RU2186313C1 - Double-action firing mechanism "545" (modifications) - Google Patents

Abstract

FIELD: small arms. SUBSTANCE: the double-action firing mechanism placed in the firearm body has a trigger coupled to the trigger bar, hammer, striker and a gearing in the form of a rack made on the trigger bar, and a toothed quadrant made on the hammer, disconnector and an automatic safety pressing the rack to the toothed quadrant. The hammer is provided with a stabilizer. The automatic safety is made in the form of a plate with a lug. The hammer stabilizer is made in the form of a lug located on the side plane of the hammer head, and the hammer is made of detachable conjugated sections. According to the second modification, the toothed quadrant in the double-action firing mechanism is made on an intermediate wheel, and the rack is made on the trigger bar and on the hammer, the trigger is provided with a spring-loaded movable feed lever. EFFECT: enhanced reliability and simplified manufacture of the firing mechanism. 4 cl, 5 dwg

Description

 The invention relates to the details of firearms and can be used in the defense industry.

 The designs of the double-action trigger mechanisms of the known firearms are compact, unpretentious, reliable in [1], [2].

 However, the common drawbacks of double-action trigger mechanisms, for example, pistols, revolvers, when cocking the trigger self-cocking, is the need to exert great effort when pulling the trigger, which negatively affects the accuracy of shooting [3], because compression of the mainspring leads to a jerk and partial withdrawal of the weapon barrel from the sight line.

 Closest to the claimed solution on the set of essential features is the trigger mechanism of the double-action revolver according to the US patent [4].

 In a known revolver with a double-action trigger mechanism, the drive device has the shape of a tension slider. When the rectilinear movement is directed along the end of the sleeve to the drummer. On the lower surface of the slider there are teeth introduced into engagement with the sector gear of the firing mechanism drive.

 When you press the tail of the trigger, going up, the cranked protrusion of the trigger presses on the lower end of the connecting rod of the sector gear, pulling the connecting rod back and up.

 The connecting rod rotates the sector gear, permanently engaged by the teeth with the teeth of the tensioning slide (acting as a trigger) and the dog connected with it using an opening on the axis.

 The tension slider moves under the action of the sector gear, compressing the mains spring straight from the striker to the end of the sleeve, while the dog turns the drum one step.

 When the tension slide moves to its extreme rear position, the rounded end of the trigger jumps off the end of the connecting rod of the sector gear, freeing it.

 The mainspring, unclenching, feeds the tension slider rectilinearly from the end face of the sleeve to the hammer, turning the gear gear engaged with it.

 The sector gear associated with the dog feeds the dog to the next tooth of the drum.

 The released trigger, rotating on the axis, under the action of the trigger spring, feeds the cranked projection downward forward. The cranked protrusion of the trigger, lowering, presses on the front plane of the connecting rod, pulling the connecting rod back, compressing its spring.

 After the crank protrusion of the trigger goes down, the connecting rod moves to the front position under the action of its spring and becomes above the crank protrusion of the trigger.

 When setting the tension slider to the cocking platoon, the tension slider is fed directly from the striker to the end face of the sleeve by turning the sector gear gear engaged with it.

 When the sector gear moves back, the toe of the sector gear, sliding along the trigger’s sear, jumps with a combat platoon into the whisper cut-out and stops in the cocked position, holding the tension slider on the combat cock.

 When the trigger whisper is engaged with the combat projection of the sector gear having insignificant contact areas of engagement, contact stress arises, causing fatigue of the active surfaces of the parts, leading to plastic flow of the metal and the formation of microcracks.

 When the connecting rod of the sector gear is engaged by the cranked protrusion of the trigger, the distance from the connecting rod rotation axis to the straight line, along which the force transmitted from the sector gear by the tension slider has a small application shoulder, which requires an increase in the muscular strength of the shooter.

 The kinetic energy of the mainspring transmitted to the tension slider rectilinearly along the end face of the liner to the hammer, turning into potential energy, when the tension slider hits the hammer, it loses part of this energy, because the central axes of the striker and the tension slider are directed at an angle to each other, this leads to a downward displacement of the barrel when the tension slider hits the striker, since the potential energy transmitted by the beveled front plane of the tension slider to the striker is directed downward.

 When the tension slider is self-cocking, the weapon barrel “jumps up”, since the tension slider moves straight from the striker to the end of the cartridge case downward at an angle and stops, transmitting potential energy directed to the heel of the firearm frame by a compressed war spring, increasing the overturning moment.

 Going down and “bouncing” the barrel during firing at certain intervals adversely affects the accuracy of the hit.

