RU2135933C1 - Bullet catcher - Google Patents

Abstract

FIELD: bullet catchers, applicable for checking small arms for proper functioning and monitoring the unloading. SUBSTANCE: catcher is furnished with a breechblock for back ejection of bullet made in the form of one or two ball-shaped equidimensional masses freely placed in the catching chamber. EFFECT: enhanced efficiency of bullet deceleration at reduced specific quantity of metal per structure and reduced deceleration distance. 6 cl, 1 dwg

Description

 The invention relates to bullets and can be used to verify the functioning of small arms and control their discharges. A device for trapping a bullet according to the patent of the Russian Federation N 2074370 (application N 94010298 from 24.03.94, F 41 J 1/12), containing a housing, a trapping chamber and a guide section with a receiving unit and a membrane for accommodating a weapon barrel made therein, is known in the form of pipes with a large inlet and a smaller outlet and an inner surface in the form of a cylinder, moving towards the outlet in the second-order surface mounted on the side faces of a multifaceted prism so that the outlet of one pipe is placed inside the inlet Ia second pipe.

 In the known device, the braking of the bullet is due to its multiple deflection and its parts from the walls of the device, which makes the device cumbersome and not effective enough in the event of a reverse ejection.

 In addition, by direct reduction of the trajectory on which the bullet deviates to the stage of its twist, it was not possible to solve the effective capture problem.

 The objective of the present invention is to increase the braking performance of the bullet while reducing the material consumption of the structure and reducing the braking distance of the bullet.

 This problem is solved in that in the known device for trapping a bullet, comprising a housing, a trapping chamber and a guiding section with a receiving unit and a membrane for accommodating a weapon barrel, made in the form of pipes with a large inlet and a smaller outlet and an inner surface in the form of a cylinder passing towards the outlet into the second-order surface mounted on the side faces of the polyhedral prism so that the outlet of one pipe is placed inside the inlet of the second loss with a gap, according to the invention is equipped with a bullet back ejection bolt located in the catching chamber, and a damper with a stroke limiter is installed together with the pipe joints.

 Effectively, if the bullet back-release bolt is made in the form of a freely installed mass of spherical shape, the diametric size of which exceeds the diametrical size of the holes made in the structural elements that form the trapping chamber.

 Reliably, if the bullet back-release bolt is made in the form of freely installed two different-sized spherical masses, the smallest of which is larger in diameter than the diameters of the holes made in the structural elements that form the catching chamber at their location.

 Reliably, if the damper is made in the form of a washer installed with the possibility of longitudinal movement along the outer surface of the guide section, and its travel limiter is made in the form of a rod mounted perpendicular to the displacement surface.

 Effectively, if the longitudinal axis of the inlet of the receiving unit is installed at an angle to the longitudinal axis of the guide section.

 It is convenient if the case is made of sound-absorbing material, for example, of a particleboard and a freely hanging door is placed on its rear wall.

 The totality of the distinguished features noted is not known to the applicant, which is proof of the novelty of the proposal, and each of the attributes of the totality does not obviously follow from the prior art, which is evidence of the presence of an inventive step. Moreover, the applicant emphasizes the existence of a causal relationship between the totality of the essential features of the claimed invention and the achieved result.

The invention is illustrated in the drawing.
A device for trapping a bullet comprises a housing 1, which is made of a particleboard. The body material is sound-absorbing and dampens the sounds of a shot (shock waves in the aftermath of the aftermath of the powder gases behind the muzzle of the weapon barrel). In the housing there is a guide section 2 and a catching chamber 3, made in the form of pipes with a large inlet (4, 6) and a smaller outlet (5, 7) holes. The inner surface of each pipe is made in the form of a cylinder 8, and passing into the surface of the second order 9 in the direction of the outlet - a lively shape or in the form of a truncated cone. The longitudinal axes of the pipes are mounted on the side faces of an imaginary regular polyhedral prism (AB, BC). Pipes are placed so that the outlet of one pipe is placed inside the inlet of the second pipe with a gap (in the drawing shown as the direction of gas exit). The guide section 2 is placed taking into account ergonomic requirements, i.e. at a convenient height for the shooter and tilted at a convenient angle. In the inlet of the guide section is placed a receiving unit 10 for placement in it of the barrel 11.

