CN213643119U - Ejection device and emitter with same - Google Patents

Abstract

The utility model discloses an ejection device and have its transmitter. The ejection device is used for shooting away the toy body when trigger piece is triggered, and the ejection device includes: the ejection mechanism is provided with at least two ejection pieces; the loading mechanism can load the cartridge into the chamber once to drive all the cartridge striking pieces to be locked in an energy storage state; the unlocking mechanism is linked with the ejection mechanism and is used for being linked with the trigger piece, the trigger piece is triggered once, the unlocking mechanism can unlock one ejection piece, and the unlocked ejection piece can move after releasing energy to eject the toy body. According to the utility model discloses a catapult through setting up the mechanism of loading, just once loads the energy storage with a plurality of bullets, and every bullet is hit the piece and can be played at least one and play the body, that is to say once loads and can be used for the bullet to hit a plurality of and play the body, and it is efficient to load, plays more gracefully.

Description

Ejection device and emitter with same

Technical Field

The utility model belongs to the toy field especially relates to an ejection device and have its transmitter.

Background

The existing toy launcher can only launch a single bullet by one-time playing, and has simple playing form and low interest. Some launchers can shoot a plurality of bullets, but the bullet needs to be subjected to energy storage operation every time the bullet is shot, and the process is troublesome.

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, the utility model provides an ejection device can once load and just can penetrate a plurality of toy bodies, improves loading efficiency.

The utility model discloses still aim at providing a transmitter that has this jettison device.

According to the utility model discloses an ejection device, ejection device is used for shooting away the toy body when triggering the piece and being triggered, ejection device includes: the ejection mechanism is provided with at least two ejection pieces; the loading mechanism can load the cartridge into the chamber at one time to drive all the cartridge striking pieces to be locked in an energy storage state; the unlocking mechanism is linked with the ejection mechanism and is used for being linked with the trigger piece, the trigger piece can enable the unlocking mechanism to unlock the ejection piece once triggered, and the ejection piece can release energy to move to eject the toy body.

According to the utility model discloses a catapult through setting up the mechanism of loading, just once loads the energy storage with a plurality of bullets, and every bullet is hit the piece and can be played at least one and play the body, that is to say once loads and can be used for the bullet to hit a plurality of and play the body, and it is efficient to load, plays more gracefully.

In some embodiments, the ejection mechanism further comprises: a drum on which all of the striking members are circumferentially spaced apart, the striking members having contact points for pressing against the toy body, the contact points being movable between a first position and a second position of the drum, the striking members being configured to automatically drive the contact points toward the first position, the striking members being progressively charged as the loading mechanism moves the contact points toward the second position; the latch lock spare, the latch lock spare corresponds the second position of rotary drum sets up, the latch lock spare is used for with the contact point locking of the piece is hit in the second position, triggers once every the release mechanism drives the latch lock spare release one the piece is hit.

Specifically, all the impact members are uniformly arranged on the drum at intervals along the circumferential direction, and a preset angle is formed between every two adjacent impact members; the rotating drum is provided with a ratchet wheel at the second position, the ratchet wheel is linked with the unlocking mechanism, and the unlocking mechanism drives the ratchet wheel to rotate by the preset angle when the trigger piece is triggered once; and when the rotary cylinder rotates for the preset angle once, the elastic striking lock piece releases the locking of one elastic striking piece.

Optionally, the springing and locking piece is movably arranged in the rotary drum, the springing and locking piece partially extends out of the rotary drum, and the springing and locking piece are arranged in a one-to-one correspondence manner; the ejection mechanism further comprises an ejection releasing part, the ejection releasing part is fixedly arranged relative to the rotating shaft of the rotating cylinder, and when the ejection locking part rotates along with the rotating cylinder to be in contact with the ejection releasing part, the ejection releasing part is pressed on the ejection locking part so that the ejection locking part releases the ejection locking part.

Further, the unlocking mechanism includes: one end of the push rod is used for being connected with the trigger piece, the other end of the push rod is opposite to the ratchet of the ratchet wheel, the push rod is used for being pressed on the ratchet wheel to push the ratchet wheel to rotate when the trigger piece is triggered, and the push rod is separated from the ratchet wheel when the trigger piece is released.

Optionally, the other end of the push rod is rotatably connected with a push rod moving member, the push rod and the push rod moving member are located on one side of the axis of the ratchet wheel, an axial elastic member is connected between the push rod and the push rod moving member, the axial elastic member is used for driving the push rod moving member to rotate towards the axis direction of the ratchet wheel, and the push rod moving member is located on the ratchet of the ratchet wheel.

In some specific embodiments, a plurality of concave positions are correspondingly arranged on the periphery of the ratchet wheel corresponding to all the striking pieces one by one, and every two adjacent concave positions are spaced by the preset angle; the unlocking mechanism further comprises an unlocking rod and a concave elastic piece, the concave elastic piece is connected with the unlocking rod to drive the unlocking rod to be clamped into the concave position, one end of the unlocking rod is connected with the trigger piece to enable the other end of the unlocking rod to be far away from the concave position, when the trigger piece is triggered, the trigger piece is separated from the unlocking rod, and the unlocking rod extends into the concave position under the action of the concave elastic piece; when the trigger piece is released and reset, the trigger piece drives the rotation release rod to be far away from the concave position.

In some embodiments, the loading mechanism comprises a push handle, a push pipe and a return elastic element, one end of the push handle is rotatably connected with the push pipe, and the push pipe is driven to move by holding the push handle by hand, so that the push pipe can push all the impact members to move to the energy storage state; the reset elastic piece is connected with the push pipe to drive the push pipe to reset automatically.

According to the utility model discloses a transmitter, include: the launching device comprises a launching body, wherein a triggering piece is arranged on the launching body; the bin is arranged on the launching body and used for storing at least two toy bodies; the jettison device, the jettison device be according to the utility model discloses above-mentioned embodiment the jettison device, the jettison device at least part set up in the transmission body, jettison device's release mechanism with trigger piece looks linkage, with trigger when trigger piece is triggered the jettison mechanism jets away from the toy body.

According to the utility model discloses the transmitter, this kind of transmitter can launch the toy body, not only lets the toy body quick motion to this kind of transmitter still can once load and then launch a plurality of toy bodies, and is interesting high.

Specifically, the toy body has a first configuration and a second configuration which can be switched, a deformation locking piece used for locking the toy body in the first configuration is arranged on the toy body, the transmitter further comprises a releasing structure used for triggering the deformation locking piece to be unlocked when the toy body is ejected, and therefore the toy body is changed from the first configuration to the second configuration.

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 perspective view of a launching toy according to an embodiment of the present invention.

Fig. 2 is a cross-sectional view of a launching toy according to an embodiment of the invention, showing a safety lock release trigger of the launcher.

FIG. 3 is a cross-sectional view of the launching toy of the embodiment of FIG. 2 showing the safety lock locking trigger of the launcher.

