CN103376028A

CN103376028A - Method for prolonging fluorescent projectile lighting time and toy gun

Info

Publication number: CN103376028A
Application number: CN2012101199314A
Authority: CN
Inventors: 杨裕璋
Original assignee: Individual
Current assignee: Individual
Priority date: 2012-04-23
Filing date: 2012-04-23
Publication date: 2013-10-30

Abstract

The invention provides a method for prolonging fluorescent projectile lighting time and a toy gun. The toy gun comprises a gun body, a cartridge and a trigger. A fluorescent projectile is loaded in the cartridge. The toy gun further comprises an irradiation lamp control module, at least one fluorescent projectile irradiation lamp and a touch switch. The fluorescent projectile irradiation lamps and the touch switch are electrically connected to the irradiation lamp control module. The mounting positions of the fluorescent projectile irradiation lamps allows all the fluorescent projectile irradiation lamps can irradiate the fluorescent projectile in the cartridge. The touch switch is mounted on a triggering path. Before a triggering switch is touched by a triggering part, the triggering part touches the touch switch first to allow the irradiation lamp control module to turn on the fluorescent projectile irradiation lamps so as to irradiate the fluorescent projectile in the cartridge, and the fluorescent projectile is fully irradiated before being fired. By the method and the toy gun, self-lighting time of the fluorescent projectile is prolonged, self-lighting of the fluorescent projectile in firing range can be guaranteed, and a shooting game can be carried out fairly.

Description

Prolong method and the peashooter of fluorescence bullet fluorescent lifetime

Technical field

The present invention relates to the peashooter without lethality, particularly relate to the peashooter take the fluorescence bullet as bullet.

Background technology

Peashooter without lethality is widely used in shooting game.The bullet of described peashooter all adopts the spherical projectiles of being made by macromolecule polymeric material usually.In order to judge whether bullet hits the mark, described bullet also is compounded with the material that can absorb and discharge in short-term luminous energy in manufacture process, thereby described bullet is made into the fluorescence bullet.Described fluorescence bullet just can obtain luminous in short-term effect after being irradiated by light a period of time, thereby can help user or judicator to judge in the shooting game process whether the fluorescence bullet hits the mark.Obviously, use described fluorescence bullet in peashooter, lighting device to be set so that fluorescence bullet absorbing light energy to be penetrated.

Prior art has a type toy rifle to adopt external light-emitting device.The outward appearance of this external light-emitting device is made the shape of firearm suppressor, is installed on the gun barrel of peashooter.When the fluorescence bullet penetrates from gun barrel, the light that this fluorescence bullet penetrates in through the described external light-emitting device of absorption in the process of described external light-emitting device, thus reach the purpose that makes the fluorescence bullet luminous.But, because fluorescence bullet high-speed flight when penetrating gun barrel, this external light-emitting device is shorter to the irradiation time of fluorescence bullet, the fluorescence bullet is absorbing light energy fully, thereby described fluorescence bullet is also shorter from the time of main light emission, even also not reaching range straggling, described fluorescence bullet just can not be from main light emission.In addition, described external light-emitting device is installed on the gun barrel, has lengthened barrel length, has affected the portability of peashooter, and in the shooting game process, the person is mobile rapidly to be unfavorable for holding the peashooter, and makes quick action, and order holds the peashooter, and the person feels inconvenience.

Prior art also has a type toy rifle, and light-emitting device is set in peashooter.This peashooter that built-in light-emitting device is housed does not change the peashooter size, and the person can participate in shooting game easily to guarantee to hold the peashooter, has overcome the part defective of the external light-emitting device of above-mentioned installation.But the time of lighting of the light-emitting device that described peashooter is built-in is comparatively sluggish, can not shine timely the fluorescence bullet.Generally speaking, first fluoresce that bullet all can not absorb light energy and from main light emission; For the peashooter with running fire function, initial many fluorescence bullets that penetrate all can not be from main light emission; And described built-in light-emitting device still exists the fluorescence bullet shone inadequate problem, causes the fluorescence bullet in range can not be omnidistance from main light emission, thereby the peashooter of built-in light-emitting device can not make the fluorescence bullet bring into play its due effect.In addition, described built-in light-emitting device does not have switch mostly, the weak point in service life that makes this built-in light-emitting device and be used as the battery of power supply.

