CN217092074U

CN217092074U - Ejection toy

Info

Publication number: CN217092074U
Application number: CN202220350975.7U
Authority: CN
Inventors: 刘瑞卿
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-02-21
Filing date: 2022-02-21
Publication date: 2022-08-02
Anticipated expiration: 2032-02-21

Abstract

The utility model relates to a launch toy belongs to the technical field of toy, and it includes the bullet and is used for launching the jettison device of bullet, the bullet includes projectile body, warhead, connecting portion and rope, the projectile body be used for with the jettison device cooperation, the jettison device can jet out the projectile body, the warhead sets up the tip at the projectile body, connecting portion set up between projectile body and warhead, the warhead passes through connecting portion and can dismantle with the projectile body and be connected, the rope is connected between projectile body and jettison device, and, the warhead has adsorption property, can adsorb on the object by the shooting. The connection can be dismantled through the mode of magnetism to warhead and projectile, and the user can select to have the warhead that corresponds adsorption property according to the environment of locating and install on the projectile to need not to take apart the connection of projectile and rope, make the bullet adsorb on more various kinds of object, improve the object for appreciation nature of launching the toy.

Description

Ejection toy

Technical Field

The application relates to the field of toys, in particular to an ejection toy

Background

The ejection toy is a common toy, and the bullet is ejected through elasticity to shoot an object, so that the aim of entertainment is fulfilled. In order to increase the entertainment of the ejection toy, the magnet is fixed at the end part of the bullet, the bullet can be directly adsorbed on the surface of an object containing iron-nickel alloy after being ejected, and the rope is arranged between the bullet and the ejection toy, so that the bullet can be recovered through the rope after being ejected, the ejection distance of the bullet can be controlled through the length of the rope, and the safety of the ejection toy is improved.

However, since the magnet can only be adsorbed on the iron-nickel alloy object, the number of kinds of objects which can be adsorbed by the shot bullet is small, and the object is playable.

SUMMERY OF THE UTILITY MODEL

In order to make the bullet can adsorb on more various objects, improve the object for appreciation nature of launching the toy, this application provides a launch toy.

The application provides an ejection toy adopts following technical scheme:

an ejection toy comprising a bullet and an ejection device for launching the bullet, the bullet comprising: the projectile body is matched with the ejection device, and the ejection device can eject the projectile body; the warhead is arranged at the end part of the projectile body; the connecting part is arranged between the bullet body and the bullet head, and the bullet head is detachably connected with the bullet body through the connecting part; and a rope connected between the projectile body and the ejection device; wherein the bullet has adsorption property and can be adsorbed on the object to be shot.

Optionally, the warhead is provided as a magnet or a suction cup.

Optionally, the connecting portion includes: the connector is fixedly connected to one end of the projectile body; the adsorption block is embedded on the connecting head; the warhead and/or the adsorption block are magnetic, and the warhead and the adsorption block are magnetically connected.

Optionally, the ejection device includes: a housing; the ejection pipeline is fixed on the shell; the firing spring penetrates through the ejection pipeline; a trigger hinged to the housing; the fixture block is connected to the ejection pipeline in a sliding mode, and one end of the fixture block extends into the ejection pipeline; the linkage part is arranged between the trigger and the clamping block, and the trigger can drive the clamping block to slide through the linkage part; the projectile body penetrates through the ejection pipeline and compresses the firing spring to a force storage state, a clamping groove is formed in the projectile body, and the clamping block is inserted into the clamping groove in an inserting mode.

Optionally, the linkage portion includes: the driving sleeve, the driving rod and the swinging rod are arranged on the driving sleeve; the driving sleeve is rotationally connected to the shell, and the driving rod and the swinging rod are fixedly connected to the driving sleeve; a pull rod is arranged between the trigger and the driving rod, one end of the pull rod is hinged with the trigger, and the other end of the pull rod is hinged with the driving rod, so that the trigger can drive the driving rod and the driving sleeve to rotate through the pull rod; a connecting rod is arranged between the swing rod and the clamping block, one end of the connecting rod is hinged with the swing rod, and the other end of the connecting rod is hinged with the clamping block, so that the clamping block can be pulled to slide by the swing rod and the connecting rod when the driving sleeve rotates.

Optionally, an elastic element is further arranged between the driving sleeve and the shell, and when the driving sleeve rotates to pull the clamping block out of the clamping groove, the elastic element is compressed to store force.

Optionally, the end of the clamping block inserted in the clamping groove is provided with a chamfer, and the chamfer gradually inclines towards the direction far away from the bullet along with approaching the bullet body.

