CN214260649U - Toy capable of being soared for many times by single trigger - Google Patents

Abstract

The utility model discloses a toy that many times soared is triggered to single, include: body, release mechanism, first vacate subassembly, second vacate subassembly and time delay subassembly, first vacate subassembly includes: the toy comprises a first elastic plate, a first elastic piece and a first locking piece, wherein the first elastic plate is rotatably arranged on the body between an initial position and an unlocking position, the first elastic piece is used for driving the first elastic plate to rotate towards the unlocking position so as to empty the toy when the first elastic plate touches the ground, and the first locking piece is used for locking the first elastic plate at the initial position; the second flight assembly comprises: second bullet board, second elastic component and second locking piece, the second plays the board and rotationally establishes on the body between initial position and unblock position, and the second elastic component is used for driving the second to play the board and rotates towards unblock position to make the toy empty when the second plays the board and contacts to earth, according to the utility model discloses a toy can realize triggering many times and empty, thereby can improve the visual impact, improves simultaneously and dazzles cool sense and interesting.

Description

Toy capable of being soared for many times by single trigger

Technical Field

The utility model relates to a toy art field especially relates to a toy that many times soared is triggered to single.

Background

The existing mainstream transformable toy mainly is an innovation of a form of a function of transforming a vehicle into an animal or a vehicle into a human, the form of the toy is less in transformation, and in addition, the toy can only be subjected to one-time soaring and overturning, so that the toy which can be subjected to soaring and overturning for multiple times and can be subjected to various transformation forms is to be developed.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, an object of the utility model is to provide a single triggers toy that soaks many times, the single triggers toy that soaks many times can realize triggering many times soaks to can improve visual impact, improve simultaneously and dazzle cool sense and interesting.

According to the utility model discloses toy that many times vacate is triggered to single, the toy includes: body, release mechanism, first vacate subassembly, second vacate subassembly and time delay subassembly, first vacate subassembly includes: the toy comprises a first elastic plate, a first elastic piece and a first locking piece, wherein the first elastic plate is rotatably arranged on the body between an initial position and an unlocking position, the first elastic piece is used for driving the first elastic plate to rotate towards the unlocking position so as to empty the toy when the first elastic plate touches the ground, the first locking piece is used for locking the first elastic plate at the initial position, the first locking piece is linked with an unlocking mechanism, the first elastic plate is released by the first locking piece when the unlocking mechanism executes an unlocking action, and the second emptying assembly comprises: second bullet board, second elastic component and second locking piece, the second plays the board and rotationally establishes between initial position and unblock position on the body, the second elastic component is used for the drive the second plays the board and rotates towards unblock position, in order the second plays the board makes when touching to the ground the toy soaks, the second locking piece is used for with the second plays the board lock solid at initial position, the second locking piece is being released when being triggered the second plays the board, the time delay subassembly with the second locking piece cooperatees, trigger after the first bullet board rotates the time delay subassembly starts, through the time delay subassembly triggers the second locking piece.

According to the utility model discloses toy can trigger first spring plate of first locking piece release after the unblock through release mechanism unblock to make first spring plate rotate towards the direction of unblock position under the effect of the restoring force of first elastic component, thereby make the player can vacate, overturn. First bullet board rotates and can trigger time delay subassembly after the unblock position, and the time delay subassembly is used for triggering the second locking piece to make the second locking piece can delay unblock second bullet board, thereby make the second play board when the activity of unblock position, make the player can realize vacating for the second time, upset, so can give player visual impact, and improve the interest. From this, the toy of this application can realize twice vacating, upset, and twice vacating can delay to improve the cool sense of toy.

In addition, according to the utility model discloses a toy that once triggers many times vacate, can also have following additional technical characterstic:

in some embodiments of the present invention, the delay assembly comprises: the push-buckle rod is movably arranged on the body, the push-buckle rod pushes the second locking piece to move so as to release the second elastic plate when moving, and the damper is matched with the push-buckle rod.

Optionally, a push buckle groove is formed in the push buckle rod, a rack is formed on the inner wall of the push buckle groove, and the damper is meshed with the rack through a gear.

