RU174340U1 - STARTER DEVICE FOR Grenade Launcher - Google Patents

Abstract

The utility model relates to the field of military equipment, more specifically to firearms and initiating devices, and is proposed for use to initiate electric igniters in grenade launcher shots. Effect: increase the level of protection against unauthorized triggering of the launching device located on the combat platoon and, therefore, increase the safety of operation of grenade launchers equipped with the claimed device. The technical result is achieved by the fact that the launcher of the grenade launcher comprises a magnetoelectric pulse generator made in its own housing with a pusher providing movement of its armature. The generator is housed in a common housing with an initiating device containing a shutter, which provides movement of the generator pusher. The initiating device comprises: a push-button switch with normally open movable and fixed contacts and a trigger guard with a trigger button fixed to it, providing closure of the movable and fixed contacts; a terminal block with two pairs of input and output terminals, one of which is connected to each other by a connecting conductor, while the input terminal of the other pair is connected to the fixed contact of the switch, and the output terminal of this pair is connected to the movable contact of the switch; a safety bracket with a position lock “mounted on the fuse” and “removed from the fuse” of the safety bracket in the corresponding recesses on the housing of the starting device; safety lever connected by a leash to the trigger guard of the push button switch. The safety bracket is made with a protrusion, and the trigger guard is made with a groove in which the protrusion is located in the "mounted on the fuse" position of the safety bracket. The shutter is made with the trigger lever and the skeleton, in which the trigger rod is kinematically connected with the trigger lever. The shutter skeleton is made with a latch that secures the shutter in the stepped locking groove of the launcher body in the mode of its storage and transportation, as well as setting the shutter of the launcher in the cocking position and fixing in this position. In storage and transportation mode, the shutter latch is placed at the level of the locking groove with greater depth. The transfer of the starting device to the combat platoon is carried out by setting the shutter of the device in the position of the combat platoon and the subsequent installation of the safety bracket in the "removed from the fuse" position. The shutter is mounted on the cocking pad by pressing the bolt along its axis towards the body until the latch leaves the latch groove stage with greater depth and rotates it 90 ° clockwise. The shutter latch is installed on the groove stage with a shallower depth, and the shutter-release lever is installed opposite the safety lever. In this case, in the position of the safety clip “removed from the fuse”, the protrusion of the safety clip comes out of the groove of the trigger guard of the push button switch. The generator’s own housing is made with the housing sleeve installed in it using a threaded connection. A pusher assembly with a pusher return spring installed between the generator core and the pusher assembly is installed in the hole of this sleeve. The generator housing is made with a rubber cap mounted on the outer surface of the housing sleeve and covering the pusher assembly. The pusher assembly comprises a pusher sleeve, in the inner hole of which the pusher with a trigger spring is installed, and on the outer surface of which, using a threaded connection, a pusher cap is installed that covers part of the pusher with a trigger spring. In this case, the trigger rod of the shutter acts on the generator pusher through the rubber cap of the generator housing, the cap of the pusher assembly and the trigger spring of the pusher. The device is triggered after the device is transferred to a combat platoon. Triggering is carried out by simultaneously pressing the shutter-release button down with the fingers of one hand and the shutter-release lever towards the device body, which closes the contacts of the push-button switch, and the shutter-release rod acts on the generator pusher. The pusher, in turn, acts on the generator armature, which leads to the separation of the armature from the core of the magnetic circuit and, as a result, to the formation of a voltage pulse at the output terminals of the starting device necessary for firing a grenade launcher. After firing, the shutter release button returns to its original position. The safety bracket is set to

Description

The utility model relates to the field of military equipment, more specifically to firearms and initiating devices, and is proposed for use to initiate electric igniters in grenade launcher shots.