Summary of the invention

The technical problem to be solved in the present invention is to avoid the deficiencies in the prior art part and proposes to make the fluorescence bullet fully to be shone, and prolongs method and the peashooter of fluorescence bullet fluorescent lifetime than prior art.

The present invention solve the technical problem can be by realizing by the following technical solutions:

Implement a kind of method that prolongs fluorescence bullet fluorescent lifetime, based on the peashooter that comprises rifle body, magazine and trigger; The fluorescence bullet automatically or manually is housed in described magazine.Described trigger is provided with percussion section.In described rifle body, be provided with percussion switch.Pull described trigger, touch percussion switch after making the percussion section experience percussion path of this trigger, thereby the fluorescence bullet is penetrated in magazine.Described percussion path refers to be pulled to described percussion section from trigger touches the percussion switch process, the displacement path of described percussion section.Described method comprises the steps:

A., at least one fluorescence bullet irradiation light is set in described rifle body, makes the fluorescence resilience energy in the described magazine enough be shone by fluorescence bullet irradiation light;

B. in described percussion path one touch switch is set, thereby before described percussion section touches percussion switch, makes this percussion section contact first described touch switch;

C., the irradiation light control module is set in the rifle body, makes described touch switch and fluorescence bullet irradiation light all be electrically connected this irradiation light control module; Thereby when contacting described touch switch in described percussion section, described irradiation light control module drives each fluorescence bullet irradiation light and lights, and namely before described fluorescence bullet is penetrated magazine, makes this fluorescence bullet fully be shone by fluorescence bullet irradiation light.

In order to strengthen the exposure intensity to the fluorescence bullet, described steps A comprises step by step following:

A1., three fluorescence bullet irradiation lights are set in the rifle body, when described each fluorescence bullet irradiation light is lit, make the end face of fluorescence bullet in the described magazine, and illuminated respectively along the two sides of penetrating this fluorescence bullet of direction.

For the fluorescence bullet that newly enters magazine is shone in advance, described step C comprises step by step following:

C1., the irradiation light control module is set in the rifle body, in this irradiation light control module, time delay module is set;

C2. described touch switch is electrically connected the input port of described time delay module; The output port of this time delay module is used for to each fluorescence bullet irradiation light output drive signal; So that,

At described touch switch by the contact of described percussion section and when closed, the output port of described irradiation light control module drives each fluorescence bullet irradiation light and lights at once; Subsequently, when described touch switch was not contacted by percussion section and disconnects, the output port of described irradiation light control module just stopped after second to individual fluorescence bullet irradiation light output drive signal from the slow T of touch switch opening time delay, T ﹥ 0.

The present invention solve the technical problem can also be by realizing by the following technical solutions:

Design, a kind of peashooter that prolongs fluorescence bullet fluorescent lifetime of manufacturing comprise the rifle body, are arranged on the magazine in this rifle body, and trigger.The fluorescence bullet automatically or manually is housed in described magazine.Described trigger is provided with percussion section.In described rifle body, be provided with percussion switch.Pull described trigger, touch percussion switch after making the percussion section experience percussion path of this trigger, thereby the fluorescence bullet is penetrated in magazine.Described percussion path refers to be pulled from trigger touches process between the percussion switch to described percussion section, the displacement path of described percussion section.Especially, described peashooter also comprises the irradiation light control module, at least one fluorescence bullet irradiation light, and touch switch.Described fluorescence bullet irradiation light and touch switch are electrically connected described irradiation light control module.The installation site of described fluorescence bullet irradiation light makes all fluorescence bullet irradiation lights can shine the interior fluorescence bullet of magazine.Described trigger switch is installed on the described percussion path, before described percussion section touches percussion switch, make this percussion section contact first touch switch, cause described irradiation light control module that described fluorescence bullet irradiation light is lighted and shine fluorescence bullet in the magazine, thereby guarantee that the fluorescence bullet was fully shone before penetrating magazine.

