CN112274945A - Collection-shooting toy - Google Patents

Abstract

The invention discloses a gathering and shooting toy, comprising: the body is provided with a combination position, and the combination position is used for combining a plurality of external toy bodies; launching mechanism, launching mechanism establishes on the body, and launching mechanism includes: a launching member movable between an accumulation position and a launch position, the launching member moving towards the launch position when released, the launching member for striking a plurality of external toy bodies simultaneously when moving towards the launch position; a launching latch for locking the launching member in the stored position, the launching latch configured to be triggered to release the launching member after the plurality of external toy bodies are all engaged. According to the gathering and shooting toy provided by the embodiment of the invention, after the plurality of external toy bodies are collected, the plurality of external toy bodies are shot out simultaneously, so that the toy is very novel and interesting.

Description

Collection-shooting toy

Technical Field

The invention relates to the field of toys, in particular to a gathering and shooting toy.

Background

The existing toy triggering modes include that the action is triggered by impact, and the action is triggered by sucking a card or a toy coin, so that the change forms are gradually familiar to people, and people need more patterns to improve the interestingness of the toy.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art. Therefore, the invention provides a shooting toy, and provides a brand-new triggering mode to increase playing methods.

A collector-shooter toy according to an embodiment of the present invention includes: the body is provided with a combination position, and the combination position is used for combining a plurality of external toy bodies; the launching mechanism, the launching mechanism is established on the body, the launching mechanism includes: a launching member movable between an accumulation position and a launch position, the launching member moving toward the launch position when released, the launching member for striking simultaneously on the plurality of external toy bodies when moving toward the launch position; a launch lock for locking the launch member in a stored position, the launch lock configured to be triggered to release the launch member upon engagement of each of the plurality of external toy bodies.

According to the shooting collecting toy provided by the embodiment of the invention, the body can be combined with a plurality of external toy bodies at the combining position, and the shooting lock body can be triggered to release the shooting piece after the plurality of external toy bodies are fully collected by the shooting mechanism, so that the shooting piece moves from the potential storage position to the shooting position and simultaneously shoots the plurality of external toy bodies.

In some embodiments, the body has a receiving position, the shooting toy further comprises a transfer mechanism provided on the body, the transfer mechanism is used for transferring the external toy bodies at the combining position to the receiving position, and the launching member extends to the receiving position when at the launching position so as to shoot the plurality of external toy bodies simultaneously.

Specifically, the transfer mechanism is used for sequentially stacking the external toy bodies in the storage positions.

Specifically, the transfer mechanism includes 1 st to nth transfer units, each of which includes: a carrying body for engaging the outer toy body in the engaged position and releasing the outer toy body in the storage position; the transfer elastic piece is connected with the carrying body and is used for driving the carrying body to move towards the containing position; the transfer locking piece is used for locking the carrying body at the combination position, and the transfer locking piece releases the carrying body when moving.

Further, the transfer lock is configured to be activated by the outer toy body to release the carrier body when the outer toy body is in the engaged position, the transfer lock being reset when the outer toy body is moved out of the engaged position; the other transfer units except the 1 st transfer unit also comprise auxiliary locking pieces, and the auxiliary locking pieces are used for locking the corresponding carrying bodies at the combination positions; and the former transfer unit moves the external toy body to the storage position and then triggers the secondary locking piece of the latter transfer unit to release the corresponding carrying body.

Alternatively, the carrier bodies of the plurality of transfer units may be arranged in parallel, the plurality of transfer units may share the same transfer lock, and the transfer lock may be movable in a direction perpendicular to a moving direction of the carrier bodies.

Optionally, the top of combination position is equipped with and is used for attracting outside toy body's magnetism to inhale the piece, outside toy body triggers when upwards moving shift the latch fitting, just be formed with the couple on the carrier body, outside toy body hangs when upwards moving on the couple, and the outside toy body falls in order to break away from when suction reduces the couple.

In some embodiments, the collector shooting toy further comprises: an actuator actuatable between an initial actuation position and a final actuation position, the actuator configured to move toward the final actuation position when released; the action locking piece is used for locking the action piece at the action initial position, and the action locking piece is triggered to release the action piece after the plurality of external toy bodies are combined; the launching lock body locks the launching piece at an accumulation position when the action piece is at the action initial position, and releases the launching piece when the action piece is at the action final position so as to enable the launching piece to move towards the launching position.

Specifically, the action piece is an elastic plate arranged at the bottom of the body, the elastic plate is blocked on the launching lock body in the initial action position to lock, and the elastic plate releases the launching lock body when leaving the initial action position, so that the launching lock body releases the launching piece.

In some embodiments, the sabot comprises: a launch lock block that snaps over the launch member to lock the launch member, the launch lock block configured to disengage the launch member when released; and the damping device is connected to the emission locking block.

Specifically, the damping device is connected with a matching gear, and the emission locking block is provided with a matching rack meshed with the matching gear.

Further, the firing mechanism also includes a reset assembly for resetting the firing member.

Optionally, the reset assembly comprises: the reset rod is movably arranged in the body, one end of the reset rod extends out of the body to be pulled outwards, a reset block is arranged on the reset rod, and the reset block abuts against the launching part to drive the launching part to be pulled outwards when the reset rod is pulled outwards; the launching auxiliary lock is used for being clamped on the launching part when the launching part is pulled outwards, and the launching auxiliary lock is separated from the launching part when being triggered.

In some embodiments, the collector shooting toy further comprises: the linkage resetting mechanism is configured to drive the transfer mechanism to reset when the launching mechanism resets.

Specifically, the linkage reset mechanism includes: the launching mechanism drives the driving connecting piece to move when moving towards the resetting direction; the driven connecting piece is connected to the transfer mechanism; the unidirectional transmission assembly is used for performing unidirectional transmission between the driving connecting piece and the driven connecting piece, and the driving connecting piece drives the transfer mechanism to move towards the reset direction through the driven connecting piece.