Optionally, the push-buckle rod comprises a middle frame, push rods and a damping matching part which are integrally formed, the push rods and the damping matching part are positioned at two opposite sides of the middle frame, the push rods are spaced apart to respectively abut against the second locking part, and the damping matching part is used for matching with the damper; the delay assembly includes: the push rod spring is arranged in the middle frame and used for pushing the push buckle rod to move towards the direction of the second locking piece.

Optionally, a first snap is disposed at a rotating shaft end of the first elastic plate, the first snap abuts against the push-buckle rod to lock the push-buckle rod when the first elastic plate is at an initial position, and the first snap releases the lock of the push-buckle rod when the first elastic plate is at an unlocking position.

In some embodiments of the present invention, the toy further comprises: the first unfolding piece is arranged on the body in a foldable mode, and the first fastener is used for locking the first unfolding piece in an initial state; the rotating shaft end of the first elastic plate is provided with a second clamping protrusion, and the second clamping protrusion abuts against the first fastener when the first elastic plate is in an unlocking position so as to drive the first fastener to unlock the first unfolding piece.

In some embodiments of the present invention, the toy further comprises: the second unfolding piece is arranged on the body in a foldable mode, and the second fastener is used for locking the second unfolding piece in an initial state; the second fastener is triggered when the second elastic plate is at the unlocking position so as to drive the second fastener to unlock the second unfolding piece.

In one embodiment, the body has a combination position, the unlocking mechanism includes an unlocking end, the unlocking end is arranged at one end of the first locking member, which extends to the combination position, and the unlocking end constitutes the unlocking action due to collision or movement of a combination external toy body.

Optionally, the unlocking mechanism further comprises: the combining piece is arranged on the body and corresponds to the combining position, and the combining piece is used for combining the external toy body on the combining position; a shooting bar movably disposed on the body between a shooting initial position and a shooting final position, the shooting bar being configured to have a tendency to move toward the shooting final position, the shooting bar being used to shoot the external toy body away from the coupling position at the shooting final position; the shooting latch fitting, the shooting latch fitting be used for with the shooting pole keeps the shooting is just in the position, the second plays the board and is used for triggering when the unblock position the shooting latch fitting releases the shooting pole.

Optionally, first springboard encloses and establishes the outside of second springboard, the movably establishment of shooting latch fitting is in the bottom of body.

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

Drawings

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

FIG. 1 is a schematic view of a toy according to an embodiment of the present invention in an initial state;

FIG. 2 is a schematic diagram of a toy according to an embodiment of the present invention after a first lofting and flipping motion and a first deformation;

FIG. 3 is a schematic diagram of a toy according to an embodiment of the present invention after a second flight in the air and a second deformation;

FIG. 4 is a cross-sectional view taken along line A-A of FIG. 1;

FIG. 5 is a cross-sectional view taken along line B-B of FIG. 2;

FIG. 6 is a cross-sectional view taken along line C-C of FIG. 3;

FIG. 7 is a top view of the toy of FIG. 1 with the first deployment member, the second deployment member, and the body removed;

FIG. 8 is a bottom view of the toy of FIG. 1 with the first development member, the second development member and the body removed;

FIG. 9 is a schematic illustration of the toy of FIG. 2 with the first deployment member, the second deployment member, and the body removed;

FIG. 10 is a schematic illustration of the toy of FIG. 3 with the first deployment member, the second deployment member, and the body removed;

fig. 11 is an exploded view of a toy according to an embodiment of the present invention after a second flight upset and second deformation.

Reference numerals:

a toy 100;

a body 1; a binding site 11;

an unlocking mechanism 2; a coupling member 21; a shooting bar 22; a shooting lock 23;

a first emptying assembly 3; a first spring plate 31; a first snap projection 311; a second snap 312; a first locking member 32;

a second flight assembly 4; a second spring plate 41; a second locking member 42;

a delay component 5; a push-button lever 51; a middle frame 511; a push rod 512; a damping fitting 513; a push-catch groove 514; a damper 52; a rack 53; a gear 54;

a first deployment member 6;

a first fastener 7;

a second development 8;

and a second fastening member 9.

Detailed Description

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

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being 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 is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

A single-trigger multiple-flight toy 100 according to an embodiment of the present invention is described below with reference to fig. 1-11.

As shown in fig. 1-11, a single-trigger multiple-flight toy 100 according to an embodiment of the present invention includes: the device comprises a body 1, an unlocking mechanism 2, a first emptying component 3, a second emptying component 4 and a time delay component 5.

