CN214633976U - Launching toy - Google Patents

Abstract

The utility model discloses a launching toy, which comprises a launched piece and a launching base, wherein the launched piece comprises an elastic piece, and the launching base comprises a locking mechanism; the ejected piece is locked on the emission base through the locking mechanism, and when the ejected piece is locked, the elastic piece stores energy; after the locking mechanism is triggered to unlock, the elastic piece releases energy, and the ejected piece moves towards the direction away from the emission base and is separated from the emission base. The elastic piece in the launching toy is arranged on the ejected piece, and after the ejection toy is unlocked through the locking mechanism, the elastic piece is launched along with the ejected piece. The emission base can only realize the emission function after meeting with being launched the piece cooperation, so, avoid only under the condition of emission base, user misoperation causes the health to hurt.

Description

Launching toy

Technical Field

The utility model relates to a toy technical field especially relates to a transmission toy.

Background

The toy is a common object which adds pleasure to the life of people, wherein the ejection type toy is one of popular toys.

In the existing ejection toy, the energy storage mechanism is usually arranged in the launcher, so that certain dangers exist. The reason is that the ejected piece of the toy is designed into a shape and strength with higher safety, so as to prevent the ejected object from accidentally injuring the child; however, after the ejection member is separated from the emitter, a child can easily put some sharp objects into the emitter, and thus the ejected sharp objects can easily cause accidental injury to the child under the action of the energy storage member. In view of the above, improvements are needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provide a launching toy with improved safety.

The technical scheme of the utility model provides a launching toy, which comprises a launched piece and a launching base, wherein the launched piece comprises an elastic piece, and the launching base comprises a locking mechanism; the ejected piece is locked on the emission base through the locking mechanism, and when the ejected piece is locked, the elastic piece stores energy; after the locking mechanism is triggered to unlock, the elastic piece releases energy, and the ejected piece moves towards the direction away from the emission base and is separated from the emission base.

Further, the ejected piece further comprises a first emitting piece and a second emitting piece, wherein the first emitting piece is connected with the second emitting piece in a sliding mode and keeps a non-separated state; the elastic piece is arranged between the first emitting piece and the second emitting piece; when the first launching piece and the second launching piece are locked on the launching base through the locking mechanism, the elastic piece stores energy, and the first launching piece and the second launching piece are in a relatively contracted state; when the locking mechanism unlocks the first launching piece and the second launching piece, the elastic piece releases energy, and the first launching piece and the second launching piece are in a relative stretching state.

Further, the first emitting piece comprises an emitting shell and a connecting rod connected to the emitting shell; the second launching part is provided with a through slide way, and the connecting rod is connected with the slide way in a sliding way; when the elastic piece is compressed, the connecting rod moves towards the direction close to the emission base; when the elastic piece stretches, the connecting rod moves towards the direction far away from the emission base.

Furthermore, the elastic part is a telescopic spring, the telescopic spring is sleeved on the connecting rod, one end of the elastic part is abutted to the launching shell, and the other end of the elastic part is abutted to the second launching part.

Furthermore, a positioning column is arranged on the emission base, and the connecting rod is provided with a connecting hole with an opening facing the positioning column; when the locking mechanism is locked, at least part of the positioning column extends into the connecting hole; when the locking mechanism is unlocked, the connecting rod moves towards the direction far away from the emission base and is separated from the positioning column.

Further, the firing housing has a housing cavity, and at least portions of the connecting rod and the second firing member are located within the housing cavity.

Furthermore, a baffle plate positioned in the shell cavity is arranged on the second transmitting piece, and a limiting part is arranged on the transmitting shell; when the locking mechanism is unlocked, the transmitting shell moves towards the direction far away from the transmitting base, the limiting part is in contact with the baffle, and the transmitting shell drives the second transmitting piece to move towards the direction far away from the transmitting base and separate from the transmitting base.

Further, the launching base comprises a launching seat, and the ejected piece is mounted on the launching seat; the locking mechanism comprises a lock catch plate, and the lock catch plate is connected with the launching seat in a sliding manner; one end of the lock catch plate is provided with a trigger block, the other end of the lock catch plate is provided with a clamping hook, and the lock catch plate is clamped with the ejected piece through the clamping hook so that the ejected piece is locked on the emission seat; when the trigger block is pressed, the clamping hook is separated from the ejected piece.