More specifically, the driving connecting piece and the driven connecting piece are respectively racks, the one-way transmission assembly comprises a driving gear and a driven gear which are respectively engaged with the driving connecting piece and the driven connecting piece, and the driving gear and the driven gear are respectively provided with one-way ratchets matched with each other.

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 diagram showing a change before and after an operation of a projectile toy 1 according to an embodiment.

Fig. 2 is a schematic view of the projectile toy 1 according to the embodiment viewed from the bottom (in the figure, two toy coins show a position before the ascent in a dotted line and a position after the ascent in a solid line).

Fig. 3 is a schematic view of the projectile toy 1 according to the embodiment after being partially hidden from the bottom view (dotted arrows indicate the direction of transfer of the toy coin).

Fig. 4 is a sectional view of a projectile toy 1 of one embodiment (broken line arrows indicate a toy coin transfer direction).

Fig. 5 is a schematic view of the projectile collecting toy 1 according to the embodiment after being partially hidden from the top view.

Fig. 6 is a perspective view of the projectile toy 1 of one embodiment after hiding a portion of the structure.

Fig. 7 is an exploded view of the projectile toy 1 according to an embodiment, with a part of the structure hidden.

Fig. 8 is a play step diagram of the shooting toy 1 of one embodiment.

Fig. 9 is a diagram of a subsequent play step of the shooting toy 1 shown in fig. 8.

Reference numerals:

a gathering and shooting toy 1, an external toy body 2,

A body 10, a combination position A, a containing position B, a first through hole 101, a second through hole 102,

A launching mechanism 20,

A launching member 21, a launching elastic member 211,

A launching lock body 22, a launching lock block 221, a damping device 222, a mating gear 223, a mating rack 224, a launching unlocking elastic member 225,

Reset assembly 23, reset rod 231, reset block 2311, launching secondary lock 232,

A transfer mechanism 30, a transfer unit 300,

Carrier 310, hook 311, stopper 312, sub-lock stopper 313, leg 319,

A transfer lock piece 320, a transfer lock reset elastic piece 321, a transverse bar 322, a top block 323,

A transfer elastic member 330,

A sub-lock 340, a sub-lock elastic member 341, an unlock guide surface 342, an end guide surface 343, a locking member, a,

A magnetic attraction piece 350,

An action 40, a spring plate 401, an unlocking pressing block 4011, an action locking piece 41,

The linkage resetting mechanism 50, the driving connecting piece 51, the driven connecting piece 52, the one-way transmission assembly 53, the driving gear 531, the driven gear 532, the one-way ratchet 533, the pressing elastic piece 534,

A holding mechanism 60, a holding block 61, and a holding elastic member 62.

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 "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to 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 collector-shooting toy 1 according to an embodiment of the present invention will be described below with reference to the accompanying drawings.

A shooting toy 1 according to an embodiment of the present invention, as shown in fig. 1 and 2, includes: a body 10 and a firing mechanism 20. The body 10 is provided with a combination position A for combining a plurality of external toy bodies 2, and the launching mechanism 20 is arranged on the body 10.

Here, the combining position a is a position on the body 10 for combining the external toy body 2, and may be on the surface of the body 10 (i.e., the external toy body 2 may be combined with the body 10 after moving to a certain position on the surface of the body 10), or may be inside the body 10 (i.e., the external toy body 2 may be combined with the body 10 after moving to a certain position inside the body 10). The shooting-together toy 1 is played by first combining a plurality of external toy bodies 2 and then shooting the combined plurality of external toy bodies 2 off the body 10 by the shooting mechanism 20. According to the above-mentioned playing method, the body 10 can be designed into different shapes, which is not limited herein. For example, the body 10 is a toy animal, the outer toy body 2 is a toy food, and the toy animal spits out the toy food after eating various toy foods. For example, the body 10 is a toy player, the outer toy body 2 is a flying saucer, and the toy player receives a plurality of flying saucer and throws out the plurality of flying saucer.

Referring to fig. 3 and 4, the firing mechanism 20 includes: a launching member 21 and a launching latch body 22, the launching member 21 being movable between a stored position and a launching position, the launching member 21 moving towards the launching position when released, the launching member 21 being adapted to strike a plurality of external toy bodies 2 simultaneously when moving towards the launching position. The lock-out body 22 is used to lock the launching member 21 in the stored position, and the lock-out body 22 is configured to be triggered to release the launching member 21 after the plurality of external toy bodies 2 are all engaged.

According to the shooting toy 1 provided by the embodiment of the invention, the body 10 can be combined with a plurality of external toy bodies 2 at the combination position A, and the shooting mechanism 20 is arranged, so that after the plurality of external toy bodies 2 are fully collected, the shooting lock body 22 can be triggered to release the shooting piece 21, and the shooting piece 21 moves from the potential position to the shooting position to shoot out the plurality of external toy bodies 2 at the same time.

In an embodiment of the present invention, the above-mentioned play method may be implemented by an electrically controlled manner in which multiple electrical components (not shown) are coupled, for example, the shooting toy 1 further includes a detector for detecting whether the external toy bodies 2 are collected at the coupling position a, a counter for counting the number of the coupled external toy bodies 2, and a driver connected to the launching mechanism 20 for triggering the launching lock 22 to unlock. The controller is electrically connected with the detector, the counter and the driver, when the controller receives that the count of the counter reaches a set number, the controller sends a control signal to the driver, and the driver acts to unlock the launching lock body 22, so that the launching piece 21 moves to launch the plurality of external toy bodies 2.

In the embodiment of the invention, the toy can also be realized in a mechanical transmission mode. For example, the sabot 22 includes a plurality of sabot sections (not shown) each of which is locked to the projectile 21. The body 10 is provided with a plurality of combination positions A, a plurality of lock body sections respectively extend to the combination positions A, each combination position A can be combined with one external toy body 2, each combination of one external toy body 2 can trigger one lock body section to act so as to unlock the launching piece 21, and after the plurality of external toy bodies 2 are combined, the launching piece 21 is completely unlocked to act. Here, a plurality of combining positions a may be provided at the same place on the body 10, so that a plurality of external toy bodies 2 may be combined in sequence or simultaneously at the same place on the body 10 as viewed from the outside; a plurality of bonding sites a may also be provided at different locations of the body 10.

