CN215427313U - Ejection toy suit - Google Patents

Abstract

The utility model discloses an ejection toy set, which comprises a running toy capable of running and at least one ejection toy capable of being ejected; the running toy is provided with a locking mechanism, and the launching toy is internally provided with a first elastic piece; when the launching toy is locked on the running toy through the locking mechanism, the first elastic piece stores energy; when the locking mechanism is unlocked, the first elastic piece releases energy, and the launching toy moves towards the direction far away from the running toy and is separated from the running toy. The transmission toy locking back on the toy of traveling, the toy of traveling can drive the transmission toy and travel, then triggers locking mechanical system unblock, launches the transmission toy, so, has richened the mode of launching the toy subassembly and playing, has improved the interest of playing.

Description

Ejection toy suit

Technical Field

The utility model relates to the technical field of toys, in particular to an ejection toy suit.

Background

The toy is an essential article for people to grow, and brings fun to the life of people. The market is full of various toys, the selectivity of people is increased, and therefore the playability of the toys is the key point of the design of the toys.

The ejection toy is popular in the market at present, and the ejector and the ejection piece are formed into two parts, and the ejection piece can be ejected from the ejector. However, the ejection toy has a single playing method, and the ejection piece is ejected simply by operating the emitter, so that the playability is lacked, and the interest of people in playing is difficult to increase, and therefore, the ejection toy needs to be improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provide an ejection toy suit with improved interestingness.

The technical scheme of the utility model provides an ejection toy set, which comprises a running toy capable of running and at least one ejection toy capable of being ejected; the running toy is provided with a locking mechanism, and the launching toy is internally provided with a first elastic piece; when the launching toy is locked on the running toy through the locking mechanism, the first elastic piece is compressed and stores energy; when the locking mechanism is unlocked, the first elastic piece stretches and releases energy, and the launching toy moves towards the direction far away from the running toy and is separated from the running toy.

Furthermore, at least one launching groove is formed in the outer surface of the running toy, and each launching groove corresponds to one launching toy; when in the assembled state, the launching toy is at least partially hidden in the launching slot, or completely hidden in the launching slot; when the launching state is entered, the launching toy is launched from the launching groove to a direction away from the running toy, and the launching toy stretches.

Further, the launching toy comprises a first launching piece and a second launching piece connected with the first launching piece in a sliding mode, and the first elastic piece is arranged between the first launching piece and the second launching piece; the launch toy is capable of being extended and shortened; when the locking mechanism is in a locking state, the launching toy is in a shortened state as a whole; when the locking mechanism is in an unlocked state, the first launching piece and the second launching piece move towards the direction far away from the running toy, and the launching toy is in an extended state as a whole.

Further, the first launching element has a tendency to move away from the launching toy when the first resilient element is compressed, the first resilient element presses the second launching element towards the launching toy, and the locking mechanism is locked at least to the first launching element.

Further, the locking mechanism includes a catch plate slidably coupled within the running toy; the lock catch plate is provided with a trigger block, and at least part or all of the trigger block is exposed outside the running toy; when the trigger block is triggered by collision, the lock catch plate slides to enable the locking mechanism to be in an unlocked state, and the launching toy moves towards the direction far away from the running toy and is separated from the running toy.

Further, the trigger block is a magnetic block or a metal block, and can attract or repel a trigger piece to trigger the locking mechanism to unlock.

Furthermore, a lock catch hook used for being clamped with the first emitting piece and the second emitting piece is arranged on the lock catch plate, and the lock catch hook extends into the emitting groove; the first launching part is provided with a first clamping hole, and the second launching part is provided with a second clamping hole; when locking mechanical system is in the locking state, the transmission toy is the state of shortening, first calorie of hole with the second card hole aligns, the hasp colludes and stretches into first calorie of hole with in the second card hole.

Furthermore, an accommodating groove communicated with the launching groove is formed in the running toy, and the accommodating groove is located on one side of the launching groove; the locking mechanism comprises a return spring, and the return spring is positioned in the accommodating groove and is arranged between the groove wall of the accommodating groove and the lock catch plate; when the trigger block is pressed, the return spring is compressed, and the lock catch moves towards the direction far away from the emission groove; when the trigger block is released, the reset spring extends, and the lock catch moves towards the direction close to the emission groove.

Further, the running toy also comprises a toy shell and a toy base, wherein the toy shell is arranged on the toy base. The lock catch plate is arranged in the toy shell. The launching slot is arranged on any outer surface of the toy shell.

Furthermore, a guide groove is formed in the lock catch plate, a limiting rod extending towards the guide groove is arranged in the toy shell, and the limiting rod is connected with the guide groove in a sliding mode.

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

the ejection toy suit consists of a running toy and an ejection toy, wherein the ejection toy is locked on the running toy through a locking mechanism, and the running toy can drive the ejection toy to move. Then the launching toy is ejected after the locking mechanism is triggered to unlock, so that the playing mode of the ejection toy set is enriched, and the interest of playing is improved.