Furthermore, an extension plate is arranged on one side of the launching seat, an accommodating groove is formed between the extension plate and the launching seat, and at least part of the locking plate is positioned in the accommodating groove; the locking mechanism further comprises a return spring, and the return spring is connected 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 pushes the trigger block to return; when the trigger block is released, the return spring is extended.

Furthermore, two guide convex blocks are arranged at the bottom of the launching seat at intervals, and the lock catch plate can be connected between the two guide convex blocks in a sliding mode.

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

the utility model provides a launching toy, which comprises a launching piece and a launching base, wherein the launching piece comprises an elastic piece. The ejection piece is locked on the emission base through the locking mechanism, and when the ejection piece is locked, the elastic piece compresses and stores energy. After the trigger locking mechanism is unlocked, the elastic piece stretches and releases energy, and the ejected piece moves towards the direction away from the emission base and is separated from the emission base. The elastic piece in the launching toy is arranged on the ejected piece, and after the ejection toy is unlocked through the locking mechanism, the elastic piece is launched along with the ejected piece. The launching function can be realized only after the launching base is matched with the ejected piece, so that the body injury caused by misoperation of a user under the condition that only the launching base is used is avoided; the elastic piece is arranged between the first launching piece and the second launching piece, so that when the launched piece is launched, the launched piece is stretched into a stretched display state from a hidden state of contraction, and therefore the child is surprised and interesting.

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

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

FIG. 3 is a cross-sectional view of a launching toy according to an embodiment of the present invention;

fig. 4 is a schematic view of the ejected member and the launching base in an unlocked state of the locking mechanism according to an embodiment of the present invention.

Reference symbol comparison table:

launching toy 10

Ejected piece 1

Elastic member 11 first radiator 12 connecting rod 121 connecting hole 1211

First card aperture 1212 launch housing 122 housing cavity 1221 housing opening 1222

Limiting part 1223, second launcher 13, slide rail 131 and second clamping hole 132

Baffle 133

Emitting base 2

Locking mechanism 21 latches the plate 211 trigger block 2111 with the catch 2112

Reset spring 212 positioning post 22 and launching pad 23 launching slot 231

The guide protrusion 232 extends the stopper 242 of the connecting portion 241 of the board 24

Accommodating groove 25

Detailed Description

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

It is easily understood that, according to the technical solution of the present invention, a plurality of structural modes and implementation modes that can be mutually replaced by those of ordinary skill in the art can be achieved 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 limiting or restricting the technical solutions of the present invention in its entirety or as a limitation 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 fig. 1-4, a launching toy 10 includes a launched piece 1 and a launching base 2, the launched piece 1 includes an elastic member 11, and the launching base 2 includes a locking mechanism 21.

The ejection piece 1 is locked on the emission base 2 through the locking mechanism 21, and when the ejection piece 1 is locked, the elastic piece 11 is charged with energy.

After the trigger locking mechanism 21 is unlocked, the elastic piece 11 releases energy, and the ejected piece 1 moves in the direction away from the emission base 2 and is separated from the emission base 2.

The ejected piece 1 and the launching base 2 can be in various shapes, for example, the launching base 2 is a rocket launching platform model, and the ejected piece 1 is a rocket model; the launching base 2 is an airplane launching platform model, and the ejected piece 1 is an airplane; the emission base 2 is a trolley model, and the emission base 2 is a character model for riding a trolley.

The launching toy 10 mainly comprises an ejected piece 1 and a launching base 2, and the ejected piece 1 can be ejected from the launching base 2. An elastic member 11, such as a telescopic spring, which can be compressed and extended is provided in the ejection target 1. The emission base 2 is provided with a locking mechanism 21, and the ejection object 1 is locked on the emission base 2 through the locking mechanism 21. Alternatively, the locking mechanism 21 has a trigger portion and a locking portion, and after the ejection object 1 is placed on the emission base 2, the locking portion is locked with the ejection object 1, so that the ejection object 1 is locked on the emission base 2.

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. 3, when the ejection member 1 is locked on the launching base 2, the elastic member 11 is compressed, and at the same time, the elastic member 11 is charged with energy to generate elastic potential energy.

