WO2016090712A1

WO2016090712A1 - Revolver gun

Info

Publication number: WO2016090712A1
Application number: PCT/CN2015/000881
Authority: WO
Inventors: 刘卫平
Original assignee: 刘卫平
Priority date: 2014-12-08
Filing date: 2015-12-10
Publication date: 2016-06-16

Abstract

A revolver gun is mainly composed of a gun body, a gun barrel, a revolver, a recoil spring and a trigger. A gas guide tube (8) is welded on the gun barrel, and the inner bores thereof are communicated. The gun barrel and the gun body are integrated as a whole. A bolt (5) is inserted into the gas guide tube (8) through the revolver (3) and the recoil spring. A firing pin and a pawl are provided on the rear end of the bolt (5). A bullet supply jack at the middle of the bolt (5) pushes backward and pushes against a bullet in a magazine (17) into a to-be-fired bullet nest of the revolver (3). The trigger (14) is clamped in a clamp slot below the bolt (5) when ascending. A safety button has three positions of running shot, safety and single shot. When the revolver gun is shooting, the bullet supply jack is capable of automatically and continuously feeding bullets into the to-be-fired bullet nest, and the pawl automatically and continuously ejects cartridges forward to press the revolver (3) to rotate, so that the to-be-fired bullet nest is aligned with the gun barrel, and the firing pin advances with the bolt (5) to strike the bullet to complete automatic and continuous shooting. A grenade barrel is arranged above the gun, and a grenade is shot by means of the striking of the firing pin by a handle (4).

Description

Runner gun

Technical field

The invention relates to a revolver gun.

Background technique

At present, the known revolver gun is mainly composed of a barrel reel gun body and a hammer trigger. In the six bomb nests of the runner, the bullets are pre-loaded by hand, and when the trigger is pulled backwards, the trigger drives the hammer to rotate the compression hammer spring backward, and the pawl attached to the trigger pushes the ratchet to rotate. When the wheel rotates, the other turning rod will be caught in the groove of the outer circle of the wheel, so that the round nest of the wheel and the barrel are completely aligned. At this time, the trigger releases the hammer and the hammer spring pushes. The top hammer is ejected forward, and the needle at the front end of the hammer passes through the hole of the gun body and hits the bullet bottom to ignite the propellant. The high pressure gas generated by the propellant combustion drives the warhead out of the barrel. By repeatedly pulling the trigger back, it will complete multiple shots, and finally take the shell out of the wheel by hand. The shortcoming is that the bullet must be loaded into the nest to be hit by hand before shooting, and the shot to be hit can not be automatically aligned with the barrel to complete the shooting, and the shell cannot be automatically thrown. In the pending state, because the trigger has no safety device, it is often the case that the child pulls the trigger to accidentally injure the family member.

Summary of the invention

In order to overcome the deficiencies of the existing revolver gun, the present invention provides a revolver gun capable of continuously and automatically loading a bullet into a nest to be hit, and simultaneously automatically aligning the bouncing bomb to the barrel and automatically throwing the shell forward. When the gun is in danger, the bullet cannot be fired even if the trigger is pulled.

The technical solution adopted by the invention to solve the technical problem is that the revolver gun is mainly composed of a gun barrel and a wheel trigger, and the air guiding tube is fixed on the barrel, the inner hole of the air guiding tube is connected with the inner hole of the barrel, and the bolt is turned through. The wheel and the re-introduction spring are inserted into the air guiding tube, and the rear end of the bolt has a needle and a rotating rod. The feeding bolt on the bolt pushes the bullet into the nest to be hit, and the gun body has a safety button. Insert the magazine into the gun body, pull the bolt back, push the bullet into the top of the magazine, and then insert the bullet into the nest to be hit. Pull the trigger up into the slot under the bolt; pull the safety button to the firing position, After the trigger is pulled, the re-entry spring drives the bolt forward, and the rotating rod is inserted into the shell to suppress the shell rotation. When the needle is aligned with the barrel, the needle passes through the round hole of the gun body and hits the bullet bottom fire. , igniting propellant to push the warhead to the target. The soaring gas enters the air guiding tube to push the bolt back to compress the re-entry spring, pushes the bullet into the nest to be hit, and then the re-introduction spring pushes the bolt forward to align the barrel with the shell. In this way, the bullet is loaded into the bullet to be fired continuously until the trigger is lifted into the slot of the bolt to stop shooting.