In some embodiments, a certain combining position a on the body 10 may be sequentially or once combined with a plurality of external toy bodies 2, when the combining position a is combined with a sufficient number of external toy bodies 2, the external toy bodies 2 trigger the corresponding emission mechanisms 20, and the emission mechanisms 20 emit all the external toy bodies 2 combined at the combining position a. In another embodiment, the body 10 is provided with a plurality of combining positions a, each combining position a is correspondingly provided with one emission mechanism 20, each combining position a can be combined with at least one external toy body 2, and the emission mechanism 20 corresponding to the external toy body 2 combined with each combining position a is triggered to emit after the number of the external toy bodies 2 reaches the standard. In these embodiments, the firing mechanism 20 may be activated by an electrical or mechanical transmission.

In some embodiments of the present invention, after the combination position a is combined with the external toy body 2, the external toy body 2 may be directly retained at the combination position a, and the emission mechanism 20 directly emits the external toy body 2 at the combination position a when emitting.

In other embodiments of the present invention, as shown in fig. 3 and 4, a storage position B may be provided on the body 10, where the storage position B is a position on the body 10 for storing the external toy body 2. The shooting toy 1 further comprises a transfer mechanism 30, after the combination position A is combined with the external toy body 2, the transfer mechanism 30 transfers the external toy body 2 at the combination position A to the storage position B, the launching element 21 extends to the storage position B when in a launching position, the launching element 21 simultaneously shoots a plurality of external toy bodies 2, and thus the launching mechanism 20 shoots a plurality of external toy bodies 2 at the storage position B when in launching.

This arrangement, in which the coupling position a and the storage position B are provided separately from each other on the main body 10 and the external toy body 2 is transferred by the transfer mechanism 30, has many advantages. Specifically, the external toy body 2 can be combined with the body 10 at the combining position a in a magnetic attraction, clamping and other modes, when the combining position a is combined with one external toy body 2, the external toy body is transferred away, the combining position a is left out, and the combination of the combining position a and the next external toy body 2 is not affected. In some schemes, in order to combine the external toy body 2, a magnetic part, an embedded groove or a clamping structure is arranged at the combining position a, when the external toy body 2 moves to the combining position a, the external toy body can be combined at the combining position a by the structure through a magnetic force, a clamping force and the like, the external toy body 2 is separated from the combining position a through the transfer mechanism 30, the external toy body 2 can be separated from the forcing force in advance, and the launching mechanism 20 is easier to shoot the external toy body 2. The emitting mechanism 20 and the magnetic suction piece, the embedded groove or the clamping structure at the combination position A can be staggered, so that the emitting function and the combination function are not influenced by each other.

In addition, in a further scheme, when the transfer mechanism 30 moves the external toy bodies 2 to the storage position B, the external toy bodies 2 can be sequentially stacked at the storage position B, so that the external toy bodies 2 can be stacked, force can be easily applied when the launching mechanism 20 launches, and the phenomenon that the external toy bodies 2 are scattered and stuck when not shooting away can be avoided.

In order to enable the transfer mechanism 30 to transfer a plurality of external toy bodies 2, there is a case where the transfer mechanism 30 includes a reciprocating body reciprocally movable on the body 10 and an electromagnet (not shown) provided on the reciprocating body. The electromagnet controls the magnetic attraction through an electric control mode, when the reciprocating body drives the electromagnet to move to the combination position A, the electromagnet is electrified to have the magnetic attraction capacity, when the electromagnet attracts the external toy body 2, the reciprocating body moves and moves the electromagnet to the storage position B, then the electromagnet is powered off and demagnetized, and the external toy body 2 falls at the storage position B under the action of gravity. Repeating the above steps for a plurality of times, a plurality of external toy bodies 2 can be stacked and orderly. The reciprocating body can be controlled to move through a screw rod-nut, and can also be controlled to move in a reciprocating manner through a valve body, and the reciprocating body is not limited in the above.

In some embodiments, the transfer mechanism 30 includes the 1 st to nth transfer units 300. Here, N is a natural number of 2 or more. As shown in fig. 5, there are three transfer units 300, and N is 3. Each transfer unit 300 transfers one external toy body 2, and N transfer units 300 can transfer N external toy bodies 2. By arranging the transfer units 300 in one-to-one correspondence with the external toy bodies 2, the difficulty of design can be reduced when the transfer mechanism 30 is designed as a mechanical transmission mechanism.

As shown in fig. 5 to 7, each transfer unit 300 includes: a carrier body 310, a transfer lock 320, and a transfer spring 330. The carrying body 310 is used for combining the outer toy body 2 at the combination position A and releasing the outer toy body 2 at the storage position B, the transfer elastic member 330 is connected with the carrying body 310, and the transfer elastic member 330 is used for driving the carrying body 310 to move towards the storage position B. The transfer lock 320 is used to lock the carrier body 310 in the engaged position a, and the transfer lock 320 releases the carrier body 310 when activated. Here, when the external toy body 2 is coupled to the coupling position a, the external toy body 2 may directly or indirectly trigger the transfer locker 320 to operate, such that the transfer locker 320 releases the carrier body 310 after activating, and then the transfer locker 320 moves the carrier body 310 toward the receiving position B, after which the external toy body 2 leaves the carrier body 310, and then is stacked at the receiving position B. The arrangement is such that the transfer of the outer toy body 2 can be automatically accomplished by means of mechanical transmission.

