PL15366B1 - Automatic firearms. - Google Patents

Description

The present invention relates to automatic machine firearms, the entire mechanism of which, except for the tongue, is self-acting. It has been found that in the machine gun systems used today, and in particular in manual machine guns, the rate of fire is so high Maybe it becomes directly harmful. Too fast a fire rate means that the shooter cannot aim properly, and the rapid successive hits of the recoil are so strong that they significantly reduce the accuracy of the fire, especially when shooting with the weapon resting on the hip or on the shoulder. Moreover, and especially in a hand-held machine gun, the rifle heats up and the barrel thread quickly wears out. It was therefore considered desirable to reduce the rate of fire to such an extent that the period of time between consecutive shots was greater than the time required for the normal throw and return to the combat position of the parts retreating when shot. The invention is a method of reducing the rate of fire, which prevents the bolt mechanism from returning to the combat position before the elapse of time required. According to the present invention, the delay mechanism is moved to the active position at the time of firing, for this purpose, so that the firing mechanism is engaged during recoil until the retarder moves from the active position to the passive position, and the time spent on this shift may be adjusted to provide the desired breaks between shots. For a more detailed understanding of the essence of the invention it has been presented in application to a known machine gun being the subject of US patent 1,293,022, the attached drawing shows the parts of the hand machine gun to which the invention was applied. In this drawing, Fig. 1 shows a vertical section of the center of the hand machine gun when the parts are in use. ¬ is a combat position, some of them are not shown, Fig. 2 - top view of the discharge chamber with its additional parts; Fig. 3 is a longitudinal vertical section of the retarder with trigger and slider in the retracted position; Fig. 4 is a longitudinal vertical section of a part of the slider and protective drain cable, the tongue and the trigger are shown in the rest position; 5 is a view from the left side of the retarder lever bolt and the part of the right rear retarder lever partially in section; Fig. 6 - front view of the ratchet and ratchet wheel and Fig. 7 - vertical cross-section according to the lines 7-7 in Fig. 1. The drawing shows the main parts of a manual automatic machine gun, namely cock 1, slide 2, piston rod 3, piston 4, main spring 5, bump plate 6, breech chamber 7, stock 8, magazine catch pin 9, magazine catch 10, magazine 11, trigger pin 12, trigger cable 13 and trigger pin 14. it is seated on a pin 12a extending across the cable 13. In FIGS. 1, 3 and 4, the pin is shown in its normal, inactive position, to which it returns by spring action of the trigger, as will be described below. The rear sill 12b of the trigger tab rests against the cable and prevents the trigger from turning downwards to the extreme positions shown in Figures 1, 3 and 4. The trigger lever 14 rotates on a pin 14a embedded in the lugs 13a of the cable protruding on both its sides up. This pin passes through its longitudinal slot 14b, whereby the trigger lever may not only rotate but also make longitudinal movements for the purpose indicated below. The spring of the trigger lever 14cf, located in the corresponding seat of its lower part, hooks its front end to the stationary pin 15, passing in the diagonal of the trigger cable under the pin 14a. In Fig. 1 this spring is in the normal position and immobilizes the trigger in its rear position, with the rear lever arm raised and the pin 14a touching the front wall of the slot 14b, whereby the end of the rear trigger arm is raised. engage the cutout 2a in the lower face of the bolt when the latter moves forward after being kicked back, and locks the bolt and the hammer until the front arm of the trigger is lifted by the trigger pin, such as this will later be clarified. In Figs. 1 and 3, the trigger pull tab is in its normal inoperative position and when the retarder lever 19 is in the inoperative position, as will be described, pulling on the back of the trigger pull tab will make its upper lip 12c against against the end of the front arm of the trigger lever and rotate it around the pin 14a, which will release the bolt and the hammer, which, under the action of the spring 5, will make a forward movement. 