The “Manual on the machine gun grenade launcher SPG-9M” (M .: Military Publishing House of the Ministry of Defense of the USSR, 1974, p. 28-33) shows the design of the launcher of a grenade launcher, consisting of a generator with a conductive wire in the tube, blocking and contact devices. The generator is designed to generate an electrical impulse necessary to ignite the powder charge. It has a housing with a cover. An inductor, a trigger mechanism, a fuse and a connector block are mounted in the housing. The inductor is assembled inside the generator housing and has a coil, two magnets, an anchor with a beam, a lever with a spring. Magnets are located between the upper and lower shoes and face the same poles to the lower shoe. The trigger mechanism is designed to hold the sprocket on the combat platoon and lower the sprocket from the combat platoon. It has a handle, a trigger and a lever with a spring, an asterisk, a guide rod and a sear, located on the inside of the generator housing cover. The fuse is designed to protect against accidental firing when the trigger is cocked. It is located on the bottom of the generator housing and has a spring with a lock. The plug connector is located on the back of the generator housing, and the plug of the conductive wire is connected to it. The conductive wire is located in the armored hose and the safety tube. A cable passes through the armored hose, protecting the wire from breaking and at the same time being a conductor, through which one of the ends of the indicator coil is displayed on the grenade launcher mass. The blocking device does not allow a shot to be fired when the shutter is not fully closed. It is located on the right side of the breech of the barrel and has a body, a cover, a latch, an insulator, a pusher with a spring and contact plates. With the shutter completely closed, the bevel of the handle of the locking mechanism moves the pusher down, while the generator-contact device closes. The contact device is designed to transmit an electrical impulse to the electrostocks of the powder charge. It is located on top of the breech of the barrel and has a body with a lid, two levers with springs, two contacts (placed in the holes of the breech of the barrel), two buttons with springs. The levers are mounted on the axis, the forked end of the conductive wire is soldered to them. The levers and their springs are isolated from the body of the contact device, and the contacts are from the breech of the barrel (two contacts are made to increase reliability).

Known launcher RPG-16 hand grenade launcher (RPG-16 manual anti-tank grenade launcher. - Tula: Operating Instructions, 1969, S. 16-20), providing the generation of an electric current pulse for a shot. A pulsed generator, a pusher with a spring, a cocking lever, a safety lock and a trigger are placed in the body of the pistol type device. The generator combines in its own housing an inductor, a pusher with a diaphragm and electrical contacts. The inductor consists of a coil, an annular magnet, a magnetic circuit, an armature with a return spring and a non-magnetic sleeve, inside which the armature moves.

Known magnetoelectric pulse generator (patent RU 2265175; IPC F41A 19/70, F42C 11/04; 07/20/2005) containing an inductor placed in a common housing and a trigger mechanism that moves the armature in the inductor. The inductor armature is kinematically connected with the trigger mechanism of the clutch, and the kinematic connection of the clutch with the armature is a tube, one end of which is screwed onto the clutch, and the other end, equipped with a limiter, interacts with the rod connected with the armature of a cylindrical hat with a sphere, while the shock spring the mechanism mounted on the spoke passing through the coupling and the tube, and placed between the coupling and the striker, carries the function of the return spring of the anchor. The anchor rod interacts with the stop by means of a cap nut screwed onto its threaded part from the inside of the stop.