Optionally, the shell is further rotatably connected with a wire wheel, one end, far away from the projectile body, of the rope penetrates through the ejection pipeline and then is fixedly connected with the wire wheel, and the rope is wound on the surface of the wire wheel.

Optionally, the ejection toy further comprises an indicating device, and when the inside of the bullet is in a state to be launched, the indicating device sends an indicating signal.

Optionally, the indicating device includes: the device comprises an indicator lamp, a storage battery and a magnetic control switch; the magnetic control switch is connected between the indicator lamp and the storage battery, and when the bullet is in a state to be launched, the magnetic control switch senses the magnetism on the bullet to communicate the storage battery with the indicator lamp, so that the indicator lamp emits light.

Through adopting above-mentioned technical scheme, this application includes following at least one beneficial technological effect:

1. the bullet and the bullet body are detachably connected in a magnetic attraction mode, a user can select the bullet with corresponding adsorption property to be installed on the bullet body according to the environment, and the bullet body and the rope are not required to be disconnected, so that the bullet can be adsorbed on more kinds of objects, and the playability of the ejection toy is improved;

2. the clamping block is matched with the clamping groove on the bullet body, the bullet is fixed in the ejection pipeline, the clamping block is controlled to slide out of the clamping groove in a trigger pulling mode, and the bullet is ejected;

3. when the bullet resets, the bullet body can directly push the clamping block to move and reset through the inclined plane of the clamping block, and the clamping block can be automatically clamped into the clamping groove to fix the bullet under the action of the elastic piece, so that the bullet can reset more simply and quickly;

4. the connection of the magnetic control switch and the indicator light can control the indicator light to emit light through the magnetism on the bullet after the bullet resets, and the bullet of a user is indicated to be in a state to be launched through light, so that the entertainment of the ejection toy is further improved.

Drawings

Fig. 1 is a schematic view showing the construction of a projectile toy according to an embodiment of the present application.

Fig. 2 is a cross-sectional view showing a state in which a bullet and an ejector are engaged.

Fig. 3 is a sectional view showing the structure of the bullet when the bullet is a magnet.

Fig. 4 is an exploded view showing the structure of a bullet when the bullet is a magnet.

Fig. 5 is an exploded view showing the structure of the bullet when the bullet is a suction cup.

Fig. 6 is an enlarged view of a portion a in fig. 2.

Fig. 7 is an exploded view showing the fitting relationship between the cartridge and the projectile body.

Fig. 8 is a schematic view showing a structure of an installation position of the indicator lamp.

Fig. 9 is an exploded view showing the mounting positions of the battery and the magnetic switch.

Description of reference numerals: 1. a bullet; 11. a body of elastomer; 111. a card slot; 12. a warhead; 13. a rope; 131. a fixed block; 14. a connecting portion; 141. a connector; 142. an adsorption block; 143. a screw; 2. an ejection device; 21. a housing; 211. mounting grooves; 212. a cover plate; 22. ejecting the pipeline; 221. a snap ring; 23. a firing spring; 24. a trigger; 241. a connection bump; 25. a clamping block; 251. a chamfer plane; 252. a yielding groove; 26. a linkage section; 261. a drive sleeve; 262. a drive rod; 263. a swing lever; 264. a pull rod; 265. a connecting rod; 27. an elastic member; 271. a return spring; 272. a reset block; 273. positioning the bump; 28. a wire box; 281. a baffle plate; 29. a wire wheel; 291. a contact; 3. an indicating device; 31. an indicator light; 32. a storage battery; 33. a magnetic control switch; 34. a circuit board.

Detailed Description

The present application is described in further detail below with reference to figures 1-9.

The embodiment of the application discloses a shooting toy.

Referring to fig. 1 and 2, the ejection toy comprises a bullet 1, an ejection device 2 and an indicating device 3, wherein the bullet 1 is mounted on the ejection device 2, the ejection device 2 is used for ejecting the bullet 1, when the bullet 1 is mounted on the ejection device 2 and waits to be ejected, the indicating device 3 provides an indicating signal for a user, and the user can judge whether the bullet 1 is in a state of waiting to be ejected or not through the signal of the indicating device 3.