Partial loss of potential energy supplied by the tension slider to the striker requires the use of ammunition with capsules having a reduced impact resistance, which narrows the range of use of the used ammunition. The use in this design of a double-action trigger mechanism of ammunition with capsules of increased resistance to shock requires an additional increase in the power of the mainspring, which reduces the positive qualities of gearing:
a) reduction of friction losses;
b) reduction of power loss coefficient;
c) reduction of axle loads;
d) the constancy of the gear ratio;
d) an increase in the range of transmitted moment;
e) an increase in efficiency to 0.96-0.99 [5].

 The use of a tension slider with a trajectory of movement rectilinearly along the end of the sleeve to the hammer at an angle to the axis of the barrel increases the height of the frame of the firearm, increases the weight of the weapon.

 When placing the tension slider on the cocking platoon and when removing the tension slider from the platoon with the finger of the hand holding the weapon, it is possible to break the finger from the head of the tension slider, because the trajectory of movement rectilinearly back and down from the striker to the lower edge of the end face of the cartridge case, rectilinearly along the end of the cartridge case upward to the striker does not correspond to the natural movement of the finger of the hand holding the weapon.

 The finger of the hand holding the weapon, when putting the trigger on the cocking platoon, located on the head of the trigger coostro of the hand, when overcoming the resistance of the mainspring, moves to the side, withdrawing the barrel of the weapon from the line of sight sideways upwards, as the distance from the axis of rotation (movement) of the tension slider to the straight line along which the force transmitted by the finger to the tension slider through the head of the trigger has a slight engagement lever, which requires an increase in the application of muscular force, leading to a jerk of the weapon.

 This design of the double-acting trigger mechanism with a drive device in the form of a flat tension slide with teeth in the lower part, constantly engaged with the teeth of the sector gear, does not give practical possibility to implement the use of gearing in automatic firearm systems, as the trajectory of the tension slider constantly engaged with the teeth of the sector gear associated with the dog is limited by the segment of the trajectory of the sector gear equal to the segment of the trajectory of the rotation of the drum of the firearm by one step, which is insufficient for a full cycle of reloading the weapon, opening the bore, extraction fired cartridge case, capture and sending into the chamber of the next cartridge, locking the bore.

 An increase in the working stroke of the tension slider by the length necessary to complete the full reload cycle of the weapon is directly proportional to the increase in the length of the trajectory of the sector gear, which entails an increase in the size of the parts of the double-trigger mechanism and the entire weapon.

 Placing the connecting rod on the sector gear rotated by the tensioning slide by means of interlocked teeth due to the energy of the powder gases will lead to blows on the cranked protrusion of the trigger, “stuffing” the arrow’s finger, premature wear of the connecting rod and clogging of the cutout of the trigger whisper.

 The arrangement of the trigger mechanism of double action does not allow for the supply of cartridges from the magazine through the shaft of the pistol grip.

 The design of the double-acting trigger mechanism does not make it possible to use the mechanism in automatic weapon systems, since the trajectory of the tension slider is straight along the end of the sleeve to the striker at an angle located in the bolt, does not coincide with the trajectory of the shutter straight back (in a straight line) ) The inability to disengage the teeth of the tension slide with the teeth of the sector gear when the shutter moves backward will break the shutter, the teeth of the sector gear and the teeth of the tension slider, which in this case acts as a wedge.

The proposed invention achieves the possibility of:
1. The use of a double-action trigger mechanism with gearing in automatic firearm systems.

2. Reducing the dimensions of the body of a firearm in height,
3. Stabilization of the gun barrel on the line of sight when cocking the trigger with the finger of the hand holding the weapon.

 4. Increased accuracy.

 5. Increasing the reliability of the safety system.

 The specified technical result is achieved due to the fact that in the known double-action trigger mechanism located in the body of the firearm containing the dog, the trigger, the associated trigger rod, hammer, trigger and gear mesh in the form of a gear rack and gear sector, provides a disconnector, an automatic fuse that draws the gear rack to the gear sector, the gear rack is made on the trigger rod, and the gear sector on the trigger. The trigger is equipped with a stabilizer.

 The automatic fuse is made in the form of a plate with a protrusion.

 The trigger stabilizer is made in the form of a protrusion placed on the side plane of the trigger, and the hammer is made of detachable mating sections.

 According to the second option, the technical result is the achievement of alignment between the trigger and the hammer. Reducing the dimensions of the body of the firearm in height is achieved due to the fact that in the well-known trigger mechanism of double action, located in the body of the firearm containing the dog, the trigger associated with the trigger rod, hammer, trigger and gear mesh in the form of a gear rack and gear sector, an intermediate wheel is provided, the gear sector is made on the intermediate wheel, and the gear rack is made on the trigger rod and the trigger. In this case, the trigger is equipped with a spring-loaded movable feed lever.

