CN118248016A - Simulation gun secondary fire simulation mechanism and working method thereof - Google Patents

Abstract

The invention aims to overcome the defects of the prior art, and provides a simulation gun secondary fire simulation mechanism and a working method thereof, which can improve the simulation experience when a user pulls a trigger. The trigger comprises a trigger, a trigger ejector rod seat and a trigger connecting rod, wherein an execution end of the trigger is fixed to an articulated arm, the front end of the articulated arm is articulated with the rear end of the trigger connecting rod, the front end of the trigger connecting rod is lapped on the rear end of the trigger ejector rod seat, a T-shaped groove is longitudinally formed in the trigger ejector rod seat, a trigger release spring and a trigger ejector rod are arranged in the T-shaped groove, a trigger release spring pin is arranged on the trigger ejector rod seat, the trigger ejector rod is positioned behind the trigger release spring, the trigger ejector rod is in sliding fit with the T-shaped groove, the two ends of the trigger release spring are respectively connected with the trigger release spring pin and the trigger ejector rod, a trigger ejector rod pin is arranged on the trigger ejector rod, a spacing distance is reserved between the trigger connecting rod and the trigger ejector rod pin, a yielding notch is formed in the rear upper end of the trigger ejector rod seat, and the front end point of the yielding notch forms a pivot for leading the trigger ejector rod seat to be upwards tilted.

Description

Simulation gun secondary fire simulation mechanism and working method thereof

Technical Field

The invention relates to the technical field of simulation guns, in particular to a simulation gun secondary fire simulation mechanism and a working method thereof.

Background

The semi-physical simulation equipment used in the special combat simulation training system is a simulation firearm which can be operated by trained personnel, and can improve the feeling of the user, wherein the recoil formation and the hand feeling of the trigger and insurance conversion position are important parts for improving the simulation feeling.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, and provides a simulation gun secondary fire simulation mechanism and a working method thereof, which can greatly improve the simulation experience when a user pulls a trigger.

The purpose of the invention is realized in the following way:

the simulation mechanism for simulating the second fire of the gun comprises a trigger, a trigger ejector rod seat and a trigger connecting rod, wherein the trigger ejector rod seat is horizontally arranged in front of the trigger,

The actuating end of trigger is fixed to be equipped with the articulated arm that extends forward, and the front end of articulated arm is articulated with the rear end of trigger connecting rod, and the front end overlap joint of trigger connecting rod is on the rear end of trigger ejector pin seat, is equipped with T type groove along vertically in the trigger ejector pin seat, be equipped with firing release spring, trigger ejector pin in the T type inslot, be equipped with firing release spring round pin on the trigger ejector pin seat along transversely, the front end of firing release spring is spacing to the firing release spring, and the trigger ejector pin is located the rear of firing release spring, and the cross-section of trigger ejector pin is T type, trigger ejector pin and T type groove sliding fit, and the both ends of firing release spring are connected with release spring round pin, trigger ejector pin respectively, are equipped with the trigger ejector pin that upwards extends and pass T type groove on the trigger ejector pin, and the trigger ejector pin is located the place ahead of trigger connecting rod, leave the interval between trigger connecting rod and the trigger ejector pin under the normality, the rear upper end of trigger ejector pin seat is equipped with the breach, the breach is used for stepping down the articulated arm of trigger, the front end of trigger release breach, the front end of messenger's trigger ejector pin, the front end of trigger ejector pin can be passed through the front end of trigger ejector pin seat.

Preferably, the front end of the trigger articulated arm is articulated with the rear end of the trigger connecting rod through a trigger connecting rod pin, the trigger connecting rod pin is sleeved with a release torsion spring, two ends of the release torsion spring respectively act on the trigger articulated arm and the trigger connecting rod, and the front end of the trigger connecting rod is downwards lapped on the rear end of the trigger ejector rod seat under the action of the spring force of the release torsion spring.

Preferably, the two ends of the firing release spring are respectively welded or sleeved with the firing release spring pin and the trigger ejector rod.

Preferably, the trigger ejector rod is inserted and fixed with a trigger ejector rod pin.

A working method of a simulation gun two-way fire simulation mechanism,

When the trigger is pulled, the trigger is subjected to the resistance of the trigger spring, and the trigger pushes the trigger connecting rod to move forwards through the hinge arm until the trigger connecting rod is contacted with the trigger jacking rod pin;

The trigger is continuously pulled, the trigger connecting rod pushes the trigger ejector rod forwards through the trigger ejector rod pin, so that the trigger release spring is compressed, at the moment, the trigger is subjected to the resistance of the trigger spring and the resistance of the trigger release spring, the step jump growth of the trigger force is realized, and the interaction hand feeling of the trigger and the trigger is simulated;

and continuously pulling the trigger, wherein the front end point of the yielding gap is used as a fulcrum, the trigger hinge arm drives the rear end of the trigger connecting rod to move downwards, the front end of the trigger ejector rod seat is tilted upwards until the front end of the trigger ejector rod seat passes through the trigger ejector rod pin, at the moment, the trigger ejector rod seat is separated from the trigger ejector rod pin, the trigger ejector rod is reset under the action of the trigger release spring, the trigger force jump is reduced, and the process hand feeling of the sear for releasing the hammer is simulated.