Referring to fig. 2 and 3, the bullet 1 includes a body 11, a bullet 12, and a cord 13, the body 11 is adapted to cooperate with the ejector 2, the bullet 12 is attached to one end of the body 11, and the bullet 12 has an adsorption property capable of adsorbing on an object to be shot. The rope 13 is connected between the projectile body 11 and the ejector 2, and after the projectile body 11 and the bullet head 12 are ejected, the rope 13 can limit the ejection distance between the projectile body 11 and the bullet head 12, and the user can retrieve the ejected projectile body 11 and the bullet head 12 through the rope 13.

Referring to fig. 3, a connection portion 14 is provided between the bullet 12 and the bullet 11, and the bullet 12 and the bullet 11 are detachably connected through the connection portion 14, that is, the bullet 12 on the bullet 11 can be replaced. A plurality of types of bullets 12 having different adsorption properties are prepared, and the bullets 12 having different corresponding adsorption properties can be replaced when different objects are shot, so that the bullet 1 can be adsorbed on more objects.

Referring to fig. 3 and 4, in the present embodiment, the bullet 12 is a magnet that can be attached to a metal alloy object containing iron and nickel. The connecting portion 14 includes a connector 141 and an absorbing block 142, the connector 141 is a cylindrical structure, the connector 141 is fixedly connected to one end of the projectile body 11, and the connector 141 coincides with the axis of the projectile body 11. The adsorption block 142 is also a cylinder, a circular caulking groove is formed in one end, away from the projectile body 11, of the connector 141, and the adsorption block 142 is fixed in the caulking groove in an embedded mode. The adsorption block 142 is a magnet or a metal capable of being adsorbed by the magnet, so that the bullet 12 can be adsorbed on the adsorption block 142 under the action of magnetism, and the bullet 12 and the bullet body 11 are connected.

In addition, referring to fig. 3, the depth of the caulking groove is greater than the thickness of the adsorption block 142, so that a part of the caulking groove is left on one side of the adsorption block 142, which is convenient for positioning the bullet 12, and the connection between the bullet 12 and the adsorption block 142 is more stable, and the bullet is not easy to be separated from the adsorption block 142 after being ejected, thereby improving the safety of the ejection toy.

Referring to fig. 5, in another embodiment, the bullet 12 is a suction cup capable of being attached to a flat surface. The end of the suction cup is bonded with a cylindrical magnet, so that the suction cup can be magnetically attracted on the adsorption block 142 through the magnet, and the connection between the suction cup and the elastic body 11 is realized.

Referring to fig. 4, the rope 13 is connected to one end of the projectile body 11 away from the projectile head 12, a fixing block 131 is arranged at one end of the projectile body 11 away from the projectile head 12, a through hole through which the rope 13 passes and a groove with a diameter larger than that of the through hole are formed in the fixing block 131, and the rope 13 is knotted in the groove after passing through the fixing block 131, so that the rope 13 cannot be pulled out of the fixing block 131 when being subjected to a pulling force. And, all set up fixedly with magnet in the recess of fixed block 131 and the end that the body 11 of bullet is close to fixed block 131, fixed block 131 is fixed on body 11 through two magnet magnetism, fixes rope 13 and body 11 together.

Referring to fig. 1 and 2, the ejector 2 includes a housing 21, an ejector tube 22, a firing spring 23, a trigger 24, and a latch 25, the ejector tube 22 is horizontally disposed on a top surface of the housing 21, and the ejector tube 22 is integrally formed with the housing 21. The inner diameter of the ejection pipe 22 is larger than the diameter of the projectile body 11, the projectile body 11 is arranged in the ejection pipe 22 in a penetrating mode, and the projectile head 12 is arranged on the outer side of the ejection pipe 22.

The firing spring 23 also penetrates through the ejection pipe 22, the firing spring 23 is sleeved on the projectile body 11, a snap ring 221 is arranged on one side, far away from the projectile head 12, in the ejection pipe 22, the inner diameter of the snap ring 221 is smaller than that of the ejection pipe 22, one end of the firing spring 23 is fixedly connected with the snap ring 221, the diameter of the connector 141 is smaller than that of the ejection pipe 22 and larger than that of the spring, one end, far away from the snap ring 221, of the firing spring 23 abuts against the end face of the connector 141, and the projectile body 11 enables the firing spring 23 to be compressed in the ejection pipe 22.