The utility model has the beneficial effects that the revolver gun can automatically and automatically load the bullets into the bomb to be hit, can automatically align the shell to be shot and automatically throw the shell forward, and has the function of trigger insurance, and the performance is reliable and simple. .

DRAWINGS

Figure 1/2 is a schematic illustration of the ultra-long version of the present invention. Figure 2/2 is a schematic illustration of the ultra-short version of the present invention.

detailed description

The first embodiment is as shown in FIG. 1/2: the air guiding tube (8) is welded to the barrel after being screwed into the nut (7) from the front end, and a part of the air guiding tube and the nut rear end are not threaded, and the air guiding tube is not threaded. There is a small hole in the outer circle that communicates with the inside of the tube. The inner hole of the air guiding tube communicates with the inner hole of the barrel through the horizontal hole, and the rear end of the barrel is integrally formed with the gun body (16), and the runner (6) with six front large small conical elastic nests is inserted into the concave body of the gun body. Inside the slot. After the bolt (5) enters from the V-shaped hole at the rear end of the gun body, it is inserted into the hole of the center hole base (6) of the round hole runner of the gun body and the re-entry spring is inserted into the air guiding tube. The flange on the upper left side of the tail of the bolt is inserted into the straight groove of the gun body, and the head of the front end of the flange is a hemisphere; the tail of the L-shaped rotating rod (1) in the upper right flange of the tail of the bolt is inserted upward into the flange. The welding is integrated, and the rear part of the rotating rod is caught in the downward groove of the flange. The handle (4) between the runner and the base is welded integrally with the bolt, and the feed pin is snapped between the front and rear flanges of the lower end of the handle, and a wire passes through the two flanges and the hole for feeding the elastic body, and the two ends thereof After bending, press it on the delivery pin or handle. The end of the spiral reentrant spring is inserted into the base, and the head is narrowed and then snapped into the annular groove of the bolt, and the front end thereof is bent upward. A conical plug (9) is coupled in the tapered hole at the front end of the air guiding tube, and a 6-shaped insert (10) is inserted into the groove at the front end of the plug, and a wire passes through the hole of the plug and the insert, the steel wire The two ends are bent forward and deformed into the card slot in front of the air guiding tube, and a gap is formed at the rear end of the plug. One end of one wire in the groove of the gun body is integrally formed with the left wall, and the other end is inserted into the lateral groove of the rear wall of the groove; the L-shaped retracting body (11) is inserted into the longitudinal hole of the gun body, and the handle is engaged therein. Inside the card slot between the gun body and the rubber pad, the rubber pad sticks behind the gun body. The S-shaped trigger (14) is loosely sleeved on the pin integrally formed with the gun body. The horizontal axis (13) of the L-shaped safety button passes through the hole of the gun body, and a steel wire is inserted into the transverse hole of the horizontal axis. After the lower bending deformation, the upward elbow is inserted into the downward hole of the base, and the head of the horizontal axis is semicircular; the horizontal axis of the L-shaped magazine lock (15) is inserted into the hole of the gun body, and the trigger spring (12) Integral with the horizontal axis, the trigger spring is bent and wrapped around the trigger pin for two turns, and then its inward elbow snaps into the groove in front of the trigger. The curved magazine (17) is inserted into the groove of the rear side of the horizontal axis of the magazine lock from the lower entrance of the grip, and the upper portion of the groove of the horizontal shaft is rotated backward into the groove in front of the magazine. A sight is mounted in the hole in the flange of the front barrel of the gun body. When there is no magazine in the gun body, the handle of the magazine lock is lifted up to the horizontal axis of the safety button, and the delivery body can also be integrated with the handle. The bullet casing in the bomb nest is a small and small conical shell, and the extruded tubular propellant is attached to the inner wall of the shell, and the bottom fire is fixed on the bottom of the shell and the inner wall of the propellant; the bottom of the warhead (2) is pressed against the propellant and the bottom fire. The middle and rear portions of the bullet are adhered to the inner wall of the propellant, and the cap having the central circular hole is pressed against the annular propellant in the casing, and the inwardly facing flange of the cap is caught in the annular groove between the propellant and the casing. The inside of the cap is covered with a plastic film to close the center hole. The bullet can also be coated with a paraffin wax instead of a plastic film, but the surface of the propellant that is in contact with air. The grenade barrel is inserted back into the two holes above the barrel and passed through the hole of the handle. A screw is screwed into the side hole of the handle and inserted into the groove of the grenade barrel. The center hole of the base integrally formed with the gun body has a pin in the center hole, and a wire is inserted into the left and right holes of the base and the hole at the rear end of the pin, and both ends are bent forward into the groove of the base. The shell is made in one piece with the gun body at the front left end of the gun body.