In order to increase the exposure intensity to the fluorescence bullet, described peashooter comprises three fluorescence bullet irradiation lights, when described each fluorescence bullet irradiation light is lit, makes the end face of fluorescence bullet in the magazine, and illuminated respectively along the two sides of penetrating this fluorescence bullet of direction.

In order to light as early as possible described fluorescence bullet irradiation light, described touch switch is arranged in the front semipath of percussion on the path, and the percussion section that described front semipath refers to described trigger is pulled the displacement path that moves on to the percussion position between half extension position in described percussion path from trigger.

For the fluorescence bullet that newly enters magazine is shone in advance, described irradiation light control module comprises time delay module.The input of described time delay module is electrically connected described touch switch, and the output of this time delay module is to fluorescence bullet irradiation light output drive signal.When described touch switch by the percussion section of trigger contact and when closed, the output of described time delay module is at once to fluorescence bullet irradiation light output drive signal; Subsequently, when described touch switch was not disconnected by the contact of the percussion section of trigger, the output of described time delay module disconnected T at touch switch and just stops to fluorescence bullet irradiation light output drive signal T ﹥ 0 after second.

Particularly, described peashooter also comprises three fluorescence bullet irradiation lights that are connected in parallel.Described irradiation light control module also comprises driver module and Voltage stabilizing module.Described fluorescence bullet irradiation light all is LED.The input of described driver module is electrically connected the output of time delay module, and the output of this driver module is electrically connected three fluorescence bullet irradiation lights of described parallel connection.Three fluorescence bullet irradiation lights of described parallel connection are lighted or extinguished to described driver module according to the driving signal of time delay module output.Described Voltage stabilizing module is electrically connected three fluorescence bullet irradiation lights of described parallel connection, for described fluorescence bullet irradiation light provides stable input voltage.

Peashooter of the present invention can be air pressure trigger type peashooter, and described peashooter also comprises drive motors, comprises the transmission component of input gear and output gear, cylinder, the piston of shift reciprocately in this cylinder connects the back-moving spring of described piston and striker.When described percussion switch was not touched by the percussion section of trigger, drive motors shut down.When described percussion switch was touched by the percussion section of trigger, described drive motors started.The output shaft of described drive motors is to the input gear output torque of transmission component.Outer wall at described piston is provided with linear gear rack, the output gear of described transmission component and the engagement of described linear gear rack.By the compressed gas-driven striker of piston and cylinder generation, thereby the fluorescence bullet is penetrated in magazine.

The control circuit of described drive motors can adopt following concrete scheme, and described peashooter also comprises dc source, N raceway groove insulating gate type field effect tube, P raceway groove insulating gate type field effect tube, voltage-stabiliser tube, electric capacity, the first resistance, the second resistance, the 3rd resistance and the 4th resistance.The drain electrode of the drain electrode of described N raceway groove insulating gate type field effect tube and P raceway groove insulating gate type field effect tube is electrically connected on first node.The grid of described N raceway groove insulating gate type field effect tube is electrically connected on Section Point by the first resistance, and the source electrode of this N raceway groove insulating gate type field effect tube is electrically connected on the negative pole of dc source.The grid of described P raceway groove insulating gate type field effect tube is electrically connected on the 3rd node by the second resistance, and the source electrode of this P raceway groove insulating gate type field effect tube is electrically connected on the positive pole of dc source.Described the 3rd resistance and voltage-stabiliser tube are connected in parallel between the negative pole and Section Point of dc source.Described the 4th resistance is connected electrically between the positive pole and the 3rd node of dc source.Described electric capacity is connected electrically between Section Point and the 3rd node.Described percussion switch is connected electrically between the positive pole and Section Point of dc source.Described drive motors is connected electrically between the positive pole and first node of dc source.