 The salient features of a double-action trigger from the closest to it in US patent 3613286 is that it contains an automatic fuse, a gear rack made on the trigger rod, and the gear sector on the trigger, which is equipped with a stabilizer, the trigger, which equipped with a spring-loaded movable lever that delivers the trigger rod, and the hammer, made of detachable mating sections, provide protection against unintended trip gear trigger release traction with the gear sector of the trigger, as the inability to get out of gear teeth of the trigger with the teeth of the trigger rod during operation of the mechanism provides a protrusion of the automatic fuse; the execution of the gear rack on the trigger rod, and the gear sector on the trigger determines the free movement of the trigger under the action of the mainspring.

 Performing a trigger with a stabilizer causes stabilization of the barrel on the line of sight when cocking the trigger with the finger of the hand holding the weapon, as the function of the stabilizer in a static state and the function of engaging the trigger with the finger of the hand holding the weapon while cocking the trigger is performed by a stabilizer made in the lateral plane of the head of the trigger; the implementation of the firing pin from detachable mating sections causes the striker to separate from the striker tail, since the rotary section of the striker performs the function of disconnecting the parts of the striker between themselves in a static state and the function of connecting the parts of the striker during fuse operation; the implementation of the teeth for engagement on the gear rail of the trigger rod and the gear rack of the trigger, as well as the use of the gear sector, which serves as an intermediate wheel, determines the use of the gear in the mechanism, because the function of engagement with the trigger rod and the trigger in a static state and the transmission function of the movement from the trigger rod to the trigger and from the trigger to the trigger rod during the operation of the mechanism is performed by the gear sector, made on the intermediate wheel; the execution of the trigger with a spring-loaded movable feed lever allows the release of the trigger with the trigger rod, because the function of engagement with the trigger rod in a static state and the function of releasing the trigger rod during operation of the mechanism is performed by the spring-loaded feed lever of the trigger; the implementation of an automatic fuse that protects from an unintended out of engagement of the trigger rod with the gear sector of the trigger, makes it possible to increase the reliability of the gear of the trigger rod with the gear sector of the trigger when the cock is cocked sharply or when the trigger spring is loaded; the execution of the gear rack on the trigger rod, and the gear sector on the trigger makes it possible to use the mechanism in automatic firearms systems, because the gear rack connected with the trigger, when pulling the trigger to the firing position, disengages from the gear sector of the trigger, freeing it, which allows the trigger to freely rotate forward under the action of the mainspring and back under the action of the shutter by the working stroke distance necessary for a full 1 automation cycle: unlocking the barrel of the bolt, ejection of the spent cartridge case, sending the cartridge into the chamber, locking the barrel; the execution of the trigger with the stabilizer in the form of a lateral protrusion of the head of the trigger makes it possible to increase the shoulder of applying muscle strength by the width of the stabilizer of the trigger when cocking the finger with the finger of the hand holding the weapon, which will reduce the muscular strength of the shooter when overcoming the resistance of the mainspring, which together will reduce the withdrawal of the barrel from the line of sight; the execution of the striker in the form of separate mating sections makes it possible to exclude deformation of the shank of the striker in case of an unexpected hammer after switching on the fuse, to exclude a spontaneous shot, because the hammer is disconnected from the shank of the hammer.

 The use of the gear sector, made on the intermediate wheel, makes it possible to transmit movement during the operation of the mechanism by means of the gear row, which will reduce the height of the weapon body, align the axis of the barrel with the axis of the hand of the shooter most closely, which will provide minimal impact, reduce torque, increase the stability of weapons, increase the accuracy of hits when shooting; execution of the trigger with a spring-loaded movable feed lever makes it possible to engage the trigger rod at right angles to the line of movement of the trigger rod, which causes the translational movement of the trigger rod, increases the shoulder of the applied muscular force, makes it possible not to touch the trigger rod body when working with the trigger rod gear row, which eliminates the loss of energy of the mainspring during the movement of the trigger, eliminates the "stuffing" of the arrow finger.

 The designs of the proposed double-action trigger mechanisms have compactness, ease of maintenance, insensitivity to contamination, high operational reliability, ease of manufacture, ease of disassembly and assembly.

 The essence of the proposed invention double-acting trigger mechanisms are illustrated by the drawings provided in figures 1-5.

 Figure 1 shows a General view of the trigger mechanism of double action with gearing.

 In FIG. 2 shows a trigger with a stabilizer in the lateral plane of the trigger head.