As shown in fig. 4, when the trigger is pressed to unlock the lock mechanism 21, the locking portion is disengaged from the ejection target 1. Then the elastic element 11 is extended, at this time, the elastic element 11 releases energy, that is, releases elastic potential energy, and generates a pushing force pushing the ejected element 1 to move, so that the ejected element 1 moves in a direction away from the emission base 2, thereby disengaging from the emission base 2 and ejecting from the emission base 2. An elastic member 11 generating a thrust force in the launching toy 10 is provided in the ejected member 1 to be ejected along with the ejected member 1. The launching base 2 and the elastic piece 11 are matched to pop up the ejected piece 1, and the launching base 2 does not have the ejection function after being popped up by the ejected piece 1, so that the user is prevented from using the launching base 2 to eject other sharp objects which are easy to cause injury, the safety of the launching toy 10 is improved, and the life safety of the user is protected.

In one embodiment, as shown in fig. 2-4, the ejected member 1 further comprises a first launching member 12 and a second launching member 13, and the first launching member 12 is slidably connected with the second launching member 13 and is kept in an un-separated state. The elastic member 11 is disposed between the first and second emitting members 12 and 13. When the first launching part 12 and the second launching part 13 are locked on the launching base 2 through the locking mechanism 21, the elastic part 11 stores energy, and the first launching part 12 and the second launching part 13 are in a relative contraction state; when the locking mechanism 21 unlocks the first launching element 12 and the second launching element 13, the elastic element 11 releases energy, and the first launching element 12 and the second launching element 13 are in a relative stretching state.

Specifically, the ejected member 1 can be extended and contracted, and the ejected member 1 includes a first emitting member 12, a second emitting member 13 and an elastic member 11. The first launching member 12 is slidably connected to the second launching member 13, and the two members are maintained in an undivided state. Here, the sliding connection is defined as the relative movement of the first emitting element 12 and the second emitting element 13, which can be realized by providing a sliding rail, a sliding groove or a sliding way.

In this embodiment, the first launching element 12 has a connecting rod 121 extending towards the launching base 2, the second launching element 13 is a sleeve having a through slide 131, the connecting rod 121 extends into the slide 131 and is in clearance fit with the slide 131, so that the connecting rod 121 can slide in the slide 131. The connecting rod 121 has a first end of the connecting rod remote from the launching base 2 and a second end of the connecting rod close to the launching base 2, and the sleeve has a first end of the sleeve remote from the launching base 2 and a second end of the sleeve close to the launching base 2. The first end of the connecting rod is positioned outside the sleeve, and the elastic part 11 is positioned between the first end of the connecting rod and the first end of the sleeve. When the first emitter 12 slides relative to the second emitter 13, the first emitter 12 and the second emitter 13 are not separated. Optionally, a limiting block is arranged in the slide 131, a stopper is arranged on the connecting rod 121, and when the connecting rod 121 slides in a direction away from the emission base 2, the limiting block can contact with the stopper to limit the connecting rod 121 to move continuously, so that the connecting rod 121 is prevented from being separated from the sleeve. Of course, other structures may be adopted as long as the first and second emitters 12 and 13 are not separated at all times.

When the catapult 1 is locked on the emission base 2, namely the first launcher 12 and the second launcher 13 are locked on the emission base 2 through the locking mechanism 21, the first launcher 12 moves towards the direction close to the emission base 2, at the moment, the elastic piece 11 compresses, the first launcher 12 and the second launcher 13 are in a relative contraction state, and the length of the whole catapult 1 is shortened. When the locking mechanism 21 is triggered to launch the ejected piece 1, the elastic piece 11 stretches and pushes the first launching piece 12 to move in the direction away from the launching base 2, at the moment, the first launching piece 12 and the second launching piece 13 are in a relative stretching state, and the length of the whole ejected piece 1 is lengthened. The ejection piece 1 arranged in this way can be lengthened and shortened to change, the visual experience of a user is enriched, the user is surprised, and the play interest is improved.