The carrying body 310 may have a function of being combined with the external toy body 2, for example, the carrying body 310 has magnetism, and after the carrying body 310 carries the external toy body 2 to the storage position B, the magnetism is overcome when the launching mechanism 20 strikes the external toy body 2, so that the external toy body 2 is launched from the shooting toy 1; for example, the carrying body 310 is provided with a clamping structure, the body 10 is provided with an unlocking structure corresponding to the receiving position B, and after the carrying body 310 carries the external toy body 2 to the receiving position B, the unlocking structure acts on the clamping structure, so that the carrying body 310 releases the external toy body 2.

The carrying body 310 itself may not have the function of combining with the external toy body 2, but only has the carrying function, for example, a magnetic attraction piece 350 is disposed on the body 10 corresponding to the combining position a, the external toy body 2 moves to the carrying body 310 under the action of magnetic force, the external toy body 2 triggers the transfer locking piece 320 to unlock in the process of moving from the outside to the combining position a, or the external toy body 2 triggers the carrying body 310 to carry the external toy body 2 under the driving of the transfer elastic piece 330 in the process of moving from the combining position a. After the outer toy body 2 is transferred with the carrier body 310, the outer toy body is separated from the coupling position a, and thus is attracted by the magnetic attracting member 350. The carrier 310 instantaneously moves, and the external toy body 2 instantaneously reaches the storage position B from the coupling position a. When the player reaches the storage position B, the movement of the carrier 310 is slowed, and the outer player body 2 falls by gravity to the storage position B and is stacked.

In such an arrangement, multiple transfer units 300 may have a separate transfer lock 320 per transfer unit 300, which facilitates control. The plurality of transfer units 300 may share one transfer lock 320 or use a linked transfer lock 320, as long as it is ensured that when the transfer lock 320 unlocks one of the carrier bodies 310, the un-unlocked transfer unit 300 has a structure to lock the carrier body 310. For example, the body 10 is provided with a ratchet lock (not shown), each ratchet of the ratchet lock is connected with a transfer locking member 320, all the transfer locking members 320 lock all the carrying bodies 310 in an initial state, the ratchet lock is triggered to rotate by a fixed angle every time an external toy body 2 is combined at a combining position a, and the transfer locking member 320 is triggered to unlock every time the ratchet lock rotates by a fixed angle.

In still other embodiments, as shown in figures 5-7, the transfer lock 320 is configured such that the transfer lock 320 is activated by the outer toy body 2 to release the carrier body 310 when the outer toy body 2 is in the engaged position a, and the transfer lock 320 automatically resets when the outer toy body 2 is moved out of the engaged position a.

For example, in fig. 5 and 7, the transfer lock 320 is movably disposed on the body 10, and the shooting toy 1 further includes: the transfer lock return elastic member 321 is connected to the transfer lock 320, and the transfer lock return elastic member 321 is used for driving the transfer lock 320 to move toward a return direction. Alternatively, the transfer lock return spring 321 may be replaced with a transfer lock return weight. Specifically, the transfer lock 320 moves in the up-and-down direction, and the transfer lock return elastic member 321 is a spring and serves to be stopped downward against the transfer lock 320. More specifically, as shown in fig. 7, each carrier body 310 is provided with a stop 312, and the transfer lock 320 includes a cross bar 322 and a top block 323, the cross bar 322 being stopped on one side of the plurality of stops 312. When the outer toy body 2 is coupled to the coupling position a, the outer toy body 2 hits the top block 323, and the top block 323 pushes the transfer locking member 320 to move up and overcome the elastic force of the transfer lock return elastic member 321, so that the crosspiece 322 releases all the stoppers 312.

As shown in fig. 5 and 7, in addition to the 1 st transfer unit 300, the other transfer units 300 further include a sub-lock 340, and the sub-lock 340 is used for locking the corresponding carrier 310 at the combination position a. After the previous transfer unit 300 moves the outer toy body 2 to the storage position B, the sub-lock 340 of the next transfer unit 300 is triggered to release the corresponding carrier body 310. Thus, the plurality of transfer units 300 share the transfer lock 320, thereby facilitating a compact configuration. This arrangement allows the transfer locks 320 and the secondary locks 340 to be distributed in a distributed manner to facilitate the use of corner space.

Specifically, as shown in fig. 5 and 7, the partial carrier 310 is provided with the sub latch stopper 313, the sub latches 340 are caught on the sub latch stopper 313, and each sub latch 340 is engaged in a direction of catching the sub latch stopper 313 by the sub latch elastic member 341. More specifically, the auxiliary lock 340 is provided with an unlocking guide surface 342, and when the carrier 310 of the previous transfer unit 300 moves, the carrier 310 will abut against the unlocking guide surface 342 to overcome the elastic force of the auxiliary lock elastic member 341, so that the auxiliary lock 340 unlocks the corresponding carrier 310. The secondary locking member 340 is then reset by the secondary locking elastic member 341 for easy repetitive play. Alternatively, the upper end of the sub-latch 340 has an end guide surface 343, the end guide surface 343 and the unlocking guide surface 342 are disposed obliquely with respect to the extending and retracting direction of the sub-latch 340, and the inclination directions of the end guide surface 343 and the unlocking guide surface 342 are opposite to each other.

In the example of fig. 7, there are 3 transfer units 300, no 1 st transfer unit 300 includes a secondary lock 340, and both 2 nd transfer unit 300 and 3 rd transfer unit 300 include a secondary lock 340.

In some embodiments, as shown in fig. 5, the carrier bodies 310 of a plurality of transfer units 300 are arranged in parallel, the plurality of transfer units 300 share the same transfer lock 320, and the transfer lock 320 is movable in a direction perpendicular to the moving direction of the carrier bodies 310. For example, in fig. 5, a plurality of carrier bodies 310 are arranged in the left-right direction, each carrier body 310 moves in the front-rear direction, and the transfer lock 320 moves in the up-down direction, so that the arrangement has little interference with each other and is not easily locked.