The use of this embodiment is shown in Figure 1/2: after the right hand holds the gun and presses the female finger down the insurance button, the magazine full of bullets is inserted upward from the grip inlet, and the magazine is inserted into the groove of the magazine lock. The arc-shaped elastic piece in the front part of the magazine hooks the front end of the bullet, and the magazine is bent upward and deformed downward, and the upper part of the horizontal axis of the magazine lock is rotated backward into the groove in front of the magazine. Fixed magazine. When the safety button is released, the steel wire forces the safety button to rotate upward, and the curved flange of the safety button is inserted into the curved groove of the horizontal axis of the magazine lock to fix the magazine lock, and the semicircular head of the horizontal axis of the safety button is upward. Rotate the top to the trigger and the flange of the trigger snaps into the groove of the bolt. Press the safety button, the semi-circular head of the horizontal axis is separated from the trigger, and the handle is pulled backwards. Compressing the re-entry spring, sending the bullet to send the uppermost bullet in the magazine into the to-be-shot nest of the runner, and the bullet in the magazine is pushed up and pushed upward to press on the outer circle of the bullet. After the rod is pulled out from the nest, the head is bounced upwards to align with one of the upper nests, and the trigger spring drives the trigger to rotate upwardly into the slot below the bolt to prohibit the bolt from moving forward. Pull the trigger backwards, the trigger rotates downward to separate from the slot of the bolt, and the re-entry spring pushes the top of the bolt forward, and the rotating rod enters the upper one of the nest to push the shell inside, and the rotating rod is thrown forward. When the compression spring is rotated downward, the front end of the rotating rod is pressed and bent, and the front end is bent downward and deformed; when the rotating wheel points the bullet casing to the barrel, the needle passes through the round hole of the gun body in the straight groove. Hit the bottom of the bullet, hit the bottom of the bullet, ignite the propellant, push the warhead into the barrel and shoot the target; the propellant simultaneously pushes the cap of the bullet to press the barrel, and the compressed gas in the air duct passes through the gap of the plug from the air duct Discharge one hole to the outside. Rotate the tab 90 degrees downward and 180 degrees above the side to connect the gap of the plug to the cross hole of the barrel. Press the safety button and pull the bolt back to compress the recoil spring. The arc groove of the bolt squeezes the trigger to rotate downwards, and the bullet pushes the top bullet into the nest to be hit. The trigger is rotated upwards and the clamp is prohibited from moving into the slot of the bolt. Release the safety button, and the semicircular head of the horizontal axis rotates upward to push the inner arc surface of the trigger to prevent the trigger from performing the pending insurance. Press the insurance button to separate the horizontal axis from the trigger, pull the trigger back, separate the trigger from the bolt, and push the spring to push the top of the bolt. The rotating rod is inserted into the top of the nest. At the same time, the rotating rod presses the rotating wheel, and when the bullet is aligned with the barrel, the needle passes through the round hole and hits the bottom of the bullet to ignite the propellant, so that the bullet hits the target. The propellant push-up cap presses the barrel forward, and the shell presses the gun body backwards. After the bullet is pushed forward past the bullet in the magazine, the wire is forced to rotate downward to align the head of the bullet. The propellant enters the air guiding tube through the horizontal hole and pushes the top of the bolt to move back to compress the reintroduction spring. The feeding spring pushes the bullet in the magazine into the nest to be hit. When the elastic force of the recoil spring is greater than the pressure of the propellant in the air guiding tube, the reversing spring pushes the top bolt forward, the rotating rod throwing shell and the pressing rotating wheel rotate, and the impact bullet is fired before the shot is completed. When the runner rotates, the rear end of the wire fixed in the groove swings left and right, continuously snapping into one of the six equidistant V-shaped grooves of the outer circle of the runner. The automatic continuous loading of bullets and launches is automatic bursting. After the trigger is released, the trigger is rotated upwards and the front flange is snapped into the bolt slot to prevent the bolt from stopping. Before the automatic bursting, the nut is rotated backward to make the smooth inner part of the rear end cover a ring of air holes at the tail of the airway tube, and the airway pressure is relieved to achieve the slow-moving purpose. Rotate the nut forward to expose a ring of air holes in the tail of the air pipe, and the gas in the air pipe is discharged from the air hole to achieve the purpose of fast shooting. After pressing the safety button, the inward curved flange is separated from the groove of the magazine lock, and the arm lock lock is pressed downward with the finger, and the upper part of the horizontal axis of the magazine lock is unscrewed from the magazine groove. The shrapnel on the upper side of the magazine is restored to slide the magazine down. Rotate the wheel half a nest counterclockwise to make the bullet in the shell of the bomb to be retracted. Rotate the handle to the left side and push it forward to enter the shell to be pushed. The bullet in the nest is slipped from the grip. Out, pull back and pull the handle to the position and then rotate it to the right to snap into the groove. The rubber pad presses the handle of the elastic. Insert two rounds or bursts into the adjacent nest, turn the wheel to turn the bullet shell with the left bullet to the waiting position, press the safety button to trigger the bullet, and complete the bullet in the continuous automatic firing wheel. This is a burst of two bursts or bursts of shots. After pulling the bolt back in place, remove the magazine and empty the bullet in the wheel. Insert the grenade barrel into the two holes and the handle hole of the gun, and screw the screw into the side hole of the handle and insert it into the groove of the grenade barrel. . After inserting the grenade forward into the grenade barrel, pull the barrel and then move it to the base. Press down on the handle and snap it into the back of the right flange of the gun body. Press the safety button on the female point, pull the trigger backwards, and hit the needle in front of the bolt. The wire inside the needle bends to the surface of the base. The needle hits the bottom of the grenade and the bullet hits the target. Pull the bolt into position and pull it into the bolt slot. Turn the handle up into position. The shell will spring into the gap at the rear end of the barrel. The rear end will catch the ring flange at the end of the grenade. Push the top of the grenade to the gun body. The shell and the barrel separate the shell and fall down, and the second grenade is inserted into the barrel, so that the cycle is continuously shot.