Compare with prior art, the technique effect that the present invention " prolongs method and the peashooter of fluorescence bullet fluorescent lifetime " is:

1. fluorescence bullet irradiation light of the present invention is arranged in the rifle body, does not change the original size of peashooter, guarantees the convenience that armed player uses peashooter;

2. the percussion section of trigger of the present invention contacts first touch switch in the percussion path, then just touch percussion switch, make fluorescence bullet irradiation light before fluorescence launches out, light first this fluorescence bullet of irradiation, the fluorescence resilience energy is absorbing light energy enough fully, prolonged the autonomous fluorescent lifetime of fluorescence bullet than prior art, guarantee that the fluorescence bullet can both give full play to the effect of fluorescence bullet from main light emission in range in shooting game, make shooting game more fair and just;

3. the present invention just extinguishes fluorescence bullet irradiation light when emitting fluorescence bullet not, has saved electric energy, guarantees the life-span of fluorescence bullet irradiation light and dc source;

4. fluorescence bullet irradiation light of the present invention adopts the mode of delay-action, and next fluorescence bullet that is about to penetrate is carried out pre-irradiation, guarantees that the fluorescence bullet has sufficient autonomous fluorescent lifetime;

5. the present invention respectively from three different direction irradiation fluorescence bullets, guarantees the enough more absorbing light energy of fluorescence resilience energy with three fluorescence bullet irradiation lights, makes the fluorescence bullet that sufficient autonomous fluorescent lifetime is arranged.

Description of drawings

Fig. 1 is the main schematic diagram of looking of orthographic projection of the main internal structure of the present invention's " method and peashooter of prolongation fluorescence bullet fluorescent lifetime " preferred embodiment rifle body 1;

Fig. 2 is the local enlarged diagram of trigger 3 among Fig. 1, touch switch 53 and percussion switch 32;

Fig. 3 is that schematic diagram is looked on the orthographic projection right side of the magazine 2 of described preferred embodiment;

Fig. 4 is the circuit theory schematic block diagram of described preferred embodiment irradiation light control module 51, fluorescence bullet irradiation light 52 and touch switch 53;

Fig. 5 is the sequential schematic diagram of described preferred embodiment time delay module 511;

Fig. 6 is the circuit theory schematic diagram that 32 pairs of drive motors of described preferred embodiment percussion switch 61 are implemented control.

The specific embodiment

Be described in further detail below in conjunction with the accompanying drawing illustrated embodiment.

The present invention proposes a kind of method that prolongs fluorescence bullet fluorescent lifetime, based on the peashooter that comprises rifle body, magazine and trigger.The fluorescence bullet automatically or manually is housed in described magazine.Described trigger is provided with percussion section.In described rifle body, be provided with percussion switch.Pull described trigger, touch percussion switch after making the percussion section experience percussion path of this trigger, thereby the fluorescence bullet is penetrated in magazine.Described percussion path refers to be pulled to described percussion section from trigger touches the percussion switch process, the displacement path of described percussion section.Described method comprises the steps:

The percussion section of described trigger contacts first touch switch in the percussion path, then just touch percussion switch, make fluorescence bullet irradiation light before fluorescence launches out, light first this fluorescence bullet of irradiation, the fluorescence resilience energy is absorbing light energy enough fully, prolonged the autonomous fluorescent lifetime of fluorescence bullet than prior art, guarantee that the fluorescence resilience energy can both give full play to the effect of fluorescence bullet from main light emission enough in range in shooting game, make shooting game more fair and just.