Known as a prototype trigger mechanism (USM) grenade launcher RPG-29 with a pulse generator, the design of which is given in the manual of the Penza Artillery Engineering Institute ("Design of weapons, ammunition, fuses and K65 weapon control systems: Construction of grenade launchers and rocket-propelled grenades for single-use grenade launchers ”: F. A. Savchenko, A. V. Shemanaev, S. V. Mikhalets, S. V. Partala. - Penza: PAII, 2007). The trigger consists of a housing in which the pusher, lever, fuse, pulse generator and trigger are placed. The trigger housing in the front has: a protrusion for connecting to the insert of the bipod clamp. On the protrusion there is a through hole for the checks and from the front end of the housing an opening for the output of the pusher nut; in addition, in the front of the housing, recesses with holes for overlays are made on both sides. To accommodate the pusher in the housing there is a protrusion with a socket for abutting the plank of the pusher and protrusions with guide grooves, and in the rear of the housing there is a socket for the generator, which is attached with a pin. Below the case there is a groove in which the lever is located, and on the side there is a hole for the lever axis. In the middle part of the body there are holes for the fuse and trigger axis, a safety clip and a window for the trigger. At the rear end of the housing there is a recess for connection with a pipe protrusion. The pusher serves to drive the generator. A pusher spring is worn on the front end of the pusher, preloaded between the nut and the bar. In the middle part of the pusher there is a window for the protrusion of the lever. At the rear end of the pusher there is a combat protrusion and a safety protrusion for interacting with the trigger tooth, side guiding protrusions for connecting to the guide grooves of the housing and a protrusion for interacting with the generator pusher. The lever is used to set the pusher on a combat platoon. It is spring loaded and secured in the housing by an axis. The lever protrusion serves to interact with the pusher. The trigger is used to lower the pusher from the combat platoon. The trigger has a tooth for holding the pusher on the cock, a hole for the axis, the tail of the trigger for pressing with a finger when firing a shot and a protrusion for stop in the trigger body, as well as to limit the movement of the trigger forward. The fuse, locking the trigger, eliminates the possibility of an accidental shot. The fuse has a cutout, which, depending on its position, includes the trigger tooth. To set the trigger to the fuse, you must turn the fuse box through the bottom back to the PR position. The generator is designed to generate an electrical impulse, which is transmitted to the contacts to produce a shot. The generator consists of a plastic case with contacts, a magnet with a coil, an anchor, a holder, an anchor spring, a spring, a heel, a foot, a pusher and sealing parts.

The disadvantage of the prototype and most of the known launchers for grenade launchers is the rather low level of protection against unauthorized (accidental) triggering of the trigger, located on the combat platoon, as this does not exclude the possibility of an accidental mechanical effect on the trigger, which can lead to the triggering of the trigger.

The technical result achieved by the claimed utility model is to increase the level of protection against unauthorized triggering of the launching device located at the combat platoon and, therefore, to increase the operational safety of grenade launchers equipped with the claimed device.

The technical result is achieved by the fact that the launcher of the grenade launcher comprises a magnetoelectric pulse generator made in its own housing with a pusher providing movement of its armature. The generator is housed in a common housing with an initiating device containing a shutter, which provides movement of the generator pusher. The initiating device contains:

- a push-button switch with normally open movable and fixed contacts and a trigger clip with a trigger button fixed to it, providing closure of the movable and fixed contacts;

- a terminal block with two pairs of input and output terminals, one of which is connected to each other by a connecting conductor, while the input terminal of the other pair is connected to the fixed contact of the switch, and the output terminal of this pair is connected to the movable contact of the switch;

- a safety bracket with a position lock “mounted on the fuse” and “removed from the fuse” of the safety bracket in the corresponding recesses on the housing of the starting device;

- a safety lever connected by a leash to the trigger guard of the push-button switch.

The safety bracket is made with a protrusion, and the trigger guard is made with a groove in which the protrusion is located in the "mounted on the fuse" position of the safety bracket. The shutter is made with the trigger lever and the skeleton, in which the trigger rod is kinematically connected with the trigger lever. The shutter skeleton is made with a latch that secures the shutter in the stepped locking groove of the launcher body in the mode of its storage and transportation, as well as setting the shutter of the launcher in the cocking position and fixing in this position. In storage and transportation mode, the shutter latch is placed at the level of the locking groove with greater depth.

The transfer of the starting device to the combat platoon is carried out by setting the shutter of the device in the position of the combat platoon and the subsequent installation of the safety bracket in the "removed from the fuse" position. The shutter is mounted on the cocking pad by pressing the bolt along its axis towards the body until the latch leaves the latch groove stage with greater depth and rotates it 90 ° clockwise. The shutter latch is installed on the groove stage with a shallower depth, and the shutter-release lever is installed opposite the safety lever. In this case, in the position of the safety clip “removed from the fuse”, the protrusion of the safety clip comes out of the groove of the trigger guard of the push button switch.

The generator’s own housing is made with the housing sleeve installed in it using a threaded connection. A pusher assembly with a pusher return spring installed between the generator core and the pusher assembly is installed in the hole of this sleeve. The generator housing is made with a rubber cap mounted on the outer surface of the housing sleeve and covering the pusher assembly. The pusher assembly comprises a pusher sleeve, in the inner hole of which the pusher with a trigger spring is installed, and on the outer surface of which, using a threaded connection, a pusher cap is installed that covers part of the pusher with a trigger spring. In this case, the trigger rod of the shutter acts on the generator pusher through the rubber cap of the generator housing, the cap of the pusher assembly and the trigger spring of the pusher.