Specifically, the first emptying assembly 3 comprises: the toy 100 comprises a first elastic plate 31, a first elastic piece and a first locking piece 32, wherein the first elastic plate 31 is rotatably arranged on the body 1 between an initial position and an unlocking position, the first elastic piece is used for driving the first elastic plate 31 to rotate towards the unlocking position so as to empty the toy 100 when the first elastic plate 31 contacts the ground, the first locking piece 32 is used for locking the first elastic plate 31 at the initial position, the first locking piece 32 is linked with the unlocking mechanism 2, and the first locking piece 32 releases the first elastic plate 31 when the unlocking mechanism 2 performs an unlocking action.

The second flight assembly 4 includes: a second elastic plate 41, a second elastic member and a second locking member 42, the second elastic plate 41 is rotatably provided on the body 1 between an initial position and an unlocked position, the second elastic member is used for driving the second elastic plate 41 to rotate towards the unlocked position so as to empty the toy 100 when the second elastic plate 41 touches the ground, the second locking member 42 is used for locking the second elastic plate 41 at the initial position, and the second locking member 42 releases the second elastic plate 41 when being triggered.

Further, the delay assembly 5 is matched with the second locking piece 42, the first elastic plate 31 rotates to trigger the delay assembly 5 to start, and the second locking piece 42 is triggered through the delay assembly 5.

That is, toy 100 of the present application may be flipped empty twice with a certain time interval between flips. Specifically, when the unlocking mechanism 2 is unlocked, the first locking member locking the first spring plate 31 is unlocked, so that the first spring plate 31 is driven by the first elastic member to move from the initial position to the unlocking position, and during the movement of the first spring plate 31 from the initial position to the unlocking position, the first spring plate 31 rotates downward and beats the ground, so that the toy 100 can be emptied and turned, and then the toy 100 falls to the ground again, so that visual impact can be given to a player.

Wherein, first elastic component is located between body 1 and the first springboard 31, and when first springboard 31 was in initial position, first elastic component was in the compression energy storage state, when first locking piece 32 unblock first springboard 31 and no longer spacing to first springboard 31, first springboard 31 was in the direction activity of the elastic restoring force effect of first elastic component down towards the unblock position. The first elastic member may be a torsion spring, and other elastic members may also be used without limitation.

After the first elastic plate 31 rotates to the unlocking position, the first elastic plate 31 can trigger the delay assembly 5 to move, or after the first elastic plate 31 rotates to the unlocking position, the first elastic plate 31 is no longer limited to the delay assembly 5, so that the extension assembly can be triggered to move. When the parts in the delay assembly 5 move to a predetermined position, the second locking member 42 may be triggered and the second locking member 42 may be unlocked.

After the second locking member 42 is unlocked, the second locking member 42 is no longer limited to the second springboard 41, the second elastic member can drive the second springboard 41 to rotate, so that the second springboard 41 rotates from the initial position to the unlocking position, and in the process of the second springboard 41 moving to the unlocking position, the second springboard 41 rotates downwards and beats the ground, so that the toy 100 can be emptied and turned over, and then the toy 100 falls to the ground again, thereby giving secondary visual impact to a player, also giving surprise to the player, and simultaneously improving the interest.

Wherein, the second elastic component is located between body 1 and the second springboard 41, and when the second springboard 41 was in initial position, the second elastic component was in the compression energy storage state, when second locking piece 42 unblock second springboard 41 and no longer to the second springboard 41 spacing, the second springboard 41 was in the direction activity of the elastic restoring force effect of second elastic component orientation unblock position.

In addition, the rotation axis of the first elastic plate 31 and the rotation axis of the second elastic plate 41 can be overlapped, the rotation of the first elastic plate 31 cannot influence the rotation of the second elastic plate 41, meanwhile, the rotation of the second elastic plate 41 cannot influence the first elastic plate 31, and the installation space can be saved due to the arrangement, so that the toy 100 is small and convenient to carry.

