CN210645080U - Bullet-beating simulation mechanism - Google Patents

Abstract

The utility model relates to the field of toys, in particular to a bullet shooting simulation mechanism, which comprises a bullet shooting mechanism provided with a recoil simulation device, an air pressure generator, a smoke generator and a control device; the bullet ejection mechanism is provided with a bullet ejection cavity, the smoke generator is provided with a smoke outlet, and the bullet ejection cavity is communicated with the smoke outlet; the bullet ejection mechanism is provided with a signal generator, and the signal generator is triggered to send a signal after the bullet ejection mechanism is started; the control device controls the bullet ejection mechanism to start, and outputs voltage to the smoke generator; when the control device receives the signal sent by the signal generator, the control device outputs voltage to the air pressure generator; the air pressure generator is provided with an air outlet, and the smoke generator is communicated with the air outlet. The utility model discloses recoil and smog emulation when realizing shooting promotes the interest and the sense of reality of recreation.

Description

Bullet-beating simulation mechanism

Technical Field

The utility model relates to a toy field, in particular to play bullet emulation mechanism.

Background

The bullet model toys are highly interesting, have no danger and are deeply popular in the market, audiences age is distributed in all levels, but most bullet models in the market only achieve the vivid effect on the appearance, and the reality sense is lower in the game process.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides a play bullet simulation mechanism, this mechanism can imitate play bullet recoil and muzzle smoking, and the game player experiences lifelike bullet process of playing.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a ballistic simulation mechanism, comprising: a bullet ejection mechanism provided with a recoil simulation device, an air pressure generator, a smoke generator and a control device;

the bullet ejection mechanism is provided with a bullet ejection cavity, the smoke generator is provided with a smoke outlet, and the bullet ejection cavity is communicated with the smoke outlet;

the bullet ejection mechanism is provided with a signal generator, and the signal generator is triggered to send a signal after the bullet ejection mechanism is started;

the control device controls the bullet ejection mechanism to start, and outputs voltage to the smoke generator;

when the control device receives the signal sent by the signal generator, the control device outputs voltage to the air pressure generator;

the air pressure generator is provided with an air outlet, and the smoke generator is communicated with the air outlet.

Compared with the prior art, the utility model is provided with the control device, the bullet ejection mechanism, the air pressure generator and the smoke generator, and the control device provides voltage for the smoke generator, so that the smoke generator generates smoke; when the bullet ejection mechanism is started, the bullet is prepared to enter a shooting state, the bullet ejection mechanism triggers the signal generator to send a signal to the control device, the control device provides voltage for the air pressure generator according to the received signal sent by the signal generator, so that the air pressure generator is powered to operate to generate air pressure and output air into the smoke generator, the smoke generator ejects smoke into the bullet ejection cavity under the action of the air pressure generator, the smoke in the bullet ejection cavity is ejected out from the bullet outlet of the bullet ejection mechanism along with the ejection action of the bullet, the bullet ejection mechanism simulates recoil force when shooting a bullet and simultaneously realizes the smoke simulation when ejecting the bullet, the vivid effect of a game toy is improved, and the game reality experience of game players is improved.

Preferably, when the control device receives the signal from the signal generator, the control device outputs a control signal to the acoustic device to cause the acoustic device to emit a sound simulating the emission of a shell.

The utility model discloses a controlling means is still according to receiving the signal that signal generator sent, the sound that sends when control sound device sends the simulated shell transmission improves the lifelike effect of recreation toy, promotes game player's recreation reality degree and experiences.

Preferably, the control device comprises a controller and a voltage control board, and the signal generator comprises a first signal generator and a second signal generator;

the controller outputs a voltage to the voltage control board;

the voltage control board outputs voltage to the smoke generator;

the voltage control board receives a signal sent by the first signal generator to output voltage to the air pressure generator;

the controller receives the signal sent by the first signal generator to output the control signal to the sound device.

Preferably, the remote control device further comprises a remote controller, and a wireless signal receiver for receiving signals of the remote controller is arranged on the control device.

The utility model discloses a set up the remote controller, realize remote control and play bullet emulation mechanism, improve the playing method variety of toy, improve the taste degree of toy.

Preferably, the signal generator is a flip-flop.

Preferably, the air pressure generator is an air pump.

Preferably, the aerosol generator comprises a smoke generating cartridge; the smoke outlet is arranged on the smoke making tube, and the smoke making tube is also provided with an air inlet communicated with the air outlet of the air pressure generator; the smoke generating tube is internally provided with flame-retardant cotton which is stained with oil and a heating wire which is wound with an oil guide rope from bottom to top; the heating wire is electrically communicated with the voltage control panel.