Specifically, each carrier 310 is provided with two support legs 319, and the plurality of carriers 310 are sequentially nested, as shown in fig. 5, the two support legs 319 of the 1 st carrier 310 are respectively located at the left and right sides of the two support legs 319 of the 2 nd carrier 310, and the two support legs 319 of the 2 nd carrier 310 are respectively located at the left and right sides of the two support legs 319 of the 3 rd carrier 310. Each leg 319 has a stop 312 for engaging the transfer lock 320 and the two legs 319 of the portion of the carrier body 310 have secondary lock stops 313 for engaging the secondary locks 340.

Alternatively, as shown in fig. 4 to 7, a magnetic attraction member 350 for attracting the external toy body 2 is provided at the top of the coupling position a, the transfer lock 320 is triggered when the external toy body 2 moves upward, and a hook 311 is formed on the carrying body 310, the external toy body 2 is hung on the hook 311 when moving upward, and falls to be separated from the hook 311 when the suction force of the external toy body 2 is reduced. The hook 311 and the magnetic member 350 are cooperatively arranged, so that the carrying body 310 can conveniently carry away the external toy body 2 when moving, and interference is small. Further optionally, a hook 311 on the last carrier 310 connects the two legs 319.

In some embodiments, as shown in fig. 1 and 2, the collector shooting toy 1 further includes: an actuator 40 and an actuator lock 41, the actuator 40 being actuatable between an initial actuation position and a final actuation position, the actuator 40 being configured to be released to move towards the final actuation position. The action locking piece 41 is used for locking the action piece 40 at an action initial position, and the action locking piece 41 is triggered to release the action piece 40 after the plurality of external toy bodies 2 are combined. Therefore, the playing method of the gathering and shooting toy 1 can be increased, and the interestingness is improved.

The striking lock 22 locks the striking member 21 in the stored position when the actuating member 40 is in the initial position, and the striking lock 22 releases the striking member 21 to move the striking member 21 toward the striking position when the actuating member 40 is in the final position. Thus, after the action piece 40 finishes acting, the transmitting mechanism 20 transmits the external toy body 2 again, so that the collective transmission toy 1 can be stably stopped and then transmitted, and the transmitting stability and reliability can be improved.

The action piece 40 is arranged to enrich the playing method of the shooting toy 1, and the action type of the action piece 40 can be selected in various ways. For example, the action member 40 may be a rotating body, which may be disposed on the top or bottom of the body 10, and the rotating body rotates at the bottom to rotate the whole shooting collection toy 1. For example, the operating member 40 is a projectile, and can shoot the doll on the top of the body 10 away from the body 10.

In some embodiments, as shown in fig. 2, the actuating member 40 is a spring plate 401 disposed at the bottom of the body 10, the spring plate 401 is stopped on the lock-shooting body 22 to lock in the initial position of the actuating member, and the spring plate 401 releases the lock-shooting body 22 when leaving the initial position of the actuating member, so that the lock-shooting body 22 releases the shooting member 21. The elastic plate 401 is arranged to enable the shooting toy 1 to be capable of being emptied or turned over when the shooting toy is shot enough, so that the playing is interesting.

Specifically, as shown in fig. 6, the sabot 22 includes: a striking lock 221, the striking lock 221 being caught on the striking member 21 to lock the striking member 21, the striking lock 221 being configured to be disengaged from the striking member 21 when released. Optionally, the actuating member 40 releases the lock-launching body 22 after actuation, for example, the actuating member 40 is a spring plate 401, the spring plate 401 abuts against the bottom of the lock-launching block 221 at the initial position of actuation, and the lock-launching block 221 moves downward after the spring plate 401 is bounced and then disengages from the launching member 21. Further optionally, the sabot 22 comprises: and a launch unlocking elastic member 225, wherein the launch unlocking elastic member 225 is connected with the launch locking block 221 and drives the launch locking block 221 to move towards an unlocking direction. A launch unlocking spring 225 is attached to the top of the launch lock block 221 as in fig. 6 for urging the launch lock block 221 downward.

More specifically, as shown in fig. 6 and 7, the sabot 22 includes: the damping device 222 and the damping device 222 are connected to the emission locking block 221, so that the action of the emission locking block 221 can be slowed down, and the emission of the external toy body 2 after the transmission of the toy 1 is stable is facilitated.

In some specific examples, as shown in fig. 6 and 7, a mating gear 223 is connected to the damping device 222, and a mating rack 224 engaged with the mating gear 223 is provided on the launch lock block 221. When the launching lock block 221 moves, the matching rack 224 drives the matching gear 223 to rotate, and under the action of the damping device 222, the rotation of the matching gear 223 is slowed down, and the movement of the launching lock block 221 is slowed down. The damping device 222 may adopt a damping structure disclosed in the prior art, such as a liquid damper, a gas damper, an electromagnetic damper, and the like. In some examples, the damping device 222 increases the friction to slow down the mating gear 223.

In some embodiments, as shown in FIGS. 1-3, firing mechanism 20 further includes a reset assembly 23 for resetting the firing member 21. Thus, by activating reset assembly 23, firing mechanism 20 is reset, facilitating repeated firings.

Specifically, the reset assembly 23 includes: reset bar 231, reset bar 231 are movably set up in body 10, and the one end of reset bar 231 stretches out body 10 in order to supply to draw outward, is equipped with reset block 2311 on reset bar 231, and reset bar 231 is when drawing outward reset block 2311 supports and draws outward in order to drive launcher 21 on the launcher 21. Thereby facilitating the reset operation.

Specifically, as shown in fig. 3, the reset assembly 23 includes: and the launching auxiliary lock 232 is used for being clamped on the launching member 21 after the launching member 21 is pulled outwards and reset, and the launching auxiliary lock 232 is separated from the launching member 21 when being triggered. Thus, the reset rod 231 moves the launching member 21 to the reset position by the reset action, and the launching sub-lock 232 is automatically locked on the launching member 21. In the case where the shooting-by-shooting toy 1 is shot after the external toy bodies 2 are collected, the shooting sub-lock 232 may be triggered by the last external toy body 2 or the last transfer unit 300. In the scheme that the shooting toy 1 is shot after the outer toy body 2 is collected and then is actuated and then shot, the shooting auxiliary lock 232 can be triggered by the actuating member 40 to be disengaged from the shooting member 21.