According to the utility model discloses toy 100 can trigger first locking piece 32 after the unblock through release mechanism 2 and release first springboard 31 to make first springboard 31 rotate towards the direction of unblock position under the effect of the restoring force of first elastic component, thereby make the player can vacate, overturn. First bullet board 31 rotates and to can trigger time delay subassembly 5 behind the unblock position, and time delay subassembly 5 is used for triggering second locking piece 42 to make second locking piece 42 can delay unblock second bullet board 41, thereby make second bullet board 41 when the activity of unblock position, make the player can realize vacating, the upset for the second time, so can give player visual impact, and improve interestingly. From this, toy 100 of this application can realize twice vacating, the upset, and twice vacate can delay to improve toy 100's cool sense.

In some embodiments of the present invention, the delay assembly 5 comprises: the push-buckle rod 51 and the damper 52, the push-buckle rod 51 is movably arranged on the body 1, the push-buckle rod 51 pushes the second locking piece 42 to move to release the second elastic plate 41 when moving, and the damper 52 is matched with the push-buckle rod 51.

For example, as shown in fig. 8, when the first elastic plate 31 is at the initial position, the first elastic plate 31 may limit the position of the push-buckle rod 51, so that the push-buckle rod 51 cannot move, when the first elastic plate 31 rotates to the unlocking position, the first elastic plate 31 no longer limits the position of the push-buckle rod 51, the push-buckle rod 51 may move toward the second elastic plate 41, and after the push-buckle rod 51 moves for a certain distance, the push-buckle rod 51 may push the second locking member 42 to move, so that the second locking member 42 no longer locks the second elastic plate 41, so that the second elastic plate 41 may rotate from the initial position toward the unlocking position.

Further, cooperate with the push-button rod 51 through the attenuator 52, make the attenuator 52 can hinder the push-button rod 51 from moving, so that the speed that the push-button rod 51 moved is slower, so that after first springboard 31 rotated to the unlocking position, need push-button rod 51 through a period of time and trigger the activity of second locking piece 42, so can make two soaks of toy 100 separate, so as to improve the enjoyment of playing, also make first soaring upset toy 100 stable the back again soaks the upset for the second time simultaneously, so that toy 100 can stably fall to the ground after soaring for two times.

In addition, the second locking member 42 may be connected to the second elastic plate 41 by a catch, and when the catch lever 51 pushes the second locking member 42, the catch of the second locking member 42 is disengaged from the catch position of the second elastic plate 41, so that the second locking member 42 unlocks the second elastic plate 41, so that the second elastic plate 41 may rotate.

Alternatively, the latch 51 is provided with a latch groove 514, a rack 53 is formed on an inner wall of the latch groove 514, the damper 52 is engaged with the rack 53 through a gear 54, for example, as shown in fig. 8, the rack 53 extends in a front-rear direction, the gear 54 is adapted to be engaged with the rack 53, and the gear 54 is connected with the damper 52, so that when the latch 51 moves forward, the rack 53 can drive the gear 54 to rotate, and the damper 52 is connected with the gear 54, so that the damper 52 can block the rotation of the gear 54, so that the gear 54 can block the forward movement of the rack 53, and reduce the forward movement speed of the rack 53, and thus reduce the movement speed of the latch 51 toward the second locking member 42.

Wherein the extended length of the rack 53 is not less than the distance between the foremost end of the push-button rod 51 and the second locking member 42, so that the rack 53 can be engaged with the gear 54 and the moving speed of the push-button rod 51 is reduced until the push-button rod 51 triggers the second locking member 42.

In one embodiment, the trip lever 51 includes an integrally formed middle frame 511, a push rod 512 and a damping fitting part 513, the push rod 512 and the damping fitting part 513 are located at opposite sides of the middle frame 511, the push rods 512 are two spaced apart to respectively abut on the second locking pieces 42, and the damping fitting part 513 is used for fitting the damper 52.

That is, the push rod 512 is located at one side of the middle frame 511, and the damping fitting part 513 is located at the other side of the middle frame 511, and specifically, as shown in fig. 8 and 11, the push rod 512 is located at the front side of the middle frame 511, and the damping fitting part 513 is located at the rear side of the middle frame 511. The push rods 512 can be provided with two push rods 512, when the push-button rod 51 moves towards the second locking piece 42, the two push rods 512 can be abutted against the second locking piece 42 and push the second locking piece 42 to move, so that the second locking piece 42 releases the second elastic plate 41, and by providing the two push rods 512, the two push rods 512 can stably push the second locking piece 42 to move, so that the second locking piece 42 cannot be pushed to move after the push rods 512 are abutted against the second locking piece 42, and the toy 100 cannot be emptied and overturned for the second time.