 In FIG. 3 is a fragment illustrating the construction and placement of the striker, consisting of detachable sections, in the shutter of the weapon body.

 In FIG. 4 shows a fragment of a double-action trigger with gear ratchet type.

 In FIG. 5 shows a general view of a double-action trigger mechanism with a gear set, where the gear sector is made on an intermediate wheel, and a spring-loaded movable feed lever located on the trigger is also shown.

 A double-action trigger mechanism with gearing, located on the inner surface of the firearm housing 1, hereinafter referred to as housing 1, consists of a trigger 2, a mainspring 3, a trigger 4, a trigger rod 5, a sear 6, a disconnector 7, an automatic fuse , hereinafter referred to as fuse 8, sectional drummer 9.

Trigger 2 serves to communicate the movement of the firing pin 9, feed the trigger rod 5 forward when setting the trigger 2 to the cock, engage the fuse 8 to the side plane of the trigger rod 5 when the trigger 2 is pulled, hold the fuse 8 in engaged position with the trigger rod 5 when the trigger 2 to the platoon,
Trigger 2 contains a head 10 for cocking trigger 2, a battle cut-out 11 for placing the nose 12 whispered 6 when placing the trigger 2 on the cock, a sector with teeth 13 for engagement with the teeth 14 of the toothed rack of the trigger rod 5, an arc protrusion 15 for pressing on the upper part the blades 16 of the fuse 8, the arc protrusion 15 contains a tooth 17 for feeding the trigger rod 5 downward when the trigger rod 5 moves back after the trigger 2 has been removed from the cocking, ring hole 18 for holding the trigger rod 5 from moving back after the hammer 2 is cocked, recess 19 to accommodate the upper end of the mainspring 3.

 The trigger 2 rotates on the trunnions 20 in the trunnion sockets of the housing 1.

 The mainspring 3 serves to inform the trigger 2 of the forward rotational movement and its upper end is placed in the recess 19 of the annular recess 18 of the trigger 2, and the lower end in the housing 1. The trigger 4 serves to feed the trigger rod 5 forward when the trigger 2 is removed from the combat cock, for cocking 2 when self-cocking.

 The trigger 4 includes a head 21 associated with the trigger rod 5, and a tail 22 for pressing.

 The trigger 4 rotates on the trunnions 23 in the trunnion sockets of the housing 1.

 The trigger rod 5 is used to cock the trigger 2 for self-cocking, to feed the disconnector 7 when pulling the trigger 2 from the cock, to hold the trigger 4 in the retracted position with the tail 22 back, feed the trigger 4 to its original position, lock the whispered 6 after setting the trigger 2 to the platoon.

 The trigger rod 5 contains a gear rack with teeth 14 for engagement with the teeth 13 of the trigger 2, a safety protrusion 24 for locking the sear 6 after the trigger 2 is cocked, the uncoupling protrusion 25 for pressing the arc 17 of the trigger 15 with the tooth 17 when the trigger pull 5 retreats after pulling trigger 2 from a combat platoon.

 The trigger rod 5 is retracted by the spring 26 of the trigger rod 5.

 One end of the trigger rod 5 is connected with the head 21 of the trigger 4.

 Sheptalo 6 is used to hold the trigger 2 on a combat platoon, removing the trigger 2 from a combat platoon.

 The sear 6 contains a spout 12 for engaging with the cutout 11 of the trigger 2, for engagement with the protrusion 27 of the disconnector 7 when pulling the trigger 2 from the cock, the tail 28 for locking whispered 6 with the safety protrusion 24 of the trigger rod 5 after putting the trigger 2 on the cock.

 To the trigger 2, the sear 6 is pressed by the spring 29 of the sear 6.

 The sear 6 rotates on the trunnions 30 in the trunnion sockets of the housing 1.

 The disconnector 7 serves to disengage the nose 12 of the whisper 6 with the battle cut-out 11 of the trigger 2 when the trigger 2 is removed from the combat platoon, disconnected from the sear 6 and the trigger rod 5.

 The disconnector 7 contains the uncoupling protrusion 31 for pressing the protrusion 32 of the shutter 33 while the shutter 33 is moving, the protrusion 27 is for engaging the nose 12 of the whisper 6 when releasing the trigger 2 from the combat cock, the blade 34 with a rectangular cutout 35 is for placement on the axle 30 of the whisper 6.

It is retracted down and pressed to the side plane of the sear 6 disconnector 7 by spring 36 of disconnector 7,
The fuse 8 is used to protect against unintentional disengagement of the teeth 14 of the toothed rack of the trigger rod 5 with the teeth 13 of the sector of the trigger 2 when the trigger 2 is placed on the cockpit.

