CN216676977U - Visible light bullet shooting toy and receiving target - Google Patents

Abstract

The application provides a visible light bullet shooting toy, and visible light bullet shooting toy includes: an emitting device for emitting visible light; a recoil generating device for generating an effect of recoil; the recoil generating device comprises a second trigger component; the control circuit board comprises a second detection switch and a first detection switch and is used for controlling the transmitting device to transmit visible light according to the fact that the second detection switch and the first detection switch are triggered, and the recoil force generating device generates recoil force. The application also provides a receiving target which is used for receiving the visible light and detecting whether the received visible light contains the preset specific frequency information in the firing of the visible light bullet shooting toy.

Description

Visible light bullet shooting toy and receiving target

Technical Field

The application relates to the technical field of shooting toys, in particular to a visible light bullet shooting toy and a receiving target.

Background

At present, shooting toys which do not emit real objects for fighting generally comprise two types of infrared ray emission and visible light emission. The shooting toy adopting the infrared common light or the infrared laser has invisibility, so that the shooting direction is not easy to judge by naked eyes, the infrared ray transmitting and receiving are sensitive and can be reflected and received, the shooting toy can also shoot by utilizing the reflection of the barrier, and the playability is poor. The shooting toy adopting visible light or visible laser has the advantages that certain damage risk can be caused to human eyes due to the laser, the safety is poor, the duration time of the laser controlled by a mechanical switch is long, the emitted light is continuous light and is not consistent with actual shooting, the emission of the laser is controlled through a chip, certain processing is not carried out on the emitted laser, and a receiving target is easily interfered by other light sources so as to easily cause the occurrence of the condition of false triggering.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present application provides a visible light bullet shooting toy and a receiving target to solve the above problems.

The application provides a visible light bullet shooting toy which comprises a launching device, a recoil generating device, a control circuit board and a first trigger assembly; the emitting device is used for emitting visible light; the recoil generating device is used for generating the recoil effect; the recoil generating device comprises a second trigger component; the control circuit board comprises a second detection switch and a first detection switch; when the first trigger component is close to the control circuit board, the first detection switch is triggered; when the second trigger component moves to be close to the control circuit board, the second detection switch is triggered; the control circuit board is used for controlling the transmitting device to transmit visible light according to the fact that the second detection switch and the first detection switch are triggered, and the recoil force generating device generates recoil force.

The visible light bullet shooting toy also comprises a shell and a first loudspeaker, wherein the launching device, the recoil generating device and the control circuit board are all arranged in the shell; the shell is provided with a buckle corresponding to the first trigger assembly, the first trigger assembly is buckled on the shell through the buckle and is installed in the shell, and when the buckle is unfastened from the shell, the first trigger assembly is separated from the shell and is separated from the shell; the first loudspeaker is arranged in the shell and electrically connected with the control circuit board.

The transmitting device comprises a visible light emitter, a direction adjusting screw and a direction adjusting spring; the visible light emitter is arranged at one end of the shell; one end of the visible light emitter is fixed on the shell through a fixing ring; the visible light emitter is used for emitting visible light from the visible light bullet shooting toy; the direction adjusting screw comprises a first direction adjusting screw and a second direction adjusting screw; the other end of the visible light emitter is fixed by a first direction adjusting screw and a second direction adjusting screw, and the positions of the first direction adjusting screw and the second direction adjusting screw are mutually vertical.

A direction adjusting spring is arranged in the direction of an angular bisector of an included angle formed by the first direction adjusting screw and the second direction adjusting screw; one end of the direction adjusting spring is fixed on the visible light emitter, and the other end of the direction adjusting spring is fixed on the shell; the direction adjusting spring, the first direction adjusting screw and the second direction adjusting screw form an interaction force; further adjusting the emission direction of the visible light emitter by fine-adjusting the first direction adjusting screw and/or the second direction adjusting screw; a first quasi core and a second quasi core are arranged outside the shell; the first collimating core is arranged close to the visible light emitter, and the second collimating core is arranged at one end of the shell far away from the visible light emitter; the transmitting direction of the visible light emitter is adjusted to be a straight line direction which forms a line of three points with the first collimating core and the second collimating core by finely adjusting the first direction adjusting screw and/or the second direction adjusting screw.