In addition, by fitting the damper fitting part 513 with the damper 52, the damper 52 can stably operate, so that the damper 52 can stably reduce the moving speed of the push buckle rod 51, thereby allowing the push buckle rod 51 to move at a uniform speed.

Further, the delay assembly 5 further includes: and the push rod 512 is provided in the middle frame 511, and the push rod 512 is used for pushing the push-button rod 51 to move towards the direction of the second locking piece 42, that is, when the first elastic plate 31 is located at the initial position, the push rod 512 is in a compressed energy storage state, and after the first elastic plate 31 rotates to the unlocking position, the first elastic plate 31 no longer limits the push-button rod 51, so that the push rod 512 can be restored, and the restoring force of the push rod 512 can act on the push-button rod 51 during the restoring process, so that the push-button rod 51 can move towards the direction of the second locking piece 42.

Optionally, a first locking protrusion 311 is disposed on a rotating shaft end of the first elastic plate 31, the first locking protrusion 311 abuts against the push-buckle rod 51 to lock the push-buckle rod 51 when the first elastic plate 31 is at the initial position, and the first locking protrusion 311 releases the locking of the push-buckle rod 51 when the first elastic plate 31 is at the unlocking position, that is, when the first elastic plate 31 is at the initial position, the first locking protrusion 311 disposed thereon may abut against and lock the push-buckle rod 51, so that the push-buckle rod 51 cannot move towards the direction of the second elastic plate 41, specifically, the push-buckle rod 51 pushes the first locking protrusion 311 to move, and the first locking member 32 is locked on the body 1, so that the first elastic plate 31 cannot move, and the first elastic plate 31 limits the push-buckle rod 51.

When the first elastic plate 31 rotates, the first locking protrusion 311 rotates along with the first elastic plate 31, so that the first locking protrusion 311 is no longer limited to the push-buckle rod 51, when the first elastic plate 31 rotates to the unlocking position, the first locking protrusion 311 is completely separated from the push-buckle rod 51, so that the push-buckle rod 51 moves towards the second elastic plate 41 under the action of the push rod 512 spring, and then the second locking member 42 is pushed to unlock the second elastic plate 41.

The first protrusion 311 may be formed as an eccentric cam, the rotation center of which is disposed on the rotation shaft, and the eccentric cam may be abutted against the push-button rod 51, so that the rotation shaft may drive the eccentric cam to rotate.

In some embodiments of the present invention, toy 100 further comprises: the first unfolding part 6 and the first fastener 7, the first unfolding part 6 is arranged on the body 1 in a foldable manner, the first fastener 7 is used for locking the first unfolding part 6 in an initial state, the rotating shaft end of the first elastic plate 31 is provided with a second clamping protrusion 312, and the second clamping protrusion 312 abuts against the first fastener 7 when the first elastic plate 31 is in an unlocking position so as to drive the first fastener 7 to unlock the first unfolding part 6.

That is, when the first elastic plate 31 is in the initial position, the first fastener 7 may lock the first unfolding member 6, so that the first unfolding member 6 is folded. When the first elastic plate 31 rotates towards the unlocking position, the second locking protrusion 312 rotates along with the first elastic plate 31, the second locking protrusion 312 can push the first fastener 7 to move towards the front direction as shown in fig. 10 in the rotating process, and when the first fastener 7 moves towards the front direction, the first fastener 7 does not lock the first unfolding member 6 any more, so that the first unfolding member 6 can be unfolded outwards around the rotation center.

When the first elastic plate 31 is at the initial position, the second locking protrusion 312 may be spaced from the first fastening member 7 by a certain distance, and may also abut against the first fastening member 7, and when the first elastic plate 31 rotates, the second locking protrusion 312 rotates toward the first fastening member 7 and pushes the first fastening member 7 to move, so that the first unfolding member 6 is separated from the first fastening member 7 at the joint, and the first unfolding member 6 is unlocked and unfolded.

One end of the first unfolding piece 6 is rotatably arranged on the body 1, an elastic piece is arranged at one end of the first unfolding piece 6, the first unfolding piece 6 tends to move towards the unfolding direction, the first fastener 7 locks the first unfolding piece 6 at the other end close to the first unfolding piece 6, and after the first fastener 7 unlocks the first unfolding piece 6, the other end of the first unfolding piece 6 is unfolded towards the direction far away from the body 1 under the driving of the elastic piece, so that the toy 100 can be deformed after being emptied and turned for the first time, and more surprise is brought to players.