In one embodiment, as shown in fig. 2-4, the first emitter 12 includes an emitter housing 122 and a connecting rod 121 connected to the emitter housing 122. The second launching member 13 has a through slide 131, and the connecting rod 121 is slidably connected to the slide 131. When the elastic member 11 is compressed, the connection rod 121 moves toward the direction of approaching the emission base 2. When the elastic member 11 is extended, the connection rod 121 moves in a direction away from the emission base 2.

Specifically, the first launcher 12 has a launcher housing 122 and a connecting rod 121, and the launcher housing 122 has a housing cavity 1221 and a housing opening 1222 communicating with the housing cavity 1221. A portion of the connecting rod 121 extends from the housing opening 1222 into the housing cavity 1221 and is connected to the sabot 122, and another portion of the connecting rod 121 is located outside the sabot 122.

The second launching member 13 is in a sleeve shape and has a through slide way 131, and the connecting rod 121 extends into the slide way 131 and is in clearance fit with the slide way 131, so that the connecting rod 121 can slide in the slide way 131. The second emitting piece 13 is sleeved outside the connecting rod 121 to protect the connecting rod 121 and prevent the connecting rod 121 from being damaged. The slide 131 has a guiding function so that the first launching member 12 slides relative to the second launching member 13 without deflection.

Alternatively, the connecting rod 121 is fixedly connected to the transmitting case 122 by a screw thread, preventing the connecting rod 121 from being separated from the transmitting case 122.

Alternatively, the connecting rod 121 and the transmitting case 122 are integrally formed by one mold, so that the connecting rod 121 and the transmitting case 122 are more firmly connected.

Optionally, a connecting groove is provided in the housing cavity 1221, and the connecting rod first end of the connecting rod 121 is clamped in the connecting groove, so that the connecting rod 121 is detachably connected to the transmitting housing 122. Thus, the connection rod 121 is conveniently assembled and disassembled.

In one embodiment, as shown in fig. 2-4, the elastic member 11 is a telescopic spring, the telescopic spring is sleeved on the connecting rod 121, one end of the elastic member 11 abuts against the launching housing 122, and the other end abuts against the second launching member 13.

Specifically, one end of the extension spring is connected with the housing wall of the launch housing 122 or with the link first end, and the other end of the extension spring is connected with the sleeve first end. When the connecting rod 121 moves towards the direction close to the launching base 2, the expansion spring is stressed and compressed to store energy. At the time of launching, the extension spring is extended, pushing the connecting rod 121 and the launch housing 122 to move in a direction away from the launch base 2. So set up, avoid expanding spring to drop.

In one embodiment, as shown in fig. 3-4, the emission base 2 is provided with a positioning post 22, and the connection rod 121 has a connection hole 1211 opening toward the positioning post 22. When the locking mechanism 21 is locked, at least a portion of the positioning post 22 extends into the connecting hole 1211. When the locking mechanism 21 is unlocked, the connecting rod 121 moves away from the emission base 2 and disengages from the positioning column 22.

Specifically, a positioning column 22 extending toward the ejected piece 1 is connected to the emission base 2. A connecting hole 1211 opened toward the positioning post 22 is formed at a second end of the connecting rod 121. When the ejection object 1 is assembled on the emission base 2, the positioning column 22 extends into the connecting hole 1211, and the locking part of the locking mechanism 21 is clamped with the connecting rod 121 and the second emission part 13. The positioning post 22 is provided for positioning the ejection object 1 so that the ejection object 1 can be mounted in a fixed position each time, thereby ensuring that the locking mechanism 21 can be engaged with the ejection object 1.

Optionally, the connecting rod 121 is provided with a first fastening hole 1212 communicating with the connecting hole 1211, and the second emitter 13 is provided with a second fastening hole 132. When the ejection object 1 is mounted on the ejection base 2 and the first and second ejection members 12 and 13 are in the contracted state, the first locking hole 1212 can be aligned with the second locking hole 132 so that the locking portion extends into the first and second ejection members 12 and 13.

In one embodiment, as shown in fig. 3-4, the sabot 122 has a housing cavity 1221, and the connecting rod 121 and at least a portion of the second sabot 13 are located within the housing cavity 1221.

The launching housing 122 is a housing having a housing cavity 1221, and at least a portion of the connecting rod 121 and the second launcher 13 extends into the housing cavity 1221 and is protected by the launching housing 122 to avoid damage to the connecting rod 121 and the second launcher 13.

