RU2102681C1 - Breech-loading mortar - Google Patents

Abstract

FIELD: breech-loading mortars. SUBSTANCE: the mortar has a rifled barrel with a roller having a curvilinear groove engaged with the barrel made in the breech in parallel with the bore line, the breechblock is fastened on the back end of the roller, and the front end is connected to the rod attached to the breech. At a turn of the barrel to the position for loading the rod through the roller draws the breechblock out of the barrel and turns it due to the curvilinear groove on the roller engageable with the lug on the barrel. To provide for automatic bringing of the barrel to the position for loading, the axis of rotation is shifted relative to the barrel center of mass. At loading the barrel center of mass is shifted relative to the axis of rotation to the breech and lowers almost independently. For automatic unlocking of the barrel after a shot the breech accommodates a spring-loaded casing with a lug locking the barrel, spring-loaded latch, firing, trigger and unlocking mechanisms. The mortar mount is made in the form of a bipod; the carriage with the elevating mechanism fastened on it is moved on the carriage axle by the training gear; the ears of the elevating mechanism are enveloped by the shock-absorber body. Spades are fastened on the ends of the bipod axle. EFFECT: improved design. 3 cl, 9 dwg

Description

 The present invention relates to the field of artillery weapons, and more specifically to breech-loading mortars.

 As you know, mortars are muzzle-loading and breech-loading. The advantage of mortar-loading mortars is the convenience of loading, especially of large-caliber mortars, the possibility of firing from cover with less chance of hitting calculation members from enemy fire, the possibility of increasing the barrel length, and therefore improving the ballistic qualities of the mortar, and the absence of a double loading problem. The disadvantages of breech-loading mortars include structural and operational complexity, as well as a lower rate of fire. The decrease in rate of firing mortars is due to the time spent on moving the barrel from the combat position to the loading position and vice versa, as well as the time required to open and close the shutter.

 There is a 160-mm breech-loading mortar. This mortar contains a barrel with a bolt, a breech with a frame, a base plate and a machine with a guidance mechanism. With the help of basting and trunnions, the barrel is fixed on the frame and can be rotated on the trunnions in a vertical plane and can be fixed in 2 positions, in the combat and in the loading position. The shutter is pivotally mounted on the barrel with a vertical axis and, for manual opening, rotates to the side. On the front of the shutter there is a shutter, and on the back there is an inclined flat surface which in the combat position of the barrel is in contact with the corresponding breech surface. To lock the barrel in combat position, the barrel in the breech on the lateral surfaces has wedge protrusions that extend beyond their respective hooks on the breech. The disadvantages of this mortar are low rate of fire, to some extent caused by the manual opening and closing of the shutter and the consistent execution of the operations of turning the barrel and opening or closing the shutter.

 The shortcomings of the mortar include a long conversion time from marching to combat and vice versa, as well as low accuracy and poor effect on the target, due to the presence of inefficient smooth feathered mines in the ammunition.

 Known 120-mm muzzle-loading rifled mortar MO-120 RT61 (France), weighing 574 kg, firing along with smooth mines and 120-mm rifled mines with finished rifles ("Foreign military equipment", ser. 11, 1979, issue 26, p. 11-13. Internationale Wehrrevue, 1985, v. 18, No. 3, pp. 403-404). This mortar is inherent in all the disadvantages of muzzle-loading mortars, in addition, it is heavy. However, it has powerful ammunition, comparable in efficiency to a 152-mm shell.

 For the prototype, we adopted a 160-mm breech-loading mortar.

 The aim of the invention is to increase the combat characteristics: accuracy range, the effectiveness of the target, rate of fire. Increasing the range, accuracy, and effectiveness of the target is achieved by using the well-known high-performance projectile with finished rifles, Nr: 120-mm RP mines of type PR14 from the French MO-120 RT61, and for this the barrel is made rifled and torque transmission from rifled shell on the ground. Increasing the rate of fire is achieved by automating the closing and opening of the shutter and combining the operations of opening and closing the shutter with the rotation of the barrel, as well as providing unlocking, rotation of the barrel and opening the shutter after firing without the participation of the calculation number.