Wherein, can be equipped with first expansion piece 6 respectively in the left and right sides of body 1, after first fastener 7 moved forward, two first expansion pieces 6 can be simultaneously (also can be asynchronous) expand towards the left and right sides direction of keeping away from the direction activity of body 1 respectively to can build out the sense of looking promptly of expansion wing.

In one embodiment, toy 100 further includes: the second unfolding component 8 and the second fastener 9, the second unfolding component 8 is arranged on the body 1 in a foldable manner, the second fastener 9 is used for locking the second unfolding component 8 in an initial state, and the second elastic plate 41 triggers the second fastener 9 when in an unlocking position so as to drive the second fastener 9 to unlock the second unfolding component 8.

That is, when the second elastic plate 41 is in the initial position, the second elastic plate 41 can lock the second fastener 9, so that the second fastener 9 can lock the second unfolding member 8, thereby folding the second unfolding member 8. After the second elastic plate 41 rotates to the unlocking position, the second elastic plate 41 can trigger the second fastener 9 to move, and after the second fastener 9 moves, the second fastener 9 does not limit the second unfolding part 8 any more, so that the second unfolding part 8 can be unfolded.

In one example, after the second elastic plate 41 is rotated to the unlocking position, the second elastic plate 41 may drive the second fastener 9 to move previously, so that the limiting end of the second fastener 9 is disengaged from the mating end of the second spreading member 8, so that the second fastener 9 unlocks the second spreading member 8, and the second spreading member 8 can be spread.

Wherein, the second unfolding component 8 can be provided with an elastic component, and the elastic component can drive the second unfolding component 8 to move towards the direction of the unfolding position. The second spreading member 8 may be rotated toward left and right sides to be spread, and the second spreading member 8 may also be rotated upward to realize the second transformation of the toy 100, so that the cool feeling of the toy 100 may be improved.

In some embodiments of the present invention, the body 1 has a combining position 11, the unlocking mechanism 2 includes an unlocking end, the unlocking end is disposed at one end of the first locking member 32 extending to the combining position 11, and the unlocking end constitutes an unlocking action due to collision or movement combined with an external toy body.

In one example, the unlocking end is disposed on the engagement site 11 and is movable relative to the engagement site 11, and when the unlocking end is impacted, the unlocking end can move in a direction toward the first locking member 32 and push the first locking member 32 to move. The first locking member 32 is movable to unlock the first spring plate 31, so that the first spring plate 31 is rotated toward the unlocking position by the first elastic member. Wherein the collision of the unlocking end can be through a foreign object, such as: the impact of toy 100 with other foreign objects during formation.

In another example, the unlocking end is arranged on the combining position 11 and can move relative to the combining position 11, and when an external toy body moves and presses the unlocking end, the unlocking end completes unlocking action. For example: after the toy coin is inserted into the combining position 11, the toy coin pushes the unlocking end to move towards the direction of the first locking piece 32, and the first locking piece 32 is enabled to unlock the first elastic plate 31, so that the first elastic plate 31 is unlocked.

In some examples, the unlocking end is disposed on the engaging portion 11 and is movable relative to the engaging portion 11, and the toy 100 may be provided with a power storage mechanism, wherein the power storage mechanism can store power when the toy 100 is moving, and the power storage mechanism can drive the unlocking end to unlock the first locking member 32 to rotate the first spring plate 31 toward the unlocking position after the power storage of the power storage mechanism has been accumulated to a certain extent.

Optionally, the unlocking mechanism 2 further comprises: the combination member 21 is provided on the body 1 and is provided corresponding to the coupling position 11, the combination member 21 is used for coupling the external toy body to the coupling position 11, and thus, when the external toy body approaches the coupling position 11, the combination member 21 can couple the external toy body to the coupling position 11, thereby eliminating the need to manually couple the external toy body to the coupling position 11.