Fig. 4 is a perspective external view of an ejection mechanism according to an embodiment of the present invention.

Fig. 5 is a perspective external view of an unlocking mechanism according to an embodiment of the present invention.

Fig. 6 is a schematic structural diagram of a toy body in one embodiment.

Reference numerals:

a transmitter 100,

A transmitting body 1,

A trigger piece 11,

A chamber 12, an emission port 121,

A safety lock 13, an unlocking end 131, a locking end 132,

A cover body 14, an elastic flip push rod 141, a bolt 142, a flip lock 143,

A degradation structure 2,

An ejection device 3,

The ejection mechanism 31, the ejection member 311, the drum 312, the ejection lock 314, the ratchet 315, the ratchet 3151, the ejection release member 316, the ratchet,

A loading mechanism 32, a push handle 321, a push pipe 322, a reset elastic part 323,

An unlocking mechanism 33, a push rod 331, a push rod mover 332, an axial elastic member 333, an unwinding lever 334, an inward elastic member 335, and a lock mechanism,

Toy body 200, deformable catch piece 210, wheel 220.

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 "longitudinal", "lateral", "up", "down", "front", "back", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used for convenience in describing the present invention and for simplicity in description, but 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 therefore 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.

An ejector 3 according to an embodiment of the present invention is described below with reference to the drawings.

The ejection device 3 is used for ejecting the toy body 200 when the trigger piece 11 is triggered, and the ejection device 3 comprises: an ejector mechanism 31, a loading mechanism 32 and an unlocking mechanism 33. The ejection mechanism 31 is provided with at least two ejection members 311, and the loading mechanism 31 can load at a time to drive all the ejection members 311 to be locked in an energy storage state. The unlocking mechanism 33 is linked with the ejection mechanism 31, the unlocking mechanism 33 is used for being linked with the trigger piece 11, the trigger piece 11 can enable the unlocking mechanism 33 to unlock one ejection piece 311 each time the trigger piece 11 is triggered, and the unlocked ejection piece 311 can move after releasing energy to eject the toy body 200.

According to the ejection device 3, the loading mechanism 33 is arranged, so that a plurality of ejection pieces 311 can be stored with energy by loading once, each ejection piece 311 can eject at least one toy body 200, namely, the ejection device can be used for ejecting a plurality of toy bodies 200 by loading once, the loading efficiency is high, and the playing is more smooth.

Here, the striking member 311 may be an elastic member such as a separate spring, the striking member 311 itself may be charged by deformation, and the striking member 311 itself has a property of tending to release energy. The striking element 311 may also be a striking rod, which is charged by connecting a striking spring.

Specifically, as shown in fig. 2 to 5, the ejection mechanism 31 further includes a rotating barrel 312 and a click lock 314, all the click pieces 311 are circumferentially provided at intervals on the rotating barrel 312, the click pieces 311 have contact points for pressing against the toy body 200, the contact points are movable between a first position and a second position of the rotating barrel 312, the click pieces 311 are configured to automatically drive the contact points toward the first position, and the click pieces 311 are gradually charged when the upper chamber mechanism 32 drives the contact points toward the second position. The click lock 314 is disposed corresponding to the second position of the rotating cylinder 312, the click lock 314 is used to lock the contact point of the click member 311 at the second position, and the trigger unlocking mechanism drives the click lock 314 to release one click member 311 each time. That is, by rotating the drum 312, the trigger 11 rotates once per trigger, and the corresponding striking member 311 can be rotated to a position where it can be unlocked, thereby realizing high compactness and integration of the structure.

The ejector 3 of the present application is used in the launcher 100 in many cases, and the structure of the ejector 3 will be described below in conjunction with the launcher 100 for the sake of understanding.

The following describes the launcher 100 and the ejector 3 therein according to an embodiment of the present invention with reference to the drawings.

As shown in fig. 1 to 3, the emitter 100 of the embodiment of the present invention is used for emitting a toy body 200, and the emitter 100 includes the ejection device 3 of the above embodiment. The ejector 3 is used for ejecting the toy body 200 by the ejector mechanism 31 when the trigger piece 11 is triggered.

Specifically, the launcher 100 includes a launching body 1 and a compartment 12, the launching body 1 is provided with a trigger 11 and the like, and the compartment 12 is used for storing at least two toy bodies 200. The ejection device 3 is at least partially arranged in the launching body 1, and the ejection device 3 is connected with the trigger piece 11 so as to trigger the ejection device 3 to eject at least one toy body 200 when the trigger piece 11 is buckled.

In some embodiments, toy body 200 has first and second configurations that are switchable, and deformable latch member 210 is provided on toy body 200 for locking toy body 200 in the first configuration. The transmitter 100 includes: and the unlocking structure 2 is arranged on the launching body 1, and the unlocking structure 2 is used for triggering the deformed locking fastener 210 to unlock when the toy body 200 is ejected so as to change the toy body 200 from the first form to the second form.

The toy body 200 may be, but is not limited to, a toy weapon, a toy animal, a toy car, or the like. Before and after the form of the toy body 200 is switched, the toy body 200 may be of the same type or of a different type, for example, the toy body 200 may be a toy weapon in the first form and a toy animal in the second form. As another example, toy body 200 is a toy weapon in both the first and second configurations, but the weapon types are different.

The deformable locking fastener 210 on the toy body 200 locks the toy body 200 in the first form, unlocks the deformable locking fastener 210, and the toy body 200 is automatically switched to the second form. When the deformable locking member 210 locks the toy body 200 again, the toy body 200 can be switched to the first form, and the toy body 200 can be repeatedly deformed, thereby increasing the playability of the toy body 200.

The transmitter 100 is used to transmit the toy body 200, and an initial force is provided to the toy body 200 to move the toy body 200 from the transmitter 100 to a direction away from the transmitter 100 at a certain speed. The specific shape of the launcher 100 is not limited herein, and may be a toy gun, a toy launching stand or a toy launching base.

The trigger 11 of the launcher 100 is used for triggering the ejection device 3, and the trigger 11 may be a press, or may be a pull, a slide, or other actions, and is not limited herein. The compartment 12 is provided on the launching body 1 for storing a plurality of toy bodies 200, although a player may place only one toy body 200 in the compartment 12 during play, but the space in the compartment 12 may accommodate at least two toy bodies 200.

The ejection device 3 can eject one or more toy bodies 200 when triggered, and the ejection mode is not limited herein. The ejector 3 can eject one toy body 200 when being triggered once and eject one toy body 200 when being triggered again. Or a plurality of toy bodies 200 can be ejected when the toy is triggered once, and a plurality of toy bodies 200 can be ejected when the toy is triggered again. It is also possible to eject one toy body 200 when triggered once, eject multiple toy bodies 200 when triggered again, and so on. The ejector 3 may also eject all of the toy bodies 200 in the compartment 12 when triggered.