Referring to fig. 2 and 3, a sliding groove is formed in one side of the ejection pipe 22, which is far away from the bullet head 12, the sliding groove is horizontally arranged and communicated with the ejection pipe 22, a fixture block 25 is arranged in the sliding groove, the fixture block 25 is connected with the ejection pipe 22 in a sliding manner through the sliding groove, and the fixture block 25 can perform translational motion in the sliding groove, which is close to or far away from the axis of the ejection pipe 22. An annular clamping groove 111 is formed in one end, away from the bullet head 12, of the bullet body 11, and the size of the clamping groove 111 is matched with that of one end, located inside the ejection pipeline 22, of the clamping block 25. After the projectile body 11 is inserted into the ejection channel 22, the fixture block 25 is inserted into the fixture groove 111, so that the projectile body 11 cannot be ejected out of the ejection channel 22 under the action of the firing spring 23, and the bullet 1 is fixed in the ejection channel 22.

Referring to fig. 1, a trigger 24 is hinged to the end of the housing 21 at the opening of the ejection tube 22, and the trigger 24 is located below the ejection tube 22 without interfering with the direction in which the cartridge 1 is ejected. An interlocking part 26 is arranged between the trigger 24 and the fixture block 25, and the trigger 24 can control the fixture block 25 to slide through the interlocking part 26. When a user presses the trigger 24 downwards, the trigger 24 drives the fixture block 25 to slide towards a direction away from the elastic body 11, so that the fixture block 25 is separated from the slot, and the elastic body 11 can be ejected by the trigger spring 23.

Referring to fig. 2, the casing 21 is further provided with an integrally formed cable box 28 at the end of the ejection duct 22, a cable wheel 29 is arranged in the cable box 28, the cable wheel 29 is rotatably connected to the casing 21, the cable box 28 is communicated with the ejection duct 22, a baffle 281 is fixedly arranged at the communication position of the cable box 28 and the ejection duct 22, and a through groove for the rope 13 to pass through is formed in the baffle 281. One end of the rope 13 far away from the projectile body 11 passes through the through groove and then is fixedly connected to the reel 29, and the rope 13 is wound on the surface of the reel 29. When the bullet 1 is ejected, the rope 13 is ejected as the bullet 1 moves, and the reel 29 is rotated.

The top of the wire box 28 is provided with a through hole, the top end of the wire wheel 29 is arranged in the through hole in a penetrating way, the top surface of the wire wheel 29 is fixedly provided with two symmetrically arranged contacts 291, the contacts 291 are arranged along the axial direction of the wire wheel 29, and a gap exists between the contacts 291 and the axis of the wire wheel 29. The two contacts 291 can easily drive the reel 29 to rotate, so that a user can make the rope 13 be wound on the reel 29 again by rotating the reel 29, and meanwhile, the projectile body 11 and the warhead 12 are recovered.

Referring to fig. 6, the linkage portion 26 includes a driving sleeve 261, a driving rod 262 and a swinging rod 263, a vertically arranged central shaft is fixedly arranged on the top surface of the housing 21, and the driving sleeve 261 is sleeved on the central shaft and is rotated with the central shaft. The driving rod 262 is integrally formed at the top of the driving sleeve 261, and the driving rod 262 is disposed along the radial direction of the driving sleeve 261. A connecting convex block 241 is fixedly arranged on the top surface of one end of the trigger 24 close to the outer shell 21, a pull rod 264 is arranged between the connecting convex block 241 and the driving rod 262, one end of the pull rod 264 is hinged with the positioning convex block 273, and the other end of the pull rod 264 is hinged with one end of the driving rod 262 far away from the driving sleeve 261, so that when the trigger 24 rotates downwards, the driving rod 262 can be pulled by the pull rod 264 to move, and the driving sleeve 261 is driven to rotate. The swing rod 263 is also fixedly connected to the driving sleeve 261, the swing rod 263 is located at the bottom of the driving sleeve 261, a connecting rod 265 is arranged between the swing rod 263 and the latch block 25, and two ends of the connecting rod 265 are respectively hinged to the swing rod 263 and the latch block 25. When the driving sleeve 261 rotates, the swing lever 263 can pull the latch 25 to slide by the link 265.

When the trigger 24 is pulled downwards, the trigger 24 drives the driving sleeve 261 to rotate through the pull rod 264 and the driving rod 262, the driving sleeve 261 pulls the fixture block 25 to slide through the swinging rod 263 and the connecting rod 265, so that the fixture block 25 slides out of the clamping groove 111, and the bullet 1 can be ejected from the ejection channel 22.

Referring to fig. 2, an elastic member 27 is further disposed between the driving sleeve 261 and the housing 21, and when the trigger 24 is pulled downward to eject the bullet 1, the driving sleeve 261 rotates to compress the elastic member 27, so that the elastic member 27 accumulates force, and after the trigger 24 is released, the driving sleeve 261 can be driven to reset under the elastic force of the elastic member 27, so that the latch 25 and the trigger 24 both return to the initial state.