 A non-metal sleeve 12 is placed in the receiving unit to exclude mechanical damage to the muzzle and recoil part of the weapon. The longitudinal axis of the opening of the receiving unit is placed at an angle to the longitudinal axis of the guide section. The receiving unit prevents a large angular movement of the barrel of the weapon and provides optimal conditions for the barrel of a single-barrel weapon for its normal functioning when fired. In the receiving unit in front of the muzzle section of the weapon there is a membrane 13 with a radial cut (which is not shown in the drawing) that opens with each shot. The membrane acts as a check valve and prevents the gas-powder mixture from being shot out towards the shooter.

 The outlet 5 of the guide section is made of a smaller diameter than the inlet 6 of the collecting chamber. The pipes were jointed with a gap of 14 and a damper 15 was placed at the junction with the possibility of longitudinal movement along the surface of the guide section to the stroke limiter 16. The damper is necessary to suppress the dynamic impact of an expanding gas cloud. The pipe junction is closed with a flame retardant mesh 17, reinforced with clamps 18.

 The collecting chamber on the outlet side is closed by a removable massive bottom 19 in the shape of a bowl, which serves to collect bullets and its fragments.

 The device is equipped with a bullet return bullet placed in the trapping chamber and made in the form of freely installed one or two masses 20 of spherical shape (two spherical masses are shown in the drawing (one of them is dashed). The diameter of any ball exceeds the diameter of the holes (5, 7), made in the structural elements forming the trapping chamber, and in the case of using two balls, their total diameter exceeds the diametrical size of the trapping chamber at the place of their placement, while a pair of balls cannot get into the “spacer” in trapping In addition, when the bullet hits the ball, it “shakes” and can move in three directions of the Cartesian coordinates and rotate around the axes that are the directions of the translational movements of the balls. through its inlet when assembling the device.

 Any random combination of placing balls 20 in the volume of the catching chamber occurs in such a way that a smaller ball is located above a larger one. At any possible flight path of the bullet 21, it necessarily meets the ball, gives off its energy, forcing it to rotate and move progressively in the volume of the trapping chamber, and the bullet itself loses energy and stops moving. The solid angle formed by the lines of the possible paths 22 of the bullet’s flight in the trapping chamber when it enters it rests on the surface of the ball deflecting the bullet to the walls of the trapping chamber, i.e. providing its twist, or touching the walls of the bullet, leading to her rebounding and hitting the surface of the ball, which perceives its energy. With the help of such a shutter, the bullet’s reverse ejection from the device is excluded. The combination of the diametrical dimensions of the ball (s) and holes in the structural elements forming the trap chamber is such that the trap chamber is a closed volume formed by the structural elements of the device for moving balls (ball) 20 and bullets 21 inside.

 On the rear wall of the housing 1 in its lower part a suspended door 23 is made with a handle 24 (the open door is shown in dotted lines in the drawing). This door is a drain hole for the exit of gases 25 at an overpressure in the housing 1 after firing and provides access to structural elements for maintenance.

 In the area of the receiving unit on the housing 1 (not shown), a sleeve receptacle is installed in the form of a soft wall catching extractable cartridges with a pocket placed on it for collecting spent cartridges. The soft wall also acts as an additional sound absorber. The liner is made according to the prototype.

 The device operates as follows.

 The barrel 11 is placed inside the sleeve 12 of the receiving unit 10 of the guide section 2. The drawing shows the placement of the PM pistol with the emphasis of the trigger guard in the receiving unit. This is acceptable for any single-barrel weapons, for example, revolvers such as TKB-0216, R-92s, RG-1 Dog-1, RSL-1 and others, pistols, for example, IZH-71 and others, submachine guns, for example , such as PP-91 "Cedar", PP-93, OTs-2 "Kiparis", "Bizon-2", assault rifles, such as AKM, AKMS and others, as well as pump-action shotguns or single-barrel hunting rifles, whose trunks are freely located in the reception the node to its entire depth until it stops in the membrane 13. After placing the barrel of the weapon in the receiving unit, a single shot is fired, ensuring that the barrel does not exit the muzzle receiving node. Shooting can be conducted with an interval of at least 1 second based on the condition of overflow of the body volume with a gas-powder mixture. The bullet, after exiting the barrel of the weapon, and the gases ahead of it, bend the "petals of the membrane, which ensures their full and free passage into the cavity of the guide section 2.

 In this case, the bullet does not deform, and after an instant decrease in muzzle pressure and due to ejection of the outgoing gases, the membrane restores its original shape, closing, like a check valve, the exit of powder gases in the opposite direction from the volume of the guide section 2. Bullet 21 flies into the cavity of the solid angle, formed by possible bullet flight paths.