The structure 2 can trigger the deformable latch member 210 when the toy body 200 is ejected to change the toy body 200 from the first configuration to the second configuration. The timing of the play set 200 being triggered by the deconstruction 2 can be selected as desired, and the play set 200 can be triggered to deform when the play set 200 is in the compartment 12, such that the deformed play set 200 is emitted by the emitter 100. The deconstruction 2 may also trigger the toy body 200 to deform at the instant the toy body 200 leaves the compartment 12, such that the toy body 200 deforms during flight after ejection in the first configuration. In some embodiments, the process time of the toy body 200 switching from the first form to the second form is long, the toy body 200 gradually changes from the first form to the second form in the flying process, the deformation process is novel, the ornamental performance is achieved, and the interestingness of the toy is improved.

The launcher 100 can launch the toy body 200, so that the toy body 200 can fly away quickly, the form of the toy body 200 can be changed, and the toy transformation process is novel and interesting. Moreover, since at least two toy bodies 200 can be stored in the compartment 12, the launcher 100 can eject a plurality of toy bodies 200 at a time after the trigger 11 is triggered, or the launcher 100 can continuously trigger the trigger 11 a plurality of times and eject a toy body 200 at a time, which is novel and interesting.

In some embodiments, as shown in fig. 3 and 4, the ejection device 3 includes an ejection mechanism 31, a loading mechanism 32 and an unlocking mechanism 33, the ejection mechanism 31 is located in the launching body 1 and has at least two movable striking members 311, the loading mechanism 32 can load at a time to drive all the striking members 311 to be locked in the energy storage state, the unlocking mechanism 33 is respectively linked with the ejection mechanism 31 and the trigger member 11, the unlocking mechanism 33 can be unlocked by one striking member 311 every time the trigger member 11 is pressed, and the unlocked striking members 311 are released to move after being released, so as to eject one of the toy bodies 200. By the arrangement, the emitter 100 can eject the toy bodies 200 in a plurality of times after the plurality of toy bodies 200 are arranged, the whole playing process is similar to the process of shooting and shooting for a plurality of times on a gun, the investment of players is stronger, and the shooting pleasure is experienced.

The plurality of the striking pieces 311 in the ejection mechanism 31 are used for ejecting the toy bodies 200, that is, the plurality of the striking pieces 311 correspond to the plurality of the toy bodies 200 in the compartment 12, and the number of the striking pieces 311 is not limited herein. In some embodiments, the number of the striking members 311 is equal to the number of the toy bodies 200 that can be accommodated in the chamber 12, so that the striking members 311 correspond to the toy bodies 200 one by one, all the striking members 311 can be charged with energy after one loading, and all the toy bodies 200 can be launched without repeating the loading for energy storage in the launching process and one loading for energy storage. The one-time loading can drive all the bullet hitting pieces 311 to be locked in an energy storage state, so that the use efficiency can be improved, and the use smoothness is improved.

The one-time cocking trigger 11 unlocks one of the striking members 311, i.e., one-time cocking trigger 11 may eject one of the toy bodies 200, and the one-time cocking trigger 11 may release one of the toy bodies 200 again until the cocking trigger 11 is stopped or all of the toy bodies 200 in the compartment 12 are completely ejected, or all of the striking members 311 are unlocked. The continuous operation of ejecting the toy body 200 can improve fluency and enhance the experience of the player.

In some embodiments, as shown in fig. 3 and 4, the ejection mechanism 31 further includes: a rotating barrel 312, an ejection spring (not shown), and a snap lock 314. All of the impact members 311 are spaced apart on the drum 312, and each of the impact members 311 is movable between a first position and a second position on the drum 312. The ejection elastic member is connected with the ejection member 311 to drive the ejection member 311 to move towards the first position, and the ejection elastic member gradually stores energy when the loading mechanism 32 drives the ejection member 311 to move towards the second position. The flip-flop 314 is disposed at the second position of the barrel 312, and the flip-flop 314 is used to lock the flip-flop 311 at the second position, and the unlocking mechanism 33 of the trigger 11 drives the flip-flop 314 to release one of the flip-flops 311 every time it is clicked.

The drum 312 is cylindrical and has an axis of rotation at the central axis of the drum 312 about which the drum 312 is rotatable. The channel inside the drum 312 is provided with a channel for the movement of the striking element 311, each channel is not connected with each other, the drum 312 is a carrier of the striking element 311, and the channel inside the drum 312 plays a role of guiding, so that the striking element 311 moves in a fixed direction to release energy, and the toy body 200 is ejected. The guiding function of the channel reduces energy loss, utilizes the energy release of the striking piece 311 as much as possible, and improves the shooting range of the toy body 200.

The first position and the second position are located at two ends of the channel in the drum 312, respectively, and it is understood that the first position is a release position and the second position is an energy storage position. The spring-striking lock 314 is located inside the rotary cylinder 312 near the second position, the spring-striking lock 314 and the spring-striking element 311 are in an interlocking shape, after the loading mechanism 32 drives the spring-striking element 311 from the first position to the second position, the spring-striking lock 314 contacts with the spring-striking element 311 and is then locked with the spring-striking element 311, and the triggering element 11 is buckled to drive the spring-striking lock 314 to contact with the interlocking of the spring-striking element 311 and release the corresponding spring-striking element 311.

Further, as shown in fig. 4, all the striking members 311 are circumferentially and uniformly spaced on the drum 312, and every two adjacent striking members 311 are spaced by a predetermined angle; the rotating drum 312 is provided with a ratchet 315 at a second position, the ratchet 315 is linked with the unlocking mechanism 33, and the unlocking mechanism 33 drives the rotating drum 312 to rotate by a preset angle when the trigger 11 is buckled once; the striking lock 314 unlocks one of the striking members 311 every time the rotary cylinder 312 is rotated by a predetermined angle.

The drum 312 is provided with ratchet wheels 315 at the second position, the ratchet wheels 315 are uniformly spaced at a certain angle, and the ratchet wheels 315 are driven by the unlocking mechanism 33 to rotate at a preset angle, which is the same as the preset angle spaced by the striking members 311. After the ratchet 315 rotates a predetermined angle, i.e., the drum 312 rotates a predetermined angle, the striking members 311 rotate a predetermined angle spaced between the striking members 311. The trigger 11 is pulled to release one of the striking members 311, and then the unlocking mechanism 33 rotates the drum 312 to rotate the next striking member 311 to the position of the striking member 311 that has just been released. The trigger 11 is buckled again, the striking piece 311 which just rotates to the position is also released, the rotating drum 312 continues to rotate, and the rotation is circulated in sequence, so that all the accumulated striking pieces 311 can be released one by one.

Specifically, the click lock 314 is movably disposed in the rotating cylinder 312, a portion of the click lock 314 protrudes outside the rotating cylinder 312, and the click lock 314 and the click member 311 are disposed in one-to-one correspondence.