Optionally, the outer surface of the transmitting shell 122 is an arc surface, and the arc surface is good in stress performance, capable of improving the structural strength of the transmitting shell 122 and not prone to damage.

In one embodiment, as shown in fig. 2-4, the second launching member 13 is provided with a baffle 133 positioned in the housing cavity 1221, and the launching housing 122 is provided with a limiting portion 1223. When the locking mechanism 21 is unlocked, the connecting rod 121 drives the launching shell 122 to move towards the direction far away from the launching base 2, the limiting part 1223 is contacted with the baffle 133, and the launching shell 122 drives the second launching part 13 to move towards the direction far away from the launching base 2 and separate from the launching base 2.

Specifically, the second emitting member 13 is in a sleeve shape and is sleeved outside the connecting rod 121. The sleeve has a sleeve first end and the connecting rod 121 has a rod first end, the sleeve first end and the rod first end being located within the housing cavity 1221. An outward extending baffle 133 is connected to the first end of the sleeve, the launching housing 122 has a limiting portion 1223, and the baffle 133 is located on a side of the limiting portion 1223 away from the launching base 2. Optionally, a stopper 1223 is disposed within the housing cavity 1221. In the present embodiment, the stopper 1223 is located at the case opening 1222.

As shown in fig. 4, when the trigger lock mechanism 21 is unlocked, the elastic member 11 pushes the connecting rod 121 and the emission case 122 to move in a direction away from the emission base 2. In the moving process, the limiting portion 1223 contacts the baffle 133, so that the second emitting piece 13 is driven to move together, and the second emitting piece 13 is prevented from being separated from the first emitting piece 12.

In one embodiment, as shown in fig. 2-4, the launching base 2 includes a launching base 23, and the ejection object 1 is mounted on the launching base 23. The locking mechanism 21 includes a latch plate 211, and the latch plate 211 is slidably coupled to the launching pad 23. One end of the locking plate 211 is provided with a trigger block 2111, the other end is provided with a hook 2112, and the locking plate 211 is clamped with the ejected piece 1 through the hook 2112, so that the ejected piece 1 is locked on the launching seat 23. When the trigger block 2111 is pressed, the hook 2112 is separated from the ejected member 1.

Specifically, the launching base 2 includes a launching pad 23 and a locking mechanism 21, and the locking mechanism 21 is connected to the bottom of the launching pad 23. The launching seat 23 is provided with a launching slot 231, and the ejected piece 1 can be placed in the launching slot 231.

The locking mechanism 21 comprises a locking plate 211, one end of the locking plate 211 is provided with a hook 2112, the other end of the locking plate 211 is provided with a trigger block 2111, the trigger block 2111 is the trigger part of the locking mechanism 21, and the hook 2112 is the locking part of the locking mechanism 21. The locking plate 211 is slidably connected to the launching seat 23, which can be implemented by providing a sliding rail or a sliding groove. The hook 2112 extends into the launching slot 231 through a through hole on the slot wall of the launching slot 231, and at least part of the trigger block 2111 protrudes out of the launching seat 23 for being pressed or pulled by a user.

When the ejected piece 1 is placed in the launching slot 231, the trigger block 2111 can pull the latch plate 211 to drive the hook 2112 to move towards the direction close to the ejected piece 1, so that the hook 2112 is clamped with the first launching piece 12 and the second launching piece 13, and the ejected piece 1 is locked on the launching seat 23.

When the ejected piece 1 needs to be ejected, the trigger block 2111 is pressed to enable the locking plate 211 to drive the hook 2112 to move towards the direction away from the ejected piece 1, so that the hook 2112 is separated from the first emitting piece 12 and the second emitting piece 13, and the ejected piece 1 is ejected.

The locking mechanism 21 has a simple overall structure, is convenient to manufacture and has low production cost.

In one embodiment, as shown in fig. 2-4, an extension plate 24 is disposed on one side of the launching pad 23, a receiving groove 25 is formed between the extension plate 24 and the launching pad 23, and at least a portion of the locking plate 211 is located in the receiving groove 25. The locking mechanism 21 further includes a return spring 212, and the return spring 212 is connected between the groove wall of the receiving groove 25 and the locking plate 211. Upon pressing the trigger block 2111, the return spring 212 compresses. Upon release of the trigger block 2111, the return spring 212 expands and urges the trigger block 2111 to reset.