 Due to the fact that the longitudinal axis of the opening of the receiving unit 10 is placed at an angle to the longitudinal axis of the guide section 2, the fired bullet is necessarily in contact with the inner surface of the (upper) guide section and due to the animated (or conical) shape of this surface, it enters the outlet 5 of the guide sections, having suffered in most cases the dismantling of the shell. In any case, the bullet 21 or its parts, falling into the trapping chamber, collides with any ball 20 and transfers to it all or a significant part of its energy.

 Calculation of the energy parameters of the device for trapping a bullet using the laws of change in the momentum and kinetic energy of colliding bodies (a bullet with a small mass and a ball with a larger mass) allows us to conclude (confirmed by numerous experiments) that almost all the kinetic energy of a bullet during an elastoplastic impact into a ball is consumed on deformation, heating of collision zones, translational and rotational movement of the ball. For the case of the transfer of all energy by a bullet to a ball, the mass of which is incommensurably greater than the mass of the bullet, the bullet loses its ability to move at a speed that can cause harm - it completely stops moving. In the case of incomplete energy transfer by the bullet to the ball, due to its ball surface, a rebound is required, but with a significant loss of energy, i.e. such a direction of the further flight that does not coincide with the direction of the approach of the bullet to the ball. A ricocheted bullet may fall into another ball (if two balls are used) or into the wall of the trap chamber, i.e. its movement takes on a chaotic character and with each interaction with the structural elements of the capture chamber, its energy goes out, which eliminates any backward emission.

 The remains of the bullet that has lost energy fall to the bottom of the bowl 19, which is periodically released from them.

 The powder gases 25 entering the gap 14 formed in the pipe connection act on the annular damper 15 and move it along the guide section until it stops against the pin 16, while the shock wave generated by the powder gases in the pipe cavities is suppressed by the damper, and the bullet fragments cannot leave the pickup chamber. After the decline in gas pressure, the annular damper 15 lowers down to its original position. The accumulated gases 25 in the trap body open the door 23 and go into the surrounding space.

 Flame retardant mesh 17 prevents the release of hot particles into the body and passes powder gases.

 The device is less metal-intensive than the prototype, but provides greater security and reliability of trapping bullets. It can be used by security companies, owners of personal weapons and other organizations.

 For the claimed invention, in the form as described in the independent claim, the possibility of being implemented using the methods and means described in the application and known prior to the priority date is confirmed.

 In turn, the claimed invention, when it is implemented, is capable of achieving the result seen by the applicant. Therefore, it meets the criterion of "industrial applicability".

Claims (6)

 1. A device for trapping a bullet, comprising a housing, a trapping chamber and a guiding section with a receiving unit and a membrane for accommodating a weapon barrel in it, made in the form of tubes with a large inlet and a smaller exit apertures and an inner surface in the form of a cylinder, moving towards the exit a hole in the surface of the second order mounted on the side faces of a multifaceted prism so that the outlet of one pipe is placed inside the inlet of the second pipe with a gap, characterized in that shutter provided on the reverse ejection bullet arranged in the collecting chamber at the juncture of the guide portion and the trap chamber is installed damper with its displacement limiter.  2. The device for trapping a bullet according to claim 1, characterized in that the shutter release bullet is made in the form of a freely installed mass of spherical shape, the diametric size of which exceeds the diametrical size of the holes made in the structural elements forming the trapping chamber.  3. The device for trapping a bullet according to claim 1, characterized in that the shutter of the return bullet ejection is made in the form of two freely installed different-sized spherical masses, the smaller of which exceeds the diametrical size of the holes made in the structural elements forming the trapping chamber, and their total diametric size exceeds the diametrical size of the capture chamber at the place of their placement.  4. The device for trapping a bullet according to claim 1, characterized in that the damper is made in the form of a washer mounted with the possibility of longitudinal movement along the outer surface of the guide section, and the limiter of this movement is in the form of a rod mounted perpendicular to the movement surface.  5. The device for trapping a bullet according to claim 1, characterized in that the axis of the opening of the receiving unit for installing the gun barrel therein is made at an angle to the longitudinal axis of the guide section.  6. The device for trapping a bullet according to claim 1, characterized in that the housing is made of sound-absorbing material, such as a particleboard, and a freely hanging door is made on its wall.