More specifically, the projectile launcher body 1 is fixedly connected with a projectile launcher 316, and the projectile launcher 316 is fixedly arranged relative to the rotation axis of the rotating drum 312. For example, the unlatching member 316 is located on the side of the rotating barrel 312 adjacent the chamber 12, and when the unlatching lock 314 rotates with the rotating barrel 312 until the unlatching member 316 contacts, the unlatching member 316 contacts the unlatching lock 314 to cause the unlatching lock 314 to release the unlatching member 311.

The number of the spring-striking lock parts 314 is the same as that of the spring-striking parts 311, the spring-striking lock parts 314 correspond to the spring-striking parts 311 one by one, and when the loading mechanism 32 drives the spring-striking parts 311 from the first position to the second position, the spring-striking lock parts 314 correspond to the spring-striking parts 311 one by one to lock the spring-striking parts 311. The snapping lock 314 and the snapping piece 311 are disposed in a one-to-one correspondence, and it can be understood that the snapping lock 314 is also disposed along the circumference of the rotating cylinder 312 at even intervals, and a preset angle is formed between every two adjacent snapping locks 314, and the preset angle is the same as the preset angle of the snapping piece 311.

The position of the striking release member 316 fixed to the projectile body 1 is relatively unchanged from the projectile body 1, the striking lock 314 is located on the rotary cylinder 312, and when the rotary cylinder 312 driven by the unlocking mechanism 33 rotates, the striking lock 314 also rotates together with the rotary cylinder 312. The part of the spring lock 314 extending out of the drum 312 can contact with the spring release member 316 when rotating, and the position of the spring release member 316 is different, so that the spring lock 314 is forced to move inwards, the interlocking of the spring lock 314 and the spring lock 311 is destroyed, and the spring lock 311 corresponding to the spring lock 314 can be released.

In some embodiments, the contact surface between the portion of the striking lock 314 extending out of the rotating cylinder 312 and the striking release member 316 is set to be an inclined surface or an arc surface, which facilitates the smooth contact between the striking lock 314 and the striking release member 316, and facilitates the inward movement of the striking release member 316 under the force, thereby improving the accuracy in the mechanical parts.

Alternatively, as shown in fig. 2 and 5, the unlocking mechanism 33 includes: one end of the push rod 331 is connected with the trigger 11, the other end of the push rod 331 is opposite to the ratchet 3151 of the ratchet 315, and the push rod 331 is used for pressing the ratchet 3151 to push the ratchet 315 to rotate when the trigger 11 is buckled.

The ratchet 3151 of the ratchet 315 is arranged at one end far away from the drum 312, the main body of the push rod 331 is arranged vertically, one end of the push rod 331 is connected with the trigger 11, and the other end can be arranged opposite to the ratchet 3151. When the trigger 11 is buckled, the part connected with the push rod 331 moves along with the main body of the trigger 11, that is, the push rod 331 is pushed downwards in the vertical direction, and the other end of the push rod 331 is pressed on the ratchet 3151 and drives the ratchet 315 to rotate. The push rod 331 ingeniously converts the horizontal movement of the buckling triggering part 11 into movement in the vertical direction, the transmission direction of force is changed, arrangement of parts of the emitter 100 is facilitated, the size of the emitter 100 is reduced, and convenience is improved.

In some embodiments, the portion of the trigger 11 connected to the push rod 331 is stepped, and when the trigger 11 is not buckled, the push rod 331 contacts with the lower surface of the step, and the push rod 331 does not contact and press the ratchet 3151 in the vertical direction. When the trigger 11 is pulled, the trigger 11 moves horizontally, the push rod 331 contacts the high surface of the step, and the push rod 331 is pushed to move downward and is pressed against the ratchet 3151. In order to ensure that the transition of the step surface is smooth, the high surface of the step surface can be connected with the ground through an inclined surface or an arc surface.

In some embodiments, as shown in fig. 2, 3 and 5, the other end of the push rod 331 is rotatably connected to a push rod moving member 332, the push rod 331 and the push rod moving member 332 are located on one side of the axis of the ratchet 315, a shaft elastic member 333 is connected between the push rod 331 and the push rod moving member 332, the shaft elastic member 333 is used for driving the push rod moving member 332 to rotate towards the axis of the ratchet 315, and the push rod moving member 332 is located on the ratchet 3151 of the ratchet 315.

One end of the push rod 331, which is not connected with the trigger 11, is rotatably connected with a push rod movable piece 332, the push rod 331 and the push rod movable piece 332 are both located on one axial side of the ratchet 315 and located on the upper side in the vertical direction, and the push rod 331 is in contact with the ratchet 3151 through the push rod movable piece 332. When the push rod 331 moves downward in the vertical direction, the push rod moving member 332 is brought downward into contact with the ratchet 3151, and the push rod moving member 332 is rotated toward the axial direction of the ratchet 315 by the axial elastic member 333, that is, the ratchet 315 is subjected to a rotational force.

Therefore, when the trigger 11 is pulled, the push rod 331 moves downward, which drives the push rod moving member 332 to apply a rotational force to the ratchet 315, thereby rotating the entire drum 312 to satisfy the requirement of the ejection mechanism 31.

In some embodiments, the connection between the push rod 331 and the push rod moving member 332 is a right-angle connection on one side and a rounded transition connection on the other side, so that the push rod moving member 332 can only rotate in one direction, the push rod moving member 332 can be prevented from reversely driving the ratchet 315, and the operation stability of the unlocking mechanism 33 can be improved.

Optionally, a plurality of concave positions are correspondingly arranged on the periphery of the ratchet 315 corresponding to all the striking members 311 one by one, and a preset angle is arranged between every two adjacent concave positions; the unlocking mechanism 33 further comprises a release lever 334 and a concave elastic member 335, the concave elastic member 335 is connected with the release lever 334 to drive the release lever 334 to be clamped into the concave position, the trigger 11 is connected with the release lever 334 to enable the release lever 334 to be far away from the concave position, when the trigger 11 is buckled, the trigger 11 is separated from the release lever 334, and the release lever 334 extends into the concave position under the action of the concave elastic member 335; when the trigger 11 is released and reset, the trigger 11 drives the release lever 334 away from the recessed position.

The notches on the ratchet 315 are positioned to correspond to the striking members 311 so that the predetermined angle of the interval between the notches is the same as the predetermined angle of the interval between the striking members 311. The rotation releasing lever 334 is opposite to the push rod 331, the push rod 331 is disposed corresponding to the ratchet 3151 at one end of the ratchet 315, and the rotation releasing lever 334 is disposed corresponding to the concave position disposed near the other end of the ratchet 315.