The second embodiment is shown in Fig. 2/2. The main difference between this example and the above example is: 1. The gun body (16) has no closed tail and retraction. 2. The handles (4) are loosely sleeved on the bolts (5) and inserted into their holes with the legs. 3. The front end of the airway (8) is closed. 4. The horizontal axis of the L-shaped safety button passes through the gun body, the cam (19) is placed on the head of the horizontal axis, and the middle of a U-shaped steel wire is inserted into the straight groove of the cam and the horizontal axis, and one end of the wire and the rear of the cam The part is made into one body, and the other end is bent 90 degrees inward and then bent downward by 120 degrees. The front end of the wire is bent and deformed and then topped up to the gun body. In this case, the cam and the U-shaped wire can be omitted, but the horizontal axis of the safety button is moved back to the lower end of the resistance iron, and a steel wire is inserted into the transverse hole of the horizontal axis, and the steel wire is bent downward and then deformed upward. Insert the bottom hole into the base; press the fuse button in the groove, and the semicircular head of the horizontal axis is separated from the resistance iron. 5, the resistance iron sleeve is placed on the pin integrally formed with the gun body, the trigger spring is sleeved on the trigger pin, and one end is turned upward from the front flange of the trigger (14) and pressed over the trigger, which is bent upward. The head is snapped into the right-angled groove on the inside of the trigger, and the other end of the head is wound around the groove of the cross-bar of the fuse to the groove of the iron pin, and then the inward elbow is stuck backward. The lower part of the iron is blocked. 6. After the wire made integral with the magazine lock is bent, its inwardly bent head is inserted into the groove in the trigger jaw.