17 running across the cable, two ratchet wheels 17b, 17c are mounted (fig. 6); a pawl 18 is connected to the pulley 17c, which is mounted on the pin 18a, which passes across the trigger cable below the axis 17. To the front end of the trigger lever 19 of the trigger locking latch, the rear end of which is seated in the center of the trigger cable on the transverse pin 19a, there is attached a pivoting and downwardly curving pawl 20, the teeth 20a of which engage with the indentation wheel 17b. The head of the retarder lever 19 houses a spring 206 which, resting its upper end against the rear tab of the pawl 20, folds the lower part of the latter back and holds its teeth in contact with the teeth of the wheel 17b. It should be noted (Fig. 2) that the retarder lever is not placed parallel to the sides of the trigger cable, but is angled to the left for a part of its length, so that its front end is on a vertical line above the ring 17b so that the pawl 20 may engage with it. One end of the spring 19b of the retarder lever, seated on the pin 12a of the trigger pin, rests with one end on the upper part of the trigger cable, and the other end presses on a pin 19ct fixed in the left side of the retarder lever in front of pin 19a. In order to fix the spring on the pin 19c, the latter is suitably cut, the rail 19b, by pressing on the front end of the retarder lever, lifts it upwards from the position shown in Fig. 1 to the position according to Fig. 3 From the right rear side. At the end of the retarder lever 19 there is a rigidly connected lever 19d with the arms pointing forward and a retractor (Figs. 2 and 5). Between the upper protrusion 12c of the trigger pin and the right side of the trigger cable there is directly the lever 19d and the latch 21 of the retarder, rotating on a stationary pin 21a which protrudes inward from the right side of the cable. In the above-mentioned bolt there is a spring 2Ib, the lower end of which rests against the cable (Fig. 5). A cutout 21c is provided at the rear edge of the bolt. Spring 276 normally holds this bolt in its rear position, with a flattened protrusion 19e in the cutout 21c at the end of the front lever arm 19d when the retarder lever is in the down position ( Fig. 1). A flattened protrusion 19e on the end of the front arm of the lever 19d extends to the right beyond the inner edge of the right rim 13b of the drain cable (FIG. 2). The upward movement of the retarder lever 19 delimits the rear end of the lever portion 19d against the top surface of the discharge cable (FIG. 3). Downward movement of the retarder lever 19 limits the protrusion 19e against the periphery 13b. The top of the trigger tab 12c forms a ridge 12d (FIG. 7) which, when the retarder lever is not in its uppermost or inactive position, catches it at the bottom before the protrusion 12c contacts the front arm of the trigger. Pins 14a, 19a, 12a and 17 are immobilized in their seats by the walls of the castle chamber. The retarding mechanism works as follows. In Fig. 1, the parts of the mechanism have the correct position at the time the shot is to be given. After the bolt is fired, the bolt forwards, the rear end of the trigger lever catches on the threshold 2a, thus deflecting the hammer and bolt, and the bolt, under the action of the spring 5, strikes the bolt strongly against the rear end of the trigger lever. The force of the impact weakens and prevents damage to parts of the mechanism by the longitudinal displacement of the trigger, which is made possible by the slit 14b, against the action of the spring 14c. Moreover, the front end of the trigger lever, moving forward from the position shown in Fig. 1 to the position shown in Fig. 3, will strike the rear face of the bolt 21, rotate it on the bolt 21a against the pressure of the spring 2lbf. thereby disengaging the bolt 21 with the flat protrusion 19e on the front arm of the lever 19d. As a result, the retarder lever 19 is released and can be lifted upwards under the pressure of the spring 19b. During this upward movement, the pawls 20 engage with the ratchet wheel 17b and make them rotate, and also the wheel 17c, the teeth of which are engaged with the tab 18, causing a delay in a known manner. rotation of wheel 17c, thereby delaying the raising of the retarder. Pulling on the trigger pin must not cause its protrusion 12c to engage with the trigger lever in order to rotate the latter and release the bolt until the retarder lever reaches its highest position, as this lever presses against the back of the trigger