The device is triggered after the device is transferred to a combat platoon. Triggering is carried out by simultaneously pressing the shutter-release button down with the fingers of one hand and the shutter-release lever towards the device body, which closes the contacts of the push-button switch, and the shutter-release rod acts on the generator pusher. The pusher, in turn, acts on the generator armature, which leads to the separation of the armature from the core of the magnetic circuit and, as a result, to the formation of a voltage pulse at the output terminals of the starting device necessary for firing a grenade launcher.

After firing, the shutter release button returns to its original position. The safety bracket is set to the “mounted on the fuse” position, the shutter is turned 90 ° counterclockwise, as a result of which, under the action of the return spring of the pusher, the pusher itself, and therefore the generator armature, are returned to their original positions.

BRIEF DESCRIPTION OF THE DRAWINGS

In FIG. 1 shows a front view of the starting device in the storage and transportation mode, where 1 is a common housing of the starting device; 2 - shutter initiating device with the trigger lever 3; 26 - shutter skeleton; 4 - trigger button of the initiating device; 5 - safety bracket initiating device; 6 - safety lever of the initiating device.

In FIG. 2 shows a left side view of the starting device in storage and transportation mode, where: 1 - a common housing of the starting device; 2 - shutter initiating device with the trigger lever 3; 5 - safety bracket initiating device; 6 - safety lever of the initiating device.

In FIG. 3 shows a rear view of the starting device in storage and transportation mode, where: 1 - a common housing of the starting device with a cover 7; 2 - shutter initiating device with the trigger lever 3; 26 - shutter skeleton; 27 - shutter latch located in the stepped locking groove 28 of the housing; 8 - magnetoelectric pulse generator with conclusions 9 connected to the input terminals 37 of the terminal block 10 with output terminals 11.

In FIG. 4 is a front view of a magnetoelectric pulse generator, where: 12 is an own generator housing with a sleeve 13 and a rubber cap 14; 15 - generator coil; 16 - generator armature with nut 17; 18 - the core of the magnetic circuit of the generator; 19 - ring magnet; 20 - the sleeve of the magnetic circuit. The pusher 21 together with the pusher sleeve 22, the pusher cap 23 and the pusher trigger spring 24 form a separate assembly unit or assembly, which, together with the pusher return spring 25, is installed in the inner hole of the sleeve 13 of the generator housing.

In FIG. 5 is a left side view of a magnetoelectric pulse generator.

In FIG. 6 is a plan view of a magnetoelectric pulse generator.

In FIG. 7 is a front view of the initiating device, where: 26 is the skeleton of the shutter 2; 29 - a lead of the safety lever; 31 - axis of the safety lever.

In FIG. 8 is a rear view of the initiating device with the housing cover removed, where: 26 is the shutter body, on the side surface of which the shutter latch 27 is located, located in the stepped fixing groove 28 of the housing 1; 29 - a leash of the safety lever, placed in the leash groove 30 of the housing 1; 31 - axis of the safety lever.

In FIG. 9 is a view A-A of an initiating device, where: 32 is a button switch housing; 33 - fixed contact switch; 34 - movable contact switch; 35 - switch spring; 36 - trigger bracket release button 4; 37 - input terminal of terminal block 10; 38 - connecting conductors.

In FIG. 10 shows a view B-B of the initiating device, where: 39 - trigger rod of the shutter 2, installed in the skeleton 26 of the shutter; 46 - a recess in the housing for fixing the safety bracket in a position corresponding to the state of the device "installed on the fuse"; 47 - recess in the housing for fixing

safety bracket in the position corresponding to the state of the device "removed from the fuse."

In FIG. 11 is a rear view of the shutter of the initiating device, where: 39 is the trigger rod of the shutter 2 installed in the shutter body 26; 40 - axis of the trigger lever 3 of the shutter.

In FIG. 12 is a right side view of the shutter of the initiating device.