Referring to fig. 6, in this embodiment, the elastic member 27 includes a reset spring 271 and a reset block 272, the reset spring 271 is a cylindrical coil spring, the reset block 272 is fixedly connected to the bottom of the driving sleeve 261, and the reset block 272 and the swinging rod 263 are respectively located at two opposite sides of the driving sleeve 261, the reset block 272 is close to the side wall of the ejection pipe 22, and the ejection pipe 22 has a positioning protrusion 273 fixed on the outer side wall corresponding to the reset block 272, the reset spring 271 is disposed between the reset block 272 and the outer side wall of the ejection pipe 22, and both ends of the reset spring 271 are all sleeved on the positioning protrusion 273, so that the reset spring 271 is clamped between the reset block 272 and the ejection pipe 22.

In another embodiment, the elastic member 27 may be a torsion spring, which is installed between the driving sleeve 261 and the central shaft, and the driving sleeve 261 can be rotated to accumulate the force of the torsion spring, so that the restoring effect can be achieved by the torsion spring.

When the trigger 24 is pulled downwards, the reset block 272 rotates towards one side of the ejection pipe 22, so that the reset spring 271 is compressed, the reset spring 271 stores the force, after the trigger 24 is released, the elastic force of the reset spring 271 pushes the reset block 272 to reset, and the driving sleeve 261 is driven to rotate, so that the fixture block 25 and the trigger 24 reset.

Referring to fig. 7, in order to facilitate that the bullet 1 can be pushed into the ejection tube 22 to enter a to-be-fired state after the fixture block 25 is reset, a chamfer 251 is further formed on the end portion of the fixture block 25, which is positioned in the ejection tube 22, the chamfer 251 is arranged on the side, which is close to the opening of the ejection tube 22, of the fixture block 25, and the chamfer 251 is gradually inclined towards the direction away from the opening of the ejection tube 22 along with the axis close to the ejection tube 22.

After the bullet 1 is inserted into the ejection channel 22, the end of the bullet 11 presses the block 25 through the inclined plane 251, and the pressure of the bullet 1 is decomposed under the action of the inclined plane 251, so as to provide a pushing force to the block 25 to slide in the axial direction away from the ejection channel 22, thereby pushing the block 25 to move, and enabling the bullet 1 to be smoothly pushed into the ejection channel 22. After the bullet body 11 moves to the slot 111 and aligns with the fixture block 25, the fixture block 25 resets under the action of the elastic member 27, so that the fixture block 25 is clamped in the slot 111, and the bullet 1 is fixed in the ejection tube 22, so that the bullet 1 is rapidly in a state to be ejected.

Referring to fig. 7, an arc-shaped receding groove 252 is further formed in the end portion, close to the projectile body 11, of the fixture block 25, the projectile body 11 is embedded in the receding groove 252, the receding groove 252 enables the contact area between the fixture block 25 and the projectile body 11 to be larger, and the fixing effect is better. The receding groove 252 in the blocking block 25 exactly corresponds to the through groove on the blocking plate 281, so that the rope 13 is not hindered by the blocking block 25 when moving, and the resistance of the bullet 1 in the shooting process is smaller.

Referring to fig. 8 and 9, the indicating device 3 includes an indicator lamp 31, a storage battery 32 and a magnetic switch 33, the indicator lamp 31 is mounted on the top surface of the housing 21, the indicator lamp 31, the storage battery 32 and the magnetic switch 33 are all mounted on a circuit board 34, and the storage battery 32, the magnetic switch 33 and the indicator lamp 31 are electrically connected together through the circuit board 34. The bottom surface of the shell 21 corresponding to the position of the indicator lamp 31 is provided with a mounting groove 211, the circuit board 34 is mounted in the mounting groove 211, the mounting groove 211 is provided with a cover plate 212, and the cover plate 212 is fixed on the shell 21 through screws to shield the circuit board 34 in the mounting groove 211.