In one specific example, as shown in FIG. 3, firing mechanism 20 includes a firing lock block 221, reset assembly 23 includes a firing secondary lock 232, and actuation of actuation member 40 triggers firing lock block 221 and firing secondary lock 232. When the resetting component 23 drives the launching member 21 to reset, the launching auxiliary lock 232 is locked on the launching member 21; when the actuating member 40 returns to the initial position of actuation, the actuating member 40 drives the launching lock block 221 to lock on the launching member 21, and simultaneously the actuating member 40 drives the launching sub-lock 232 to release the launching member 21, so that the actuating member 40 controls launching of the launching member 21 through the launching lock block 221 after actuation. The launching sub-lock 232 can quickly lock the launching member 21 when the launching member 21 is reset, and then other structures are arranged on the launching lock block 221 capable of controlling launching in a matching manner to increase functions, for example, the damping device 222 increases a launching delay function, so that the interestingness of launching is increased.

Specifically, as shown in fig. 7, the main body of the firing mechanism 20 and the reset assembly 23 are located in the body 10, the bottom of the body 10 is provided with a first through hole 101, and when the springboard 401 is located at the initial position of action (i.e., locked), the bottom of the firing lock block 221 is stopped against the springboard 401 through the first through hole 101, so that the firing lock block 221 can move downward when the springboard 401 is released.

More specifically, as shown in fig. 7, an unlocking pressing block 4011 is provided on the springboard 401, the bottom of the body 10 is provided with a second through hole 102, and when the springboard 401 is located at the initial position of action (i.e. locked), the unlocking pressing block 4011 abuts against the launching secondary lock 232 through the second through hole 102, so as to cause an effect that the launching secondary lock 232 releases the launching member 21 when the springboard 401 is reset.

In some embodiments, as shown in fig. 6 and 7, the collector shooting toy 1 further includes: a linked return mechanism 50, the linked return mechanism 50 being configured to drive the transfer mechanism 30 to return when the firing mechanism 20 is returned. That is, when the launching mechanism 20 is reset, the linkage resetting mechanism 50 drives the transfer mechanism 30 to reset, so that the launching mechanism 20 and the transfer mechanism 30 are reset, and the resetting operation action of a player is reduced. Of course, in some embodiments, the firing mechanism 20 and the transfer mechanism 30 may be reset simultaneously, and in other embodiments, the transfer mechanism 30 may be automated (e.g., motor driven as described above) without resetting.

Here, the operation of the interlocking reset mechanism 50 is performed in association with the reset of the launching mechanism 20, and the interlocking reset mechanism 50 is not limited to being directly connected to the launching mechanism 20 by the interlocking reset mechanism 50, and the interlocking reset mechanism 50 may be indirectly interlocked with the launching mechanism 20.

In some specific examples, as shown in fig. 6 and 7, the linked return mechanism 50 includes: a driving connection 51, a driven connection 52 and a one-way transmission assembly 53. The launching mechanism 20 drives the driving connecting piece 51 to move when moving towards the resetting direction, the driven connecting piece 52 is connected to the transfer mechanism 30, the one-way transmission assembly 53 performs one-way transmission between the driving connecting piece 51 and the driven connecting piece 52, and the driving connecting piece 51 drives the transfer mechanism 30 to move towards the resetting direction through the driven connecting piece 52. For example, in fig. 6, the driving connecting member 51 is connected to the restoring rod 231, and the restoring rod 231 pulls the launching member 21 backward to restore, so that the backward movement of the driving connecting member 51 can be transmitted to the driven connecting member 52 through the one-way transmission assembly 53, and then the transfer mechanism 30 is moved forward by the driven connecting member 52. Due to the one-way transmission property, when the transmission mechanism 30 is triggered to move backwards, the transmission is not transmitted to the reset component 23 through the one-way transmission component 53, and the firing mechanism 20 is prevented from being affected.

The structure of the one-way transmission assembly 53 may be selected from the one-way transmission structure disclosed in the prior art, such as one-way transmission bearings, one-way transmission clutches, and the like.

In the solution shown in fig. 7, the driving link 51 and the driven link 52 are racks, respectively, the unidirectional transmission assembly 53 includes a driving gear 531 and a driven gear 532 engaged with the driving link 51 and the driven link 52, respectively, and the driving gear 531 and the driven gear 532 are formed with a corresponding unidirectional ratchet 533. Set up like this, can turn into linear motion with linear motion and turn into linear motion again, can reduce structure height by a wide margin, be convenient for set up. In addition, in the scheme, the resetting directions of the launching mechanism 20 and the transferring mechanism 30 can be set to be opposite, so that the launching and transferring functions are conveniently realized.

Specifically, as shown in fig. 7, the unidirectional transmission assembly 53 further includes a pressing elastic member 534, and the pressing elastic member 534 is used for pressing the driving gear 531 and the driven gear 532 to keep the one-way ratchet 533 of the two gears in a matching state, and to facilitate the driving gear 531 and the driven gear 532 to be sprung open when the mechanism is not moving towards the return direction.

Further, as shown in fig. 7, the driven link 52 is connected to one of the moving bodies 310, and when the moving body 310 moves in the return direction (e.g., forward), the other moving body 310 is pulled to move in the return direction (e.g., forward), and when the moving body 310 carries the external toy body 2, the other moving body 310 is not moved.

In the embodiment of fig. 7, the restoring force transmitted from the firing mechanism 20 to the transfer mechanism 30 via the interlocking return mechanism 50 is transmitted linearly, but in other embodiments, the restoring force may be transmitted after being turned, for example, by providing a steering gear on the unidirectional transmission assembly 53.

In some embodiments, the shooting toy 1 further includes a holding mechanism 60, and the holding mechanism 60 is used for positioning the outer toy bodies 2 when the outer toy bodies 2 are transferred to the receiving position B, so that the outer toy bodies 2 can be neatly stacked at the receiving position B when the shooting toy 1 is in motion or impacted.