Due to the adoption of the technical scheme, the invention has the advantages of reciprocation reliability, simulation hand feeling, strong portability and wide application range, and the scheme thought can be realized in most trigger rotation simulation firearms. The invention has the following advantages

The beneficial effects are that:

(1) The simulation gun two-fire simulation mechanism has the advantages that the space required by the simulation gun two-fire simulation mechanism is small, the space is mainly occupied longitudinally, the simulation gun two-fire simulation mechanism is particularly suitable for small firearms, compared with a mounting firearms, the simulation gun two-fire simulation mechanism can realize the hand feeling that the step jump of the trigger force is smooth and the trigger force is increased only by adding a small set of mechanism in front of the trigger, for example, the simulation gun two-fire simulation mechanism is in a 95-1 series, and only about 10 multiplied by 40 of installation space is required.

(2) A simulation mechanism for simulating the second fire of a gun can provide simulated second fire hand feeling, and a user can have better simulation experience when pulling a trigger through structural control. The finger contacts the trigger to pull slowly backwards, the trigger transmits stable rotation moment, when the initial point of the action of the trigger and the mechanism is reached, the trigger force jumps and grows instantly, and at the moment, a user can simulate and experience the interaction between the trigger and a gun machine in the gun. Continuing to pull the trigger, the trigger force steadily and continuously increases, and when the trigger force reaches the release limit, the trigger is released, and the trigger force is restored to be near the initial level. The innovative characteristics can effectively improve the simulation degree of the second fire hand feeling of the simulation firearm.

(3) The simulation mechanism for the second fire of the simulation gun can correspondingly finely adjust and change the external dimensions of parts of the mechanism according to the rotation angles and the action dimensions of the triggers of different simulation guns to realize similar second fire hand feeling, and can realize different second fire hand feeling of the same simulation gun through finely adjusting the dimensions for the same simulation gun. The innovative characteristics can greatly reduce the difficulty of realizing the second fire hand feeling of various simulated firearms.

(4) The two-way fire simulating mechanism for simulating gun has simple and reliable structure, and includes trigger and standard parts, 9 parts assembled together, and the main parts include trigger link rod, release torsion spring, trigger release spring, trigger push rod seat and trigger push rod. Simple structure and reliable movement. This innovative feature is an effective way of improving the reliability of the mechanism.

(5) After the simulated firing is completed, all the components return under the action of the spring, so that no return resistance exists, and the use faults are not easy to occur.

(6) In the front end upwarp process of the trigger ejector rod seat, as the trigger connecting rod is of a rectangular structure, the rear end of the trigger connecting rod moves downwards, the contact position between the front lower end of the trigger connecting rod and the trigger ejector rod pin is approximately unchanged, the resistance of the trigger release spring is approximately unchanged, the time for forming the resistance of the trigger release spring can be adjusted according to the height of the trigger ejector rod pin, the trigger release spring can be adjusted according to different firearms, the trigger ejector rod seat is not limited to small-range application, the adjustable range is extremely large, and the simulation is more real.

Drawings

FIG. 1 is a schematic diagram of an axial structure of the present invention;

FIG. 2 is a schematic view of the trigger force initiation configuration of the present invention;

FIG. 3 is a schematic view of the trigger force step jump starting position configuration of the present invention;

FIG. 4 is a schematic view of the trigger force step transition end position configuration of the present invention;

fig. 5 is a schematic perspective view of the present invention.

Reference numerals

In the accompanying drawings, 1: trigger ejector pin seat, 2: firing release spring pin, 3: firing release spring, 4: trigger ejector pin, 5: trigger ejector pin, 6: trigger link, 7: trigger link pin, 8: release torsion spring, 9: and a trigger.

Detailed Description

Embodiments of the present invention will be described in further detail below with reference to the accompanying drawings.