The recoil generating device also comprises a connecting rod, a drag hook, a limiter, a return spring, an impact block and a guide rail cylinder; the second trigger assembly is connected with a drag hook through a connecting rod, the drag hook is connected with a return spring, and the return spring is connected to the shell; the limiter is fixed in the shell; one end of the second trigger assembly is arranged in the shell, and a guide rail is arranged in the shell at a position corresponding to the second trigger assembly; the other end of the second trigger assembly is exposed out of the shell through an opening arranged on the shell; and then the second trigger assembly is driven to slide along the guide rail arranged in the shell by buckling the part of the second trigger assembly exposed out of the shell.

The impact block is of a hollow structure, one end of the impact block is closed, the unclosed end of the impact block is sleeved with the guide rail cylinder, and the closed end of the impact block is close to the shell; a recoil spring is arranged in the hollow structure of the impact block and is close to the guide rail cylinder; the impact block is provided with a hook structure, and when the second trigger component is not buckled, the stopper limits the drag hook to be connected with the impact block through hooking the hook structure of the impact block; when the knot moves the second and triggers the subassembly, the second triggers the subassembly and passes through the connecting rod and drive the drag hook removal, and then the drag hook drives the impact piece and removes to the cylindrical direction of guide rail, when the second triggers the subassembly and removes to the second detection switch on colliding control circuit board, the position of drag hook changes, the stopper no longer restricts the drag hook and hangs on the impact piece, and then impact piece and drag hook separation, under the resilience effect of recoil spring, the impact piece strikes to the casing on, produce the effect of recoil.

The control circuit board and the second trigger assembly are arranged at a certain distance; when the first trigger assembly is arranged in the shell, the first trigger assembly is arranged close to the control circuit board; the second detection switch is arranged on the edge of one side of the control circuit board corresponding to the second trigger assembly, and the first detection switch is arranged on the edge of one side of the control circuit board corresponding to the first trigger assembly; when the second trigger assembly is buckled, the second trigger assembly moves to be close to the control circuit board, and then the second detection switch is triggered; when the first trigger assembly is installed in the shell, the first trigger assembly is close to the control circuit board, and then the first detection switch is triggered.

The control circuit board is provided with a transmitting end circuit; the transmitting end circuit comprises a first loudspeaker, a first voice module, a transmitting end control module, a first detection circuit, a second detection circuit and a visible light emitting modulation circuit; the first loudspeaker is electrically connected with the first voice module; the first voice module, the first detection circuit, the second detection circuit and the visible light emission modulation circuit are respectively electrically connected with the transmitting terminal control module; the transmitting terminal control module is used for detecting the states of the first detection circuit and the second detection circuit and controlling the running states of the visible light emitting modulation circuit and the first voice module according to the states of the first detection circuit and the second detection circuit.

The visible light emission modulation circuit is used for modulating frequency information of visible light emitted by the visible bullet shooting toy and driving emission of the visible light; the visible light emission modulation circuit comprises a field effect transistor, a light source module and a driving circuit; the field effect tube is electrically connected with the light source module; the light source module is electrically connected with the driving circuit; the field effect transistor is used for modulating specific frequency information and attaching the specific frequency information to the light source module, and the driving circuit is used for driving the light source module to emit visible light; the transmitting terminal control module sets the time for transmitting the visible light to be a first preset time period, the first preset time period is within a millisecond range, and then the visible light is transmitted in a photoelastic mode due to the fact that the transmitting time is short.

When the second trigger component triggers the second detection switch and the first trigger component triggers the first detection switch, the first detection circuit, the second detection circuit and the transmitting end control module are detected to be in a connected state, then the transmitting end control module controls the field effect tube on the visible light transmitting modulation circuit to modulate specific frequency information on the light source module, visible light with the specific frequency information is transmitted through the visible light transmitter, meanwhile, the first voice module is controlled to transmit a preset audio signal to the first speaker, and the first speaker sends a sound after receiving the audio signal sent by the first voice module.

The transmitting end control module is provided with a second preset time period, and when the transmitting end control module detects that the second detection switch is not triggered all the time and the time that the second detection switch is not triggered all the time is longer than or equal to the second preset time period in the state that the first detection switch is triggered, the transmitting end control module controls the transmitting end circuit to be in a standby state; furthermore, the first trigger assembly needs to be taken out of the housing and then reinstalled into the housing to reactivate the transmitting-side circuit.