Preferably, the bullet ejection mechanism comprises a shell, a launching mechanism arranged in the shell and a launching barrel;

the launching mechanism comprises a sliding plug assembly, an air cylinder assembly and a driving transmission assembly for driving the sliding plug assembly and the air cylinder assembly to move towards the inner cavity wall of the shell;

the inflator assembly comprises an inflator, and the inflator comprises a barrel cavity opening end and an air outlet hole end;

the launching cylinder comprises a smoke inlet end and a smoke outlet end which are in air conduction with the air outlet end of the air cylinder; the bullet shooting cavity is arranged on the smoke inlet end of the shooting barrel;

the sliding plug assembly comprises a sliding plug device which is arranged at the opening end of the cylinder cavity of the cylinder and can reciprocate in the cylinder cavity of the cylinder, and a power spring which is arranged between the inner cavity wall of the shell and the sliding plug device;

the recoil simulation device comprises a pull rod and a return spring;

the two ends of the reset spring are respectively arranged on the air cylinder and the shell, the pull rod is arranged outside the shell, and the two ends of the pull rod are respectively connected with the air cylinder and the launching tube.

Preferably, the driving transmission assembly comprises a driving motor, a gear set in transmission connection with the driving motor, a rack meshed with an output gear of the gear set, and a sliding plate fixedly connected with the rack;

the output gear is a half gear, and the sliding plate is fixedly connected with the sliding plug device.

Preferably, the signal generator is arranged on the wall of the inner cavity of the shell;

when the output gear of the gear set drives the rack to move to the termination position, the sliding plate is abutted to trigger the signal generator.

Drawings

The present invention will now be further described with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural diagram of the present invention

FIG. 2 is a schematic diagram of the structure of the smoke generator;

figure 3 is a schematic structural view of a bullet ejection mechanism;

figure 4 is an exploded view of the bullet ejection mechanism.

In the figure:

1. a bullet ejection mechanism; 11. a signal generator; 12. a launch canister; 121. the smoke outlet end of the launching tube; 131. a pull rod; 132. a return spring; 141. a sliding plug device; 142. a power spring; 151. an air cylinder; 161. a drive motor; 162. A gear set; 1621. an output gear; 1622. a protrusion; 163. a rack; 164. a slide plate; 17. a housing; 21. a smoke generator; 211. an air inlet of the smoke generating tube; 212. a smoke outlet; 213. flame-retardant cotton; 214. an oil guide rope; 215. a heater; 22. An air pressure generator; 221. an air outlet of the air pressure generator; 31. A controller; 32. and a voltage control board.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

As shown in fig. 1-4, the utility model provides a play bullet emulation mechanism, include: the bullet ejection mechanism 1 is provided with a recoil simulation device, an air pressure generator 22, a smoke generator 21 and a control device;

the bullet ejection mechanism 1 is provided with a bullet emission cavity, the smoke generator 21 is provided with a smoke outlet 212, and the bullet emission cavity is communicated with the smoke outlet 212;

the bullet ejection mechanism 1 is provided with a signal generator 11; after the bullet ejection mechanism 1 is started, triggering the signal generator 11 to send out a signal;

the control device controls the bullet ejection mechanism 1 to start, and outputs voltage to the smoke generator 21;

when the control device receives the signal sent by the signal generator 11, the control device outputs voltage to the air pressure generator 22;

an air outlet 221 is formed in the air pressure generator 22, and the smoke generator 21 is communicated with the air outlet 221.

Compared with the prior art, the utility model has the advantages that the control device and the bullet ejection mechanism 1 are arranged, the air pressure generator 22 is powered on to output air pressure, the smoke generator 21 is inflated into the smoke cavity inside the smoke cavity and can emit smoke at the smoke outlet, and the control device provides voltage for the smoke generator 21, so that the smoke generator 21 generates smoke; when the bullet ejection mechanism 1 is started, the situation that a bullet is ready to enter a shooting state is described, the signal generator 11 sends a signal to the control device at the moment, the control device provides voltage for the air pressure generator 22 according to the received signal sent by the signal generator 11, the air pressure generator 22 outputs air into the smoke generator 21 after being electrified, smoke generated in the smoke generator 21 is output into the bullet ejection cavity, the smoke in the bullet ejection cavity is ejected out from the bullet ejection port in the bullet ejection mechanism 1 along with the ejection action of the bullet, so that the ejection mechanism 1 simulates recoil force and simultaneously realizes smoke simulation when the bullet is ejected when the bullet is fired, the vivid effect of a game toy is improved, and the game reality experience of game players is improved.

In order to improve the simulation effect and the variety of playing methods from the aspect of sound, the utility model also comprises a sound device and a remote controller, and the control device outputs a control signal to the sound device according to the signal sent by the signal generator 11; and the control device is provided with a wireless signal receiver for receiving the remote controller signal.