The utility model provides a simulation rifle two-way fire analog mechanism, including trigger 9, trigger 9 articulates in the rifle body, is equipped with the trigger spring on the trigger, and the trigger is acted on trigger, rifle body, still includes trigger ejector pin seat 1, trigger connecting rod 6, trigger ejector pin seat 1 flat locates the place ahead of trigger 9, and trigger ejector pin seat 1 fixes in the rifle body, the execution end of trigger 9 is fixed to be equipped with the articulated arm that extends forward, the front end of articulated arm articulates with the rear end of trigger connecting rod 6, the front end overlap joint of trigger connecting rod 6 is on the rear end of trigger ejector pin seat 1, be equipped with T type groove along vertically in the trigger ejector pin seat 1, be equipped with firing release spring 3, trigger ejector pin 4 in the T type groove, trigger ejector pin seat 1 is gone up along transversely to be equipped with firing release spring pin 2, firing release spring pin 2 is spacing to the front end of firing release spring 3, trigger ejector pin 4 is located release spring 3's rear, trigger ejector pin 4's cross-section is the T type, trigger ejector pin 4 and T type groove sliding fit, release spring 3's both ends are connected with trigger release pin 2, trigger 4 respectively, trigger pin 4 is equipped with the trigger pin 4 to be equipped with on the trigger pin 4 to be equipped with the trigger pin 5, and pass the front end of trigger pin 5, the trigger pin 5 is located the front end of trigger pin 5 is located the trigger pin 5, the gap is located the front end of trigger pin 1, the trigger pin is located the front end of the trigger connecting rod 5, the trigger pin is located the front end of the trigger pin 1, and is located the front to be equipped with the trigger pin 5, and is located to the front to the gap, and is located to the front to the trigger pin 5.

The front end of the trigger 9 articulated arm is articulated with the rear end of the trigger connecting rod 6 through the trigger connecting rod pin 7, the trigger connecting rod pin 7 is sleeved with a release torsion spring 8, two ends of the release torsion spring 8 respectively act on the trigger 9 articulated arm and the trigger connecting rod 6, and the front end of the trigger connecting rod 6 is downwards lapped on the rear end of the trigger ejector rod seat 1 under the action of the spring force of the release torsion spring 8. The spring force always leads the trigger connecting rod 6 to have downward trend, thus being tightly attached to the lower mechanism and being not easy to cause faults.

The two ends of the firing release spring 3 are respectively welded or sleeved with the firing release spring pin 2 and the trigger push rod 4. The trigger push rod 4 is inserted and fixed with a trigger push rod pin 5.

The working method of the simulation gun two-way fire simulation mechanism comprises the following steps:

when the trigger 9 is pulled, at this time, the trigger 9 receives the resistance of the trigger spring, and the trigger 9 pushes the trigger connecting rod 6 to move forwards through the hinge arm until the trigger connecting rod contacts with the trigger jacking rod pin;

Continuing to pull the trigger, the trigger connecting rod 6 pushes the trigger ejector rod 4 forwards through the trigger ejector rod pin 5 to compress the trigger release spring 3, at the moment, the trigger 9 receives the resistance of the trigger spring and the resistance of the trigger release spring 3, so that the step jump of the pulling force is increased, and the interaction hand feeling of the trigger and the trigger is experienced in a simulation manner;

The trigger is continuously pulled, the front end point of the yielding gap is used as a fulcrum, the hinge arm of the trigger 9 drives the rear end of the trigger connecting rod 6 to move downwards, the front end of the trigger ejector rod seat 1 is tilted upwards until the front end of the trigger ejector rod seat 1 passes through the trigger ejector rod pin 5, at the moment, the trigger ejector rod seat 1 is separated from the trigger ejector rod pin 5, the trigger ejector rod 4 is reset under the action of the trigger release spring 3, the trigger force jump is reduced, and the process hand feeling of the sear for releasing the hammer is simulated.

Specifically:

in the initial state, as shown in fig. 2, a distance is left between the trigger connecting rod and the trigger top rod pin, the trigger is acted by the trigger spring, and when the trigger is pulled by a user, the trigger spring provides reverse rotation moment, so that the stress is stable.

When the trigger connecting rod moves forwards to be in contact with the trigger rod pin, as shown in fig. 3, the trigger connecting rod continues to move to push the trigger rod provided with the trigger rod pin forwards, the resistance can instantaneously increase the spring force for triggering the release spring pre-pressing, and the step jump of the trigger force is realized.

When the trigger is pulled to the position shown in fig. 4, the trigger ejector rod seat and the trigger connecting rod act, gradually tilt upwards, and at the position, the interaction between the trigger ejector rod seat and the trigger ejector rod pin is lost, and at the moment, the trigger ejector rod is reset under the action of the trigger release spring. The trigger force is instantaneously changed down and restored to the vicinity of the initial state.