Drawings

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

FIG. 1 is a schematic illustration of a toy ejector set in accordance with an embodiment of the present invention;

FIG. 2 is a perspective view of a running toy according to an embodiment of the present invention;

FIG. 3 is an exploded view of a running toy according to an embodiment of the present invention;

FIG. 4 is a perspective view of a launching toy according to an embodiment of the present invention;

FIG. 5 is an exploded view of a launching toy according to an embodiment of the present invention;

FIG. 6 is a schematic illustration of a launching toy and launching base with a locking mechanism in a locked state in accordance with an embodiment of the present invention;

figure 7 is a schematic view of a launching toy and launching base with a locking mechanism unlocked in one embodiment of the present invention.

Reference symbol comparison table:

running toy 1

Emission base 11 emission groove 111 positioning column 1111 accommodation groove 112

Locking mechanism 12 locking plate 121 trigger block 1211 locking hook 1212

Guide groove 1213 return spring 122 toy housing 13 stopper 131

Toy base 14

First elastic member 21, second elastic member 22, first launching member 23 connecting rod 231 of launching toy 2

Mounting hole 2311 connects post 2312 first card hole 2313 launch housing 232

Housing cavity 2321 housing opening 2322 stop 2323 second transmission member 24

Slide 241 stop block 242 and second clamping hole 243

Detailed Description

The following further describes embodiments of the present invention with reference to the accompanying drawings.

It is easily understood that according to the technical solution of the present invention, those skilled in the art can substitute various structures and implementation manners without changing the spirit of the present invention. Therefore, the following detailed description and the accompanying drawings are only exemplary illustrations of the technical solutions of the present invention, and should not be construed as being all of the present invention or as defining or limiting the technical solutions of the present invention.

The terms of orientation of up, down, left, right, front, back, top, bottom, and the like referred to or may be referred to in this specification are defined relative to the configuration shown in the drawings, and are relative terms, and thus may be changed correspondingly according to the position and the use state of the device. Therefore, these and other directional terms should not be construed as limiting terms.

In one embodiment of the present invention, as shown in figures 1-7, a launching toy set includes a traveling toy 1 capable of traveling and at least one launching toy 2 capable of being launched.

The running toy 1 is provided with a locking mechanism 12, and the launching toy 2 is provided with a first elastic member 21.

When the launching toy 2 is locked to the running toy 1 by the locking mechanism 12, the first elastic member 21 is charged.

When the lock mechanism 12 is unlocked, the first elastic member 21 is released, and the launching toy 2 is moved away from the running toy 1 and is disengaged from the running toy 1.

The ejection toy suit is composed of a running toy 1 and an ejection toy 2, wherein the running toy 1 can move, and the ejection toy 2 can be ejected from the running toy 1.

The running toy 1 and the launching toy 2 can have various shapes, for example, the running toy 1 is a rocket carrier model, and the launching toy 2 is a rocket model; the running toy 1 is an airplane launching mobile station model, and the launching toy 2 is an airplane model; the running toy 1 is a trolley model, and the launching toy 2 is a character model.

The running toy 1 comprises a toy shell 13 and a shell base 14, wherein the toy shell 13 is arranged on the shell base 14, and rollers are arranged below the shell base 14. The running toy 1 can be moved by the operation of the user, and the user can push the running toy 1 to move by hands or props. Optionally, a driving motor is installed in the toy shell 13, the driving motor is connected with the roller, and the roller is driven to rotate by the driving motor, so that the operation of a user is facilitated.

A part of the toy case 13 is used as the launching base 11, or the launching base 11 and the locking mechanism 12 are mounted on the toy case 13, the launching base 11 is mounted on the toy case 13, and the locking mechanism 12 is mounted in the toy case 13.

A first elastic member 21, such as a telescopic spring, capable of compressing and extending is provided in the launching toy 2. Launching toy 2 is locked to launching base 11 by locking mechanism 12. The locking mechanism 12 includes a trigger portion and a locking portion, and when the launching toy 2 is placed on the launching base 11, the locking portion is locked with the launching toy 2, so that the launching toy 2 is locked on the launching base 11.

The elastic piece can accumulate energy and release energy. When the elastic part is used for storing energy, the elastic part can be in a stretching state or a compressing state, according to specific structural requirements, a stretching spring or a compressing spring can be selected, and when the elastic part is used for releasing energy, the elastic part is recovered to a state without external force application. For convenience of description, the elastic member is compressed to store energy, and is extended to release energy. As shown in fig. 6, when the launching toy 2 is locked on the launching base 11, the first elastic member 21 is compressed, and at this time, the first elastic member 21 is charged with energy to generate elastic potential energy.

As shown in fig. 7, after the trigger part is operated to unlock the locking mechanism 12, the locking part is disengaged from the launching toy 2, and at this time, the first elastic member 21 extends potential energy, i.e., releases the elastic potential energy, to generate a power for pushing the launching toy 2 to move, so that the launching toy 2 moves away from the launching base 11 and is disengaged from the launching base 11.