The present invention also proposes to realize the peashooter of the prolongation fluorescence bullet fluorescent lifetime of said method, as shown in Figure 1 to Figure 3, comprises rifle body 1, is arranged on the magazine 2 in this rifle body, and trigger 3.Fluorescence bullet 4 automatically or manually is housed in described magazine 2.Described trigger 3 is provided with percussion section 31.In described rifle body 1, be provided with percussion switch 32.Pull described trigger 3, make percussion section 31 experience of this trigger 3 pull the trigger shake-up percussion switch 32 behind the paths, thereby make fluorescence bullet 4 from magazine 2 interior ejaculations.As shown in Figure 2, described percussion path refers to be pulled the process of touching between the percussion switches 32 to described percussion section 31 from trigger 3, the displacement path XY of described percussion section 31.Described peashooter also comprises irradiation light control module 51, at least one fluorescence bullet irradiation light 52, and touch switch 53.Described fluorescence bullet irradiation light 52 and touch switch 53 are electrically connected described irradiation light control module 51.The installation site of described fluorescence bullet irradiation light 52 makes all fluorescence bullet irradiation lights 52 can shine fluorescence bullet 4 in the magazine 2.Described trigger switch 53 is installed on the described percussion path, before described percussion section 31 touches percussion switches 32, make this percussion section 31 contact first touch switch 53, cause described irradiation light control module 51 that described fluorescence bullet irradiation light 52 is lighted and shine fluorescence bullet 4 in the magazine 2, thereby guarantee that fluorescence bullet 4 was fully shone before penetrating magazine 2.

In order to increase the exposure intensity to the fluorescence bullet, described peashooter comprises three fluorescence bullet irradiation lights 52, when described each fluorescence bullet irradiation light 52 is lit, makes the end face of magazine 2 interior fluorescence bullets 4, and illuminated respectively along the two sides of penetrating this fluorescence bullet 4 of direction.The preferred embodiment of the present invention, as shown in Figure 3, fluorescence bullet irradiation light 52 is arranged in the magazine 2 the first oblique upper that fluoresces bullet 4, to the first end face and side-irradiation that fluoresces bullet 4; Other connect a fluorescence bullet irradiation light 52 be arranged in the magazine 2 second fluoresce bullet 4 and the 3rd fluoresce between the bullet 4 along ejaculation direction two sides, there is irradiation two sides to first three bullet 4 that fluoresces, guarantee that 4 at least three on first method fluorescence bullet is illuminated, make 4 three extinctions of this fluorescence bullet.Through overtesting, the autonomous fluorescent lifetime of the fluorescence bullet 4 after this structured illumination is 30 seconds.To fluorescence bullet 4 maximum workmanship's two Joulemeters, the fluorescence bullet weighs 0.2 gram after tested with the aerodynamic force toy rifle, muzzle velocity degree 140 meter per seconds, and 60 meters of effective ranges, the light that sends of fluorescence bullet 4 is still high-visible in penetrating 30 to 40 meters so.Under experimental enviroment preferably, described fluorescence bullet 4 can both be from main light emission in effective range.

In order to light as early as possible described fluorescence bullet irradiation light, described touch switch 53 is arranged in the front semipath of pulling the trigger on the path, the percussion section 31 that described front semipath refers to described trigger 3 is pulled to percussion section 31 from trigger 3 is displaced to displacement path between half extension position in described percussion path, i.e. path between the XN shown in Figure 3.

For the fluorescence bullet that newly enters magazine is shone in advance, the preferred embodiment of the present invention, as shown in Figure 4 and Figure 5, described irradiation light control module 51 comprises time delay module 511.The input I of described time delay module 511 is electrically connected described touch switch 53, and the output O of this time delay module 511 is to fluorescence bullet irradiation light 52 output drive signals.When described touch switch 53 by the contact of the percussion section 31 of trigger 3 and when closed, namely t0 shown in Figure 5 constantly, the output O of described time delay module 511 is at once to fluorescence bullet irradiation light 52 output drive signals; Subsequently, when described touch switch 53 is not disconnected by percussion section 31 contacts of trigger 3, i.e. in the t1 moment shown in Figure 5, the output O of described time delay module 511 disconnects T at touch switch 53 and just stops to fluorescence bullet irradiation light 52 output drive signals T ﹥ 0 after second.As shown in Figure 5, the output O at t2 described time delay module 511 of the moment just stops to fluorescence bullet irradiation light 52 output drive signals.The described time delay module 511 of the preferred embodiment of the present invention adopts 555 timers to realize.