The utility model discloses a controlling means is according to receiving the signal that signal generator 11 sent controls the sound that the audio equipment sent the shell shooting, and the sound that sends when the simulated shell transmission improves the lifelike effect of recreation toy, promotes recreation player's recreation reality degree and experiences

As shown in fig. 1, the control device includes a controller 31 and a voltage control board 32; the signal generator 11 comprises a first signal generator and a second signal generator;

the controller 31 outputs a voltage to the voltage control board 32; the voltage control board 32 outputs a voltage to the smoke generator 21; the voltage control board 32 receives the signal sent by the first signal generator to output voltage to the air pressure generator; the controller 31 receives the signal from the second signal generator to output a control signal to the audio device.

Preferably, the signal generator is a trigger; the air pressure generator is an air pump.

As shown in fig. 2, the smoke generator 21 comprises a smoke generating tube, the smoke outlet 212 is arranged on the smoke generating tube, and the smoke generating tube is further provided with an air inlet 211 communicated with the air outlet 221 of the air pressure generator; the inside of the smoke generating tube is provided with flame-retardant cotton 213 stained with oil and a heating wire 215 wound with an oil guide rope 214 from bottom to top; the heating wire 215 is electrically conducted with the voltage control board 32.

As shown in fig. 3 and 4, the bullet ejecting mechanism 1 includes a housing 17, a shooting mechanism disposed in the housing 17, and a shooting barrel 12;

the firing mechanism comprises a sliding plug assembly 14, an air cylinder 151 assembly 15, and a driving transmission assembly 16 for driving the sliding plug assembly 14 and the air cylinder 151 assembly 15 to move towards the inner cavity wall of the shell 17;

the cartridge 151 assembly 15 comprises a cartridge 151, the cartridge 151 comprising a cartridge cavity open end and a vent end;

the canister 12 includes a smoke inlet end in gas communication with the air outlet end of the cylinder 151, and a smoke outlet end 121; the bullet shooting cavity is arranged on the smoke inlet end of the shooting barrel 12;

the sliding plug assembly 14 comprises a sliding plug device 141 which is arranged at the opening end of the cylinder cavity of the cylinder 151 and can reciprocate in the cylinder cavity of the cylinder 151, and a power spring 142 which is arranged between the inner cavity wall of the shell 17 and the sliding plug device 141;

the recoil simulator comprises a pull rod 131 and a return spring 132;

the two ends of the return spring 132 are respectively arranged on the air cylinder 151 and the shell 17, the pull rod is arranged outside the shell 17, and the two ends of the pull rod are respectively connected with the air cylinder 151 and the launching tube 12.

Preferably, the driving transmission assembly 16 includes a driving motor 161, a gear set 162 in transmission connection with the driving motor 161, a rack 163 engaged with an output gear 1621 of the gear set 162, and a sliding plate 164 fixedly connected with the rack 163;

the output gear 1621 is a half gear, and the sliding plate 164 is fixedly connected with the sliding plug device 141.

Preferably, the gear set 162 is provided with a protrusion 1622, and the protrusion 1622 is engaged with the cylinder 151 when the output gear 1621 is engaged with the rack 163.

Preferably, the signal generator is arranged on the inner cavity wall of the shell 17; when the output gear 1621 of the gear set 162 drives the rack 163 to move to the end position, the sliding plate 164 abuts against and triggers the signal generator.

When the bullet ejection mechanism 1 is started, the driving motor 161 drives the gear set 162 to rotate, the gear set 162 drives the rack 163 to move, the rack 163 drives the sliding plate 164 to move, and the sliding plate 164 drives the sliding plug device 141 to move in the direction of compressing the power spring 142; since the protrusion 1622 of the gear set 162 is engaged with the cylinder 151, the cylinder 151 and the launch barrel 12 are fixedly connected by the pull rod, so that the cylinder 151 and the launch barrel 12 also move together with the sliding plug assembly 14. Since the output gear 1621 of the gear set 162 is a half gear, when the sliding plate 164 abuts against the trigger signal generator (i.e., trigger) after the output gear 1621 rotates by a certain angle, the air cylinder 151 and the rack 163 are disengaged from the output gear 1621;

after the air cylinder 151, the rack 163 and the output gear 1621 are disengaged, the air cylinder 151 and the launching cylinder 12 move to the original position under the action of the return spring 132 of the air cylinder 151; the sliding plug device 141 continues to move toward the direction of the return of the power spring 142;

after the sliding plate 164 abuts against the trigger signal generator, the controller 31 and the voltage control board 32 respectively receive the trigger signal sent by the trigger, and the voltage control board 32 outputs voltage to the air pump, so that the air pump generates air pressure and the air pressure acts on the smoke generator 21 to make smoke enter the bullet emission cavity;

when the voltage control board 32 receives the signal sent by the first signal generator, the voltage control board 32 provides voltage to the air pump, so that the air pressure of the air pump acts in the smoke generator, and the smoke in the smoke generator enters the bullet emission cavity and is emitted from the smoke outlet 121 of the emission tube 12; at this time, the gas cylinder 151 and the barrel 12 are returned to their original positions, and the acoustic device makes a shell firing sound under the control of the controller 31.