Specifically, the launching seat 23 is provided with a launching slot 231. An extension plate 24 extends from one side of the launching seat 23, the extension plate 24 has a connecting portion 241 connected to the launching seat 23 and a stopping portion 242 perpendicular to the connecting portion 241, an accommodating groove 25 is formed among the stopping portion 242, the connecting portion 241 and the launching seat 23, and the stopping portion 242 and the connecting portion 241 are part of a groove wall of the accommodating groove 25. The receiving groove 25 communicates with the emitting groove 231, and a portion of the locking plate 211 is positioned in the receiving groove 25.

The locking mechanism 21 further includes a return spring 212, the return spring 212 is disposed in the receiving slot 25, one end of the return spring 212 is connected to the stop portion 242, and the other end is connected to the locking plate 211.

When the trigger block 2111 is pressed, the locking plate 211 slides in a direction away from the launching seat 23, and the return spring 212 is pressed by the locking plate 211 and compressed. When the trigger block 2111 is released, the return spring 212 extends to push the latch plate 211 to slide toward the direction close to the launcher 23, so that the latch plate 211 drives the hook 2112 to return. So set up, can realize that the hasp board 211 is automatic to get back to initial position, convenience of customers operation.

In one embodiment, as shown in fig. 2, two guiding protrusions 232 are spaced apart from the bottom of the launching pad 23, and the locking plate 211 is slidably connected between the two guiding protrusions 232.

Two guiding protrusions 232 are disposed on the bottom surface of the launching seat 23, and the two guiding protrusions 232 are disposed at intervals, so that a guiding space is formed between the two guiding protrusions 232, and at least a portion of the locking plate 211 is located in the guiding space. The two guide protrusions 232 limit the position of the latch plate 211 so that the latch plate 211 can slide along a certain track.

To sum up, the utility model discloses a launching toy 10, which comprises a launched piece 1 and a launching base 2, wherein the launched piece 1 comprises an elastic piece 11. The ejection piece 1 is locked on the emission base 2 through the locking mechanism 21, and when the ejection piece 1 is locked, the elastic piece 11 is compressed and stored with energy. After the trigger locking mechanism 21 is unlocked, the elastic member 11 is extended and released, and the ejection object 1 moves away from the emission base 2 and is separated from the emission base 2. The launching toy 10 is provided with the elastic member 11 arranged on the ejected member 1, and after being unlocked by the locking mechanism 21, the elastic member 11 is launched along with the ejected member 1. The emission base 2 can realize the emission function only after being matched with the ejected piece 1, thus avoiding the body injury caused by the misoperation of a user under the condition that only the emission base 2 is used

To sum up, the utility model discloses a launching toy 10, which comprises a launched piece 1 and a launching base 2, wherein the launched piece 1 comprises an elastic piece 11. The ejection piece 1 is locked on the emission base 2 through the locking mechanism 21, and when the ejection piece 1 is locked, the elastic piece 11 is compressed and stored with energy. After the trigger locking mechanism 21 is unlocked, the elastic member 11 is extended and released, and the ejection object 1 moves away from the emission base 2 and is separated from the emission base 2. The launching toy 10 is provided with the elastic member 11 arranged on the ejected member 1, and after being unlocked by the locking mechanism 21, the elastic member 11 is launched along with the ejected member 1. The emission base 2 can realize the emission function only after being matched with the ejected piece 1, so that the body injury caused by misoperation of a user under the condition that only the emission base 2 exists is avoided.

What has been described above is merely the principles and preferred embodiments of the present invention. It should be noted that, for those skilled in the art, on the basis of the principle of the present invention, several other modifications can be made, and the protection scope of the present invention should be considered.

Claims (10)

1. A shooting toy (10), characterized by comprising an ejected piece (1) and a shooting base (2), wherein the ejected piece (1) comprises an elastic piece (11), and the shooting base (2) comprises a locking mechanism (21);

the ejected piece (1) is locked on the emission base (2) through the locking mechanism (21), and when the ejected piece (1) is locked, the elastic piece (11) is charged with energy;

after the locking mechanism (21) is triggered to unlock, the elastic piece (11) releases energy, and the ejected piece (1) moves towards the direction away from the emission base (2) and is separated from the emission base (2).