The use of this example is shown in Figure 2/2: when there is no magazine in the gun body, the handle of the magazine lock (15) is raised to the horizontal axis of the fuse, and the safety button is pressed. The cam rotates downward and the iron is blocked. Separate, insert the magazine full of bullets into the gun body, the magazine lock rotates clockwise first, and then rotates counterclockwise into the groove in front of the magazine. Pull the handle bolt back and move the compression re-entry spring. The rear end flange of the resistance iron (18) is screwed downward from the bolt groove, and the bullet is pushed into the top of the magazine to enter the runner (3). The shell is hit, and the bullet in the magazine is pushed up and pushed upward to press it on the outer circle of the bullet. When the needle comes out of the round hole of the gun body, the downward groove of the handle is placed on the upward longitudinal flange of the gun body. When the swivel rod is pulled out from the bomb nest, its head is bounced upwards to align with the upper one, and the trigger spring (21) pushes the top iron to rotate clockwise into the slot of the bolt to prohibit the bolt from moving forward. Pull the trigger backwards, the trigger spring upwards the top of the head to prevent the iron from rotating counterclockwise, the rear end of the resistance iron is unscrewed from the slot of the bolt, and the hair extension of the pointer (20) to the left elbow is prohibited. It rotates clockwise. The reversing spring pushes the top bolt, and the rotating rod is inserted into the shell to suppress the shell to rotate downward. When the bullet is aligned with the barrel, the needle passes through the round hole of the gun body and hits the tail of the bullet. bullet. The ball is pushed forward and then turned over the bullet and then rotated downward to align the head of the bullet. The propellant enters the air pipe from the transverse hole of the barrel, and the push pin is moved backward to complete the delivery. When the pressure in the air pipe is less than the complex When the spring force is applied, the bolt is fired and the shell is fired. The gun is fired continuously until the trigger is released. The trigger pushes the bursting head down to the right side and slides to the right side to separate the iron. The trigger spring is driven. The iron rotates clockwise into the slot of the bolt to prohibit the bolt from moving forward; at the same time, the trigger spring head is placed in the slot of the trigger and the trigger is lifted into the slot of the trigger. When the trigger is up to the rear of the trigger spring, the trigger is triggered. The spring head pops up. When the safety button is released, the front end of the continuous hand pointer is forced to rotate upward to the flange of the gun body to stop, and the arcuate flange of the safety button is inserted into the arcuate groove of the head of the horizontal axis of the magazine lock, cam The back-end upstream card prohibits the resistance of the iron from rotating counterclockwise in front of the resistance iron. Rotate the safety gear up over the flange and enter the single-fitting groove. The rear end of the cam is separated from the resistance iron. When the trigger is pulled backward, the trigger spring head pushes the anti-clockwise rotation counterclockwise and separates from the slot of the bolt. The re-entry spring pushes the top bolt, and the rotating rod throws the shell and simultaneously aligns the shell to be fired. The needle passes through the round hole of the gun body and hits the bullet at the bottom of the bullet. Part of the propellant enters the air duct to push the bolt back, and the compression re-entry spring and the push-up bullet enter the to-be-shot nest. The trigger spring forces the resistance iron to rotate clockwise into the slot of the bolt to prohibit the bolt from moving forward. Release the trigger and the trigger spring forces the trigger to move up Top to cam, while the head of the trigger spring pops up behind the resistance iron.

The third embodiment is as shown in Fig. 1/2 or Fig. 2/2: it differs from the first or second embodiment in that a v-shaped iron block is placed on a pin integrally formed with the gun body, and the trigger is applied. The loose sleeve is placed on the pin integrated with the safety button, and the front end of the safety button is loosely sleeved on the rotating shaft outside the gun body. One end of the trigger spring passes back through the transverse hole of the trigger pin and is pressed over the magazine lock shaft. The other end of the trigger spring is inserted into the hole of the ratchet which is movably connected to the trigger by two turns around the pin. After the spring is integrally formed with the latch lock handle, it is wound around the annular groove of the iron stopper pin, and the elbow is inserted into the hole of the iron block to the left.