In FIG. 13 is a right side view of the terminal block of the initiating device, where one of the output terminals 11 is connected by a conductor 38 to the input terminal 37.

In FIG. 14 is a front view of the terminal block of the initiating device, showing two pairs of output terminals 11 and input terminals 37, wherein one of the pairs of input and output terminals is connected by a conductor 38.

In FIG. 15 is a rear view of a trigger button of an initiating device, where: 36 is a trigger release trigger bracket made with a hole 41 for a safety lever leash and with a groove 42 for a protrusion 43 of the safety bracket 5.

In FIG. 16 is a left view of a button of a trigger device.

In FIG. 17 is a front view of a bracket of a safety initiating device with a protrusion 43 and a groove 44 for the axis of the safety lever.

In FIG. 18 is a bottom view of a bracket of a safety initiating device, where: 45 is a safety bracket lock.

In FIG. 19 is a left side view of a bracket of a safety initiating device.

FIG. 20 explains the position of the structural elements of the starting device in storage and transportation, where: the shutter 2 is in its original position and its lever 3 is installed vertically; release button 4 is in its highest position; the safety bracket 5 is in the "mounted on the fuse" position, in which its protrusion 43 is located in the groove 42 of the trigger guard 36 of the trigger button; the safety lever 6 is held in a horizontal position by the leash 29.

In FIG. 21 is a top view of a launcher in a cocking mode, where: the shutter 2 is rotated 90 ° clockwise and its lever 3 is mounted horizontally; the safety bracket 5 is moved in the direction of the arrow to the far right and is in the "removed from the fuse" position.

In FIG. 22 is a left side view of the launcher in a cocking mode, where: the shutter 2 is rotated 90 ° clockwise and its lever 3 is mounted horizontally.

Fig. 23 is a plan view of a starting device explaining the position of structural elements of the starting device in the initiation mode of the generator pulse signal when the shutter-release button is pressed down and the shutter-release lever 3 is moved in the direction indicated by an arrow in the figure.

In FIG. 24 is a front view of the trigger device, explaining the position of the structural elements of the trigger device in the mode of initiating the generator pulse signal, when the trigger button bracket 36 (when pressed down) is shifted to its lowest position and, acting through the lead 29 on the safety lever 6, moves its shoulder down . At the same time, holding the shutter release button in the lower position, press the shutter trigger lever 3 in the direction indicated by the arrow in the figure, thereby initiating the operation of the magnetoelectric pulse generator.

FIG. 25 illustrates the operation of the magnetoelectric pulse generator in the mode of initiation of the pulse signal, where: 39 is the shutter-release rod, the force from which when the shutter-release lever is pressed is transmitted through the rubber cap of the generator 14, the cap of the pusher 23 and the release spring 24 to the pusher 21, which, in in turn, acts on the armature 16 of the generator; The return spring 25 of the pusher works in compression. The generator armature 16 is shown in the figure in the position when it detached from the core 18 and it has shifted to the extreme right position.

In FIG. 26 is a schematic diagram of an electric starter, where a magnetoelectric pulse generator 8 is simplified.