The release lever 334 is driven by the elastic member 335 to move downward to be caught in the recess, thereby preventing the rotation of the drum 312, and the release lever 334 is moved away from the recess by the trigger member 11 and the release lever 334, thereby allowing the drum 312 to rotate normally. The motion state is as follows: when the trigger 11 is locked, the trigger 11 moves horizontally, the part connected with the rotation release lever 334 is separated from the connection with the rotation release lever 334, the rotation release lever 334 is driven by the concave elastic member to move downwards and is clamped in the concave position, and the rotating drum 312 is blocked and cannot rotate normally. When the trigger 11 is released and returned to the original position, the trigger 11 is connected to the release lever 334 again, the release lever 334 is driven to move upward, the release lever 334 is released from the recess position, and the drum 312 can continue to rotate normally. By arranging the rotation releasing rod 334 to increase a movement limit, the situation that the rotation amplitude of the drum 312 driven by the rotation releasing rod is too large, so that the impact piece 311 cannot accurately eject the toy body 200 can be reduced.

Through the embodiment of the utility model provides a, ingenious through setting up push rod 331, push rod moving part 332 and decontrol pole 334, combined action makes the turned angle that rotary drum 312 can be exquisite, can not make rotary drum 312 driven rotation range too big, and can't launch away the toy body 200. When the trigger 11 is buckled, the movement of the trigger 11 simultaneously drives the push rod 331 and the release rod 334 to precisely rotate the rotary drum 312 by a preset angle, so as to precisely eject the toy body 200.

When the trigger 11 is triggered, the trigger 11 moves to move the push rod 331 downward, and the push rod 331 drives the push rod moving member 332 to apply a rotational force to the ratchet 315, thereby rotating the drum 312. Meanwhile, the triggering part 11 is also disconnected from the rotation releasing rod 334, the rotation releasing rod 334 is driven by the concave elastic part to move downwards, and is clamped into the concave position after meeting the concave position to prevent the rotary drum 312 from continuing to rotate, so that the rotary drum 312 only rotates the preset angle of the concave position part, namely the preset angle between the impact parts 311, the impact parts 311 can be accurately released, and the toy body 200 can be ejected.

When the trigger member 11 is released, the trigger member 11 drives the push rod 331 to move upward, the push rod moving member 332 no longer rotates the ratchet 315, the rotation releasing lever 334 is locked by the trigger member 11 and disengaged from the concave position, and the drum 312 returns to a stationary but rotatable state to wait for being driven to rotate again. By circulating the above steps, the trigger 11 is pulled each time to rotate the drum 312 by a predetermined angle, so that the toy body 200 can be ejected continuously and accurately.

In some embodiments, as shown in fig. 2, the loading mechanism 32 includes a push handle 321, a push tube 322, and a return elastic member 323, one end of the push handle 321 is rotatably connected to the push tube 322, and the other end is located outside the launching body 1, and the push tube 322 is driven to move by holding the push handle 321, so that the push tube 322 pushes all the striking members 311 to move to an energy storage state; the reset elastic member 323 is connected to the push pipe 322 to drive the push pipe 322 to reset automatically.

The push handle 321 is located outside the launching body 1 and is a component which can be driven by a player, and the player can drive the push handle 321 to move by holding the push handle 321 by hand, so that the push pipe 322 is pushed to move, and all the elastic striking pieces 311 are moved to the energy storage position. The rotating connection between the push handle 321 and the push tube 322 can provide a feedback to the player, when the player pushes the push handle 321 to move the striking piece 311 to the energy storage position, the push tube 322 will be affected by the resistance and cannot move continuously in the moving direction of the pushing force, at this time, the push handle 321 will not push the push tube 322 continuously, so that the pushing force will drive the push handle 321 to rotate, and thus the player can clearly perceive that the striking piece 311 has moved to the energy storage position and can not apply the pushing force any more. The use satisfaction degree of a player can be improved by arranging the push handle 321 to be rotationally connected with the push pipe 322, the situation that the player cannot know whether the impact piece 311 is moved to the energy storage position or not and the push force is used in a transitional mode can be reduced, and the service life of the launcher 100 can be prolonged.

In some embodiments, the resilient return member is a spring. Elasticity resets and connects on push tube 322 and transmitter 100 body, when push rod 331 is promoted the motion, elasticity resets also at the energy storage, disappears when thrust, and elasticity resets and releases the ability, orders about push rod 331 and gets back to initial position, does not need the manual reset of player can directly get back to initial position, and the use of conveniently going up the bore once more improves player's experience nature.

In some embodiments, as shown in fig. 1, chamber 12 has an emission opening 121 and deconstruction 2 is a protrusion disposed at emission opening 121 to press against deformable catch member 210 when toy body 200 is ejected.

Compared with the mode that the bin 12 and the emitting opening 121 are arranged separately, the emitting opening 121 is formed in the bin 12, a plurality of toy bodies 200 can be stored in the bin 12, the plurality of toy bodies 200 can be emitted at one time, the player bodies 200 do not need to be added repeatedly after being emitted, and the using experience of the player can be improved. And the space occupied by the transmitter 100 can be effectively reduced, thereby facilitating the carrying and moving of the transmitter 100 by the player.

The projection of the structure 2 is arranged at the emitting opening 121, so that the toy body 200 can be switched, the emitting direction of the toy body 200 can be limited to a certain extent, and the toy body 200 can be directly emitted along the emitting opening 121.

Optionally, as shown in fig. 2, the launcher 100 further comprises a safety lock 13 disposed on the launching body 1, the safety lock 13 having an unlocking end 131 disposed corresponding to the bottom of the launching body 1 and a locking end 132 disposed corresponding to the trigger 11; the safety lock 13 is configured such that when the unlocking end 131 protrudes from the bottom of the launching body 1, the locking end 132 is locked with the trigger 11; the safety lock 13 is configured such that the lock interface 132 unlocks the trigger 11 when the unlocking end 131 is flush with the bottom of the launching body 1.

The safety lock 13 is used for locking or releasing the trigger piece 11, when the safety lock 13 locks the trigger piece 11, the trigger piece 11 cannot be buckled, namely the trigger piece 11 cannot move transversely, the striking piece 311 cannot be released, and the toy body 200 cannot be ejected normally. When the safety lock 13 releases the trigger piece 11, the trigger piece 11 can be buckled, and the ejection piece 311 can be normally released to eject the toy body 200.

The locking end 132 of the safety lock 13 and the trigger 11 are in a mutually lockable structure, when the safety lock 13 moves upwards in the vertical direction, the locking end 132 and the trigger 11 are unlocked, namely the safety lock 13 releases the trigger 11, the safety lock 13 moves upwards integrally, the unlocking part extending from the bottom of the launching body 1 moves upwards, and the unlocking part is flush with the bottom of the launching body 1. When the safety lock 13 moves down in the vertical direction, the locking part is in abutting locking connection with the trigger 11, that is, the trigger 11 is locked by the safety lock 13, and the safety lock 13 moves down integrally, the unlocking part becomes to protrude from the bottom of the transmitter 100 body.