 The fuse 8 contains a safety protrusion 37 located on the end face 38, for preloading the trigger rod 5 when the trigger 2 is placed on the cock, the blade 16 for pressing the arc protrusion 15 of the hammer 2 when the fuse 8 is moved sideways, when the trigger 2 is placed on the cock and when moving trigger 2.

 Fuse 8 is placed with hole 39 on pin 20 of trigger 2.

 Fuse 8 is retracted by spring 40 of fuse 8.

 The trigger 2 trigger double action contains a stabilizer 41.

 The stabilizer 41 serves to stabilize the barrel on the line of sight by increasing the area of engagement of the head 10 of the trigger 2, is placed in the lateral plane of the head 10 of the trigger 2 and contains a notch 42 for better engagement with the finger.

 Sectional drummer 9, hereinafter referred to as drummer 9, serves to break the capsule of the cartridge.

 Drummer 9 comprises a hammer 43 for striking the cartridge capsule and a detachable section 44 for transferring the trigger 2 energy to hammer 43 of the hammer 9 when the safety lock 45 is turned off and the hammer 9 is disconnected from the hammer 2 when the safety lock 45 is turned on.

 The firing pin 9 is located in the channel 46 of the shutter 33, the detachable section 44 of the firing pin 9 is located in the neckline 47 of the finger 48 of the flag fuse 45.

 Drummer 9 is retracted by spring 49.

 The proposed trigger mechanism of double action works as follows.

 When cocking the trigger 2 to the cocking cock, the trigger 2 rotates on the pins 20 in the trunnion sockets of the housing 1 back and down, compressing the combat spring 3.

 The teeth 13 of the trigger 2, coupled with the teeth 14 of the rails of the trigger rod 5, feed the trigger rod 5 forward, compressing the spring 26 of the trigger rod 5.

 When the trigger 2 moves back and down, the tooth 17 of the arc protrusion 15 of the trigger 2 rises up, skipping the uncoupling protrusion 25 of the trigger rod 5 when the trigger rod 5 moves forward.

 The arc ledge 15 of the trigger 2 presses on the upper part of the blade 16 of the fuse 8, displacing the fuse 8 with the hole 59 on the pin 20 of the trigger 2 sideways, compressing the spring 40 of the fuse 8.

 When the fuse 8 is shifted to the side, the protrusion of the fuse 37 pushes the trigger rod 5 to the trigger 2, preventing the teeth 13 of the trigger 2 from the teeth 14 of the trigger rod 5 from unintended out of engagement when the trigger rod 5 moves forward.

 The trigger rod 5, under the action of the trigger 2, presses the trigger 21 on the head 21, turning the trigger 4 on the trunnions 23 in the trunnion sockets of the housing 1 with the tail 22 back, choosing a part of the free travel of the trigger 4.

 When pulling the trigger 2 to its extreme rear position, whispering 6 under the action of the spring 29 pops up with the nose 12 into the battle cutout 11 of the trigger 2, holding the trigger 2 on the cocking.

 The teeth 13 of the trigger 2 are disengaged from the teeth 14 of the trigger rod 5.

 The trigger rod 5, based on the annular recess 18 of the trigger 2, holds the tail 22 of the trigger 4 in the retracted position.

 The safety protrusion 24 of the trigger rod 5 is located under the tail 28 of the sear 6, locking the sear 6.

 The spring 26 of the trigger rod 5 exerts the least pressure on the trigger rod 5 up.

 When the flag fuse 45 is turned off without pressing the trigger 4, the sear 6 will not be able to turn and release the trigger 2 from the combat platoon, excluding a spontaneous shot.

 When you press the tail 22 of the trigger 4, the trigger 4 delivers the trigger rod 5 forward, the slice 50 of the trigger rod 5 presses the disconnector 7, lifting the disconnector 7 with a rectangular cutout 35 on the pin 30 whispered 6 upward, unclenching the spring 36 of the disconnector 7.

 The uncoupling protrusion 31 of the disconnector 7, located in the recess 51 of the shutter 33, rises, the protrusion 27 of the disconnector 7 presses on the nose 12 of the sear 6, disengaging the nose 12 of the sear 6 from the engagement cutout 11 of the trigger 2, releasing the trigger 2.

 Trigger 2, under the action of the mainspring 3, moves forward and hits the hammer 9, which compresses the spring 49 and moves forward and breaks the cartridge capsule with the striker 43, igniting the charge.

 Under the action of the recoil of the powder gases, the shutter 33, compressing the return spring 52, moves back, turning the trigger 2 back and down.