Further, a shooting bar 22 is movably provided on the body 1 between a shooting initial position and a shooting final position, the shooting bar 22 is configured to have a tendency to move toward the shooting final position, in the shooting final position the shooting bar 22 is used to shoot the external toy body away from the coupling position 11, a shooting locker 23 is used to hold the shooting bar 22 at the shooting initial position, and the second striking plate 41 is used to trigger the shooting locker 23 to release the shooting bar 22 when at the unlocking position.

For example, as shown in fig. 9, when the second springboard 41 is in the initial position, the shooting lock 23 locks the shooting bar 22 in the shooting initial position, so that the shooting bar 22 is restrained from moving. When the second springboard 41 is rotated to the unlocking position, as shown in fig. 10, for example, the second springboard 41 may drive the shooting locking piece 23 to be movable so that the shooting locking piece 23 is disengaged from the striking rod 22, the shooting rod 22 may be movable toward the shooting final position after being unlocked, and when the shooting rod 22 is moved to the shooting final position, the shooting rod 22 may push the external toy body so that the external toy body may be ejected to the engaging position 11, thereby giving surprise to the present invention.

Optionally, the first springboard 31 is enclosed outside the second springboard 41, and the shooting locking element 23 is movably disposed at the bottom of the body 1, for example, as shown in fig. 7, the first springboard 31 and the second springboard 41 are both disposed at the local bottom, and the second springboard 41 is located at the inner side of the first springboard 31, and the second springboard 41 and the first springboard 31 can rotate relatively independently, so that the installation space can be saved, and the structure of the toy 100 is simple, and the disassembly and assembly are convenient.

In addition, through locating shooting latch fitting 23 in the bottom of body 1 for can trigger shooting latch fitting 23 activity more conveniently after second diving board 41 rotates the area unblock position, and make shooting latch fitting 23 unblock, need not set up other intermediate structure.

In one embodiment, after the second elastic plate 41 is rotated to the unlocking position, the second elastic plate 41 can push the shooting lock 23 to move upward and disengage from the shooting rod 22, so that one end of the shooting rod 22 is no longer limited by the shooting lock 23, and the shooting rod 22 is unlocked.

The following describes specific processes in the specific installation and movement of the toy 100 of the present invention with reference to fig. 1-11.

For example, as shown in fig. 1, toy 100 may be configured in an initial state to include, without limitation, a conventional doll, car, animal, or the like. The toy 100 of the application can realize two times of emptying and overturning and two times of deformation, so that more visual impact and cool feeling can be given to a player, when the toy 100 is at an initial position, the whole appearance of the toy 100 can be formed into an automobile shape, and a doll in a human shape or an animal shape can be formed without limitation.

The first emptying and turning process of the toy 100: when the external toy body is combined with the combining position 11, the combining member 21 pushes the unlocking end, so that the unlocking end can unlock the first locking member 32, the first locking member 32 moves, the first locking member 32 does not limit the position of the first elastic plate 31 after moving, the first elastic plate 31 rotates towards the unlocking position under the action of the first elastic member, and in the process of rotating the first elastic plate 31, the first elastic plate 31 is shot downwards, so that the toy 100 can be emptied and turned over.

First deformation Process of toy 100: first bullet board 31 rotates to the unblock position in-process from initial position, locates first bullet board 31 epaxial second card protruding 312 and rotates along with the pivot, and at the protruding 312 pivoted in-process of second card, the protruding 312 activity of second card can promote first fastener 7 to make first fastener 7 unblock first expansion piece 6, thereby makes first expansion piece 6 rotate for body 1, and builds the visual effect who expands the deformation.

The toy 100 is emptied and turned for the second time: in the process that the first elastic plate 31 rotates from the initial position to the unlocking position, the first clamping protrusion 311 arranged on the rotating shaft of the first elastic plate 31 rotates along with the rotating shaft, and the first clamping protrusion 311 does not limit the push-buckle rod 51 after rotating, so that the push-buckle rod 51 moves towards the direction of the second locking piece 42 under the action of the push rod 512 spring. During the movement of the trip lever 51 toward the second locking member 42, the damper 52 blocks the movement of the trip lever 51 to reduce the speed of the movement of the trip lever 51, and the toy 100 has completed the first vacation turn and the first transformation when the trip lever 51 pushes the second locking member 42 to unlock the second springboard 41. Second springboard 41 may rotate from the initial position toward the unlocked position after being unlocked, and during the rotation of second springboard 41, second springboard 41 may slap downward, so that toy 100 may be emptied and flipped over a second time.

