 131 to rotate when the travelling mechanism 111 only performs one-way transmission.

Therefore, the unidirectional transmission assembly 134 is arranged between the travelling mechanism 111 and the rotation output piece 131, so that when the travelling mechanism 111 moves forwards, the unidirectional transmission assembly 134 can be matched with the rotation output piece 131, power can be transmitted to the unidirectional transmission assembly 134 from the travelling mechanism 111, then the power can be transmitted to the rotation output piece 131 from the unidirectional transmission assembly 134, and the rotation output piece 131 rotates to drive the rotating body 2 to rotate. When the traveling mechanism 111 moves backward, the one-way transmission assembly 134 is separated from the traveling mechanism 111, so that the reverse torque is not transmitted to the rotation output member 131, and further, the reverse torque is not transmitted to the rotating body 2, so that the rotating body 2 does not reverse. Therefore, the rotating body 2 can rotate towards one direction, so that the rotating speed is high when the rotating body 2 is launched, the rotating body 2 can keep rotating for a long time on the ground after being launched, and the interest of playing is improved.

In some embodiments of the present invention, a bearing 17 is further disposed in the accommodating space, and the bearing 17 is supported and fitted on the rotating body 2, or the bearing 17 is connected to the rotation output member 131, so that when the rotation output member 131 drives the rotating body 2 to rotate, the bearing 17 can rotate with the rotating body 2, thereby reducing friction between the rotating body 2 and the walking toy 1.

In some embodiments of the present invention, the triggering component 14 is at least one of a collision mechanical triggering component 14, a remote control triggering component 14, and an induction triggering component 14, that is, the triggering component 14 on the walking toy 1 may be the collision mechanical triggering component 14, the triggering component 14 may also be the remote control triggering component 14, and the triggering component 14 may also be the induction triggering component 14, and of course, it is understood that the triggering component 14 may also be other types of triggering than the above, which is not particularly limited herein and may meet the actual needs.

The structure and play of toy figure 100 in two embodiments is described with reference to the figures.

Example 1

Referring to fig. 1 to 7, there is shown a structure of a built-up toy 100 according to embodiment 1.

When the walking mechanism 111 rotates to move on the ground, and the trigger 14 on the walking toy 1 is not triggered, the action lock 16 connected to the trigger 14 can lock the action 12, so that the action 12 is located at the lock position, and the action 12 can shield the launching position, thereby limiting the rotating body 2 in the accommodating space of the walking toy 1. Further, one end of the first transmission chain 132 in the driving mechanism 13 is engaged with the traveling mechanism 111, the other end of the first transmission chain 132 is engaged with one end of the second transmission chain 133, the other end of the second transmission chain 133 can be engaged with the rotation output member 131, and the rotation output member 131 is engaged between the second transmission chain 133 and the joint portion 21, so that when the traveling mechanism 111 rotates, the torque can be transmitted to the joint portion 21 through the first transmission chain 132, the second transmission chain 133 and the rotation output member 131, and the joint portion 21 rotates to drive the rotating body 2 to rotate.

When the walking toy 1 is triggered when the trigger 14 is in motion, the trigger 14 can move, and the trigger 14 can drive the action lock 16 to unlock when moving, so that the action 12 is not limited by the action lock 16, and at the moment, the action 12 moves from the locking position to the unlocking position, so that the action 12 rotates backwards, and the launching position can be opened. Meanwhile, the action piece 12 can trigger the launching mechanism 15 in the process of rotating backwards, and the launching mechanism 15 can move to drag the rotating body 2 and tilt towards the launching position, so that the rotating body 2 can launch the walking toy 1 from the launching position.

Example 2

Referring to fig. 8 to 11, there is shown a structure of a built-up toy 100 according to embodiment 2.

When the walking mechanism 111 rotates to move on the ground, and the trigger 14 on the walking toy 1 is not triggered, the action lock 16 connected to the trigger 14 can lock the action 12, so that the action 12 is located at the lock position, and the turning plate 121 in the action 12 can shield the launching position, so that the turning plate 121 can limit the rotating body 2 in the accommodating space of the walking toy 1. Further, one end of the driving mechanism 13 is matched with the traveling mechanism 111, and the other end of the driving mechanism 13 is matched with the rotation output piece 131, so that the driving mechanism 13 can be driven to rotate when the traveling mechanism 111 rotates, and the rotation output piece 131 can be driven to rotate after the driving mechanism 13 rotates. In addition, the matching part 1311 on the rotation output member 131 can be matched with the combining part 21, so that the matching part 1311 can limit the rotating body 2, and thus, not only can the rotating body 2 be firmly matched in the accommodating space, but also the matching part 1311 can drive the rotating body 2 to rotate when rotating.