Specifically, the holding mechanism 60 includes a holding block 61 and a holding elastic member 62, and the holding elastic member 62 is attached to the holding block 61 for urging the holding block 61 against the outer toy body 2. Alternatively, the holding blocks 61 are provided in pairs and located on opposite sides of the receiving position B. In the scheme of fig. 2 and 7, the external toy body 2 is a round toy coin, when the round toy coin enters the receiving position B, the round toy coin can extrude the holding block 1, when the round toy coin is stacked at the receiving position B, the holding block 1 clamps the round toy coin, and when the round toy coin is launched, the round toy coin bounces off the holding block 1.

The structure and play of the collector shooting toy 1 in the embodiment shown in fig. 1-7 will now be described with reference to fig. 8-9.

The collecting and shooting toy 1 is a toy car, and the external toy body 2 is a toy coin.

The shooting collecting toy 1 comprises a body 10, a shooting mechanism 20, a transfer mechanism 30, an action piece 40, a linkage resetting mechanism 50 and a holding mechanism 60. The body 10 defines a combination position A and a storage position B, the combination position A is located at the opening of the front end of the toy car, and the storage position B is located at the belly of the toy car. The front end of the toy car is provided with a magnetic attraction piece 350 which is positioned above the opening.

The firing mechanism 20 includes a firing member 21, a firing latch body 22, and a reset assembly 23, the firing latch body 22 including: launch locking piece 221, damping device 222, cooperation gear 223, cooperation rack 224, launch unblock elastic component 225, reset subassembly 23 includes: a reset lever 231, a reset block 2311, and a launch sub-lock 232. Launch mechanism 20 is provided at the rear end of the toy vehicle.

The transfer mechanism 30 includes three transfer units 300, and the 1 st transfer unit 300 includes: the carrier 310, the transfer lock 320, and the transfer elastic member 330, and the 2 nd and 3 rd transfer units 300 include: a carrier 310, a transfer lock 320, a transfer elastic member 330, and a sub-lock 340. The three transfer units 300 share a transfer lock 320, and when the first 1 carrier 310 moves backward, the secondary lock 340 of the next transfer unit 300 is triggered to unlock.

The actuating member 40 is a spring plate 401, and is locked by the actuating lock 41, and the actuating lock 41 is linked with the 3 rd transfer unit 300.

The linkage resetting mechanism 50 includes: initiative connecting piece 51, driven connecting piece 52 and one-way transmission assembly 53, one-way transmission assembly 53 includes: the driving gear 531, the driven gear 532, the one-way ratchet 533 and the pressing elastic member 534.

The holding mechanism 60 includes a holding block 61, a holding elastic member 62, and is provided at the housing position B.

The toy car with the collecting and shooting function has the following playing method:

when the toy car passes through the 1 st toy coin, the toy coin is attracted by the magnetic force to rise upwards and move upwards against the transfer locking piece 320; the transfer lock 320 releases the carrier 310 of the 1 st transfer unit 300, the 1 st carrier 310 moves backwards under the pulling of the 1 st transfer elastic member 330, and the hook 311 of the 1 st carrier 310 hooks the 1 st toy coin to move backwards when moving backwards; after the 1 st carrier 310 takes away the 1 st toy coin, the transfer lock 320 moves down to reset; when the 1 st carrier 310 moves backward, the sub-lock 340 of the 2 nd transfer unit 300 is opened, and the sub-lock 340 releases the 2 nd carrier 310, and at this time, the 2 nd carrier 310 is locked only by the transfer lock 320; the 1 st toy coin moves to the receiving position B and falls, and the 1 st toy coin is locked on the receiving position B by the holding mechanism 60.

Similarly, when the toy vehicle passes the 2 nd toy coin, the toy coin is attracted by the magnetic force to rise upward, moving upward against the transfer lock 320; the transfer lock 320 releases the 2 nd carrier 310, the 2 nd carrier 310 moves backwards under the pulling of the 2 nd transfer elastic member 330, and the hook 311 of the 2 nd carrier 310 hooks the 2 nd toy coin to move backwards when moving backwards; after the 2 nd carrying body 310 takes away the 2 nd toy coin, the transfer locking piece 320 moves downwards to reset; when the 2 nd carrier 310 moves backward, the sub-lock 340 of the 3 rd transfer unit 300 is opened, and the sub-lock 340 releases the 3 rd carrier 310, and at this time, the 3 rd carrier 310 is locked only by the transfer lock 320; the 2 nd toy coin moves to the receiving position B and falls to be overlapped on the 1 st toy coin, and the 2 nd toy coin is locked on the receiving position B through the retaining mechanism 60. Repeating the steps, the 3 rd toy coin is also overlapped on the 2 nd toy coin.

When the 3 rd toy coin also moves backwards, the action locking piece 41 is triggered to act, the elastic plate 401 is released, the elastic plate 401 rotates and beats the ground, and the toy car is overturned forwards by 360 degrees.

The elastic plate 401 is not attached to the bottom of the body 10 any more after rotating, the bottom of the launching lock block 221 moves downwards through the first through hole 101, the launching lock block 221 acts on the damping device 222 through the matching rack 224 and the matching gear 223 when moving downwards, the launching lock block 221 slowly moves downwards under the action of the damping device 222, and then the launching piece 21 is unlocked.

When the emitter 21 is released, it moves forward by the elastic emitter 211, and the forward emitter 21 hits on the 3 toy coins, so that the 3 toy coins are ejected from the toy car against the resistance of the holding mechanism 60.