2. The shooting toy (10) according to claim 1, characterized in that said launched piece (1) further comprises a first launcher (12) and a second launcher (13), said first launcher (12) being slidably connected with said second launcher (13) and remaining in a non-detached state;

the elastic member (11) is arranged between the first emitting member (12) and the second emitting member (13);

when the first launching part (12) and the second launching part (13) are locked on the launching base (2) through the locking mechanism (21), the elastic part (11) is charged with energy, and the first launching part (12) and the second launching part (13) are in a relative contraction state;

when the locking mechanism (21) unlocks the first launching part (12) and the second launching part (13), the elastic part (11) releases energy, and the first launching part (12) and the second launching part (13) are in a relative stretching state.

3. The projectile toy (10) as defined in claim 2 wherein said first projectile (12) includes a projectile housing (122) and a connecting rod (121) attached to said projectile housing (122);

the second launching part (13) is provided with a through slide way (131), and the connecting rod (121) is connected with the slide way (131) in a sliding way;

when the elastic piece (11) is compressed, the connecting rod (121) moves towards the direction close to the emission base (2);

when the elastic piece (11) extends, the connecting rod (121) moves towards the direction away from the emission base (2).

4. The shooting toy (10) according to claim 3, characterized in that said elastic member (11) is a telescopic spring, said telescopic spring is sleeved on said connecting rod (121), one end of said elastic member (11) is abutted with said shooting case (122), and the other end is abutted with said second shooting member (13).

5. The shooting toy (10) according to claim 3, characterized in that said shooting base (2) is provided with a positioning post (22), said connecting rod (121) having a connecting hole (1211) opening towards said positioning post (22);

when the locking mechanism (21) is locked, at least part of the positioning column (22) extends into the connecting hole (1211);

when the locking mechanism (21) is unlocked, the connecting rod (121) moves towards the direction away from the emission base (2) and is separated from the positioning column (22).

6. The launcher toy (10) according to claim 3, wherein the launcher housing (122) has a housing cavity (1221), and the connecting rod (121) and at least a portion of the second launcher (13) are located within the housing cavity (1221).

7. The projectile toy (10) of claim 6 wherein said second projectile (13) is provided with a baffle (133) within said housing cavity (1221), said projectile housing (122) being provided with a limit stop (1223);

when locking mechanical system (21) unblock, emission casing (122) move towards keeping away from the direction of emission base (2), spacing portion (1223) with baffle (133) contact, emission casing (122) drive second transmission piece (13) move towards keeping away from the direction of emission base (2), and break away from emission base (2).

8. The launch toy (10) according to claim 1, characterized in that said launch base (2) comprises a launch seat (23), said piece (1) to be launched being mounted on said launch seat (23);

the locking mechanism (21) comprises a latch plate (211), and the latch plate (211) is connected with the launching seat (23) in a sliding way;

one end of the lock catch plate (211) is provided with a trigger block (2111), the other end of the lock catch plate is provided with a clamping hook (2112), the lock catch plate (211) is clamped with the ejected piece (1) through the clamping hook (2112), and the ejected piece (1) is locked on the emission seat (23);

when the trigger block (2111) is pressed, the hook (2112) is separated from the ejected piece (1).

9. The launcher toy (10) according to claim 8, wherein one side of the launcher (23) is provided with an extension plate (24), a receiving slot (25) is formed between the extension plate (24) and the launcher (23), and at least a portion of the catch plate (211) is located within the receiving slot (25);

the locking mechanism (21) further comprises a return spring (212), and the return spring (212) is connected between the groove wall of the accommodating groove (25) and the locking plate (211);

upon pressing the trigger block (2111), the return spring (212) compresses;

when the trigger block (2111) is released, the return spring (212) extends and pushes the trigger block (2111) to return.

10. The shooting toy (10) according to claim 8, wherein the bottom of the shooting seat (23) is provided with two guiding protrusions (232) at intervals, and the locking plate (211) is slidably connected between the two guiding protrusions (232).

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