When the walking toy 1 is triggered when the trigger 14 is in motion, the trigger 14 can move, the trigger 14 can drive the action lock 16 to unlock when moving, after the action lock 16 is unlocked, the action piece 12 is not limited by the action lock 16, the action piece 12 turns to an unlocking position from the locking position, and the turnover plate 121 rotates downwards and beats the ground when the action piece 12 moves, so that the walking toy 1 can be emptied, and visual impact is given to people. Meanwhile, the turning plate 121 can trigger the emission mechanism 15 when rotating, the emission mechanism 15 moves and presses the thimble 152, so that the thimble 152 moves downwards and drives the matching part 1311 to move, the matching part 1311 is separated from the combining part 21 after moving, and the matching part 1311 is not limited to the rotating body 2 after the matching part 1311 is separated from the combining part 21, so that the rotating body 2 moves downwards under the action of gravity, and the rotating body 2 can be separated from the walking toy 1 through the emission position. The walking toy 1 vacates a larger launching space for the rotating body 2 when launched so that the rotating body 2 is not interfered with.

The rotator 2 can fall to the ground to rotate after being launched from the walking toy 1, and the rotator 2 can also fall to the competition field of the rotator 2 to play the competition, so that the rotator 2 can be more angry when going out and give people surprise.

Other constructions and operations of the body-launching toy assembly 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 "some embodiments," "optionally," "further," or "some examples," 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 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 (11)

1. A toy assembly adapted to launch a rotating body, comprising:

a walking toy, the walking toy comprising:

the device comprises a main body, a driving device and a control device, wherein the main body is provided with an accommodating space, the accommodating space is provided with a transmitting position, and the main body is provided with a traveling mechanism;

an action member movably arranged on the main body or detachably arranged on the main body, wherein the action member is provided with a locking position and an unlocking position, the action member is locked at the locking position through an action lock, the action member is blocked at the launching position when in the locking position, the action member is configured to move towards the unlocking position constantly or is configured to be separated from the main body from the unlocking position constantly,

wherein the action member is retractably disposed on the main body, and is unfolded when unlocked to deform the walking toy; or the action piece is arranged at the bottom of the main body, and when the action piece is unlocked, the action piece overturns downwards or shoots downwards so as to empty the walking toy;

the launching position can be released when the action piece moves to the unlocking position or is separated from the main body;

the driving mechanism is provided with a rotation output piece, the rotation output piece is arranged on the main body or the action piece, and the driving mechanism is connected with the travelling mechanism so that the travelling mechanism drives the rotation output piece to rotate;

the trigger piece is matched with the action lock, and the trigger piece drives the action lock to release the action piece when being triggered;

the rotator is at least partially arranged in the accommodating space, a joint part combined with the rotation output part is arranged on the rotator, and the rotator can be separated from the accommodating space and rotate when the emission position is released.

2. The body-launching toy combination as recited in claim 1, wherein the walking toy further comprises: and the launching mechanism is used for launching the rotating body away from the accommodating space.

3. The combination of claim 2, wherein the launching mechanism comprises a rocker having at least one end extending into the receiving space, the rocker being rotatably connected to the body, the rocker being configured to rotate in a direction extending out of the launching site, the rocker lifting the rotator during rotation.

4. The combination of claim 3, wherein the launching site is located at the top of the accommodating space, the rocker is located at the bottom of the accommodating space, or the rocker is sleeved on the lower part of the rotator.

5. The combination of a shooting rotator toy according to claim 1, wherein the shooting position is located at the bottom of the containing space, and the action member comprises a flip plate rotatably provided at the bottom of the main body, and the flip plate flaps downward after being unlocked to empty the walking toy and open the shooting position.

6. The toy combination of claim 5, further comprising a launching mechanism slidably disposed in the receiving space, wherein the rotation output member is provided with a mating portion that is engaged with the engaging portion, and the launching mechanism disengages the engaging portion from the mating portion when triggered.

7. The rotary body launching toy combination as recited in claim 6, wherein the rotary output member is a hollow member, the launching mechanism includes a thimble slidably disposed within the rotary output member, the engaging portion is disposed on the rotary output member, and the thimble is connected to the engaging portion to drive the engaging portion to move when triggered.

8. The rotatable body shooting toy combination of claim 1, wherein the rotation output member is located on the action member, and the driving mechanism comprises:

the first transmission chain is arranged in the main body, and one end of the first transmission chain is connected with the travelling mechanism;

the second driving chain, the second driving chain is established on the action piece, the one end of second driving chain with rotate output and link to each other, and when the action piece was located the unblock position the other end of second driving chain with the other end of first driving chain links to each other the action piece was located when opening the position the other end of second driving chain with the other end of first driving chain breaks away from.

9. The rotatable body shooting toy combination of claim 1, wherein the driving mechanism comprises: the one-way transmission assembly is positioned between the travelling mechanism and the rotation output piece, and the one-way transmission assembly is constructed to drive the rotation output piece to rotate when the travelling mechanism only performs one-way transmission.

10. The rotary body launching toy combination as recited in claim 1, wherein a bearing is further provided in the receiving space, the bearing is supported and fitted on the rotary body, or the bearing is connected to the rotation output member.

11. The dischargeable rotator toy assembly according to any one of claims 1-10, wherein the trigger is at least one of a crash mechanical trigger, a remote trigger, and an inductive trigger.

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