When operating the ejection toy suit to play, the user can play the ejection toy 2 and the running toy 1 in a combined manner, the user operates the running toy 1 to drive the ejection toy 2 to run on the ground or a desktop, and then the ejection toy 2 is ejected, so that the playing mode is enriched, and the playing interest is increased. After the launching toy 2 is popped up, the user can also independently operate the running toy 1 to play, so that the diversity of the playing modes is improved, and the interest of playing is further improved. The first elastic member 21 for generating power in the ejector toy set is provided in the ejector toy 2, following the ejection of the ejector toy 2. When the launching toy 2 is ejected, the launching base 11 does not have the function of ejection, so that the user is prevented from operating the launching base 11 to eject other objects which are easy to cause body injury after ejecting the launching toy 2. Thus, the user can safely play with the running toy 1 after the launching toy 2 is ejected.

Alternatively, the locking mechanism 12 is an electrically controlled mechanism that includes a controller and an external remote control for operating the controller, the external remote control being communicatively coupled to the controller via a wire or infrared sensing. The lock catch part is a movable clamping hook, and the controller can control the clamping hook to move. When the user operates the running toy 1 to drive the launching toy 2 to run to a predetermined place, the user can operate the controller by using the external remote controller to control the hook to be separated from the launching toy 2, so that the launching toy 2 is popped up. Thus, the user can conveniently control the safe launching distance of the launching toy 2.

In the present embodiment, the launching base 11 is disposed on the upper surface of the running toy 1, and the launching toy 2 is preferably popped up to be perpendicular to the running toy 1, but is not limited to this direction, and may be any direction away from the running toy 1 depending on the orientation of the launching base 11. In other embodiments, the launching bases 11 may be provided on the front and rear surfaces or the left and right surfaces of the running toy 1.

In one embodiment, as shown in fig. 2 and 5-7, the outer surface of the running toy 1 is provided with at least one launching groove 111, and each launching groove 111 corresponds to one launching toy 2. In the assembled state, the launching toy 2 is at least partially concealed within the launching slot 111, or entirely concealed within the launching slot 111. When the launching state is entered, the launching toy 2 is launched from the launching groove 111 to a direction away from the running toy 1 while the launching toy 2 itself elongates.

Specifically, the running toy 1 includes a toy case 13, and an outer surface of the toy case 13 is recessed to form a launching groove 111, and the launching groove 111 is used for launching the toy 2. The locking portions of the locking mechanism 12 extend into the launching groove 111 to engage with the launching toy 2. When the launching toy 2 is locked by the locking mechanism 12 and fitted into the launching slot 111, a part of the launching toy 2 is accommodated in the launching slot 111 to be hidden, and in another embodiment, the launching toy 2 is entirely accommodated in the launching slot 111 to be hidden. The launching toy 2 is received in the launching slot 111 and protected by the toy housing 13 to prevent damage to the launching toy 2 prior to launching. Second, the launching slot 111 restricts the position of the launching toy 2, stabilizing the launching toy 2 prior to launching.

Alternatively, the launching groove 111 is formed from the surface of the launching base 1 recessed into the toy housing 13.

In one embodiment, as shown in fig. 2 and 5-7, the launching toy 2 includes a first launching member 23 and a second launching member 24 slidably coupled to the first launching member 23, and the first resilient member 21 is disposed between the first launching member 23 and the second launching member 24. The launching toy 2 is capable of being extended and shortened. When the lock mechanism 12 is in the locked state, the launching toy 2 is shortened as a whole.

When the lock mechanism 12 is in the unlocked state, the first and second launching members 23 and 24 are moved away from the running toy 1, and the launching toy 2 is extended as a whole.

The launching toy 2 is capable of being extended and shortened, and the launching toy 2 includes a first launching member 23, a second launching member 24, and a first elastic member 21. The first launching member 23 is slidably coupled to the second launching member 24, and the two members are maintained in an undivided state. Here, the sliding connection is defined as the relative movement of the first launching member 23 and the second launching member 24, which can be realized by arranging a sliding rail, a sliding groove or a sliding way. In this embodiment, the second launching member 24 is provided with a through slide way 241, and at least a part of the first launching member 23 extends into the slide way 241 and is in clearance fit with the slide way 241, so that the first launching member 23 can slide in the slide way 241. Optionally, a limiting block is arranged in the slide 241, and a stop block is arranged on the first launching member 23, so that when the first launching member 23 slides in a direction away from the running toy 1, the limiting block can contact with the stop block to limit the first launching member 23 to move continuously, thereby preventing the first launching member 23 from being separated from the second launching member 24. Of course, other structures may be adopted as long as the first and second emitters 23 and 24 are not separated at all times.

As shown in fig. 6, the first elastic member 21 is disposed between the first and second launching members 23 and 24, and when the first and second launching members 23 and 24 are locked on the launching base 11, the first launching member 23 moves toward the direction close to the launching base 11, so that the launching toy 2 is shortened as a whole, and the locking portion is engaged with the first and second launching members 23 and 24. At this time, the first elastic member 21 is compressed and stored by the first and second transmitting members 23 and 24, i.e., elastic potential energy is stored.