The application also provides a receiving target which is used for receiving the visible light and detecting whether the received visible light contains specific frequency information preset in firing of the visible light bullet shooting toy; when the received visible light is detected to contain preset specific frequency information, the receiving target emits preset sound and light.

A receiving end circuit is arranged on the receiving target; the receiving end circuit comprises a photoelectric conversion module, an amplifying circuit, a detection circuit, a receiving end control module, a second voice module, a second loudspeaker and an indicator light; the photoelectric conversion module is electrically connected with the amplifying circuit; the photoelectric conversion module is used for receiving the optical signal emitted on the receiving target and converting the received optical signal into an electric signal; the amplifying circuit is used for receiving the electric signal transmitted by the photoelectric conversion module and amplifying the received electric signal; the amplifying circuit is electrically connected with the detection circuit; the detection circuit is used for receiving the amplified electric signal transmitted by the amplifying circuit, detecting the amplified electric signal and detecting whether the amplified electric signal contains preset specific frequency information or not; the detection circuit, the second voice module and the indicator lamp are respectively electrically connected with the receiving end control module; the second loudspeaker is electrically connected with the second voice module; when the detection circuit detects that the amplified electric signal contains preset specific frequency information, the detection circuit sends an indication signal to the receiving end control module; after receiving the indication signal, the receiving end control module controls the second voice module to send a preset audio signal to the second loudspeaker, and the second loudspeaker sends a sound after receiving the audio signal sent by the second voice module; meanwhile, the receiving end control module controls the indicator lamp to emit light.

The visible light of visible light bullet shooting toy transmission that this application provided has avoided the injury to the people's eye as the launching light source, simultaneously, has attached specific high frequency information on the launching light source for the visible light of transmission just can be effectively received and discerned in the short time, and then has improved the interference immunity when receiving visible light bullet shooting toy transmission visible light. And because the emitting time is short, the emitted visible light can be emitted in the form of light bullets, so that the simulation and the interestingness of shooting by using the visible light bullets to shoot the toy are improved. The visible light bullet shooting toy is also provided with a recoil generating device, the recoil effect generated during shooting is really and effectively simulated, and when the visible light bullet shooting toy is used for shooting, the first loudspeaker can make corresponding sound, so that a user is provided with a relatively real experience feeling during shooting.

Drawings

FIG. 1 is a schematic diagram of a configuration of a visible light projectile shooting toy according to an embodiment of the present application;

FIG. 2 is a schematic view showing the internal structure of a visible light bullet shooting toy according to an embodiment of the present application;

fig. 3 is a circuit diagram of a transmitting end circuit according to an embodiment of the present application;

fig. 4 is a circuit diagram of a receiving end circuit according to an embodiment of the present application.

Description of the main elements

Visible light bullet shooting toy 1

Housing 10

Transmitting device 20

Visible light emitter 21

Direction adjusting screw 22

First direction adjusting screw 221

Second direction adjusting screw 222

Direction adjusting spring 23

Fixing ring 24

First quadcore 25

Second quadcore 26

Recoil generating device 30

Second trigger assembly 31

Connecting rod 32

Draw hook 33

Stop 34

Return spring 35

Impact block 36

Guide rail cylinder 37

Control circuit board 40

Second detection switch 41

First detection switch 42

First trigger assembly 50

Fastener 51

First loudspeaker 60

Transmitting side circuit 100

First voice module 102

Transmitting end control module 103

First detection circuit 104

Second detection circuit 105

Visible light emission modulation circuit 106

FET 1061

Light source module 1062

Driver circuit 1063

Receiving target 2

Receiving end circuit 200

Photoelectric conversion module 201

Amplifying circuit 202

Detector circuit 203

Receiving end control module 204

Second speech module 205

Second speaker 206

Indicator lamp 207

The following detailed description will further illustrate the present application in conjunction with the above-described figures.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments of the present application.

The visible light bullet shooting toy 1 provided by the application has the advantages that the visible light bullets with specific frequency information are set through launching, the recoil force generating device and the first loudspeaker are arranged, the injury to human eyes is avoided, and meanwhile, the sense of reality during simulated shooting is provided.

As shown in fig. 1 and 2, the visible light bullet shooting toy 1 includes a housing 10, a launching device 20, a recoil generating device 30, a control circuit board 40, a first trigger assembly 50, and a first speaker 60.

The housing 10 may be shaped to simulate a shooting device. The emitting device 20, the recoil generating device 30, the control circuit board 40, and the first speaker 60 are disposed in the housing 10. The first trigger assembly 50 may be shaped to simulate a cartridge clip. The housing 10 is provided with a buckle 51 corresponding to the first trigger assembly 50, the first trigger assembly 50 can be mounted in the housing 10 by buckling the buckle 51 on the housing 10, and when the buckle 51 is unfastened from the housing 10, the first trigger assembly 50 is separated from the housing 10 and separated from the housing 10. The first speaker 60 is disposed in the casing 10 and electrically connected to the control circuit board 40.

The emitting device 20 includes a visible light emitter 21, a direction adjustment screw 22, and a direction adjustment spring 23. The direction adjustment screw 22 includes a first direction adjustment screw 221 and a second direction adjustment screw 222.

The visible light emitter 21 is cylindrical and is disposed at one end of the housing 10. One end of the visible light emitter 21 is fixed to the housing 10 by a fixing ring 24. The visible light emitter 21 is used to emit visible light from the visible light bullet shooting toy 1 to shoot a shooting target.

The other end of the visible light emitter 21 is fixed by the first direction adjusting screw 221 and the second direction adjusting screw 222, and the positions of the first direction adjusting screw 221 and the second direction adjusting screw 222 are perpendicular to each other. The direction adjusting spring 23 is disposed in the direction of the angle bisector of the angle formed by the first direction adjusting screw 221 and the second direction adjusting screw 222. One end of the direction adjusting spring 23 is fixed to the visible light emitter 21, and the other end of the direction adjusting spring 23 is fixed to the housing 10. The direction adjustment spring 23 forms an interaction force with the first direction adjustment screw 221 and the second direction adjustment screw 222. The emitting direction of the visible light emitter 21 can be adjusted by fine-tuning the first direction adjustment screw 221 and/or the second direction adjustment screw 222.

In some embodiments, the first collimating core 25 and the second collimating core 26 are disposed outside the housing 10. The first collimating core 25 is disposed near the visible light emitter 21, and the second collimating core 26 is disposed at an end of the housing 10 away from the visible light emitter 21. By fine-tuning the first direction adjustment screw 221 and/or the second direction adjustment screw 222, the emitting direction of the visible light emitter 21 can be adjusted to a straight direction forming a line of three points with the first collimating core 25 and the second collimating core 26, so that the shooting direction of the visible light bullet shooting toy 1 is more accurate when shooting.

The recoil generator 30 includes a second trigger assembly 31, a connecting rod 32, a hook 33, a stopper 34, a return spring 35, a striking block 36, and a guide rail cylinder 37.

The second trigger assembly 31 may be in the shape of a trigger. The second trigger assembly 31 is connected to a hook 33 through a connecting rod 32, the hook 33 is connected to a return spring 35, and the return spring 35 is connected to the housing 10. The stopper 34 is fixed in the housing 10.

One end of the second trigger assembly 31 is installed in the housing 10, and a guide rail is arranged in the housing 10 at a position corresponding to the second trigger assembly 31; the other end of the second trigger assembly 31 is exposed out of the housing 10 through an opening provided in the housing 10. Further, the second triggering component 31 can be driven to slide along the guide rail disposed in the housing 10 by buckling the portion of the second triggering component 31 exposed outside the housing 10.

The impact block 36 is of a hollow structure, one end of the impact block is closed, the unclosed end of the impact block 36 is sleeved on the guide rail cylinder 37, and the closed end of the impact block 36 is close to the shell 10. A recoil spring is provided in the hollow structure of the impact block 36 and is proximate to the guide rail cylinder 37. When the impact block 36 moves towards the guide rail cylinder 37, the recoil spring collides with the guide rail cylinder 37, and then the recoil spring drives the impact block 36 to rebound and impact the housing 10.

The striking block 36 is provided with a hook structure, and when the second trigger assembly 31 is not buckled, the stopper 34 limits the hook 33 to be connected with the striking block 36 by hooking the hook structure of the striking block 36. When the second trigger subassembly 31 is triggered in the knot, the second trigger subassembly 31 drives the drag hook 33 through connecting rod 32 and removes, and then drag hook 33 drives the direction removal of striking block 36 to guide rail cylinder 37, when the second trigger subassembly 31 removes to the second detection switch 41 that collides on control circuit board 40, the position of drag hook 33 changes, stopper 34 no longer restricts drag hook 33 and hangs on striking block 36, and then striking block 36 separates with drag hook 33, under recoil force effect of recoil spring, striking block 36 strikes to on casing 10, produce the effect of recoil force, and then strengthened the experience sense of using the shooting of visible light bullet shooting toy 1.