The preferred embodiment of the present invention, as shown in Figure 4, described peashooter also comprises three fluorescence bullet irradiation lights 52 that are connected in parallel.Described irradiation light control module 51 also comprises driver module 512 and Voltage stabilizing module 513.Described fluorescence bullet irradiation light 52 all is LED.The input of described driver module 512 is electrically connected the output O of time delay module 511, and the output of this driver module 512 is electrically connected three fluorescence bullet irradiation lights 52 of described parallel connection.Three fluorescence bullet irradiation lights 52 of described parallel connection are lighted or extinguished to described driver module 512 according to the driving signal of time delay module 511 outputs.The preferred embodiment of the present invention, described driver module 512 adopts N raceway groove insulating gate type field effect tube.Described Voltage stabilizing module 513 is electrically connected three fluorescence bullet irradiation lights 52 of described parallel connection, for described fluorescence bullet irradiation light 52 provides stable input voltage.The preferred embodiment of the present invention, described Voltage stabilizing module 513 employing models are voltage stabilizing chips of 7805.

The preferred embodiment of the present invention, described peashooter is air pressure trigger type peashooter, as shown in Figure 1, also comprise drive motors 61, the transmission component 62 that comprises input gear 621 and output gear 622, cylinder 64 is at the piston 63 of these cylinder 64 interior shift reciprocatelies, the back-moving spring 66 that connects described piston 63, and striker 65.The described transmission component 62 of the preferred embodiment of the present invention also comprises the idler gear 623 that all meshes with input gear 621 and output gear 622.Described transmission component 62 also plays the effect of the rotating speed that slows down.When described percussion switch 32 was not touched by the percussion section 31 of trigger 3, drive motors 61 shut down.When described percussion switch 32 was touched by the percussion section 31 of trigger 3, described drive motors 61 started.The output shaft of described drive motors 61 is to the input gear 621 output torques of transmission component 62.Outer wall at described piston 63 is provided with linear gear rack 632, the output gear 622 of described transmission component 62 and described linear gear rack 632 engagements.By the compressed gas-driven striker 65 of piston 63 and cylinder 64 generations, thereby make fluorescence bullet 4 from magazine 2 interior ejaculations.

The preferred embodiment of the present invention adopts following concrete scheme to the control circuit of described drive motors 61, as shown in Figure 6, described peashooter also comprises dc source 71, N raceway groove insulating gate type field effect tube 72, P raceway groove insulating gate type field effect tube 73, voltage-stabiliser tube 74, electric capacity 75, the first resistance 76, the second resistance 77, the 3rd resistance 78 and the 4th resistance 79.The drain D of the drain D of described N raceway groove insulating gate type field effect tube 72 and P raceway groove insulating gate type field effect tube 73 is electrically connected on first node a.The grid G of described N raceway groove insulating gate type field effect tube 72 is electrically connected on Section Point b by the first resistance 76, and the source S of this N raceway groove insulating gate type field effect tube 72 is electrically connected on the negative pole of dc source 71.The grid G of described P raceway groove insulating gate type field effect tube 73 is electrically connected on the 3rd node c by the second resistance 77, and the source S of this P raceway groove insulating gate type field effect tube 73 is electrically connected on the positive pole of dc source 71.Described the 3rd resistance 78 and voltage-stabiliser tube 74 are connected in parallel between the negative pole and Section Point b of dc source 71.Described the 4th resistance 79 is connected electrically between the positive pole and the 3rd node c of dc source 71.Described electric capacity 75 is connected electrically between Section Point b and the 3rd node c.Described percussion switch 32 is connected electrically between the positive pole and Section Point b of dc source 71.Described drive motors 61 is connected electrically between the positive pole and first node a of dc source 71.When percussion switch 32 was not disconnected by percussion section 31 shake-up of trigger 3, percussion switch 32 place branch roads disconnected, and N raceway groove insulating gate type field effect tube 72 can not be opened, and drive motors 61 is in stop state.When percussion switch 32 is touched closure by the percussion section 31 of trigger 3, exciting switch 32 place branch, short-circuits, N raceway groove insulating gate type field effect tube 72 is open-minded, and drive motors 61 gets electric startup.When percussion switch 32 during to off-state, can make drive motors 61 faster stalls by described P raceway groove insulating gate type field effect tube 73 by closure state.