In storage and transportation mode, as shown in FIG. 1-3 and in FIG. 20, the shutter 2 is in the initial position, while the shutter-release lever 3 is located vertically. The release button 4 is in its highest position. Safety bracket 5 is in the extreme left position "installed on the fuse." Moreover, as shown in FIG. 20, the protrusion 43 of the safety bracket is located in the groove 42 of the trigger guard 36. The safety lever 6 is in a horizontal position. In this case, the shutter latch 27, as shown in FIG. 3, is located on the step with a greater depth of the stepped locking groove 28 of the housing 1. As shown in FIG. 3, the terminals 9 of the magnetoelectric pulse generator 8 are connected to the input terminals 37 of the terminal block 10. The terminal block, as shown in FIG. 3, has two pairs of input 37 and output 11 terminals. Moreover, as shown in FIG. 14, one of the pairs of input and output terminals is connected by a conductor 38. The input terminal of the other pair, as shown in FIG. 9 is connected to the fixed contact 33 of the push button switch, and the output terminal of this pair is connected to the movable contact 34 of the switch. The electrical circuit of the device thus formed is also shown in FIG. 26. The magnetoelectric pulse generator is made in its own housing 12. A sleeve 13 is installed using a threaded connection into the generator housing. A pusher assembly with a pusher return spring 25 installed between the generator core 18 and the pusher assembly is installed in the hole of this bushing. The generator housing is made with a rubber cap 14 mounted on the outer surface of the housing sleeve and covering the pusher assembly 21. The pusher assembly contains a pusher sleeve 22, the pusher itself with a trigger spring 24 is installed in its inner hole, and the cap is mounted using a threaded connection 23 pushers, covering part of the pusher with a trigger spring. A coil 15 and a magnetic circuit 16 of the generator, comprising a core 18, an annular magnet 19; the sleeve 20 and the armature 16 of the generator with the nut 17. The shutter of the device, as shown in FIG. 11, is made with the skeleton 26, in which a shutter-release rod 39 of the shutter is kinematically connected with the trigger lever 3. In the storage and transportation mode, the shutter, the shutter trigger rod, the generator pusher and its anchor are in the extreme left positions, and the compression and trigger pusher springs and return springs are in the initial state.

The transfer of the launcher to a combat platoon is carried out as shown in FIG. 21-22, by setting the shutter of the device in the cocking position and then installing the safety bracket in the "removed from the fuse" position. The shutter is set to the cocking position by pressing the shutter, as shown in FIG. 21, along its axis toward the housing, until the shutter lock leaves the step of the locking groove with a greater depth and rotates it 90 ° clockwise, as shown in FIG. 22. The shutter latch is mounted on the steps of the locking groove with a shallower depth, and the shutter-release lever is installed opposite the safety lever. The protrusion protrusion 43 protrudes from the groove 42 of the trigger guard.

The device is triggered after the device is transferred to a combat platoon. Triggering is triggered by simultaneously pressing the shutter-release button down and the shutter-release lever towards the device body with the fingers of one hand (for example: thumb and forefinger), as shown in FIG. 23 - FIG. 24. Moreover, as shown in FIG. 24, the trigger guard 36 acts through the leash 29 on the shoulder of the safety lever 6 and pushes it down. In this case, the shutter-release lever 3 acts on the one connected with it, as shown in FIG. 11, the shutter release rod 39, biasing it towards the cap 14 of the magnetoelectric generator housing 8. The force exerted on the trigger lever (Fcp) through the shutter release rod 39, the rubber cap of the generator housing 14, the cap 23 of the pusher assembly and the release spring 24 of the pusher, is transmitted to the pusher of the generator, and therefore, to the yoke 16 of the magnetic circuit of the generator. In this case, the pusher in the opposite direction is affected by the force arising from the compression of the return spring 25 of the pusher (Fp). The generator magnetic field acts on the generator yoke with a force (Fmp), the direction of which is also opposite to the direction of the force from the side of the trigger lever. The strength of the magnetic field on the yoke of the generator Fmp is constant. In this case, the force of action on the pusher from the side of the trigger lever Fcp when the trigger is moved toward the body of the device will gradually increase at that moment in time when the force Fcp will exceed the total value of the forces acting in the opposite direction, i.e. when Fcp> Fvp + Fmp, the generator yoke will detach from the core 18 of the magnetic circuit. The generator yoke moves to the extreme right position and due to a change in the magnetic flux in the generator magnetic circuit, a voltage pulse is generated at the output terminals 11 of the starting device to produce a grenade launcher shot.

After firing, the shutter release button returns to its original position. The safety bracket is set to the "mounted on the fuse" position, the shutter is turned 90 ° counterclockwise, as a result of which the pusher itself, and therefore the generator armature, are returned to their original positions under the action of the push rod return spring.

To assess the level of protection against unauthorized triggering of a prototype strike trigger located on a combat platoon and a trigger device according to the claimed utility model, it is legitimate to use the method provided by probability theory for a comparative analysis of situations arising from various combinations of equally probable events.