 When the shutter 33 retreats, the protrusion 32 of the shutter 33 presses on the uncoupling protrusion 31 of the disconnector 7, displacing the disconnector 7 sideways, disengaging the protrusion 27 of the disconnector 7 with the nose 12 whispered 6, thus releasing the whisper 6 and disengaging the blade 34 of the disconnector 7 with the trigger pull cut 50 5.

 When the shutter 33 is moving, the uncoupling protrusion 31 of the disconnector 7 slides along the groove 53 of the shutter 33.

 After the trigger 2 retires to its extreme rear position, the released whisper 6, under the action of its spring 29, jumps into the battle cutout 11 of the trigger 2, holding the trigger 2 on the cock, after the shutter 33 is returned to the forward position under the action of the return spring 52.

 After the shutter 33 is returned to the front position, the tail 22 of the trigger 4 is released. The trigger rod 5, under the action of its spring 26, partially moves back, the disconnector 7, under the action of its spring 36, is pressed against the sear 6 on the side, the protrusion 27 of the disconnector 7 engages with the nose 12 of the sear 6, the uncoupling protrusion 31 of the disconnector 7 enters the recess 51 of the shutter 33.

 When you press the tail 22 of the trigger 4, the cycle repeats.

 When the shutter 33 is not completely closed, the uncoupling protrusion 31 of the disconnector 7 will not be able to enter the recess 51 of the shutter 33, not allowing the protrusion 27 of the disconnector 7 to engage with the nose 12 whisper 6, and the cutoff of the trigger rod 5 to engage with the blade 34 of the disconnector 7.

 When you press the trigger 4, the sear 6 will not be able to turn and release the trigger 2.

 When removing the trigger 2 from the cocking platoon, the tail 22 of the trigger 4 is pressed while holding the trigger rod 5 in the forward position. The trigger 2 is lowered to the slice 54 of the shutter 33. The tooth 17 of the arc protrusion 15 of the trigger 2 is lowered, the annular recess 18 of the trigger 2 is retracted.

 When releasing the trigger 4, the trigger rod 5 under the action of the spring 26 moves backward, feeding the trigger 4 with the tail 22 forward.

 When the trigger rod 5 moves back, the tooth 17 of the arc protrusion 15 of the trigger 2 presses on the uncoupling protrusion 25 of the trigger rod 5, feeding the trigger rod 5 downward, compressing the spring 26 of the trigger rod 5 and the uncoupling teeth 13 of the trigger 2 with the teeth 14 of the trigger rod 5.

 With the complete departure of the trigger rod 5 back tooth 17 of the arc of the protrusion 15 of the trigger 2 slides from the uncoupling protrusion 25 of the trigger rod 5.

 The trigger rod 5 under the action of the spring 26 rises, the teeth 14 of the trigger rod 5 are engaged with the teeth 13 of the trigger 2.

 When self-cocking when you press the tail 22 of the trigger 4, the trigger rod 5, coupled with the trigger 2 by means of gearing, turns the trigger 2 back and down, compressing the mainspring 3.

 When the trigger 2 moves to its extreme rear position, the trigger rod 5 disengages from the gearing with the trigger 2, giving up the disconnector 7, the trigger 2, without becoming a combat platoon, because the sear 6 goes up by the disconnector 7, breaks down and moves forward under the action of the mainspring 3.

 All other parts of the double-action trigger mechanism work similarly to those described above, namely, as when placing trigger 2 on a combat platoon.

 When executing a double-action trigger with gear of a ratchet type, the feature is that the gear of the trigger rod 5 contains ratchet teeth 55 for engagement with the ratchet teeth 56 of the trigger 2, which allows the trigger rod 5 of the proposed device to work without an additional uncoupling protrusion, because the uncoupling function is performed by the beveled part of the ratchet teeth 55 of the trigger rod 5, sliding along the ratchet teeth 56 of the trigger 2 when the trigger rod 5 retreats after the trigger 2 is removed from the combat cock.

 The double-action trigger mechanism with a gear series consists of an hammer of type 57, an operating spring 3, a trigger 58, a trigger rod 59, a sear 60, a hammer 61, a gear sector made on an intermediate wheel 62, and a dog 63.

 Trigger 57 is used to strike the drummer 61, the rotation of the intermediate wheel 62 when setting the trigger 57 on the cockpit.

 Trigger 57 contains a cutout 64 for accommodating the top of the trigger rod 59 when the trigger rod 59 is fed up and when the trigger 57 moves backward, teeth 65 for engagement with teeth 66 of the intermediate wheel 62, grooved protrusions 67 for cocking the trigger 57 by hand.

 The corrugated protrusions 67 of the trigger 57 are located in the slots of the housing 1.