As shown in fig. 7, when the trigger portion is operated to unlock the lock mechanism 12, the locking portion is disengaged from the first and second radiators 23 and 24. At this time, the first elastic member 21 is extended to release the stored elastic potential energy, and the elastic potential energy is converted into kinetic energy for pushing the first emitting member 23 to move, so that the first emitting member 23 is ejected away from the emitting base 11. During ejection of the first launching member 23, the first launching member 23 slides over the second launching member 24, at which time the launching toy 2 is extended. When the first emitter 23 slides to the maximum stroke, the second emitter 24 is driven to be separated from the emitting base 11. The first launching part 23 and the second launching part 24 can be stretched and shortened to change, so that the visual experience of a user is enriched, and the play interest is improved.

In one embodiment, as shown in figures 5-7, the first launching member 23 has a tendency to move away from the launching toy 2 when the first resilient member 21 is compressed, the first resilient member 21 presses the second launching member 24 towards the launching toy 2, and the locking mechanism 12 locks with at least the first launching member 23.

As shown in fig. 6, the launching toy 2 is received in the launching groove 111, and the first elastic member 21 is compressed in a direction toward the running toy 1, and at this time, the first elastic member 21 generates elastic potential energy and generates a tendency to release a force pushing the first launching member 23 in a direction away from the running toy 1, so that the first launching member 23 has a tendency to move in a direction away from the running toy 1. During the compression of the first elastic member 21, the first elastic member 21 presses the second radiator 24.

As shown in fig. 7, the first elastic member 21 is extended to release elastic potential energy, and the elastic potential energy is converted into a pushing force to push the first launching member 21 to move away from the traveling toy 1.

Alternatively, the lower end of the first launching member 23 extends beyond the lower end of the second launching member 24, i.e. the length of the first launching member 23 is greater than the length of the second launching member 24, and the locking mechanism 12 is locked only with the first launching member 23. In another embodiment, the lower end of the first launcher 23 is located within the second launcher 24, with the locking mechanism 12 locking simultaneously with the first and second launchers 23, 24.

In one embodiment, as shown in fig. 5 to 7, the second elastic element 22 is disposed in the first emitting element 23, and the energy releasing direction of the second elastic element 22 is the same as the energy releasing direction of the first elastic element 21. When the locking mechanism 12 is in the locked state, the first elastic member 21 and the second elastic member 22 contract and charge energy simultaneously. When the lock mechanism 12 is in the unlocked state, the first elastic member 21 and the second elastic member 22 are respectively extended and released.

When the launching toy 2 is locked to the running toy 1, the first launching member 23 and the second launching member 24 are integrally shortened. While both the first elastic element 21 and the second elastic element 22 are compressed and charged. When the locking structure is unlocked, the first elastic member 21 and the second elastic member 22 simultaneously release elastic potential energy in a direction away from the running toy 1, so that the first launching member 23 and the second launching member 24 are ejected.

In the process of ejecting the first emitting piece 23 and the second emitting piece 24, the first elastic piece 21 and the second elastic piece 22 simultaneously push the first emitting piece 23 to slide on the second emitting piece 24, and the first emitting piece 23 slides on the second emitting piece 24 to the maximum stroke and then drives the second emitting piece 24 to move. Then the first elastic member 21 loses its pushing effect and the second elastic member 22 continues to push the first and second emitting members 23 and 24 to move. In the whole ejection process, the first elastic piece 21 and the second elastic piece 22 can provide ejection power to realize multi-stage ejection, so that the ejection speed is increased, and the ejection distance of the first launching piece 23 and the second launching piece 24 is increased.

In one embodiment, as shown in fig. 6 to 7, the first emitting element 23 includes a connecting rod 231, the second emitting element 24 is provided with a through slide way 241, the connecting rod 231 extends into the slide way 241 and is slidably connected with the slide way 241, and the first elastic element 21 is sleeved on the connecting rod 231. The connection rod 231 has a mounting hole 2311 opened toward the running toy 1, and at least a portion of the second elastic member 22 is disposed in the mounting hole 2311.

The second emitting member 24 is in the form of a sleeve, which is fitted over the outside of the connecting rod 231. The second launching member 24 has a through slide 241, and the connecting rod 231 extends into the slide 241 and is in clearance fit with the slide 241, so that the connecting rod 231 can slide in the slide 241. The second emitter 24 is sleeved outside the connection rod 231 to protect the connection rod 231 from being damaged by the connection rod 231. The slide 241 has a guiding function so that the first launching member 23 slides more smoothly relative to the second launching member 24.

The connection rod 231 has a first end of the connection rod remote from the running toy 1, and the second elastic member 22 has a first end remote from the running toy 1, the first end of the connection rod being located at a side of the first end remote from the running toy 1. The first elastic member 21 is a telescopic spring, and the telescopic spring is sleeved on the connecting rod 231 and is located between the first end and the first end of the connecting rod. When the link 231 moves in the direction approaching the traveling toy 1, the extension spring is forced and compressed to store energy. At the time of launching, the extension spring is extended, pushing the connecting rod 231 and the launching housing 232 to move in a direction away from the running toy 1.