Suppose an experiment is conducted with a space of n elementary outcomes that are equally probable. Elementary outcomes are incompatible events (incompatible events are those that cannot occur simultaneously), so the probability of each of them is 1 / n. Imagine we are interested in event A, which occurs only during the implementation of favorable elementary outcomes, the number of the last m (m <n). Then, according to the classical definition, the probability of such an event:

P (A) = m / n

In our case, in the cocked trigger mechanism according to the prototype, the unauthorized initiation of the trigger mechanism (event A) depends only on the trigger being pulled, therefore, the number of elementary outcomes is n = 2:

1 - “trigger pulled”;

2 - "the trigger is not pressed."

The number of favorable elementary outcomes is m = 1 (“trigger pulled”). Then the probability of unauthorized triggering of the trigger mechanism

P ₁ (A) = 1/2 = 0.5

In the claimed utility model, the unauthorized initiation of a starting device located on a combat platoon (event A) depends on pressing the shutter-release lever and on pressing the release button of the launching device. The number of elementary outcomes n = 4:

1 - “the release lever is not pressed” and “the release button is not pressed”;

2 - “the release lever is pressed” and “the release button is not pressed”;

3 - “the release lever is not pressed” and “the release button is pressed”;

4 - “trigger is pressed” and “trigger is pressed”.

The number of favorable elementary outcomes m = 1 (“trigger is pressed” and “trigger is pressed” / Then the probability of unauthorized triggering of the trigger

P ₂ (A) = 1/4 = 0.25

Thus, the likelihood of unauthorized triggering of the launching device is two times lower than the probability of unauthorized triggering of the trigger mechanism according to the prototype, which significantly increases the level of protection against unauthorized triggering of the launching device located on the combat platoon and, therefore, increases the safety of the operation of grenade launchers equipped with the claimed device.

It should also be noted that due to the use of the minimum number of movable elements included in the design of the device, as well as due to the optimal structural layout of the units and parts of the device, its overall dimensions and weight are significantly reduced.

Claims (1)

A launcher of a grenade launcher, comprising a magnetoelectric pulse generator made in its own housing with a pusher providing movement of its armature, placed in a common housing with an initiating device containing a shutter, providing alternator pusher movement, characterized in that the initiating device comprises: a push-button switch with normally open movable and fixed contacts and the trigger guard with the trigger button fixed to it, providing a shorting of the movable and non odvizhnogo contacts; a terminal block with two pairs of input and output terminals, one of which is connected to each other by a connecting conductor, while the input terminal of the other pair is connected to the fixed contact of the switch, and the output terminal of this pair is connected to the movable contact of the switch; a safety bracket with a position lock “mounted on the fuse” and “removed from the fuse” of the safety bracket in the corresponding recesses on the housing of the starting device; as well as a safety lever connected by a leash to the trigger guard of the push-button switch; while the safety bracket is made with a protrusion, and the trigger guard is made with a groove in which the protrusion is located in the "mounted on the fuse" position of the safety bracket; wherein the shutter is made with a trigger lever and a skeleton in which a trigger rod kinematically connected to the trigger lever is installed; wherein the bolt skeleton is made with a latch that secures the bolt in the stepped locking groove of the launcher housing in the mode of its storage and transportation, as well as the installation of the bolt of the launcher on the combat cock and fixation in this position; at the same time, in the storage and transportation mode, the shutter latch is placed on the steps of the fixing groove of the housing with greater depth; at the same time, in the shutter cocking position, the shutter latch is located at the groove stage with a shallower depth, and the shutter-release lever is installed opposite the safety lever; at the same time, the generator’s own case is made with the case sleeve installed in it using a threaded connection with the pusher assembly installed in the hole of this sleeve with the pusher return spring installed between the generator core and the pusher assembly, and with a rubber cap mounted on the outer surface of the casing sleeve and covering the pusher assembly; wherein the pusher assembly comprises a pusher sleeve, in the inner opening of which the pusher with a trigger spring is installed, and on the outer surface of which, with the help of a threaded connection, a pusher cap is installed that covers part of the pusher with a trigger spring; while the trigger rod of the shutter acts on the generator pusher through the rubber cap of the generator housing, the cap of the pusher assembly and the trigger spring of the pusher.

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