When the bullet 1 is reset, the magnetic switch 33 will sense the magnet at the bullet head 12 of the bullet 1, so as to connect the battery 32 and the indicator lamp 31, and turn on the indicator lamp 31. When the bullet 1 is ejected, the magnetic switch 33 automatically disconnects the battery 32 from the indicator lamp 31, and the indicator lamp 31 is turned off. Therefore, the user can judge whether the warhead 12 is in the state to be launched by observing the light of the indicator lamp 31, and the entertainment of the ejection toy is improved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. An ejection toy comprising a bullet (1) and an ejection means (2) for ejecting the bullet (1), characterized in that the bullet (1) comprises:

the projectile body (11), the projectile body (11) is used for cooperating with the ejection device (2), and the ejection device (2) can eject the projectile body (11);

the bullet head (12), the bullet head (12) is arranged at the end part of the bullet body (11);

the connecting part (14), the connecting part (14) is arranged between the bullet body (11) and the bullet head (12), and the bullet head (12) is detachably connected with the bullet body (11) through the connecting part (14);

and a rope (13), said rope (13) being connected between the projectile body (11) and the ejection device (2);

wherein the bullet (12) has an adsorption property capable of adsorbing on an object to be shot.

2. The ejection toy of claim 1, wherein: the bullet (12) is provided with a magnet or a sucker.

3. The ejection toy of claim 1, wherein the connecting portion (14) comprises:

a connector (141) fixedly connected to one end of the projectile body (11);

the adsorption block (142) is embedded on the connector (141);

the bullet (12) and/or the adsorption block (142) have magnetism, and the bullet (12) and the adsorption block (142) are connected in a magnetic attraction mode.

4. Ejection toy according to any of claims 1 to 3, characterized in that said ejection means (2) comprise:

a housing (21);

the ejection pipe (22), the ejection pipe (22) is fixed on the shell (21);

the firing spring (23) penetrates through the ejection pipeline (22);

a trigger (24), said trigger (24) being hinged on the housing (21);

the clamping block (25), the clamping block (25) is connected to the ejection pipeline (22) in a sliding mode, and one end of the clamping block (25) extends into the ejection pipeline (22);

the linkage part (26) is arranged between the trigger (24) and the fixture block (25), and the trigger (24) can drive the fixture block (25) to slide through the linkage part (26);

the projectile body (11) penetrates through the ejection pipeline (22) and compresses the firing spring (23) to be in a force accumulation state, a clamping groove (111) is formed in the projectile body (11), and the clamping block (25) is inserted into the clamping groove (111).

5. The ejection toy of claim 4, wherein: the linkage (26) includes: a drive sleeve (261), a drive rod (262), and a swing rod (263); the driving sleeve (261) is rotatably connected to the shell (21), and the driving rod (262) and the swinging rod (263) are fixedly connected to the driving sleeve (261);

a pull rod (264) is arranged between the trigger (24) and the driving rod (262), one end of the pull rod (264) is hinged with the trigger (24), and the other end of the pull rod (264) is hinged with the driving rod (262), so that the trigger (24) can drive the driving rod (262) and the driving sleeve (261) to rotate through the pull rod (264);

a connecting rod (265) is arranged between the swinging rod (263) and the clamping block (25), one end of the connecting rod (265) is hinged with the swinging rod (263), the other end of the connecting rod (265) is hinged with the clamping block (25), and the clamping block (25) can be pulled to slide through the swinging rod (263) and the connecting rod (265) when the driving sleeve (261) rotates.

6. The ejection toy of claim 5, wherein: an elastic piece (27) is further arranged between the driving sleeve (261) and the shell (21), and when the driving sleeve (261) rotates to pull the clamping block (25) out of the clamping groove (111), the elastic piece (27) is compressed to store force.

7. The ejection toy of claim 6, wherein: the end part of the clamping block (25) inserted in the clamping groove (111) is provided with a chamfer surface (251), and the chamfer surface (251) gradually inclines towards the direction far away from the bullet head (12) along with approaching the bullet body (11).

8. The ejection toy of claim 4, wherein: still rotate on shell (21) and be connected with line wheel (29), the one end that projectile body (11) are kept away from in rope (13) passes behind ejection pipeline (22) and is connected with line wheel (29) fixed connection, and rope (13) winding is on line wheel (29) surface.

9. A projectile toy as claimed in claim 3, wherein said projectile toy further comprises indicating means (3), said indicating means (3) emitting an indicating signal when the projectile (1) is in a condition to be fired.

10. The ejection toy of claim 9, wherein the indicating means (3) comprises: an indicator lamp (31), a storage battery (32) and a magnetic switch (33);

the magnetic control switch (33) is connected between the indicator lamp (31) and the storage battery (32), when the bullet (1) is in a state to be shot, the magnetic control switch (33) senses magnetism on the bullet (1) to communicate the storage battery (32) with the indicator lamp (31), and the indicator lamp (31) is made to emit light.