When playing for the next time, the elastic plate 401 is firstly retracted, so that the elastic plate 401 returns to the initial position of action, the reset elastic plate 401 moves the launching lock block 221 upwards, and the unlocking press block 4011 on the elastic plate 401 presses the launching auxiliary lock 232, so that the launching auxiliary lock 232 laterally moves, and the launching auxiliary lock 232 does not block the reset rod 231. The reset lever 231 is then pulled back, and the reset lever 231 pulls the launching member 21 back through the reset block 2311, enabling the launching member 21 to be latched by the launch latch 221. When the release link 231 is pulled backward, the 1 st transporting body 310 is driven to move forward by the linkage release mechanism 50, the 1 st transporting body 310 drives the other 2 transporting bodies 310 to move forward, the 3 st transporting body 310 is all locked by the transfer locking piece 320 after moving forward, and the 2 nd and 3 rd transporting bodies 310 are also locked by the auxiliary locking piece 340.

The toy car can continuously absorb a plurality of toy coins, swallow the plurality of toy coins into the car, and continuously eject the plurality of toy coins.

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

While embodiments of the 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 (16)

1. A collector-shooter toy, comprising:

the body is provided with a combination position, and the combination position is used for combining a plurality of external toy bodies;

the launching mechanism, the launching mechanism is established on the body, the launching mechanism includes:

a launching member movable between an accumulation position and a launch position, the launching member moving toward the launch position when released, the launching member for striking simultaneously on the plurality of external toy bodies when moving toward the launch position;

a launch lock for locking the launch member in a stored position, the launch lock configured to be triggered to release the launch member upon engagement of each of the plurality of external toy bodies.

2. A shooting toy according to claim 1 wherein the body has a receiving location thereon, the shooting toy further comprising a transfer mechanism provided on the body for transferring the external toy bodies of the coupling locations to the receiving location, the launching member extending to the receiving location when in the launching position to simultaneously fire the plurality of external toy bodies.

3. A collector shooting toy as claimed in claim 2, wherein the transfer mechanism is adapted to sequentially stack the outer toy bodies in the receiving positions.

4. A collector shooting toy according to claim 2, wherein the transfer mechanism includes 1 st to nth transfer units each including:

a carrying body for engaging the outer toy body in the engaged position and releasing the outer toy body in the storage position;

the transfer elastic piece is connected with the carrying body and is used for driving the carrying body to move towards the containing position;

the transfer locking piece is used for locking the carrying body at the combination position, and the transfer locking piece releases the carrying body when moving.

5. The shooting toy of claim 4, wherein the transfer lock is configured to be activated by the outer toy body to release the carrier body when the outer toy body is in the engaged position, the transfer lock being reset when the outer toy body is moved out of the engaged position; wherein the content of the first and second substances,

except the 1 st transfer unit, the other transfer units also comprise auxiliary locking parts, and the auxiliary locking parts are used for locking the corresponding carrying bodies at the combination positions; and the number of the first and second electrodes,

the former transfer unit moves the external toy body to the storage position and then triggers the secondary locking piece of the latter transfer unit to release the corresponding carrying body.

6. A shooting toy according to claim 5, characterized in that the carrier bodies of the transfer units are arranged in parallel, the transfer units sharing the same transfer lock movable in a direction perpendicular to the moving direction of the carrier bodies.

7. The shooting toy of claim 5, wherein a magnetic attraction member for attracting the external toy body is provided at a top of the combining position, the transfer lock member is triggered when the external toy body moves upward, a hook is formed on the carrying body, the external toy body hangs on the hook when moving upward, and the external toy body falls to be separated from the hook when the suction force of the external toy body is reduced.

8. The collector shooting toy of claim 1, further comprising:

an actuator actuatable between an initial actuation position and a final actuation position, the actuator configured to move toward the final actuation position when released;

the action locking piece is used for locking the action piece at the action initial position, and the action locking piece is triggered to release the action piece after the plurality of external toy bodies are combined; wherein the content of the first and second substances,

the launching lock body locks the launching piece at an accumulation position when the action piece is at the action initial position, and releases the launching piece when the action piece is at the action final position so as to enable the launching piece to move towards the launching position.

9. The shooting toy of claim 8, wherein the actuating member is a spring plate disposed at the bottom of the body, the spring plate is locked by the shooting lock at the initial position of the actuating member, and the spring plate releases the shooting lock when the spring plate leaves the initial position of the actuating member, so that the shooting lock releases the shooting member.

10. The shooting toy of claim 1, wherein the shooting lock body comprises:

a launch lock block that snaps over the launch member to lock the launch member, the launch lock block configured to disengage the launch member when released;

and the damping device is connected to the emission locking block.

11. The shooting toy of claim 10, wherein the damping device is connected with a mating gear, and the shooting lock block is provided with a mating rack engaged with the mating gear.

12. A collector shooting toy according to any one of claims 1-11, wherein the shooting mechanism further comprises a resetting assembly for resetting the shooting member.

13. The collector shooting toy of claim 12, wherein the reset assembly comprises:

the reset rod is movably arranged in the body, one end of the reset rod extends out of the body to be pulled outwards, a reset block is arranged on the reset rod, and the reset block abuts against the launching part to drive the launching part to be pulled outwards when the reset rod is pulled outwards;

the launching auxiliary lock is used for being clamped on the launching part after the launching part is pulled outwards and reset, and the launching auxiliary lock is separated from the launching part when being triggered.

14. A collector shooting toy according to any one of claims 2-7, further comprising: the linkage resetting mechanism is configured to drive the transfer mechanism to reset when the launching mechanism resets.

15. The collector shooting toy of claim 14, wherein the linkage return mechanism comprises:

the launching mechanism drives the driving connecting piece to move when moving towards the resetting direction;

the driven connecting piece is connected to the transfer mechanism;

the unidirectional transmission assembly is used for performing unidirectional transmission between the driving connecting piece and the driven connecting piece, and the driving connecting piece drives the transfer mechanism to move towards the reset direction through the driven connecting piece.

16. The shooting toy of claim 15, wherein the driving connection member and the driven connection member are respectively racks, the one-way transmission assembly includes a driving gear and a driven gear respectively engaged with the driving connection member and the driven connection member, and the driving gear and the driven gear are respectively formed with a corresponding one-way ratchet.

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