The control circuit board 40 is disposed at a distance from the second trigger assembly 31. When the first trigger assembly 50 is installed in the housing 10, the first trigger assembly 50 is disposed adjacent to the control circuit board 40. The control circuit board 40 is provided with a second detection switch 41 and a first detection switch 42, and the control circuit board 40 can control the operation of the transmitting-end circuit 100 according to the triggering states of the second detection switch 41 and the first detection switch 42.

The second detecting switch 41 is disposed on the edge of the control circuit board 40 corresponding to the second trigger assembly 31, and the first detecting switch 42 is disposed on the edge of the control circuit board 40 corresponding to the first trigger assembly 50. When the second trigger assembly 31 is pulled, the second trigger assembly 31 moves to close to the control circuit board 40, and then the second detection switch 41 is triggered. When the first trigger assembly 50 is installed in the housing 10, the first trigger assembly 50 is adjacent to the control circuit board 40, and the first detection switch 42 is triggered.

The control circuit board 40 is provided with a transmitting-end circuit 100. The transmitting-end circuit 100 is used for controlling the visible light emitter 21 to emit the visible light according to the triggering states of the second detection switch 41 and the first detection switch 42.

As shown in fig. 3, the transmitting-end circuit 100 includes a first speaker 60, a first voice module 102, a transmitting-end control module 103, a first detection circuit 104, a second detection circuit 105, and a visible light emitting modulation circuit 106.

The first speaker 60 is electrically connected to the first voice module 102. The first speaker 60 is configured to receive a signal sent by the first voice module 102, and when the first speaker 60 receives the signal sent by the first voice module 102, it will send out a sound simulating a shooting.

The first voice module 102, the first detection circuit 104, the second detection circuit 105 and the visible light emitting modulation circuit 106 are electrically connected to the transmitting terminal control module 103 respectively. The transmitting end control module 103 may be a single chip microcomputer, and is configured to detect states of the first detection circuit 104 and the second detection circuit 105, and control operating states of the visible light emitting modulation circuit 106 and the first voice module according to the states of the first detection circuit 104 and the second detection circuit 105.

The visible light emission modulation circuit 106 is used to modulate frequency information of the visible light emitted from the visible light bullet shooting toy 1 and drive emission of the visible light. Includes a field effect transistor 1061, a light source module 1062 and a driving circuit 1063. The fet 1061 is electrically connected to the light source module 1062. The light source module 1062 is electrically connected to the driving circuit 1063. The fet 1061 is used to modulate specific frequency information to be attached to the light source module 1062, and the driving circuit 1063 is used to drive the light source module 1062 to emit visible light.

In some embodiments, after the light source module 1062 adds the specific frequency information, the visible light emitted from the light source module 1062 can be effectively identified in about one thousandth of a second. Therefore, the time for emitting the visible light is set to be a first preset time period by the emitting end control module 103, the first preset time period is within a millisecond range, and further, the emitting time is short, so that the visible light is emitted in a photoelastic mode, the shooting reality is closer, meanwhile, the energy for emitting the visible light is also reduced, and the risk of injury to human eyes is reduced.

When the second trigger component 31 triggers the second detection switch 41 and the first trigger component 50 triggers the first detection switch 42, it is detected that the first detection circuit 104, the second detection circuit 105 and the transmitting end control module 103 are in a connected state, and then the transmitting end control module 103 controls the fet 1061 on the visible light emitting modulation circuit 106 to modulate specific frequency information on the light source module 1062, and emits visible light with the specific frequency information set through the visible light emitter 21, and at the same time controls the first voice module 102 to send a preset audio signal to the first speaker 60, and the first speaker 60 emits a sound after receiving the audio signal emitted by the first voice module 102.

In some embodiments, the sound emitted by first speaker 60 is a sound simulating a shot, thereby enhancing the realism and enjoyment of shooting toy 1 using visible light projectiles.

In some embodiments, the transmitting end control module 103 is configured with a second preset time period, when the transmitting end control module 103 detects that the second detection switch 41 has not been triggered and the time that the second detection switch 41 has not been triggered is greater than or equal to the second preset time period in the state that the first trigger assembly 50 is installed in the housing 10, that is, the first detection switch 42 is in the triggered state, then the transmitting end control module 103 controls the transmitting end circuit 100 to be in the standby state, that is, the visible light catapulting toy 1 is in the standby state. At this time, the first trigger assembly 50 is removed from the housing 10, and the first trigger assembly 50 is re-installed in the housing 10 to re-activate the transmitting-end circuit 100, i.e., to activate the visible light bullet shooting toy 1.

The visible light bullet shooting toy 1 is correspondingly provided with a receiving target (e.g., an independent target, a head-matching target, a chest-matching target, a wrist-matching target), and the receiving target is provided with a receiving end circuit 200 for receiving and identifying an optical signal emitted to the receiving target.

As shown in fig. 4, the receiving-end circuit 200 includes an optical-to-electrical conversion module 201, an amplification circuit 202, a detection circuit 203, a receiving-end control module 204, a second voice module 205, a second speaker 206, and an indicator light 207.

The photoelectric conversion module 201 is electrically connected to the amplifying circuit 202. The photoelectric conversion module 201 may be a photosensitive sensor, and is configured to receive an optical signal emitted from a receiving target, convert the received optical signal into an electrical signal, and transmit the converted electrical signal to the amplifying circuit 202. The amplifying circuit 202 may be a band-pass filtering amplifying circuit, and is configured to receive the electrical signal transmitted by the photoelectric conversion module 201 and amplify the received electrical signal.

The amplifying circuit 202 is electrically connected to the detecting circuit 203. The amplifier circuit 202 transmits the amplified electric signal to the detector circuit 203. The detector circuit 203 is configured to receive the amplified electrical signal transmitted by the amplifier circuit 202, detect the amplified electrical signal, and detect whether the electrical signal contains preset specific frequency information.

In some embodiments, the specific frequency information preset in the detector circuit 203 is the same as the specific frequency information appended to the light source module 1062 in the transmitter circuit 100, so that the detector circuit 203 can effectively identify the visible light emitted by the visible light bullet shooting toy 1, thereby improving the anti-interference performance of the receiving target when receiving the optical signal emitted by the visible light bullet shooting toy 1.

The detection circuit 203, the second voice module 205 and the indicator 207 are electrically connected to the receiving end control module 204 respectively. The second speaker 206 is electrically connected to the second voice module 205.

When the detection circuit 203 detects that the electrical signal contains the preset specific frequency information, the detection circuit 203 sends an indication signal to the receiving end control module 204. After receiving the indication signal, the receiving end control module 204 controls the second voice module 205 to send a preset audio signal to the second speaker 206, and the second speaker 206 sends a sound after receiving the audio signal sent by the second voice module 205. Meanwhile, the receiving end control module 204 controls the indicator lamp 207 to emit light, giving a hit prompt.

The visible light of visible light bullet shooting toy 1 transmission that this application provided has avoided the injury to the people's eye as the launching light source, simultaneously, has attached specific high frequency information on the launching light source for the visible light of transmission just can be effectively received and discerned in the short time, and then has improved the interference immunity when receiving visible light bullet shooting toy 1 transmission visible light. And because the emitting time is short, the emitted visible light can be emitted in the form of light bullets, so that the simulation and the interestingness of shooting by using the visible light bullet shooting toy 1 are improved. The visible light bullet shooting toy 1 is further provided with a recoil generating device 30, the recoil effect generated during shooting is truly and effectively simulated, and when the visible light bullet shooting toy 1 is used for shooting, the first loudspeaker 60 can make corresponding sound, so that a user is provided with a relatively real experience sense during shooting.

It should be understood by those skilled in the art that the above embodiments are only for illustrating the present application and are not used as limitations of the present application, and that suitable modifications and changes of the above embodiments are within the scope of the present application as claimed.

Claims (13)

1. A visible light bullet shooting toy is characterized in that the visible light bullet shooting toy comprises a launching device, a recoil generating device, a control circuit board and a first trigger component;

the emitting device is used for emitting visible light;

the recoil generating device is used for generating the recoil effect; the recoil generating device comprises a second trigger component;

the control circuit board comprises a second detection switch and a first detection switch;

when the first trigger component is close to the control circuit board, the first detection switch is triggered;

when the second trigger component moves to be close to the control circuit board, the second detection switch is triggered;

the control circuit board is used for controlling the transmitting device to transmit visible light according to the fact that the second detection switch and the first detection switch are triggered, and the recoil force generating device generates recoil force.

2. The visible light bullet shooting toy of claim 1, further comprising a housing and a first speaker, said launching device, recoil generating device and control circuit board being disposed in said housing;

the shell is provided with a buckle corresponding to the first trigger assembly, the first trigger assembly is buckled on the shell through the buckle and is installed in the shell, and when the buckle is unfastened from the shell, the first trigger assembly is separated from the shell and is separated from the shell;

the first loudspeaker is arranged in the shell and electrically connected with the control circuit board.

3. The visible light bullet shooting toy of claim 2, wherein said launching means includes a visible light emitter, a direction adjusting screw, and a direction adjusting spring;

the visible light emitter is arranged at one end of the shell; one end of the visible light emitter is fixed on the shell through a fixing ring; the visible light emitter is used for emitting visible light from the visible light bullet shooting toy;

the direction adjusting screw comprises a first direction adjusting screw and a second direction adjusting screw; the other end of the visible light emitter is fixed by the first direction adjusting screw and the second direction adjusting screw, and the positions of the first direction adjusting screw and the second direction adjusting screw are perpendicular to each other.

4. The visible-light-bullet shooting toy of claim 3, wherein said direction-adjusting spring is provided in a direction of a bisector of an angle formed by said first direction-adjusting screw and said second direction-adjusting screw; one end of the direction adjusting spring is fixed on the visible light emitter, and the other end of the direction adjusting spring is fixed on the shell;

the direction adjusting spring, the first direction adjusting screw and the second direction adjusting screw form an interaction force; further adjusting the emission direction of the visible light emitter by fine-tuning the first direction adjusting screw and/or the second direction adjusting screw;

a first alignment core and a second alignment core are arranged outside the shell; the first collimating core is arranged close to the visible light emitter, and the second collimating core is arranged at one end of the shell far away from the visible light emitter; and adjusting the emission direction of the visible light emitter to a linear direction which forms a line of three points with the first collimating core and the second collimating core by finely adjusting the first direction adjusting screw and/or the second direction adjusting screw.

5. The visible light bullet shooting toy of claim 2, wherein said recoil generating means further comprises a link, a drag hook, a stopper, a return spring, a striking block, and a guide rail cylinder; the second trigger assembly is connected with the draw hook through the connecting rod, the draw hook is connected with the return spring, and the return spring is connected to the shell; the limiter is fixed in the shell;

one end of the second trigger assembly is arranged in the shell, and a guide rail is arranged in the shell at a position corresponding to the second trigger assembly; the other end of the second trigger assembly is exposed out of the shell through an opening formed in the shell; and then the part of the second trigger assembly exposed out of the shell is buckled, so that the second trigger assembly is driven to slide along a guide rail arranged in the shell.

6. The visible light projectile shooting toy of claim 5 wherein said impact block is hollow and closed at one end, said unsealed end of said impact block fitting around said guide rail cylinder, said closed end of said impact block being proximate to said housing; a recoil spring is arranged in a hollow structure of the impact block and is close to the guide rail cylinder;

the impact block is provided with a hook structure, and when the second trigger assembly is not buckled, the stopper limits the draw hook to be connected with the impact block through hooking the hook structure of the impact block;

when the knot moves during the second triggers the subassembly, the second triggers the subassembly and passes through the connecting rod drives the drag hook removes, and then the drag hook drives the striking piece to the cylindrical direction of guide rail removes, works as the second triggers the subassembly and removes to colliding during the last second detection switch of control circuit board, the position of drag hook changes, the stopper no longer restricts the drag hook hang in on the striking piece, and then the striking piece with the drag hook separation under the resilience force effect of recoil spring, the striking piece striking extremely on the casing, produce the effect of recoil.

7. The visible light bullet shooting toy of claim 4 or 6, wherein said control circuit board is disposed at a distance from said second trigger assembly; when the first trigger assembly is installed in the shell, the first trigger assembly is arranged close to the control circuit board;

the second detection switch is arranged on the edge of the control circuit board on one side corresponding to the second trigger assembly, and the first detection switch is arranged on the edge of the control circuit board on one side corresponding to the first trigger assembly;

when the second trigger assembly is buckled, the second trigger assembly moves to be close to the control circuit board, and then the second detection switch is triggered;

when the first trigger assembly is installed in the shell, the first trigger assembly is close to the control circuit board, and then the first detection switch is triggered.

8. The visible light bullet shooting toy of claim 7 wherein said control circuit board is provided with a transmitting end circuit; the transmitting end circuit comprises a first loudspeaker, a first voice module, a transmitting end control module, a first detection circuit, a second detection circuit and a visible light emitting modulation circuit;

the first loudspeaker is electrically connected with the first voice module; the first voice module, the first detection circuit, the second detection circuit and the visible light emission modulation circuit are respectively electrically connected with the transmitting end control module;

the transmitting terminal control module is used for detecting the states of the first detection circuit and the second detection circuit and controlling the running states of the visible light emitting modulation circuit and the first voice module according to the states of the first detection circuit and the second detection circuit.

9. The visible-light-bullet-shooting toy of claim 8, wherein said visible-light-emission modulation circuit is adapted to modulate frequency information of visible light emitted from said visible-light-bullet-shooting toy and drive emission of visible light;

the visible light emission modulation circuit comprises a field effect transistor, a light source module and a driving circuit; the field effect tube is electrically connected with the light source module; the light source module is electrically connected with the driving circuit; the field effect transistor is used for modulating specific frequency information and attaching the specific frequency information to the light source module, and the driving circuit is used for driving the light source module to emit visible light;

the transmitting terminal control module sets the time for transmitting the visible light to be a first preset time period, the first preset time period is within a millisecond range, and then the visible light is transmitted in a photoelastic mode due to the fact that the transmitting time is short.

10. The visible light bullet shooting toy of claim 9, wherein when said second trigger component triggers said second detection switch and said first trigger component triggers said first detection switch, said first detection circuit and said second detection circuit are detected to be in a connection state with said transmitting end control module, and said transmitting end control module controls a fet of said visible light emitting modulation circuit to modulate said specific frequency information on said light source module, and emits visible light with said specific frequency information set therein through said visible light emitter, and simultaneously controls said first voice module to send a predetermined audio signal to said first speaker, and said first speaker emits a sound after receiving an audio signal emitted from said first voice module.

11. The visible light bullet shooting toy of claim 10, wherein said firing end control module is provided with a second preset time period, and when said firing end control module detects that said second detection switch has not been triggered and a time period in which said second detection switch has not been triggered is greater than or equal to the second preset time period in a state in which said first detection switch is triggered, said firing end control module controls said firing end circuit to be in a standby state; furthermore, the transmitter-side circuit can be reactivated only by removing the first trigger assembly from the housing and reinstalling the first trigger assembly into the housing.

12. A receiving target for receiving visible light and detecting whether the received visible light includes specific frequency information preset in the firing of the visible light bullet toy according to any one of claims 1 to 11; when the received visible light is detected to contain the preset specific frequency information, the receiving target emits preset sound and light.

13. The receiving target of claim 12, wherein a receiving end circuit is provided on the receiving target; the receiving end circuit comprises a photoelectric conversion module, an amplifying circuit, a detection circuit, a receiving end control module, a second voice module, a second loudspeaker and an indicator light;

the photoelectric conversion module is electrically connected with the amplifying circuit; the photoelectric conversion module is used for receiving the optical signal emitted on the receiving target and converting the received optical signal into an electric signal; the amplifying circuit is used for receiving the electric signal transmitted by the photoelectric conversion module and amplifying the received electric signal;

the amplifying circuit is electrically connected with the detection circuit; the detection circuit is used for receiving the amplified electric signal transmitted by the amplifying circuit, detecting the amplified electric signal and detecting whether the amplified electric signal contains preset specific frequency information;

the detection circuit, the second voice module and the indicator lamp are respectively electrically connected with the receiving end control module; the second loudspeaker is electrically connected with the second voice module;

when the detection circuit detects that the amplified electric signal contains the preset specific frequency information, the detection circuit sends an indication signal to the receiving end control module;

after receiving the indication signal, the receiving end control module controls the second voice module to send a preset audio signal to the second speaker, and the second speaker sends a sound after receiving the audio signal sent by the second voice module; meanwhile, the receiving end control module controls the indicator light to emit light.

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