 The combat spring 3 serves to inform the trigger 57 of the forward movement.

 The trigger 58 serves to feed the trigger rod 59 upward when self-cocking, feed the dog 63 to the tooth 68 of the drum 69, hold the drum 69 from turning after the cock 57 is cocked, feed the dog 63 down, release the drum 69 after stopping the pull on the trigger 58.

 The trigger 58 contains a tail 70 for pressing, the nipple 71 preventing the drum 69 from rotating when cocked 57, the feed lever 72.

 The feed lever 72 of the trigger 58 is used to feed the trigger rod 59 upward when self-cocking, to turn the trigger 58 trigger rod 59 when setting the trigger 57 on the cocking.

 The feed lever 72 is retracted by the spring 73 of the feed lever 72.

 The feed lever 72 is placed on the trigger housing 58.

 The trigger 58 rotates the hole 74 on the axis 75 of the housing 1.

 The trigger 58 is returned to its original position by the trigger spring 76.

 The trigger rod 59 serves to rotate the intermediate wheel when self-cocking, to turn the trigger 58 when setting the trigger 57 on the cock, hold the trigger 57 on the cock by the intermediate wheel 62.

 The trigger rod 59 contains teeth 77 for engagement with the teeth 66 of the intermediate wheel 62, a cutout 78 for accommodating the feed lever 72 of the trigger 58, a feed lip 79 for turning the trigger 58 when the trigger 57 is cocked, the guide cutout 80 for accommodating the housing guide protrusion 81 1 and the protrusion 82 whispered 60 when setting the trigger 57 on the platoon.

 The trigger rod 59 moves along the guide protrusion 81 of the housing 1.

 The dog 63 serves to rotate the drum 69 and keeps the drum 69 from turning when the trigger 57 is lowered.

 The dog 63 contains a spout 83 for engaging the tooth 68 of the drum 69.

 The intermediate wheel 62 serves to feed the trigger rod 59 when setting the trigger 57 on the cock, to pull the trigger 57 back when self-cocking, hold the trigger 57 on the cock.

 The intermediate wheel 62 contains teeth 66 for engagement with the teeth 65 of the trigger 57 and the teeth 77 of the trigger rod 5.

 The intermediate wheel 62 rotates with a hole 84 on the axis 85 of the housing 1.

 The sear 60 serves to hold the trigger rod 59 in the raised position after putting the trigger 57 on the cock, to release the trigger rod 59 when the trigger 57 is removed from the cock.

 The sear 60 includes a protrusion 82 for engagement with the guide cutout 80 of the trigger rod 59, a tooth 86 for pressing the feed lever 72 of the trigger 58.

 The sear 60 is pressed against the trigger rod 59 by a spring-loaded housing.

 Drummer 61 serves to break the cartridge capsule.

 Drummer 61 comprises a hammer 87 for breaking the cartridge capsule, tail 88 for hammering 57.

 The drummer 61 is retracted by the spring 49 of the hammer 61.

 The proposed trigger mechanism of double action works as follows.

 When setting the trigger 57 on the cocking cock 57 is pulled back behind the grooved protrusions 67, compressing the mainspring 3, turning the intermediate wheel 62.

 The intermediate wheel 62, coupled by the teeth 66 with the teeth 65 of the trigger 57 and the teeth 77 of the trigger rod 59, when the trigger 57 moves backwards, releases the trigger rod 59 upward.

 When moving upward, the trigger rod 59 partially enters the notch 64 of the trigger 57, without preventing the trigger 57 from moving backward. The feed protrusion 79 of the trigger rod 59 engages with the feed lever 72 of the trigger 58, turning the trigger 58 with the tail 70 backward, compressing the trigger spring 76.

 Under the action of the trigger rod 59, the trigger 58, turning, feeds the dog 63.

 The nose 83 of the dog 63, catching on the tooth 68 of the drum 69, rotates the drum 69. The nipple 71 of the trigger 58 enters the recess 89 of the drum 69, restricting its rotation. The projection 82 whispered 60 when the trigger rod 59 moves upward, it pops into the guide cutout 80 of the trigger rod 59, holding the trigger rod 59 in a taut position.

 The trigger rod 59 by means of an intermediate wheel 62 engaged with the trigger rod 59 and the trigger 57, holds the trigger 57 on the cocking.

 When you press the tail 70 of the trigger 58, the feed lever 72 of the trigger 58 comes out of the cutout 78 of the trigger rod 59 and simultaneously pressing the tooth 86 of the sear 60, disengages the fighting protrusion 82 of the sear 60 from the mesh with the guide cutout 80 of the trigger rod 59, releasing the trigger rod 59 The nipple 71 of the trigger 58 fits snugly into the recess 89 of the drum 69, the trigger 57 under the action of the mainspring 3 moves forward-straight and hits the hammer 61.