The simulation of the hand feeling of the simulation gun two-way fire simulation mechanism is more real and finer, a simulated gun using hand feeling is constructed through mechanical transmission among related structures, and better shooting experience can be achieved when a user pulls a trigger. The user touches the trigger by the finger to slowly pull back, and the trigger transmits stable rotation moment in the initial stage, so that the force value is slightly increased and almost unchanged; when reaching the initial point of trigger and this mechanism effect, the trigger power realizes the step jump in the twinkling of an eye and grows, and the user can know the stroke position that the trigger was fired according to the feel that the trigger passed this moment, and the simulation experiences the interaction of trigger and the inside "rifle bolt" of firearm. The user continues to pull the trigger, the trigger force steadily and continuously increases, when the trigger force reaches the 'percussion' position, the instant jump of the trigger force is reduced, the instant hand feeling of releasing the 'hammer' by the 'sear' part in the firearm is simulated, and finally, the trigger force is restored to be near the initial level. The innovative characteristics can effectively improve the simulation degree of the second fire hand feeling of the simulation firearm.

Finally, it is noted that the above-mentioned preferred embodiments are only intended to illustrate rather than limit the invention, and that, although the invention has been described in detail by means of the above-mentioned preferred embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the scope of the invention as defined by the appended claims.

Claims (5)

1. The utility model provides a simulation rifle second way fire analog mechanism, includes trigger, its characterized in that: also comprises a trigger ejector rod seat and a trigger connecting rod, wherein the trigger ejector rod seat is arranged in front of the trigger,

The actuating end of trigger is fixed to be equipped with the articulated arm that extends forward, and the front end of articulated arm is articulated with the rear end of trigger connecting rod, and the front end overlap joint of trigger connecting rod is on the rear end of trigger ejector pin seat, is equipped with T type groove along vertically in the trigger ejector pin seat, be equipped with firing release spring, trigger ejector pin in the T type inslot, be equipped with firing release spring round pin on the trigger ejector pin seat along transversely, the front end of firing release spring is spacing to the firing release spring, and the trigger ejector pin is located the rear of firing release spring, and the cross-section of trigger ejector pin is T type, trigger ejector pin and T type groove sliding fit, and the both ends of firing release spring are connected with release spring round pin, trigger ejector pin respectively, are equipped with the trigger ejector pin that upwards extends and pass T type groove on the trigger ejector pin, and the trigger ejector pin is located the place ahead of trigger connecting rod, leave the interval between trigger connecting rod and the trigger ejector pin under the normality, the rear upper end of trigger ejector pin seat is equipped with the breach, the breach is used for stepping down the articulated arm of trigger, the front end of trigger release breach, the front end of messenger's trigger ejector pin, the front end of trigger ejector pin can be passed through the front end of trigger ejector pin seat.

2. The simulation gun secondary fire simulation mechanism according to claim 1, wherein: the front end of the trigger articulated arm is articulated with the rear end of the trigger connecting rod through a trigger connecting rod pin, a release torsion spring is sleeved on the trigger connecting rod pin, two ends of the release torsion spring respectively act on the trigger articulated arm and the trigger connecting rod, and the front end of the trigger connecting rod is downwards lapped on the rear end of the trigger ejector rod seat under the action of the spring force of the release torsion spring.

3. The simulation gun secondary fire simulation mechanism according to claim 1, wherein: the two ends of the firing release spring are respectively welded or sleeved with the firing release spring pin and the trigger ejector rod.

4. The simulation gun secondary fire simulation mechanism according to claim 1, wherein: the trigger ejector rod is inserted and fixed with a trigger ejector rod pin.

5. A method of operating a simulated gun two-way fire simulation mechanism as claimed in claim 1, wherein:

When the trigger is pulled, the trigger is subjected to the resistance of the trigger spring, and the trigger pushes the trigger connecting rod to move forwards through the hinge arm until the trigger connecting rod is contacted with the trigger jacking rod pin;

The trigger is continuously pulled, the trigger connecting rod pushes the trigger ejector rod forwards through the trigger ejector rod pin, so that the trigger release spring is compressed, at the moment, the trigger is subjected to the resistance of the trigger spring and the resistance of the trigger release spring, the step jump growth of the trigger force is realized, and the interaction hand feeling of the trigger and the trigger is simulated;

And continuously pulling the trigger, wherein the front end point of the yielding gap is used as a fulcrum, the trigger hinge arm drives the rear end of the trigger connecting rod to move downwards, the front end of the trigger ejector rod seat is tilted upwards until the front end of the trigger ejector rod seat passes through the trigger ejector rod pin, at the moment, the trigger ejector rod seat is separated from the trigger ejector rod pin, the trigger ejector rod is reset under the action of the trigger release spring, the recoil feeling is simulated, the trigger force jump is reduced, and the process feeling of releasing the hammer by the sear is simulated.