A mounting hole 2311 is formed at the second end of the connecting rod 231, the second elastic member 22 is disposed in the mounting hole 2311, and the second elastic member 22 may be partially disposed in the mounting hole 2311 or entirely disposed in the mounting hole 2311. The installation hole 2311 is provided to stabilize the second elastic member 22 and prevent the second elastic member 22 from shaking.

In one embodiment, as shown in fig. 6-7, a connection post 2312 is disposed within the mounting hole 2311, and a positioning post 1111 is disposed within the launching slot 111 and extends toward the mounting hole 2311. When the locking mechanism 12 is in the locked state, the second elastic member 22 is compressed and located between the connecting post 2312 and the positioning post 1111. When the lock mechanism 12 is in the unlocked state, the second elastic member 22 is extended and moves in a direction away from the running toy 1 with the first launching member 23.

Specifically, a positioning column 1111 is disposed in the emission groove 111, and a connection column 2312 is disposed in the installation hole 2311. The second elastic member 22 is coupled to the coupling post 2312. When the first emitter 23 and the second emitter 24 are locked in the emitter slot 111, the positioning posts 1111 extend into the mounting holes 2311, and the positioning posts 1111 have a positioning function, so that the first emitter 23 can be mounted at a fixed position each time, thereby ensuring that the locking mechanism 12 can be clamped with the first emitter 23 and the second emitter 24. At this time, one end of the second elastic member 22 is connected to the connection post 2312, and the other end is in contact with the positioning post 1111. The distance between the positioning post 1111 and the connecting post 2312 is smaller than the length of the second elastic member 22 in the natural state, so that the second elastic member 22 is compressed by the positioning post 1111 and the connecting post 2312. After the trigger lock mechanism 12 is unlocked, the second elastic member 22 is extended to release energy, and the second elastic member 22 moves in a direction away from the running toy 1 along with the first emitting member 23.

Optionally, the second elastic member 22 is also a telescopic spring, and the end of the second elastic member 22 is sleeved on the connecting column 2312, so that the position of the second elastic member 22 is fixed, and the stability of the second elastic member 22 is enhanced.

In one embodiment, as shown in fig. 5-7, the first emitter 23 further comprises an emitter housing 232, and at least a portion of the connection rod 231 is located in the emitter housing 232 and is detachably or fixedly connected to the emitter housing 232.

Specifically, the first launcher 23 is composed of a launcher housing 232 and a connecting rod 231, the launcher housing 232 having a housing cavity 2321 and a housing opening 2322 communicating with the housing cavity 2321. One end of the connecting rod 231 extends into the housing cavity 2321 from the housing opening 2322 and is fixedly or detachably connected to the transmitting housing 232, and the other end of the connecting rod 231 extends out of the housing cavity 2321 from the housing opening 2322. The transmitting case 232 has a protective function for the connection rod 231 to prevent the connection rod 231 from being damaged by collision.

Alternatively, the connecting rod 231 and the emission housing 232 are integrally formed by one mold, so that the connecting rod 231 and the emission housing 232 are fixed, that is, the connecting rod 231 and the emission housing 232 cannot be separated, so that the connecting rod 231 and the emission housing 232 are connected more firmly.

Optionally, be provided with the connecting groove in casing chamber 2321, the one end that stretches into casing chamber 2321 on the connecting rod 231 is provided with the cardboard, and the cardboard card is in the connecting groove, so realizes that connecting rod 231 can dismantle with transmission housing 232 and be connected, makes things convenient for the loading and unloading of connecting rod 231.

Optionally, the outer surface of the transmitting shell 232 is an arc surface, the arc surface is good in stress performance, the structural strength of the transmitting shell 232 can be improved, and the transmitting shell 232 is not prone to damage.

In one embodiment, as shown in fig. 5-7, the second launching member 24 is provided with a stop block 242 positioned within the launching housing 232, and the first resilient member 21 is connected between the stop block 242 and the housing wall of the launching housing 232. The launching housing 232 is provided with a stop 2323, and the stop 2323 is located at a side of the block 242 close to the running toy 1. When the locking mechanism 12 is in the unlocked state, the launching housing 232 moves away from the traveling toy 1, and the stop 2323 contacts the stop block 242 and drives the second launching element 24 to move.

Specifically, the second emitting member 24 is in the shape of a sleeve and is fitted over the outside of the connecting rod 231. The connecting rod 231 has a first end of the connecting rod remote from the running toy 1, and the second launching member 24 has a first end remote from the running toy 1. Both the first end and the first end of the link are located within the housing cavity 2321 and are protected from damage by the launch housing 232.

A stopper 242 extending outward is connected to the first end portion, the first elastic member 21 is fitted over the connection rod 231, one end of the first elastic member 21 is in contact with or connected to a housing wall of the emission housing 232, and the other end of the first elastic member 21 is in contact with or connected to the stopper 242. The arrangement of the stopper 242 increases the contact area between the first elastic member 21 and the second radiating member 24, so that the second radiating member 24 can better support the first elastic member 21.