 Drummer 61, compressing the spring 49, strikes briskly 87 on the cartridge capsule, igniting the charge.

 The intermediate wheel 62 when the trigger 57 moves forward, turning the hole 84 on the axis 85 of the housing 1, delivers a trigger pull down.

 When releasing the tail 70 of the trigger 58, the latter, under the action of the trigger spring 76, rotates the tail 70 forward, feeding the dog 63 down.

 The nose 83 of the dog 63 drops behind the next ratchet tooth 68 of the drum 69.

 When the trigger 58 retreats to its original position, its feed lever 72, pressing on the stationary body of the trigger rod 59, moves back along the body of the trigger 58, compressing its spring 73.

 When the trigger 58 returns to its original position, the feed lever 72, under the action of its spring 73, pops into the notch 78 of the trigger rod 59. The nipple 71 of the trigger 58 releases the recess 89 of the drum 69.

 When pulling the trigger 57 from the cock, the trigger is held by the grooved protrusions 67, while the tail 70 of the trigger 58 is pressed.

 When the trigger 58 is rotated, its feed lever 72 exits the cutout 78 of the trigger rod 59 and, pressing the tooth 86 of the sear 60, displays the fighting protrusion 82 of the sear 60 from the guide slot 80 of the trigger rod 59.

 Holding the tail 70 of the trigger 58, the trigger 57 is pushed forward by hand, the mainspring 3 is opened.

 All other parts of the double-action trigger mechanism work similarly to those described above, namely, as when releasing the tail 70 of the trigger 58.

 When you press the tail 70 of the trigger 58 without first setting the trigger 57 on the cock, the feed lever 72 of the trigger 58 delivers the trigger rod 59 up. The trigger rod 59, coupled by the teeth 77 with the teeth 66 of the intermediate wheel 62, rotates the intermediate wheel 62 on the axis 85.

 The intermediate wheel 62, coupled by the teeth 66 with the teeth 65 of the trigger 57, pulls the trigger 57 back, compressing the mainspring 3.

 When the trigger 57 moves back, the feed lever 72 of the trigger 58 disengages with the cutout 78 of the trigger rod 59, while squeezing the tooth 86 whirled 60, not allowing the warhead 82 to whisper 60 to engage with the guide cutout 80 of the trigger rod 59 when the trigger 57 moves forward .

 All other parts of the double-action trigger mechanism work in the same way, namely, as when placing the trigger 57 on a combat platoon.

 After stopping the pressure on the tail 70 of the trigger 58, all parts of the double-action trigger mechanism work similarly to those described above, namely, when releasing the tail 70 of the trigger 58.

Sources of information
1. A. B. Bug. Weapon. - M .: Military Publishing House, p.23, p.220, p.22, p. 33.

 2. V. I. Murakhovsky, S. L. Fedoseev. Weapons of infantry. - M.: Armenal - Press, 1997, p. 34.

 3. Ian Hogg, John Wills. All the guns of the world. - M .: EKSMO, 1997, p. 81, para 2

 4. US patent 3613286, K.Mayer. Revolver With Double Action. - F 41 C 19/00, 04.16.1969

 5. Yu.N. Berezovsky, D.V. Chernilevsky, N.S. Petrov. Machine parts. - M.: Mechanical Engineering, 1983, p. 60-64.

Claims (4)

 1. The trigger mechanism of double action, placed in the body of a firearm, containing a trigger connected with a trigger rod, a hammer, a trigger and gearing in the form of a gear rack and a gear sector, characterized in that it is equipped with a disconnector, an automatic fuse that draws gear rack to the gear sector, the gear rack is made on the trigger rod, and the gear sector is on the trigger, the trigger is equipped with a stabilizer.  2. The double-action trigger mechanism according to claim 1, characterized in that the automatic fuse is made in the form of a plate with a protrusion.  3. The double-action trigger mechanism according to claim 1, characterized in that the trigger stabilizer is made in the form of a protrusion placed on the side plane of the trigger head, and the hammer is made of detachable mating sections.  4. The trigger mechanism of double action, placed in the body of a firearm, containing a dog, trigger associated with the trigger rod, hammer, trigger and gear mesh in the form of a gear rack and a gear sector, characterized in that it is equipped with an intermediate wheel, gear the sector is made on the intermediate wheel, and the gear rack is on the trigger rod and the trigger, while the trigger is equipped with a spring-loaded movable feed lever.

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