Second deformation Process of toy 100: after second bullet board 41 rotated to the unblock position, second bullet board 41 triggered second fastener 9 activity to make second fastener 9 unblock second expansion 8, second expansion 8 is by the unblock back, no longer receives spacing of second fastener 9, and second expansion 8 can realize expanding the deformation, and wherein, second expansion 8 can be constructed into modeling such as transformers, spider knight-errant, ottman, so that make toy 100 cool more after second expansion 8 rotates.

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

Claims (10)

1. A single-shot multiple-flight toy, comprising:

a body;

an unlocking mechanism;

a first emptying assembly:

the first elastic plate is rotatably arranged on the body between an initial position and an unlocking position;

a first resilient member for urging the first springboard to rotate toward an unlocked position to empty the toy when the first springboard contacts the ground;

the first locking piece is used for locking the first elastic plate at an initial position, the first locking piece is linked with the unlocking mechanism, and the first locking piece releases the first elastic plate when the unlocking mechanism executes unlocking action;

a second flight component:

the second elastic plate is rotatably arranged on the body between an initial position and an unlocking position;

a second resilient member for urging the second springboard to rotate toward an unlocked position to empty the toy when the second springboard contacts the ground;

the second locking piece is used for locking the second elastic plate at an initial position, and the second locking piece releases the second elastic plate when being triggered;

the time delay assembly is matched with the second locking piece, the first elastic plate is triggered after rotating, the time delay assembly is started, and the time delay assembly triggers the second locking piece.

2. The toy of claim 1, wherein the time delay assembly comprises:

the push-buckle rod is movably arranged on the body and pushes the second locking piece to move so as to release the second elastic plate when moving;

the damper is matched with the push buckle rod.

3. The toy of claim 2, wherein the push button rod is provided with a push button groove, a rack is formed on an inner wall of the push button groove, and the damper is engaged with the rack through a gear.

4. The toy of claim 2, wherein the push-button lever includes a center frame, push rods and a damping engagement portion formed integrally, the push rods and the damping engagement portion being located on opposite sides of the center frame, the push rods being spaced apart two to respectively abut against the second locking member, the damping engagement portion being for engaging the damper;

the delay assembly further comprises: the push rod spring is arranged in the middle frame and used for pushing the push buckle rod to move towards the direction of the second locking piece.

5. The toy of claim 2, wherein the first resilient plate has a first protrusion at a pivot end thereof, the first protrusion abutting against the latch rod to lock the latch rod when the first resilient plate is in the initial position, and the first protrusion releasing the latch rod when the first resilient plate is in the unlocked position.

6. The toy of claim 1, further comprising: the first unfolding piece is arranged on the body in a foldable mode, and the first fastener is used for locking the first unfolding piece in an initial state;

the rotating shaft end of the first elastic plate is provided with a second clamping protrusion, and the second clamping protrusion abuts against the first fastener when the first elastic plate is in an unlocking position so as to drive the first fastener to unlock the first unfolding piece.

7. The toy of claim 1, further comprising: the second unfolding piece is arranged on the body in a foldable mode, and the second fastener is used for locking the second unfolding piece in an initial state;

the second fastener is triggered when the second elastic plate is at the unlocking position so as to drive the second fastener to unlock the second unfolding piece.

8. The toy of claim 1, wherein the body has an engagement location, and the unlocking mechanism includes an unlocking end provided at an end of the first locking member extending to the engagement location, the unlocking end constituting the unlocking action by a collision or by movement of an engagement external toy body.

9. The toy of claim 8, wherein the unlocking mechanism further comprises: the combining piece is arranged on the body and corresponds to the combining position, and the combining piece is used for combining the external toy body on the combining position;

a shooting bar movably disposed on the body between a shooting initial position and a shooting final position, the shooting bar being configured to have a tendency to move toward the shooting final position, the shooting bar being used to shoot the external toy body away from the coupling position at the shooting final position;

the shooting latch fitting, the shooting latch fitting be used for with the shooting pole keeps the shooting is just in the position, the second plays the board and is used for triggering when the unblock position the shooting latch fitting releases the shooting pole.

10. The toy of claim 9, wherein the first springboard is enclosed on an outer side of the second springboard, and the shoot lock is movably disposed on a bottom of the body.

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