The present invention is not limited to the above embodiment, and various modifications and variations of the present invention are intended to be included within the scope of the claims and the equivalent technology if they do not depart from the spirit and scope of the present invention.

Claims (10)

1. A ballistic simulation mechanism, comprising: a bullet ejection mechanism provided with a recoil simulation device, an air pressure generator, a smoke generator and a control device;

the bullet ejection mechanism is provided with a bullet ejection cavity, the smoke generator is provided with a smoke outlet, and the bullet ejection cavity is communicated with the smoke outlet;

the bullet ejection mechanism is provided with a signal generator, and the signal generator is triggered to send a signal after the bullet ejection mechanism is started;

the control device controls the bullet ejection mechanism to start, and outputs voltage to the smoke generator;

when the control device receives the signal sent by the signal generator, the control device outputs voltage to the air pressure generator;

the air pressure generator is provided with an air outlet, and the smoke generator is communicated with the air outlet.

2. The loading simulation mechanism of claim 1, further comprising an audio device, wherein upon receipt of the signal from the signal generator, the control device outputs a control signal to the audio device to cause the audio device to emit a sound simulating the firing of the projectile.

3. The ballistic simulation mechanism of claim 2, wherein the control device includes a controller and a voltage control board, the signal generator including a first signal generator and a second signal generator;

the controller outputs a voltage to the voltage control board;

the voltage control board outputs voltage to the smoke generator;

the voltage control board receives a signal sent by the first signal generator to output voltage to the air pressure generator;

the controller receives the signal sent by the second signal generator to output the control signal to the sound device.

4. The ballistic simulation mechanism of claim 1, further comprising a remote control, wherein the control device is provided with a wireless signal receiver for receiving signals from the remote control.

5. The ballistic simulation mechanism of any one of claims 1 to 4, wherein the signal generator is a trigger.

6. The popping simulation mechanism of any one of claims 1-4, wherein the air pressure generator is an air pump.

7. The ballistic simulation mechanism of claim 3, wherein the smoke generator comprises a smoke producing cartridge;

the smoke outlet is arranged on the smoke making tube, and the smoke making tube is also provided with an air inlet communicated with the air outlet of the air pressure generator;

the smoke generating tube is internally provided with flame-retardant cotton which is stained with oil and a heating wire which is wound with an oil guide rope from bottom to top;

the heating wire is electrically communicated with the voltage control panel.

8. The loading emulation mechanism of claim 1, wherein the cartridge ejection mechanism comprises a housing, a launch barrel, a firing mechanism disposed within the housing;

the launching mechanism comprises a sliding plug assembly, an air cylinder assembly and a driving transmission assembly for driving the sliding plug assembly and the air cylinder assembly to move towards the inner cavity wall of the shell;

the inflator assembly comprises an inflator, and the inflator comprises a barrel cavity opening end and an air outlet hole end;

the launching cylinder comprises a smoke inlet end and a smoke outlet end which are in air conduction with the air outlet end of the air cylinder; the bullet shooting cavity is arranged on the smoke inlet end of the shooting barrel;

the sliding plug assembly comprises a sliding plug device which is arranged at the opening end of the cylinder cavity of the cylinder and can reciprocate in the cylinder cavity of the cylinder, and a power spring which is arranged between the inner cavity wall of the shell and the sliding plug device;

the recoil simulation device comprises a pull rod and a return spring;

the two ends of the reset spring are respectively arranged on the air cylinder and the shell, the pull rod is arranged outside the shell, and the two ends of the pull rod are respectively connected with the air cylinder and the launching tube.

9. The ballistic simulation mechanism of claim 8, wherein the drive transmission assembly includes a drive motor, a gear set in driving connection with the drive motor, a rack engaged with an output gear of the gear set, and a slide plate fixedly connected to the rack;

the output gear is a half gear, and the sliding plate is fixedly connected with the sliding plug device.

10. The ballistic emulation mechanism of claim 9, wherein the signal generator is disposed on the housing interior cavity wall;

when the output gear of the gear set drives the rack to move to the termination position, the sliding plate is abutted to trigger the signal generator.

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