CN211651380U - Toy gun capable of quick and continuous firing - Google Patents

Abstract

The utility model provides a can quick toy gun of continuous percussion, includes gun shell, shooting device, trigger, return spring, shooting controlling means, its characterized in that: the shooting control device comprises a control module and a trigger detection mechanism, wherein the trigger detection mechanism comprises a light emitter, a plurality of receivers and two circuit boards; in the initial state, after the light emitted by the light emitter is received by each receiver, the receiver outputs light receiving signals, the control module receives the light receiving signals, processes the light receiving signals, and then outputs control signals to the shooting device to control the shooting device not to work; when the receiving state of any receiver is changed, the control module outputs a control signal to the shooting device to control the shooting device to work and complete one-time shooting action. Compared with the prior art, the utility model, the beneficial effect is that, no matter the user pulls the trigger clockwise or an angle of anticlockwise rotation, can both accomplish a shooting, consequently can improve the frequency of shooting by a wide margin, effectively reduces the action range and the action frequency of finger.

Description

Toy gun capable of quick and continuous firing

Technical Field

The utility model relates to a toy gun, more specifically say and relate to a toy gun that can fire in succession fast.

Background

Toy air-bullet guns are one type of toy gun that has evolved through many stages and variations. In the last decade, the development of an air-bullet gun using electric power has emerged to date and has undergone many stages and changes. In recent decades, there has been developed a toy air bullet gun using electromotive force (hereinafter, referred to simply as a toy gun), which is stable in BB air bullet gun using compressed gas in an early stage, characterized in that it is not limited by the temperature season of the compressed gas, and because of the use of electric energy, there is no container for storing compressed gas, making the air bullet gun more environment-friendly, and there is no danger of being utilized by lawless persons due to the limitation on materials.

However, the toy gun described above still employs a number of mechanical structures to effect control, such as a trigger. This has led to the user to have difficult to adjust the trigger to suitable situation according to oneself hobby, no matter the user hobby dabs the trigger in order to accomplish the shooting or hobby with hard the trigger and finishes the shooting, and trigger condition is fixed unchangeable usually, only rotates to suitable angle at the trigger, can accomplish through mechanical structure and trigger, realizes the shooting. The trigger condition of the trigger cannot be adjusted, the actual requirement of a user cannot be met, but the mechanical structure is difficult to improve. Especially, when the user needs to shoot continuously and quickly, the trigger needs to be pulled frequently, the speed of continuous shooting is influenced by the return speed of the trigger and the speed of pulling the trigger by the user, the shooting frequency is difficult to improve, and the user fingers can be injured by pulling the trigger back and forth frequently.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a can quick continuous shooting's toy gun, this kind of can quick continuous shooting's toy gun can be at the trigger of pulling and the in-process that loosens the trigger all realizes shooting many times. The technical scheme is as follows:

a toy gun capable of being fired rapidly and continuously comprises a gun shell, a shooting device, a trigger, a return spring and a shooting control device, wherein the shooting control device and the shooting device are respectively arranged above the inner part of the gun shell; the method is characterized in that: the shooting control device comprises a control module and a trigger detection mechanism, wherein the trigger detection mechanism comprises a light emitter, a plurality of receivers and two circuit boards, the two circuit boards are oppositely arranged and are connected through a plurality of PCB (printed circuit board) direct-insertion connectors which are mutually inserted, the light emitter is arranged on one circuit board, the receivers are respectively arranged on the other circuit board, the light emitter and the receivers are oppositely arranged, the running route at the top of the trigger passes through the connecting line of the light emitter and the receivers, the light emitter and the receivers are respectively and electrically connected with the control module, and the control module is electrically connected with the shooting device; in the initial state, after the light emitted by the light emitter is received by each receiver, the receiver outputs light receiving signals, the control module receives the light receiving signals, processes the light receiving signals, and then outputs control signals to the shooting device to control the shooting device not to work; when the receiving state of any receiver is changed, the control module outputs a control signal to the shooting device to control the shooting device to work and complete one-time shooting action. That is, whether the receiver is capable of outputting the optical receive signal or is blocked by the trigger tip from outputting the optical receive signal; or the receiver is converted from the receiving signal incapable of outputting light into the receiving signal capable of outputting light, and the control module controls the shooting device to finish one shooting action. Therefore, no matter the user pulls the trigger or releases the trigger, the control module controls the shooting device to work when the control module detects that the state of the receiver corresponding to the rotation angle of the trigger is changed from the state that the light emitted by the light emitter can be received to the state that the light emitted by the light emitter cannot be received; and the control module also controls the shooting device to work once the receiver is found to convert the light emitted by the light emitter which cannot be received into the light emitted by the receiving light emitter. The design enables a user to greatly improve shooting frequency when in use and effectively reduce the action range of fingers, thereby not only improving the game experience of the user well, but also protecting the fingers of the user as much as possible.

In a preferred embodiment, the PCB direct-insertion connector includes a terminal and a header, the terminal is disposed on one circuit board, and the header is disposed on the other circuit board.

Preferably, the outer side wall of the circuit board where the light emitter is located is also provided with a shading protection plate. The shading protection plate can effectively reduce the influence of external light on the light transmitter transmitting light, and avoids the receiver from outputting wrong light receiving signals to influence the accuracy of shooting.

In a preferred scheme, the gun shell comprises two gun shell components, and the two gun shell components are assembled into the gun shell through a connecting piece.

In a preferred scheme, the control module adopts a single chip microcomputer which is arranged on a circuit board.

Compared with the prior art, the utility model has the advantages that, owing to adopt the shooting controlling means to replace mechanical structure control shooting device work, and trigger detection mechanism's light emitter and a plurality of receiver and trigger cooperation, let the user no matter pull trigger clockwise or anticlockwise rotation an angle, can both accomplish a shooting, consequently, can improve the frequency of shooting by a wide margin, effectively reduce the action range and the action frequency of finger, not only can improve user's gaming experience well, and can protect user's finger as far as possible, its result of use is very good, and its simple structure, control is accurate, the specially adapted adopts electrodynamic force's toy gun, it is very convenient to reform transform.

Drawings

Fig. 1 is a schematic structural diagram of a preferred embodiment of the present invention;

FIG. 2 is an exploded view of the preferred embodiment shown in FIG. 1;

FIG. 3 is a schematic view of the preferred embodiment of FIG. 1 with one circuit board, shutter plate, and one gun housing assembly removed;

FIG. 4 is a rear view of the preferred embodiment shade guard of FIG. 1;

fig. 5 is a schematic block diagram of the circuitry of the preferred embodiment shown in fig. 1.

Detailed Description

As shown in figures 1-5, the toy gun capable of rapid and continuous firing in the preferred embodiment comprises a gun housing 1, a firing device 2, a trigger 3 and a return spring 4, wherein the firing device 2 is arranged above the inside of the gun housing 1, the trigger 3 is rotatably arranged at the bottom end of the middle part of the gun housing 1, and two ends of the return spring 4 are respectively connected with the top end of the trigger 3 and the gun housing 1.

The toy gun also comprises a shooting control device, and the shooting control device is electrically connected with the shooting device 2; the shooting control device comprises a control module and a trigger detection mechanism 5, wherein the trigger detection mechanism 5 comprises a light emitter 501, four receivers 502 and two circuit boards 503, the two circuit boards 503 are oppositely arranged, the two circuit boards 503 are connected through a plurality of PCB straight insertion connectors 504 which are inserted into each other, the light emitter 501 is arranged on one circuit board 503, the receivers 502 are respectively arranged on the other circuit board 503, the light emitter 501 and the receivers 502 are oppositely arranged, the running route of the top of the trigger 3 passes through the connecting line of the light emitter 501 and the receivers 502, the light emitter 501 and the receivers 502 are respectively and electrically connected with the control module, and the control module is electrically connected with the shooting device 2.

The PCB card connector 504 includes terminals 5041 and a header 5042, the terminals 5041 being disposed on one circuit board 503 and the header 5042 being disposed on the other circuit board 503.

And a shading protection plate 6 is also arranged on the outer side wall of the circuit board 503 where the light emitter 501 is positioned. The shading protection plate 6 can effectively reduce the influence of external light on the light emitted by the light emitter 501, and prevent the receiver 502 from outputting wrong light receiving signals to influence the accuracy of shooting. Since the gun case 1 of the toy gun usually cannot completely block the external light (especially when the original toy gun is modified based on the mechanical structure), the light-shielding protection plate 6 is adopted to solve the problem in order to avoid the situation of mistaken emission caused by the external light.

The gun shell 1 comprises two gun shell assemblies 101, and the two gun shell assemblies 101 are assembled into the gun shell 1 through connecting pieces.

The control module is a single chip microcomputer, and the single chip microcomputer and each receiver 502 are installed on the same circuit board 503 (not visible in the figure).

The following operation is described with reference to fig. 1-5:

in the initial state, after the light emitted by the light emitter 501 is received by each receiver 502, the receiver 502 outputs a light receiving signal, the control module receives the light receiving signal, processes the light receiving signal, and then outputs a control signal to the shooting device 2 to control the shooting device 2 not to work; when a user pulls the trigger 3 to rotate the trigger against the force of the return spring 4, the top of the trigger 3 rotates, and because the running route at the top of the trigger 3 passes through the connecting line of the light emitter 501 and the plurality of receivers 502, when the top of the trigger 3 covers one or more receivers 502, the receivers 502 cannot receive the light emitted by the light emitter 501, the control module processes the received light signals and outputs control signals to the shooting device 2 to control the shooting device 2 to work, and when one signal of the receiver 502 is lacked, the control module controls the shooting device 2 to complete one shooting action; when a user loosens the trigger 3, the trigger 3 rotates reversely under the action of the force of the return spring 4, the top of the trigger 3 is sequentially exposed out of the receiver 502, the receiver 502 receives the light emitted by the light emitter 501, the control module receives and processes the light receiving signals, then the control module outputs control signals to the shooting device 2 to control the shooting device 2 to work, and when the signal of one receiver 502 is added, the control module controls the shooting device 2 to finish one shooting action. Therefore, whether the user pulls the trigger 3 or releases the trigger 3, the control module controls the shooting device 2 to work as soon as the receiver 502 corresponding to the rotation angle of the trigger 3 does not receive the light emitted by the light emitter 501; the control module also controls the operation of the shooting device 2 as soon as it finds that the receiver 502 recovers the light emitted by the receiving optical emitter 501. Thus, when the trigger is pulled, a shot is completed when the trigger passes through and enters and leaves the line connecting the light emitter 501 and the receiver 502, and the shooting frequency is greatly increased.

The design enables a user to greatly improve shooting frequency when in use and effectively reduce the action range of fingers, thereby not only improving the game experience of the user well, but also protecting the fingers of the user as much as possible.

In addition, it should be noted that the names of the parts and the like of the embodiments described in the present specification may be different, and all the equivalent or simple changes made according to the structure, the features and the principle of the present invention are included in the protection scope of the present invention. Various modifications, additions and substitutions may be made by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.

Claims (5)

1. A toy gun capable of being fired rapidly and continuously comprises a gun shell, a shooting device, a trigger, a return spring and a shooting control device, wherein the shooting control device and the shooting device are respectively arranged above the inner part of the gun shell; the method is characterized in that: the shooting control device comprises a control module and a trigger detection mechanism, wherein the trigger detection mechanism comprises a light emitter, a plurality of receivers and two circuit boards, the two circuit boards are oppositely arranged and are connected through a plurality of PCB (printed circuit board) direct-insertion connectors which are mutually inserted, the light emitter is arranged on one circuit board, the receivers are respectively arranged on the other circuit board, the light emitter and the receivers are oppositely arranged, the running route at the top of the trigger passes through the connecting line of the light emitter and the receivers, the light emitter and the receivers are respectively and electrically connected with the control module, and the control module is electrically connected with the shooting device; in the initial state, after the light emitted by the light emitter is received by each receiver, the receiver outputs light receiving signals, the control module receives the light receiving signals, processes the light receiving signals, and then outputs control signals to the shooting device to control the shooting device not to work; when the receiving state of any receiver is changed, the control module outputs a control signal to the shooting device to control the shooting device to work and complete one-time shooting action.

2. The rapidly and continuously cocked toy gun of claim 1, wherein: the PCB direct-insertion connector comprises terminals and a pin base, wherein the terminals are arranged on one circuit board, and the pin base is arranged on the other circuit board.

3. The rapidly and continuously cocked toy gun of claim 1, wherein: and a shading protection plate is also arranged on the outer side wall of the circuit board where the light emitter is positioned.

4. The rapidly and continuously cocked toy gun of claim 1, wherein: the gun shell comprises two gun shell components which are assembled into the gun shell through a connecting piece.

5. The rapidly and continuously cocked toy gun of any one of claims 1-4, wherein: the control module adopts a singlechip, and the singlechip is arranged on a circuit board.

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