Claims

1. a peashooter that prolongs fluorescence bullet fluorescent lifetime comprises rifle body (1), is arranged on the magazine (2) in this rifle body, and trigger (3); Fluorescence bullet (4) automatically or manually is housed in described magazine (2); Described trigger (3) is provided with percussion section (31); In described rifle body (1), be provided with percussion switch (32); Pull described trigger (3), touch percussion switch (32) after making percussion section (31) the experience percussion path of this trigger (3), thereby fluorescence bullet (4) is penetrated in magazine (2); Described percussion path refers to be pulled to the process between described percussion section (31) the shake-up percussion switch (32) displacement path of described percussion section (31) from trigger (3); It is characterized in that:

Also comprise irradiation light control module (51), at least one fluorescence bullet irradiation light (52), and touch switch (53); Described fluorescence bullet irradiation light (52) and touch switch (53) are electrically connected described irradiation light control module (51);

The installation site of described fluorescence bullet irradiation light (52) makes all fluorescence bullet irradiation lights (52) can shine the interior fluorescence bullet (4) of magazine (2);

Described trigger switch (53) is installed on the described percussion path, touch percussion switch (32) before in described percussion section (31), make this percussion section (31) contact first touch switch (53), cause described irradiation light control module (51) that described fluorescence bullet irradiation light (52) is lighted and shine fluorescence bullet (4) in the magazine (2), thereby guarantee that fluorescence bullet (4) is fully shone before penetrating magazine (2).

2. the peashooter of prolongation fluorescence bullet fluorescent lifetime according to claim 1 is characterized in that:

Comprise three fluorescence bullet irradiation lights (52), when described each fluorescence bullet irradiation light (52) when being lit, make the end face of the interior fluorescence bullet of magazine (2) (4), and illuminated respectively along the two sides of penetrating this fluorescence bullet (4) of direction.

3. the peashooter of prolongation fluorescence bullet fluorescent lifetime according to claim 1 is characterized in that:

Described touch switch (53) is arranged in the front semipath of percussion on the path, and the percussion section (31) that described front semipath refers to described trigger (3) is pulled to percussion section (31) from trigger (3) is displaced to displacement path between half extension position in described percussion path.

4. the peashooter of prolongation fluorescence bullet fluorescent lifetime according to claim 1 is characterized in that:

Described irradiation light control module (51) comprises time delay module (511); The input of described time delay module (511) is electrically connected described touch switch (53), and the output of this time delay module (511) is to fluorescence bullet irradiation light (52) output drive signal;

When described touch switch (53) by the percussion section (31) of trigger (3) contact and when closed, the output of described time delay module (511) is at once to fluorescence bullet irradiation light (52) output drive signal; Subsequently, when described touch switch (53) is not disconnected by the contact of the percussion section (31) of trigger (3), the output of described time delay module (511) disconnects T at touch switch (53) just to be stopped after second to fluorescence bullet irradiation light (52) output drive signal, T ﹥ 0.