A stop 2323 is disposed on the inner wall of the launch housing 232, preferably the stop 2323 is disposed at the housing opening 2322. The stopper 242 is located on a side of the stopper 2323 away from the emitting base 11. When the trigger lock mechanism 12 is unlocked, the first elastic member 21 and the second elastic member 22 push the connection rod 231 and the emission housing 232 to move away from the emission base 11. During the moving process, the stop 2323 contacts the stop block 242, so as to drive the second launching element 24 to move together, and prevent the second launching element 24 from separating from the launching housing 232.

In one embodiment, as shown in fig. 3 and 6-7, locking mechanism 12 includes a strike plate 121, and strike plate 121 is slidably coupled within running toy 1. The locking plate 121 is provided with a trigger block 1211, and at least a part or the whole of the trigger block 1211 is exposed to the outside of the running toy 1. When the trigger 1211 is hit, the locking plate 121 slides to unlock the locking mechanism, and the launching toy 2 moves away from the running toy 1 and is separated from the running toy 1.

Specifically, the running toy 1 has a toy case 13 and a toy base 14. The latch plate 121 is slidably coupled between the toy housing 13 and the toy base 14. Which can be realized by setting the stroke of a slide rail or a chute. The locking plate 121 has a long plate shape, and one end of the locking plate 121 is provided with a trigger 1211 and the other end is a locking part. The trigger block 1211 is a trigger part of the locking mechanism 12, at least a part of the trigger block 1211 is exposed outside the toy housing 13, a communication hole is provided in the toy housing 13, and at least a part of the trigger block 1211 extends out of the communication hole and is in clearance fit with the communication hole. Therefore, the touch trigger 1211 can be pressed to drive the locking plate 121 to slide by the trigger 1211, so as to realize unlocking. The playing method of the ejection toy suit is enriched.

The user can operate the ejection toy set to play by one person, the user drives the driving toy 1 toward the wall surface or other obstacles, and when the driving toy 1 collides with the wall surface or other obstacles, the trigger block 1211 is touched, so that the locking mechanism 12 is unlocked and the ejection toy 2 is ejected.

The user can also play against other users by using a plurality of ejection toy sets. Different users engage with different running toys 1, and the different running toys 1 collide with each other to touch the trigger block 1211. The locking mechanism 12 that was first touched to the trigger block 1211 is first unlocked. Therefore, the interaction between the toy and the user is increased, and the playing pleasure is improved.

In one embodiment, as shown in fig. 3 and 6-7, the trigger block 1211 is a magnetic or metallic block that is capable of attracting or repelling a trigger to trigger the unlocking of the locking mechanism 12.

The trigger block 1211 may be made of a magnetic block having magnetism, such as a magnet or a magnet. During play, the magnetic block generates a magnetic force to attract the trigger (not shown) so that the running toy 1 can automatically move toward the trigger, or the trigger is attracted to move toward the magnetic block and then the collision occurs to unlock the locking mechanism 12. The trigger may be ferrous metal or other magnet. The trigger block 1211 may also be a metal block that may be attracted by a trigger having magnetic properties so that the running toy can be moved toward the trigger, or the trigger is moved toward the running toy and then collided to unlock the locking mechanism 12. The trigger may be a magnet. The setting can arouse the curiosity of the user and improve the interest of the user in playing.

Alternatively, when the trigger block 1211 and the trigger member are both magnets of the same polarity, a repulsive force is generated therebetween, and the trigger block 1211 is pushed by the repulsive force to unlock the lock mechanism 12.

Optionally, the trigger is an object external to the ejector toy kit, such as a magnet, a table and chair made of ferrous metal, or the like. The trigger may also be part of a toy ejection kit, such as a toy made of ferrous metal or a toy with magnets mounted thereon.

In one embodiment, as shown in fig. 6-7, the locking plate 121 is provided with a locking hook 1212 for engaging with the first and second emitting elements 23 and 24, and the locking hook 1212 extends into the emitting slot 111. The first emitter 23 is provided with a first engaging hole 2313, and the second emitter 24 is provided with a second engaging hole 243. When the locking mechanism 12 is in the locked state, the toy 2 is in the shortened state, the first locking hole 2313 is aligned with the second locking hole 243, and the locking hook 1212 extends into the first locking hole 2313 and the second locking hole 243.

Specifically, one end of the locking plate 121 is provided with a trigger block 1211, and the other end is provided with a locking hook 1212 for engaging with the first and second emitting members 23 and 24. The latch hooks 1212 are latch portions of the locking mechanism 12.

The first radiator 23 includes a connection rod 231, and the connection rod 231 is provided with a mounting hole 2311. The second launching member 24 is sleeve-shaped and has a slide 241, and the connecting rod 231 extends into the slide 241. A first catching hole 2313 communicating with the mounting hole 2311 is provided at the coupling rod 231, and a second catching hole 243 communicating with the slide 241 is provided at the second shooter 24. When the launching toy 2 is placed on the launching base 11 and the first launching element 23 is moved toward the direction close to the launching base 11, the first locking hole 2313 can be aligned with the second locking hole 243, and the locking hook 1212 can extend into the first locking hole 2313 and the second locking hole 243, so that the first launching element 23 and the second launching element 24 are locked on the launching base 11.

When the locking mechanism 12 is locked, the first locking hole 2313 is aligned with the second locking hole 243, and the locking hook 1212 extends into the first locking hole 2313 and the second locking hole 243.

When the trigger 1211 is pressed, the latch plate 121 drives the latch 1212 to slide away from the emission slot 111, and the latch 1212 is separated from the first and second locking holes 2313 and 243. In one embodiment, as shown in fig. 6 to 7, the running toy 1 is provided with a receiving groove 112 communicating with the launching groove 111, and the receiving groove 112 is located at one side of the launching groove 111. The locking mechanism 12 includes a return spring 122, and the return spring 122 is located in the receiving groove 112 and is disposed between a groove wall of the receiving groove 112 and the locking plate 121. When the trigger block 1211 is pressed, the return spring 122 is compressed, and the latch 1212 moves away from the launching slot 111. When the trigger 1211 is released, the return spring 122 is extended, and the latch 1212 moves toward the firing slot 111.

Specifically, the emission base 11 is provided with an emission groove 111 and an accommodation groove 112, and the accommodation groove 112 and the emission groove 111 communicate with each other through a through hole.

The locking mechanism 12 includes a locking plate 121 and a return spring 122, wherein one end of the locking plate 121 is provided with a locking hook 1212, the other end of the locking plate 121 is provided with a trigger block 1211, the trigger block 1211 is a trigger portion of the locking mechanism 12, and the locking hook 1212 is a locking portion of the locking mechanism 12. The latch plate 121 is slidably connected to the emission base 11, which can be realized by setting a stroke of a slide rail or a slide groove.

The locking plate 121 includes a first plate and a second plate, the second plate is connected to an end of the first plate and perpendicular to the first plate, and the locking hook 1212 is connected to an end of the second plate. The first plate is located at the bottom of the emitting base 11, the second plate is located in the receiving groove 112, and the locking hook 1212 passes through the through hole and extends into the emitting groove 111. The receiving groove 112 has a groove side wall at one side of the second plate, and the return spring 122 is connected between the groove side wall and the second plate.

When the trigger 1211 is pressed, the latch plate 121 drives the latch hooks 1212 to slide away from the launching slot 111, and the return spring 122 is pressed by the second plate and compressed. When the trigger 1211 is released, the return spring 122 extends and applies a force to the second plate, pushing the latch plate 121 to slide the latch hook 1212 toward the firing slot 111, so that the latch hook 1212 is reset. So set up for hasp 1212 can automatic re-setting, convenience of customers operation.

In one embodiment, as shown in fig. 3 and 6-7, the running toy 1 further includes a toy housing 13 and a toy base 14, the toy housing 13 being mounted on the toy base 14. The catch plate 121 is disposed within the toy housing 13. Launching slot 111 is disposed on either outer surface of toy housing 13.

Specifically, the running toy 1 is composed of a toy case 13 and a toy base 14. The strike plate 121 is positioned between the toy housing 13 and the toy base 14. Alternatively, the strike plate 121 may be slidably attached to the toy base 14. The launching groove 111 may be provided on the upper surface of the toy housing 13, and may be provided on the left and right side surfaces of the toy housing 13 or on the front and rear side surfaces of the toy housing 13. The emission slot 111 opens perpendicular to or at an angle to the surface on which the emission slot 111 is located. The product types are enriched by the arrangement, and users can purchase products of the launching slots 111 at different positions according to own preferences.

In one embodiment, as shown in fig. 3, the locking plate 121 is provided with a guide groove 1213, the toy housing 13 is provided with a limiting rod 131 extending towards the guide groove 1213, and the limiting rod 131 is slidably connected with the guide groove 1213. Specifically, the running toy 1 further includes a toy case 13 and a toy base 14, and the toy case 13 is mounted on the toy base 14. A strike plate 121 is disposed between the toy housing 13 and the toy base 14. The stopper rod 131 extending toward the latch plate 121 is provided on the upper surface of the toy base 14, and the latch plate 121 is provided with a long guide groove 1213. When the locking plate 121 is installed between the toy housing 13 and the toy base 14, the stopper 131 extends into the guide groove 1213 and is in clearance fit with the guide groove 1213, so that the stopper 131 can slide relative to the guide groove 1213. The cooperation of the limiting rod 131 and the guiding groove 1213 enables the locking plate 121 to slide along a constant track, ensuring that the locking hook 1212 can accurately lock the shooting toy 2. And the position of the locking plate 121 is limited by the limiting rod 131, so that the locking plate 121 is prevented from shaking due to bumping when the running toy 1 runs.