The unlocking part extends out of the bottom of the launching body 1, so that a player can conveniently and quickly unlock or lock the trigger 11, the operation is simple, the use is convenient, the safety of the launcher 100 can be improved, and the condition that the player is threatened by misoperation is reduced.

In some embodiments, the safety lock 13 further comprises a safety lock 13 elastic member for driving the safety lock 13 to lock the triggering member 11, the safety lock 13 elastic member moves up the safety lock 13, when the triggering member 11 is released, the safety lock 13 elastic member is compressed and stores energy to move the safety lock 13 down, the locking part is unlocked from the triggering member 11, and the safety lock 13 elastic member drives the safety lock 13 to return to the locking position, so that the safety of the transmitter 100 is improved. The safety lock 13 is controlled mainly by an unlocking part extending out of the launching body 1, the unlocking part is pressed into the launching body 1 to facilitate operation, but the unlocking part is difficult to operate when being pulled out of the launching body 1, the unlocking part can be driven to pop out of the launching body 1 by arranging an elastic piece of the safety lock 13, locking is facilitated, and operation is simplified.

In some embodiments, the chamber 12 is integrally formed with the emitter body 1 or is removably attached to the emitter body 1.

The bin 12 and the launching body 1 can be integrally formed, so that the launcher 100 can be used conveniently, the toy body 200 can be directly placed in the bin 12 for use, and the bin 12 and the toy body 200 placed in the bin 12 are convenient to store and are not easy to lose.

The chamber 12 can be detachably connected to the launching body 1, the chamber 12 can be detachably used, the size and the weight of the launcher 100 can be reduced, the launcher is convenient to carry, the toy body 200 can be quickly supplemented by replacing the chamber 12, the toy body 200 can be quickly launched, and the entertainment of the launcher 100 can be improved.

Specifically, when the chamber 12 and the launching body 1 are integrally formed, the chamber 12 is located above the launching device 3, and the open end of the chamber 12 is provided with a cover 14 which can be opened and closed; when the chamber 12 is detachably attached to the firing body 1, the chamber 12 is attached to the top or side of the firing body 1.

When the compartment 12 and the launching body 1 are integrally formed, the toy body 200 is placed in the compartment 12, so that the opening end of the compartment 12 is provided with the openable cover 14, and the compartment 12 is arranged above the launching body 1, so that the toy body 200 is convenient to store. When the compartment 12 is a detachable part connected to the launching body 1, the compartment 12 can be used for externally adding and storing the toy bodies 200 without adding the toy bodies 200 after being installed in the compartment 12, so that the compartment 12 can be installed at the top or the bottom in a more selective manner, the detachable compartment 12 does not have a cover 14 which can be opened and closed, and when the compartment 12 is installed on the launching body 1, the interior of the launching body 1 can be sealed by the cover 14.

Optionally, as shown in fig. 1, when the compartment 12 has an openable cover 14 at the opening end, one end of the cover 14 is rotatably connected to the launching body 1, an elastic flip push rod 141 is arranged in the launching body 1, and the elastic flip push rod 141 abuts against the rotating end of the cover 14 to push the cover 14 to open; the other end of the cover 14 is provided with a latch 142, the launching body 1 is provided with a flip lock 143 locked to the latch 142, and the latch 142 is released by pressing the flip lock 143, so that the cover 14 is rotated upward and opened by being pressed by the elastic flip push rod 141.

In some embodiments, lid 14 is positioned at the top of compartment 12, the upper portion of compartment 12 is more free than if lid 14 was positioned on the side, reducing interference from movement of lid 14 when flipped open, and the top of lid 14 provides more storage space for toy body 200.

In some embodiments, launcher 100 is in the form of a toy gun, compartment 12 is located on the top surface of launcher 100, and compartment 12 has a launch opening 121 at the front end for launching toy body 200. The toy gun shaped launcher 100 is convenient for the player to carry and hold, and can improve the experience of the player.

Of course, in the embodiment of the present invention, the principle of the transmitter 100 for transmitting the toy body 200 is not limited to the scheme shown in fig. 1 to 5.

A launching toy according to an embodiment of the present invention will be described with reference to fig. 1-6.

According to the utility model discloses launch toy, include: a transmitter 100 and at least two toy bodies 200. The launcher 100 is the launcher 100 of the above-mentioned embodiment, the toy body 200 has a first configuration and a second configuration which can be switched, and the toy body 200 is provided with a deformable locking member 210 for locking the toy body 200 in the first configuration.

The launcher 100 is a launcher 100 that can continuously launch multiple toy bodies 200, and one firing of the launcher 100 can move all of the striking members 311 to the charged state. Therefore, the launching toy at least comprises two toy bodies 200, a plurality of toy bodies 200 can be launched continuously when the launching toy is used, fluency of a player during entertainment can be improved, and the plurality of toy bodies 200 are launched and deformed in sequence, so that entertainment of the launching toy can be improved.

The specific configuration of the launcher 100 is not limited herein, and may be a toy gun, a toy launching stand or a toy launching base. The toy body 200 may be, but is not limited to, a toy weapon, a toy animal, a toy car, or the like. Before and after the form of the toy body 200 is switched, the toy body 200 may be of the same type or of a different type, for example, the toy body 200 may be a toy weapon in the first form and a toy animal in the second form. As another example, toy body 200 is a toy weapon in both the first and second configurations, but the weapon types are different.

As shown in figure 6, the toy body 200 is a toy card in a first configuration and a toy vehicle in a second configuration. The deformable locking fastener 210 on the toy body 200 locks the toy body 200 in the first form, the deformable locking fastener 210 is unlocked, the toy body 200 can be switched into the second form, and at the moment, the toy body 200 can continuously run forwards after being ejected through the wheels 220 on the toy body 200; the toy body 200 is locked by the deformable locking piece 210, the toy body 200 can be switched to the first shape, the toy can be repeatedly deformed, and the playing durability of the toy body 200 is improved.

Specifically, the toy body 200 is provided with at least one movable member, the toy body 200 is switched between a first state and a second state when the movable member is active, and the toy body 200 is in the first state when the deformation locking fastener 210 is locked on the movable member; wherein the deformable latch member 210 is located at the bottom of the toy body 200, and when the toy body 200 is ejected from the compartment 12, the thixotropic structure presses against the deformable latch member 210 to unlock the movable member from the deformable latch member 210.

When the deformable locking member 210 is locked on the movable member, the toy is in the first configuration, and when the deformable locking member 210 releases the movable member, the toy body 200 is switched to the second configuration. The deformable latch member 210 is located at the bottom of the toy body 200 and is engageable with the launcher 100 such that when the launcher 100 ejects the paradox toy from the compartment 12, the thixotropic structure contacts the deformable latch member 210 to lock the movable member, thereby allowing the toy body 200 to switch from the first configuration to the second configuration when ejected.

The structure and operation of transmitter 100 in one embodiment is described below with reference to fig. 1-5.

The launcher 100 is used for launching the toy body 200, the toy body 200 has a first form and a second form which can be switched, and the toy body 200 is provided with a deformable locking fastener 210 for locking the toy body 200 in the first form. The transmitter 100 includes: the launching device comprises a launching body 1, a decomposition structure 2 and an ejection device 3. The launching body 1 is provided with a trigger 11 and a chamber 12, the launcher 100 can be controlled to launch the toy bodies 200 through the trigger 11, the chamber 12 can store a plurality of toy bodies 200, the chamber 12 and the launching body 1 are of an integrated structure and are positioned at the top of the launching body 1, the opening end of the chamber 12 is provided with a cover 14 which can be opened and closed, one end of the cover 14 is rotatably connected with the launching body 1, the launching body 1 is internally provided with an elastic flip push rod 141, and the elastic flip push rod 141 abuts against the rotating end of the cover 14 to push the cover 14 to be opened. The other end of the cover 14 is provided with a latch 142, the launching body 1 is provided with a flip lock 143 locked to the latch 142, and the latch 142 is released by pressing the flip lock 143, so that the cover 14 is rotated upward and opened by being pressed by the elastic flip push rod 141. The launching body 1 is further provided with a safety lock 13, the safety lock 13 can be used for locking or unlocking the trigger piece 11, the safety lock 13 locks the trigger piece 11, the launcher 100 cannot launch the toy body 200, the safety lock 13 unlocks the trigger piece 11, and the launcher 100 can normally launch the toy body 200. The safety lock 13 is provided with an unlocking end 131 arranged at the bottom of the launching body 1 and a locking end 132 arranged corresponding to the trigger 11, when the unlocking end 131 of the safety lock 13 extends out of the bottom of the launching body 100, the locking end 132 is locked with the trigger 11, and when the locking end 132 of the safety lock 13 is flush with the bottom of the launching body 1, the locking end 132 unlocks the trigger 11.

The release mechanism cooperates with the deformable latch member 210 on the toy body 200 to unlock the toy body 200 from the deformable latch member 210, thereby allowing the toy body 200 to transition from the first configuration to the second configuration. The deforming mechanism is a protrusion provided at the emission opening 121 of the compartment 12, the deforming latch member 210 is provided at the bottom of the toy body 200, and when the toy body 200 is ejected from the compartment 12, the thixotropic structure presses the deforming latch member 210 to unlock the deforming latch member 210, and the toy body 200 is converted from the first form to the second form.

The ejection device 3 is at least partially arranged in the launching body 1, and the ejection device 3 is connected with the trigger piece 11 so as to trigger the ejection device 3 to eject the toy body 200 when the trigger piece 11 is buckled. The ejection device 3 includes: an ejector mechanism 31, a loading mechanism 32 and an unlocking mechanism 33. The ejection mechanism 31 in the ejection device 3 can eject the toy body 200 through the process of energy storage and energy release, the loading mechanism 32 locks the ejection mechanism 31 for energy storage, the unlocking mechanism 33 releases the locked ejection mechanism 31 to enable the ejection mechanism 31 to release energy, and the mechanisms are mutually matched to finish the process of ejecting the toy body 200.

The ejection mechanism 31 includes: a flip-flop 311, a drum 312, a flip-flop, a flip lock 314, a ratchet 315, and a flip-flop 316. The number of the striking pieces 311 is 5, the striking pieces 311 are uniformly arranged on the drum 312 at certain preset angles at intervals along the circumferential direction, the striking pieces 311 can move between two axial ends of the drum 312, the two ends are a first position and a second position, the striking pieces 311 are energy release positions when in the first position, and the second position is an energy storage position. The ejection elastic member is connected with the ejection member 311 to drive the ejection member 311 to move towards the first position, and the loading mechanism 32 drives the ejection member 311 to move towards the second position, so that the ejection elastic member gradually stores energy. A flip lock 314 is disposed at the second position of the barrel 312, the flip lock 314 for locking the flip 311 in the second position. The drum 312 is provided with a ratchet 315 at the second position, and the ratchet 315 is linked with the unlocking mechanism 33. The latch 314 is partially extended to the outside of the rotary cylinder 312, and the latch 314 is disposed in one-to-one correspondence with the latch 311. The ejection release member 316 is fixedly connected to the projectile body 1, the ejection release member 316 is located on one side of the rotating cylinder 312 adjacent to the chamber 12, and when the ejection lock 314 rotates along with the rotating cylinder 312 until the ejection release member contacts, the ejection release member 316 contacts and presses on the ejection lock 314 so that the ejection lock 314 releases the ejection member 311. Therefore, when the rotary drum 312 rotates for a preset angle, the elastic striking lock 314 contacts with the elastic striking release member 316 to release the locking of one elastic striking member 311, the elastic ejection member releases the energy of the elastic striking member 311, and the elastic striking member 311 ejects the toy body 200.

The loading mechanism 32 includes: a push handle 321, a push tube 322 and a return elastic element 323. One end of the push handle 321 is rotatably connected with the push tube 322, and the other end of the push handle 321 is located outside the launching body 1, the push tube 322 is driven to move by holding the push handle 321, so that the push tube 322 can push all the striking pieces 311 to move to an energy storage state, and the reset elastic piece 323 is connected with the push tube 322 to drive the push tube 322 to automatically reset.

The unlocking mechanism 33 includes: push rod 331, push rod mover 332 and release lever 334. One end of the push rod 331 is connected with the trigger 11, the other end of the push rod 331 is rotatably connected with a push rod movable member 332 which is arranged opposite to the ratchet 3151 of the ratchet 315, a directional shaft elastic member 333 is connected between the push rod 331 and the push rod movable member 332, the directional shaft elastic member 333 is used for driving the push rod movable member 332 to rotate towards the axis direction of the ratchet 315, the push rod movable member 332 is positioned on the ratchet 3151 of the ratchet 315, and when the trigger 11 is buckled, the push rod 331 and the push rod movable member 332 contact and press the ratchet 3151 to push the ratchet 315 to.

5 concave positions are uniformly arranged on the periphery of the ratchet 315 at intervals of a preset angle, the concave elastic part 335 is connected with the unwinding rod 334 to drive the unwinding rod 334 to be clamped in the concave position, and the trigger part 11 is connected with the unwinding rod 334 to enable the unwinding rod 334 to be far away from the concave position.

In use, the handle 321 of the loading mechanism 32 is pushed to the loading position, and all 5 of the striking members 311 are pushed to the stored position. Then the safety lock 13 is moved upwards, the part of the unlocking end 131 extending out of the bottom of the launching body 1 enters the launching body 1, the unlocking end 131 is flush with the bottom of the launching body 1, and the safety lock 13 unlocks the trigger 11. Then the trigger member 11 is buckled, the trigger member 11 moves to drive the push rod 331 to move downwards, the push rod 331 drives the push rod moving member 332 to apply a rotating force to the ratchet 315, so as to drive the rotary drum 312 to rotate, meanwhile, the trigger member 11 is also disconnected from the connection with the rotation release lever 334, the rotation release lever 334 is driven by the concave elastic member to move downwards, and is clamped into the concave position after meeting the concave position, so that the rotary drum 312 is blocked to rotate continuously, so that the rotary drum 312 only rotates the preset angle of the concave position member, namely the preset angle between the impact members 311, after the rotation angle, the impact release member 316 can be in contact with the unlocking rod member, and the impact members 311 are pressed on the impact lock members 314, so that the impact lock members 314 release the impact members 311, the elastic members are released, and the impact members 311 are ejected out, thereby ejecting the toy body 200.

The trigger 11 is released again, the trigger 11 drives the push rod 331 to move upwards, the push rod moving member 332 no longer rotates the ratchet 315, the rotation releasing lever 334 is also locked by the trigger 11 and disengaged from the concave position, and the drum 312 returns to a static but rotatable state to wait for being driven to rotate again. By circulating the above steps, the trigger 11 is pulled each time to rotate the drum 312 by a predetermined angle, so that the toy body 200 can be ejected continuously and accurately.

After all the striking pieces 311 are released, the launcher 100 is no longer used, the safety lock 13 is moved downward, the locking part is butted and locked with the trigger 11, and the trigger 11 is locked by the safety lock 13.

The operation of the launching toy in one embodiment is described below.

The launcher 100 buckles the trigger 11, the striking piece 311 ejects, the toy body 200 in the chamber 12 is ejected from the ejection opening 121, the toy body 200 is unlocked by the unlocking structure 2 through the ejection opening to deform the locking piece 210, and the toy body 200 is converted from the first form to the second form. The trigger 11 is again triggered and the toy body 200 is ejected and deformed again from the ejection opening 121 of the compartment 12. The process of launching the toy has ornamental value, and the interest of the toy is improved.

Other constructions of emitters according to embodiments of the invention, such as triggers and drums, etc., and operation thereof, 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 "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 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. An ejector device for ejecting a toy body when a trigger member is triggered, the ejector device comprising:

the ejection mechanism is provided with at least two ejection pieces;

the loading mechanism can load the cartridge into the chamber at one time to drive all the cartridge striking pieces to be locked in an energy storage state;

the unlocking mechanism is linked with the ejection mechanism and is used for being linked with the trigger piece, the trigger piece can enable the unlocking mechanism to unlock the ejection piece once triggered, and the ejection piece can release energy to move to eject the toy body.

2. The ejector device of claim 1, wherein said ejector mechanism further comprises:

a drum on which all of the striking members are circumferentially spaced apart, the striking members having contact points for pressing against the toy body, the contact points being movable between a first position and a second position of the drum, the striking members being configured to automatically drive the contact points toward the first position, the striking members being progressively charged as the loading mechanism moves the contact points toward the second position;

the latch lock spare, the latch lock spare corresponds the second position of rotary drum sets up, the latch lock spare is used for with the contact point locking of the piece is hit in the second position, triggers once every the release mechanism drives the latch lock spare release one the piece is hit.

3. The ejection device as claimed in claim 2, wherein all of the striking members are circumferentially disposed on the drum at uniform intervals, and every two adjacent striking members are spaced at a predetermined angle;

the rotating drum is provided with a ratchet wheel at the second position, the ratchet wheel is linked with the unlocking mechanism, and the unlocking mechanism drives the ratchet wheel to rotate by the preset angle when the trigger piece is triggered once;

and when the rotary cylinder rotates for the preset angle once, the elastic striking lock piece releases the locking of one elastic striking piece.

4. The ejection device of claim 3, wherein the flip lock is movably disposed within the drum, the flip lock partially extending outside the drum, the flip lock being disposed in one-to-one correspondence with the flip lock;

the ejection mechanism further comprises an ejection releasing part, the ejection releasing part is fixedly arranged relative to the rotating shaft of the rotating cylinder, and when the ejection locking part rotates along with the rotating cylinder to be in contact with the ejection releasing part, the ejection releasing part is pressed on the ejection locking part so that the ejection locking part releases the ejection locking part.

5. The ejection device of claim 3, wherein the unlocking mechanism comprises: one end of the push rod is used for being connected with the trigger piece, the other end of the push rod is opposite to the ratchet of the ratchet wheel, the push rod is used for being pressed on the ratchet wheel to push the ratchet wheel to rotate when the trigger piece is triggered, and the push rod is separated from the ratchet wheel when the trigger piece is released.

6. The ejection device of claim 5, wherein the other end of the push rod is pivotally connected to a push rod moving member, the push rod and the push rod moving member are located on one side of the axis of the ratchet, a directional shaft elastic member is connected between the push rod and the push rod moving member, the directional shaft elastic member is configured to drive the push rod moving member to rotate toward the axis of the ratchet, and the push rod moving member is located on the ratchet of the ratchet.

7. The ejection device of claim 5, wherein a plurality of recesses are formed in the periphery of the ratchet in a one-to-one correspondence with all of the striking members, and the predetermined angle is provided between every two adjacent recesses;

the unlocking mechanism further comprises an unlocking rod and a concave elastic piece, the concave elastic piece is connected with the unlocking rod to drive the unlocking rod to be clamped into the concave position, one end of the unlocking rod is connected with the trigger piece to enable the other end of the unlocking rod to be far away from the concave position, when the trigger piece is triggered, the trigger piece is separated from the unlocking rod, and the unlocking rod extends into the concave position under the action of the concave elastic piece; when the trigger piece is released and reset, the trigger piece drives the rotation release rod to be far away from the concave position.

8. The ejector device of any one of claims 1-7, wherein said loading mechanism includes a push handle, a push tube, a return spring,

one end of the push handle is rotatably connected with the push pipe, and the push pipe is driven to move by holding the push handle by hand, so that the push pipe can push all the elastic striking pieces to move to the energy storage state; the reset elastic piece is connected with the push pipe to drive the push pipe to reset automatically.

9. A transmitter, comprising:

the launching device comprises a launching body, wherein a triggering piece is arranged on the launching body;

the bin is arranged on the launching body and used for storing at least two toy bodies;

the ejection device of any one of claims 1-7, at least partially disposed within the launch body, an unlocking mechanism of the ejection device being in linkage with the trigger to trigger the ejection mechanism to eject from the toy body when the trigger is triggered.

10. The launcher according to claim 9, wherein said toy body has first and second switchable configurations, said toy body being provided with a deformable latch member for locking said toy body in said first configuration,

the launcher further includes a structure for triggering the deformable latch member to unlock upon ejection of the toy body to change the toy body from the first configuration to the second configuration.

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