5. the peashooter of prolongation fluorescence bullet fluorescent lifetime according to claim 4 is characterized in that:

Also comprise three fluorescence bullet irradiation lights (52) that are connected in parallel; Described irradiation light control module (51) also comprises driver module (512) and Voltage stabilizing module (513); Described fluorescence bullet irradiation light (52) all is LED;

The input of described driver module (512) is electrically connected the output of time delay module (511), and the output of this driver module (512) is electrically connected three fluorescence bullet irradiation lights (52) of described parallel connection; Three fluorescence bullet irradiation lights (52) of described parallel connection are lighted or extinguished to described driver module (512) according to the driving signal of time delay module (511) output;

Described Voltage stabilizing module (513) is electrically connected three fluorescence bullet irradiation lights (52) of described parallel connection, for described fluorescence bullet irradiation light (52) provides stable input voltage.

6. the peashooter of prolongation fluorescence bullet fluorescent lifetime according to claim 1 is characterized in that:

Also comprise drive motors (61), the transmission component (62) that comprises input gear (621) and output gear (622), cylinder (64), the piston (63) of shift reciprocately in this cylinder (64), the back-moving spring (66) that connects described piston (63), and striker (65);

When described percussion switch (32) was not touched by the percussion section (31) of trigger (3), drive motors (61) shut down; When described percussion switch (32) was touched by the percussion section (31) of trigger (3), described drive motors (61) started; The output shaft of described drive motors (61) is to input gear (621) the output torque of transmission component (62); Outer wall at described piston (63) is provided with linear gear rack (632), the output gear (622) of described transmission component (62) and described linear gear rack (632) engagement; By the compressed gas-driven striker (65) of piston (63) and cylinder (64) generation, thereby fluorescence bullet (4) is penetrated in magazine (2).

7. the peashooter of prolongation fluorescence bullet fluorescent lifetime according to claim 6 is characterized in that:

Also comprise dc source (71), N raceway groove insulating gate type field effect tube (72), P raceway groove insulating gate type field effect tube (73), voltage-stabiliser tube (74), electric capacity (75), the first resistance (76), the second resistance (77), the 3rd resistance (78) and the 4th resistance (79);

The drain electrode (D) of described N raceway groove insulating gate type field effect tube (72) is electrically connected on first node (a) with the drain electrode (D) of P raceway groove insulating gate type field effect tube (73); The grid (G) of described N raceway groove insulating gate type field effect tube (72) is electrically connected on Section Point (b) by the first resistance (76), and the source electrode (S) of this N raceway groove insulating gate type field effect tube (72) is electrically connected on the negative pole of dc source (71); The grid (G) of described P raceway groove insulating gate type field effect tube (73) is electrically connected on the 3rd node (c) by the second resistance (77), and the source electrode (S) of this P raceway groove insulating gate type field effect tube (73) is electrically connected on the positive pole of dc source (71);

Described the 3rd resistance (78) and voltage-stabiliser tube (74) are connected in parallel between the negative pole and Section Point (b) of dc source (71); Described the 4th resistance (79) is connected electrically between the positive pole and the 3rd node (c) of dc source (71); Described electric capacity (75) is connected electrically between Section Point (b) and the 3rd node (c);

Described percussion switch (32) is connected electrically between the positive pole and Section Point (b) of dc source (71); Described drive motors (61) is connected electrically between the positive pole and first node (a) of dc source (71).

8. method that prolongs fluorescence bullet fluorescent lifetime is based on the peashooter that comprises rifle body, magazine and trigger; The fluorescence bullet automatically or manually is housed in described magazine; Described trigger is provided with percussion section; In described rifle body, be provided with percussion switch; Pull described trigger, touch percussion switch after making the percussion section experience percussion path of this trigger, thereby the fluorescence bullet is penetrated in magazine; Described percussion path refers to be pulled to described percussion section from trigger touches the percussion switch process, the displacement path of described percussion section; It is characterized in that described method comprises the steps:

9. the method for prolongation fluorescence bullet fluorescent lifetime according to claim 8 is characterized in that:

Described steps A comprises step by step following:

10. the method for prolongation fluorescence bullet fluorescent lifetime according to claim 8 is characterized in that:

Described step C comprises step by step following: