CN209877767U - Electric air bullet gun with multiple light-sensitive detection mechanisms - Google Patents

Abstract

The utility model provides an electronic air bullet rifle with a plurality of light sense detection mechanism, includes gun case, emitter, trigger and controlling means, and the trigger is rotationally installed in gun case middle part bottom, and emitter, controlling means set up respectively in the gun case, and emitter has the gear wheel, its characterized in that: the electric air bullet gun further comprises a detection device, the electric air bullet gun is provided with a plurality of parts to be detected, and the detection device comprises a first circuit board, a second circuit board and a plurality of light sensation detection mechanisms. Compared with the prior art, the utility model, owing to be equipped with a plurality of light sense detection mechanism, consequently can wait to detect the part respectively to a plurality of electronic air bullet rifle, so that controlling means knows better and waits to detect the condition of part, so as to control, this makes the operation of electronic air bullet rifle can be customized according to self condition by the user, let the operation of electronic air bullet rifle more accord with user's requirement, and the operation is more simple convenient, greatly promoted and used experience.

Description

Electric air bullet gun with multiple light-sensitive detection mechanisms

Technical Field

The utility model relates to an electronic air bullet rifle, more specifically say and relate to an electronic air bullet rifle with a plurality of light sense detection mechanism.

Background

The development of air-bullet guns to date has undergone many stages and changes. In the last decade, there has been developed a BB air bullet gun using electric power (referred to herein as an electric air bullet gun), which is stable in performance and is characterized by being free from seasonal restrictions on the temperature of compressed gas, and which is more environmentally friendly due to the use of electric energy without a container for storing compressed gas, and which is not hazardous for use by lawless persons due to material limitations.

The electric air bullet gun generally comprises a gun shell, a launching device, a trigger and a mechanical control mechanism, wherein the trigger is rotatably arranged at the bottom end of the middle part of the gun shell, the launching device and the mechanical control mechanism are respectively arranged in the gun shell, the launching device is provided with a gear wheel which is an action part for driving a cylinder and a piston of the launching device to act, whether the launching device completes a complete shooting process or not can be accurately known through the rotation of the gear wheel.

Traditional electric air bullet guns adopt a large number of mechanical structures to realize control, such as a cone, a function selection mechanism and the like. This results in the user needing to adjust the cone, the function selection mechanism, etc. through different mechanical structures, which is not only very troublesome, but also very inefficient, and the structure is very complex, easily affects other components, and is also easily damaged.

And the trigger, among the conventional art, the trigger is installed on the rifle shell, does not have adjustment mechanism, therefore the user hardly adjusts suitable situation with the trigger according to own hobby, no matter the user hobby dabs the trigger in order to accomplish the shooting or hobby with the trigger button hard and accomplish the shooting on end, trigger condition is fixed unchangeable usually, only rotates suitable angle at the trigger, just 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.

Finally, a large number of mechanical structures are arranged in a gun shell of the traditional electric air bullet gun to detect and control parts such as a trigger, a gear wheel, a function selection mechanism and the like, so that too many mechanical parts are arranged in the gun shell, and the too many mechanical parts adopt a linkage type mechanical structure, so that the electric air bullet gun has unstable functions, is relatively troublesome to operate and is easy to make mistakes in the game process.

Disclosure of Invention

The utility model aims at providing an electronic air bullet rifle with a plurality of light sense detection mechanism, this kind of electronic air bullet rifle with a plurality of light sense detection mechanism can adopt light sense detection mechanism to replace mechanical structure to accomplish and detect detection, the control of treating the part, saves a large amount of mechanical parts, and control is more accurate, operates more convenient and fast. The technical scheme is as follows:

the utility model provides an electronic air bullet rifle with a plurality of light sense detection mechanism, includes gun case, emitter, trigger and controlling means, and the trigger is rotationally installed in gun case middle part bottom, and emitter, controlling means set up respectively in the gun case, and emitter has the gear wheel, its characterized in that: the electric air bomb gun further comprises a detection device, the electric air bomb gun is provided with a plurality of parts to be detected, the detection device comprises a first circuit board, a second circuit board and a plurality of light sensation detection mechanisms, the control device is electrically connected with the launching device, the first circuit board and the second circuit board are connected and arranged oppositely, the light sensation detection mechanisms and the parts to be detected are same in number and correspond to each other one by one, the light sensation detection mechanisms detect the parts to be detected and send detection signals, and the control device receives and processes the detection signals and controls the launching device to work.