pin 12d. however, the retarder will reach its highest position (Fig. 3), the protrusion 12c will engage the front end of the trigger before the ridge 12d hits the underside of the retarder lever and the slider will be released with the hammer and will be able to move forward to fire When moving forward, the slider engages the top of the retarder lever and tilts it down to the lower position (fig. 1) against the action of its spring. The retarder lever will now tilt so quickly that 20a will slide over the teeth 17b, so there will be no perceptible delay in the forward movement of the slider. When the trigger is pulled backwards to achieve the fully automatic actuation of the weapon, the retarder lever will engage the ridge 12d of the trigger while moving and pull it back against the pressure of the finger. This circumstance allows the trigger to return and remain in its engaging position until the retarder lever returns to its highest inactive position. By continuously squeezing the trigger, you can create as fast a fire as the retarder allows. When the slider moves forward, the trigger lever will return to the rear position under the action of the spring 14c, with the rear arm of its arm will be raised and on the next kickback it will catch on the cutout 2a. Rotation of the trigger on the pin 14a under the action of the spring 14c limits a pin 22, attached to the top of the cable, which engages the lower surface of the front arm of the trigger when the latter is in its normal position (Fig. 7). When the retarder tilts downward, the protrusion 19e moves along the The backward-tilted surface of the bolt 2b, turning the latter and squeezing its spring 21b until the retarder lever reaches its lowest position, then the protrusion 19e will fall into the notch 21 in the bolt which locks the retarder levers in the lower position (Figures 1, 2 and 5) until the front end of the trigger strikes it again, as already described. Each fired shot (not counting the very short time spent in retracting and returning the firing mechanism) will be equal to the time spent by the retarder levers to rise from the down position, i.e. active, to the raised position, or inactive, which Again it depends on the weight of the retarder pawl and the number of teeth in the pawl and the ratchet wheel. The retarder lever and its spring can be removed from the trigger cable without depriving the weapon of fire, but it will be devoid of the retarder. fire rate. Pressing the trigger pin prevents the trigger from engaging the bolt catch, so that the weapon operates automatically. It should be noted that, when the trigger mechanism is active, constant pressure on the trigger is an essential condition for automatic operation, as well as this is the case when the delay mechanism is subtracted. PL

Claims (6)

Patent claims. 1. A self-propelled firearm equipped to slow down the firing rate with a trigger retarding mechanism, the significant fact that this mechanism has a retarder lever, which, when moving forward, activates the trigger to stop the trigger action of the trigger on the trigger lever, whereby a device (21) is provided for automatically locking the trigger lever in the active position, so as to prevent the trigger lever from moving. 2. Firearms according to claim 1, the significant point that the locking device of the retarder lever is brought out of the locking position by means of the trigger lever (14), which is moved in the longitudinal direction due to the forward movement of the firing mechanism that the trigger tongue may be set in motion after a predetermined time has elapsed to apply pressure to the trigger levers to actuate the firing mechanism. 3. Firearms according to claim 1 and 2, characterized by the tern that the retarder lever (19) is rigidly connected to the second lever (19d), the rear arm of which rests against the trigger pin (13) and thus restricts the lever (19) upward movement, and the front the arm has a projection (19e) which rests against the trigger pin and thus restricts the downward movement of the lever (19). 4. Firearms according to claims According to claims 1 and 3, characterized by the fact that the retarder lever (19) rests in its lowest position against the threshold (12d) of the trigger (12) and prevents it from being actuated until the spring (19) lifts it upwards. J. M. & M. S. Br owning Company. Deputy: M. Skrzypkowski, patent attorney, because of the patent description No. 15366. a- / I9e p * B&A? AA ^ 21 c _ 17 c <7- 6. FT 17 * Print by L. Boguslawski and Skl, Warszaw-. PL