The specific operation of this example is as follows: pull the bullet of the gun back into the nest to be hit, the iron block enters the slot of the bolt, and the safety button is at the upper end of the groove. When the trigger is pulled, the trigger does not touch the resistance iron. For the insurance mode. When the female finger presses the safety button to the lower end of the groove, the trigger and the pin rotate downward to the single-shot mode, and the trigger is pulled backward. The ratchet on the upper end of the trigger pushes the lower end of the top resistance iron to rotate forward to separate, after the iron is blocked The end is separated from the bolt, and the re-entry spring pushes the top of the bolt to impact the bullet. The propellant pushes the top of the bolt back, and the spring pushes the top iron into the slot of the bolt. After the trigger is released, the upper end of the trigger rotates backward, and the ratchet of the upper end is turned to the iron block, and the trigger rotates. Sliding backwards to the lower back of the resistance iron, the trigger spring pushes the top ratchet up to the back of the resistance iron to complete the work to be hit. Release the safety button, the trigger spring forces the safety button up to the upper end of the groove, and the mother pushes the top push-up button to the groove in the burst position, and the trigger and the pin rotate up to the top. Pulling the trigger ratchet forward pushes the top resistance iron away from the bolt, and the bullet hits the bullet in front of the bolt, and the propellant pushes the top bolt back into the waiting position. The ratchet pushes the top iron back to prevent it from getting stuck in the bolt. When the elastic force of the recoil spring is large and the pressure of the propellant is released, the bullet is impacted in front of the bolt, so that the loop is in the burst mode, and the trigger is blocked. The card slot that enters the bolt stops the firing of the bullet. This example uses a single shot mode to launch a grenade.

Claims

The utility model relates to a revolver gun, which is mainly composed of a gun barrel and a wheel trigger. The air guiding tube is fixed on the barrel, the inner hole of the air guiding tube is connected with the inner hole of the barrel, and the bolt passes through the rotating wheel and the complex After the spring is inserted into the air guiding tube, the rear end of the bolt has a pin and a rotating rod, and the feeding on the bolt pushes the bullet into the bomb nest of the wheel.
The revolver gun according to claim 1, wherein the resistance iron and the reluctance spring are loosely sleeved on the gun body, and the trigger control iron is unscrewed from the slot of the bolt.
A revolver gun according to claim 1, wherein the reincarnation spring tail is attached to the gun body, and the head is narrowed inwardly and snapped into the annular groove of the bolt.
The revolver gun according to claim 1, wherein the handle is loosely sleeved on the bolt and fixed by a bolt, and the bobbin is clamped between the front and rear flanges of the lower end of the handle, and a wire passes through the two flanges and sends the bullet. After the hole is quite straight, the two ends are bent upwards and pressed against the delivery pin or the handle.
The revolver gun according to claim 1, wherein the V-shaped anti-iron loosely fits on the pin of the gun body, the trigger is loosely sleeved on the pin integrally formed with the safety button, and the safety button is movably connected to the gun. On the body, the insurance button has three gears, the upper gear is continuous, the middle gear is insurance, and the lower gear is single.
The reel gun according to claim 1, wherein the grenade barrel is inserted into the hole above the gun, the handle is connected to the grenade barrel, the body of the gun is retracted, and the handle on the bolt can fire the grenade.
A revolver gun according to claim 2, wherein the trigger spring is sleeved on the trigger pin, one end of which is turned upward from the trigger front flange and pressed over the trigger, and the upwardly curved head is engaged with the trigger. The inner groove has the other end wound around the pin of the iron block, and the inwardly bent head is caught behind the iron block.
A revolver gun according to claim 2, wherein the horizontal axis of the L-shaped safety button penetrates into the gun body, the cam sleeve is placed on the head of the horizontal shaft, and the middle portion of a wire is inserted into the straight groove of the cam and the horizontal shaft. One end of the wire is integrally formed with the cam, the other end is bent inwardly and then bent downwards, the middle of the trigger spring is placed on the trigger pin, and one end is turned upward from the trigger front flange to the top of the trigger, which is upward The curved head snaps into the groove on the inside of the trigger, and the other end passes around the safety button and presses upward on the iron pin. The inwardly bent head is stuck behind the iron block.
A bullet of a revolver gun, the bottom fire is fixed at the bottom of the shell, the propellant encloses the rear part of the warhead in the shell, and the annular cap presses the head of the annular propellant in the shell, which is characterized in that a film is attached to the inside of the cap Seal its round hole.
A bullet of a revolver gun, the bottom fire is fixed at the bottom of the shell, the propellant encloses the rear part of the warhead in the shell, and the annular cap presses the head of the annular propellant in the shell, which is characterized by: contacting the propellant with air The part is coated with a layer of paraffin.