According to a better scheme, at least one light sensing detection mechanism comprises a light emitter and at least one receiver, the light emitter is arranged on a second circuit board, the receiver is arranged on a first circuit board, the light emitter and the receiver are oppositely arranged, and a connecting line of the light emitter and the receiver of the same light sensing detection mechanism is perpendicularly intersected with a motion track of a detection part of a component to be detected. After the light emitted by the light emitter is received by the receiver, the receiver outputs a light receiving signal, the control device receives the light receiving signal, processes the light receiving signal, and then outputs a control signal to the emitting device to control the emitting device to work.

According to a more preferable scheme, one light sensation detection mechanism is a trigger detection mechanism, the trigger detection mechanism comprises a first light emitter and a plurality of first receivers, the middle of the trigger is hinged with a gun shell, the part to be detected is a trigger, the detection part of the part to be detected is a shielding block arranged at the top end of the trigger, the shielding block is positioned between the first circuit board and the second circuit board, and the movement route of the shielding block passes through the space between the first light emitter and each first receiver of the trigger detection mechanism. Therefore, when the user pulls the trigger, the shielding block can shield one or more first receivers when the trigger rotates, so that the one or more first receivers cannot receive the light emitted by the first light emitter. Therefore, the user can input the first receiver data corresponding to the required trigger rotation angle into the control device according to the self requirement. Thus, the control device controls the emitting device to work once finding that the one or more first receivers corresponding to the rotation angle of the trigger do not receive the light emitted by the first light emitter.

Preferably, the trigger detection mechanism is a correlation photoelectric sensor.

Preferably, one light sensing detection mechanism is a cone detection mechanism, the part to be detected is a cone, the detection part of the part to be detected is teeth arranged on the edge of the cone, the cone detection mechanism comprises a second light emitter and a second receiver, and a connecting line of the second light emitter and the second receiver is vertically intersected with the motion track of the teeth on the edge of the cone. The light emitted by the second light emitter is blocked by teeth on the edge of the cone, the second receiver cannot receive the light, the cone detection mechanism outputs a cone detection signal, the control device receives the cone detection signal, processes the cone detection signal, and then outputs a control signal to the transmitting device to control the transmitting device to work. Therefore, the control device can know the rotation condition of the roller cone so as to determine whether a complete shooting process is finished or not, so that the control device can accurately control the work of the launching device.

Preferably, the trigger detection mechanism is a correlation photoelectric sensor.

Another preferred scheme is that one light sensing detection mechanism is a function detection mechanism, one side wall of the gun shell is provided with a light transmission window, the function detection mechanism comprises a slidable shielding plate and at least one diffusion reflection type photoelectric switch, the outer surface of the side wall of the gun shell provided with the light transmission window is provided with a sliding groove, the light transmission window is positioned in the sliding groove, the slidable shielding plate is slidably arranged in the sliding groove, the diffusion reflection type photoelectric switch is arranged on the outer side wall of the first circuit board, and the diffusion reflection type photoelectric switch is positioned in the light transmission window; the diffuse reflection type photoelectric switch emits light, when the light is shielded by the slidable shielding plate, the slidable shielding plate reflects the light back to the diffuse reflection type photoelectric switch emitting the light, the diffuse reflection type photoelectric switch receives the emitted light and then emits a function detection signal, the control device receives and processes the function detection signal, and then the control device emits a control signal to control the emitting device to work. The slidable shielding plate slides along the sliding groove, the diffusion reflection type photoelectric switches are not shielded, one or more diffusion reflection type photoelectric switches are shielded, zero or one or more diffusion reflection type photoelectric switches can be enabled to send out function detection signals, the function detection signals with different numbers correspond to different functions, and the control device sends out control signals to control the emitting device to work according to the condition of the received function detection signals.

In a more preferable scheme, the outer surface of the side wall of the gun shell provided with the light-transmitting window is also provided with a slidable baffle plate driving device. The slidable shielding plate driving device drives the slidable shielding plate to slide along the sliding groove.

Preferably, the slidable shielding plate driving device is a cam, and the cam is connected with the slidable shielding plate. The cam is rotated to drive the slidable shielding plate to slide along the sliding groove.

Preferably, the first circuit board and the second circuit board are connected through at least one PCB direct plug connector.

According to a more preferable scheme, the PCB direct-insertion connector comprises a terminal and a pin base, wherein the terminal is arranged on the first circuit board, and the pin base is arranged on the second circuit board.

In another preferred embodiment, the PCB direct-insert connector includes a terminal and a header, the terminal is disposed on the second circuit board, and the header is disposed on the first circuit board.

Preferably, the control device is arranged on the first circuit board, the second circuit board or the inner side wall of the gun shell.

According to a preferred scheme, the gun shell comprises a first gun shell assembly and a second gun shell assembly, and the first gun shell assembly and the second gun shell assembly are assembled into the gun shell.

Preferably, the control device has a bluetooth module and/or a vibration module. Therefore, people can know the situation and remotely control through a computer, a mobile phone and the like.

Compared with the prior art, the utility model, owing to be equipped with a plurality of light sense detection mechanism, consequently can wait to detect the part respectively to a plurality of electronic air bullet rifle, so that controlling means knows better and waits to detect the condition of part, so as to control, this makes the operation of electronic air bullet rifle can be customized according to self condition by the user, let the operation of electronic air bullet rifle more accord with user's requirement, and the operation is more simple convenient, greatly promoted and used experience.

Drawings

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

fig. 2 is a schematic view of the embodiment 1 of fig. 1 with a second gun housing assembly removed;

FIG. 3 is a schematic view of the structure of FIG. 2 with the second circuit board removed;

FIG. 4 is an enlarged view of area A of FIG. 3;

FIG. 5 is a schematic view of the structure of FIG. 3 with the cone removed;

FIG. 6 is an exploded view of the detection device, trigger and cone of embodiment 1 of the present invention;

fig. 7 is a schematic block diagram of a circuit according to embodiment 1 of the present invention.

Detailed Description

Example 1

As shown in fig. 1 to 7, the electric air bullet gun with a plurality of light-sensitive detection mechanisms in the present embodiment includes a gun housing, a firing device 5, a trigger 2 and a control device (not visible in fig. 1 to 6), wherein the trigger 2 is rotatably installed at the bottom end of the middle portion of the gun housing, the firing device 5 and the control device are respectively disposed in the gun housing, and the firing device 5 has a cone 501.

The rifle shell includes first rifle shell subassembly 1, second rifle shell subassembly 4, and first rifle shell subassembly 1, second rifle shell subassembly 4 assemble into the rifle shell.

The electronic air bullet rifle still includes detection device 3, electronic air bullet rifle has a plurality of parts of waiting to detect, detection device 3 includes first circuit board 301, second circuit board 302, a plurality of light sense detection mechanism, controlling means is connected with emitter 5 electricity, first circuit board 301, second circuit board 302 are connected and first circuit board 301, second circuit board 302 sets up relatively, light sense detection mechanism with wait to detect both figure of part the same and one-to-one, light sense detection mechanism treats that the part detects and sends the detected signal, controlling means receives the detected signal and handles, control emitter 5 work.

One light sense detection mechanism is a trigger detection mechanism, the trigger detection mechanism comprises a first light emitter 304 and a plurality of first receivers 303, the middle part of the trigger 2 is hinged with a gun shell, the part to be detected is the trigger 2, the detection part of the part to be detected is a shielding block 201 arranged at the top end of the trigger 2, the shielding block 201 is positioned between a first circuit board 301 and a second circuit board 302, and the movement route of the shielding block passes through the space between the first light emitter 304 and each first receiver 303 of the trigger detection mechanism. Therefore, when the user pulls the trigger 2, the shielding block 201 shields one or more first receivers 303 when the trigger 2 rotates, so that the one or more first receivers 303 cannot receive the light emitted by the first light emitter 304. Therefore, the user can input the data of the first receiver 303 corresponding to the rotation angle of the trigger 2 into the control device according to the requirement. Thus, the control means controls the operation of the emitting means 5 as soon as it finds that the light emitted by the first light emitter 304 is not received by the one or more first receivers 303 corresponding to the rotation angle of the trigger 2.

The trigger detection mechanism is a correlation photoelectric sensor.

The light sensing detection mechanism is a cone detection mechanism, the part to be detected is a cone 501, the detection part of the part to be detected is teeth arranged on the edge of the cone 501, the cone detection mechanism comprises a second light emitter 307 and a second receiver, and a connecting line of the second light emitter 307 and the second receiver is vertically intersected with the motion track of the teeth on the edge of the cone 501. The light emitted by the second light emitter 307 is blocked by the teeth on the edge of the cone 501, the second receiver cannot receive the light, the cone detection mechanism outputs a cone detection signal, the control device receives the cone detection signal, processes the cone detection signal, and then outputs a control signal to the transmitting device 5 to control the transmitting device 5 to work. Thus, the control unit can know the rotation of the cone 501 to determine whether a complete shooting process is completed, so that the control unit can accurately control the operation of the launching device 5.

The trigger detection mechanism is a correlation photoelectric sensor.

One light sensing detection mechanism is a function detection mechanism, a light transmission window 401 is arranged on one side wall (the second gun shell component 4) of the gun shell, the function detection mechanism comprises a slidable shielding plate 310 and three diffusion reflection type photoelectric switches 309, a sliding groove is arranged on the outer surface of the side wall of the gun shell on which the light transmission window 401 is arranged, the light transmission window 401 is positioned in the sliding groove, the slidable shielding plate 310 is slidably arranged in the sliding groove, the diffusion reflection type photoelectric switch 309 is arranged on the outer side wall of the first circuit board 301, and the diffusion reflection type photoelectric switch 309 is positioned in the light transmission window 401; the diffuse reflection type photoelectric switch 309 emits light, when the light is shielded by the slidable shielding plate 310, the slidable shielding plate 310 reflects the light back to the diffuse reflection type photoelectric switch 309 which emits the light, the diffuse reflection type photoelectric switch 309 receives the emitted light and then emits a function detection signal, the control device receives and processes the function detection signal, and then emits a control signal to control the operation of the emitting device 5. The slidable shutter 310 slides along the sliding slot, and does not cover the diffuse reflection type photoelectric switches 309, but covers one or more diffuse reflection type photoelectric switches 309, so that zero, one or more diffuse reflection type photoelectric switches 309 send out function detection signals, and different numbers of function detection signals correspond to different functions, and the control device sends out a control signal to control the operation of the transmitting device 5 according to the condition of the received function detection signal.

In this embodiment, since the slidable shielding plate 310 has an irregular shape, the chute needs to be divided into several sections for manufacturing, the chute includes two upper clipping grooves 403 and two lower clipping grooves 402, the top edges of the slidable shielding plate 310 are respectively disposed in the two upper clipping grooves 403, and the bottom edges are disposed in the two lower clipping grooves 402.

The first circuit board 301 and the second circuit board 302 are connected by at least one PCB direct plug connector.

The PCB direct-insertion connector includes terminals 305 and a header 306, the terminals 305 being disposed on a first circuit board 301, and the header 306 being disposed on a second circuit board 302.

The control device is disposed on the second circuit board 302.

The control device is provided with a Bluetooth module and a vibration module. Therefore, people can know the situation and remotely control through a computer, a mobile phone and the like.

The working process is described below with reference to the accompanying drawings:

1. when the user pulls the trigger 2 and the trigger 2 rotates to a preferred angle, the shielding block 201 of the trigger 2 shields a corresponding number of first receivers 303, so that the first receivers 303 cannot receive the light emitted by the first light emitter 304. Once the control device finds that the first receiver 303 corresponding to the rotation angle of the trigger 2 does not receive the light emitted by the first light emitter 304, the control device controls the emitting device 5 to work, and the shooting speed is adjusted to be favorable for shooting;

2. when a user pulls the trigger 2, the control device controls the transmitting device 5 to work for shooting, at the moment, the cone 501 rotates, light emitted by the second light emitter 307 is shielded by teeth on the edge of the cone 501, the receiver 304 cannot receive the light, the photoelectric sensor outputs cone detection signals, the control device processes the cone detection signals after receiving the cone detection signals (according to the comparison of the number of the cone detection signals with a preset value, the number of the cone detection signals is equal to or greater than the preset value, a complete shooting process is determined to be completed), then the control signal is output to the transmitting device 5, and the transmitting device 5 is controlled to work. Thus, the control device knows the rotation condition of the cone 501 and determines whether to complete a complete shooting process so that the control device can accurately control the launching device 5 to work;

3. in this embodiment, there are three functions, safety, single shot firing, and continuous firing, which correspond to the three photoelectric sensors 303 one to one.

In the initial state, the slidable shielding plate 310 shields one of the photosensors 303 (located at the leftmost side), and the control device controls the transmitting device 5 not to operate when receiving the detection signal sent by the photosensor 303, that is, the safety function.

When the single shot function needs to be adjusted, the user pulls the slidable shielding plate 310, so that the slidable shielding plate 310 shields the two photoelectric sensors 303 (from left to right), and the control device receives detection signals sent by the two photoelectric sensors 303, controls the transmitting device 5 to shoot single shot, namely, the single shot function.

When the continuous shooting function needs to be adjusted, a user can stir the slidable shielding plate 310 to shield the three photoelectric sensors 303 by the slidable shielding plate 310, and the control device receives detection signals sent by the three photoelectric sensors 303 to control the transmitting device 5 to continuously shoot, namely, the continuous shooting function.

In fact, the other way around may be used, and when any of the photosensors 303 is not shielded, the function corresponding to the photosensor 303 is selected.

Example 2

The electric air bullet gun in this embodiment is different from embodiment 1 in that:

this embodiment has no trigger detection mechanism.

The control device is disposed on the first circuit board 301.

The terminals 305 of the PCB card connector are disposed on the second circuit board 302 and the header 306 is disposed on the first circuit board 301.

The outer surface of the side wall of the gun housing with the light-transmitting window 401 is also provided with a slidable baffle plate driving device. The slidable shielding plate driving device drives the slidable shielding plate to slide along the sliding groove.

The slidable shielding plate driving device is a cam, and the cam is connected with the slidable shielding plate. The cam is rotated to drive the slidable shielding plate to slide along the sliding groove.

Example 3

The electric air bullet gun in this embodiment is different from embodiment 1 in that:

this embodiment has no cone detection mechanism.

The control means is provided on the inside wall of the second gun housing assembly 4.

Example 4

The electric air bullet gun in this embodiment is different from embodiment 1 in that:

the present embodiment has no function detection mechanism. The side wall of the gun housing is free of a light transmissive window.

The control device is not provided with a Bluetooth module and a vibration module.

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 (9)

1. The utility model provides an electronic air bullet rifle with a plurality of light sense detection mechanism, includes gun case, emitter, trigger and controlling means, and the trigger is rotationally installed in gun case middle part bottom, and emitter, controlling means set up respectively in the gun case, and emitter has the gear wheel, its characterized in that: the electric air bomb gun further comprises a detection device, the electric air bomb gun is provided with a plurality of parts to be detected, the detection device comprises a first circuit board, a second circuit board and a plurality of light sensation detection mechanisms, the control device is electrically connected with the launching device, the first circuit board and the second circuit board are connected and arranged oppositely, the light sensation detection mechanisms and the parts to be detected are same in number and correspond to each other one by one, the light sensation detection mechanisms detect the parts to be detected and send detection signals, and the control device receives and processes the detection signals and controls the launching device to work.

2. The electric air bullet gun having a plurality of light sensing means as claimed in claim 1, wherein: the at least one light sensing detection mechanism comprises a light emitter and at least one receiver, the light emitter is arranged on the second circuit board, the receiver is arranged on the first circuit board, the light emitter and the receiver are oppositely arranged, and a connecting line of the light emitter and the receiver of the same light sensing detection mechanism is vertically intersected with a motion track of a detection part of the component to be detected.

3. The electric air bullet gun having a plurality of light sensing means as claimed in claim 2, wherein: one light sense detection mechanism is trigger detection mechanism, trigger detection mechanism includes first light emitter and a plurality of first receiver, and the trigger middle part articulates the gun case, and the part of waiting to detect is the trigger, and the part detection site of waiting to detect is for setting up the shielding piece at the trigger top, shields the piece and is located between first circuit board, the second circuit board and its movement route passes through between the first light emitter and each first receiver of trigger detection mechanism.

4. The electric air bullet gun having a plurality of light sensing means as claimed in claim 3, wherein: the trigger detection mechanism is a correlation photoelectric sensor.

5. The electric air bullet gun having a plurality of light sensing means as claimed in claim 2, wherein: the light sensation detection mechanism is a cone detection mechanism, the part to be detected is a cone, the detection part of the part to be detected is teeth arranged on the edge of the cone, the cone detection mechanism comprises a second light emitter and a second receiver, and the connecting line of the second light emitter and the second receiver is vertically intersected with the motion track of the teeth on the edge of the cone.

6. An electric air-bullet gun having a plurality of light-sensitive detection means according to any one of claims 1 to 5, wherein: the light sensation detection mechanism is a function detection mechanism, a light transmission window is formed in one side wall of the gun shell, the function detection mechanism comprises a slidable shielding plate and at least one diffusion reflection type photoelectric switch, a sliding groove is formed in the outer surface of the side wall of the gun shell, the light transmission window is positioned in the sliding groove, the slidable shielding plate is slidably arranged in the sliding groove, the diffusion reflection type photoelectric switch is arranged on the outer side wall of the first circuit board, and the diffusion reflection type photoelectric switch is positioned in the light transmission window; the diffuse reflection type photoelectric switch emits light, when the light is shielded by the slidable shielding plate, the slidable shielding plate reflects the light back to the diffuse reflection type photoelectric switch emitting the light, the diffuse reflection type photoelectric switch receives the emitted light and then emits a function detection signal, the control device receives and processes the function detection signal, and then the control device emits a control signal to control the emitting device to work.

7. The electric air bullet gun having a plurality of light sensing means as claimed in claim 6, wherein: the outer surface of the side wall of the gun shell with the light-transmitting window is also provided with a slidable baffle plate driving device.

8. The electric air bullet gun having a plurality of light sensing means as claimed in claim 7, wherein: the slidable shielding plate driving device is a cam, and the cam is connected with the slidable shielding plate.

9. The electric air bullet gun having a plurality of light sensing means as claimed in claim 1, wherein: the control device is provided with a Bluetooth module and/or a vibration module.