In summary, the utility model discloses an ejection toy set, comprising a running toy 1 capable of running and an ejection toy 2 capable of ejecting. The running toy 1 is provided with a launching base 11 and a locking mechanism 12, and the launching toy 2 is provided with a first elastic member 21. When the launching toy 2 is locked on the launching base 11 by the locking mechanism 12, the first elastic member 21 is charged with energy. When the lock mechanism 12 is unlocked, the first elastic member 21 is released, and the launching toy 2 moves away from the launching base 11 and is detached from the launching base 11. The transmission toy 2 locks the back on the toy 1 of traveling, and the toy 1 of traveling can drive transmission toy 2 and travel, then triggers locking mechanical system 12 unblocks, launches transmission toy 2, so, has richened the mode of launching the toy suit and playing, has improved the interest of playing.

The foregoing is considered as illustrative only of the principles and preferred embodiments of the utility model. It should be noted that, for those skilled in the art, several other modifications can be made on the basis of the principle of the present invention, and the protection scope of the present invention should be regarded.

Claims (10)

1. A shooting toy set, characterized in that it comprises a running toy (1) capable of running and at least one shooting toy (2) capable of shooting;

a locking mechanism (12) is arranged on the running toy (1), and a first elastic piece (21) is arranged in the launching toy (2);

when the launching toy (2) is locked on the running toy (1) through the locking mechanism (12), the first elastic piece (21) is charged with energy;

when the locking mechanism (12) is unlocked, the first elastic piece (21) releases energy, and the launching toy (2) moves towards the direction far away from the running toy (1) and is separated from the running toy (1).

2. The ejection toy set of claim 1, characterized in that the outer surface of the running toy (1) is provided with at least one shooting slot (111), each shooting slot (111) corresponding to one of the shooting toys (2);

when in the assembled state, the launching toy (2) is at least partially concealed within the launching slot (111), or entirely concealed within the launching slot (111);

when the launching state is entered, the launching toy (2) is launched from the launching slot (111) to a direction away from the running toy (1), and the launching toy (2) extends itself.

3. The ejection toy set of claim 2, characterized in that the launch toy (2) comprises a first launch element (23) and a second launch element (24) slidingly connected to the first launch element (23), the first elastic element (21) being arranged between the first launch element (23) and the second launch element (24);

the launch toy (2) is capable of being extended and shortened;

when the locking mechanism (12) is in a locking state, the launching toy (2) is in a shortened state as a whole;

when the locking mechanism (12) is in an unlocked state, the first launching part (23) and the second launching part (24) move towards a direction far away from the running toy (1), and the launching toy (2) is in an extended state as a whole.

4. A toy ejection set according to claim 3, characterized in that the first spring (21) has a tendency to move away from the launching toy (2) when the first spring (21) is compressed, the first spring (21) pressing the second launching member (24) towards the launching toy (2), the locking mechanism (12) being locked at least with the first launching member (23).

5. The ejection toy set of claim 3, characterized in that the locking mechanism (12) comprises a catch plate (121), the catch plate (121) being slidably connected within the running toy (1);

the lock catch plate (121) is provided with a trigger block (1211), and at least part or all of the trigger block (1211) is exposed out of the running toy (1);

when the trigger block (1211) is triggered by collision, the latch plate (121) slides to enable the locking mechanism to be in an unlocked state, and the launching toy (2) moves towards a direction away from the running toy (1) and is separated from the running toy (1).

6. The ejection toy set of claim 5, wherein the trigger block (1211) is a magnetic or metal block that can be attracted or repelled from a trigger to trigger the unlocking of the locking mechanism (12).

7. The ejection toy set of claim 5, characterized in that the latch plate (121) is provided with a latch hook (1212) for engaging with the first and second launching members (23, 24), the latch hook (1212) extending into the launching slot (111);

a first clamping hole (2313) is formed in the first launching part (23), and a second clamping hole (243) is formed in the second launching part (24);

when the locking mechanism (12) is in a locking state, the launching toy (2) is in a shortened state, the first clamping hole (2313) is aligned with the second clamping hole (243), and the lock catch (1212) extends into the first clamping hole (2313) and the second clamping hole (243).

8. The set of ejection toys according to claim 7, characterized in that the running toy (1) is provided with a receiving groove (112) communicating with the launching groove (111), the receiving groove (112) being located at one side of the launching groove (111);

the locking mechanism (12) comprises a return spring (122), and the return spring (122) is positioned in the accommodating groove (112) and is arranged between the groove wall of the accommodating groove (112) and the locking plate (121);

when the trigger block (1211) is pressed, the return spring (122) is compressed, and the lock catch hook (1212) moves towards a direction away from the launching slot (111);

when the trigger block (1211) is released, the return spring (122) is extended, and the locking hook (1212) moves towards the direction close to the launching slot (111).

9. The ejection toy set of claim 5, characterized in that the running toy (1) further comprises a toy housing (13) and a toy base (14), the toy housing (13) being mounted on the toy base (14), the strike plate (121) being disposed within the toy housing (13), the launching slot (111) being disposed on either outer surface of the toy housing (13).

10. The ejection toy set of claim 9, wherein the latch plate (121) is provided with a guide slot (1213), and the toy housing (13) is provided with a stopper rod (131) extending toward the guide slot (1213), the stopper rod (131) being slidably coupled to the guide slot (1213).

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