 The purpose of the invention is achieved by the fact that in a breech-loading mortar containing a barrel, a bolt, a breech ring rigidly connected to a shock absorber with rods containing shock, trigger and unlocking mechanisms, a machine having an axle with wheels and an elastic sprung element, rotary and lifting mechanisms, and the machine is fixed eyes to the shock absorber rods, the barrel is threaded, and the axis of rotation of the barrel is offset from the center of mass, in addition, in the breech of the barrel parallel to the axis of the channel, a rolling pin with a curved groove is made, connected with a barrel and a retainer, the bolt being fixed at the rear end of the rolling pin, and the front end connected to a bar, the other end of which is connected to the breech, equipped with a spring-loaded housing with shock, trigger and unlocking mechanisms, also a protrusion and a spring-loaded latch Moreover, the machine is made in the form of a bipod, on the axis of which there is a carriage with a lifting mechanism, the eyes of which are covered by the shock absorber body, and the coulters are rigidly fixed at the ends of the axis.

 To transmit torque from the rifled barrel to the ground, it is envisaged that the body of the shock absorber encompasses the eyes of the lifting mechanism associated with the rod, which excludes shock absorber rods from the torque transmission chain, the weakest elements. To further transmit the moment, the lifting mechanism is located above the swivel and is rigidly mounted on the carriage, which has the ability to move left and right along the axis, made in the form of a single beam. On the beam, the rack teeth are made, interacting with the gear of the rotary mechanism located on the carriage. Thus, rotating the rotary mechanism, the carriage moves along the axis, thereby guiding it horizontally. When fired, the carriage transmits the force from the torque to the axis, the axis to the coulters rigidly fixed at its ends. In addition, the biped is simultaneously a gun carriage, because wheels with cranks and a sprung element are mounted on the axle beam.

 As a result, using a light mortar, it was possible to ensure the firing of a well-known powerful rifled mine, significantly increasing the combat capabilities of a light mortar.

 To ensure a higher rate of fire, the shutter opens and closes automatically when the barrel is moved to a horizontal position and vice versa. This is due to the fact that in the breech of the trunk parallel to the axis of the bore, a rolling pin is made with a curved groove connected with the barrel, with a bolt fixed to the rear end of the rolling pin, and the front end connected to a rod attached to the breech. When the barrel is rotated to the loading position, the rod pulls the bolt out of the barrel through the rolling pin and expands it due to the curved groove on the rolling pin interacting with the protrusion on the barrel. The shutter releases the charging line. To ensure that the barrel is automatically brought into the loading position after the shot, the axis of rotation is shifted down and back relative to the center of mass of the barrel, which, when the plate recovers, gives the barrel a tipping inertial moment in the direction of the loading position. At the first unlocking, the barrel, having a tipping moment, due to the fact that the center of mass is also shifted forward from the axis of rotation, is rotated to the loading position. When loading a projectile with a charge (≈25 kg), the center of mass of the barrel shifts relative to the axis of rotation to the breech of the barrel (due to the severity of the shell and the large shoulder relative to the axis of rotation) and after loading, it lowers and stops almost independently (with a little help with the hand).

 To automatically unlock the barrel after a shot, a spring-loaded housing has been introduced into the breech, having a protrusion of the barrel, as well as mounted on it: a spring-loaded latch, shock, trigger and unlocking mechanisms. Practically, the body of the percussion mechanism is a spring-loaded inertial body with a barrel stopper having a stopper protrusion. On the breech there is an oval hole for the trigger and unlocking mechanisms. After the shot, the slab seeks to throw away the sliding parts due to the elastic deformation of the slab. In this case, the housing inertia lags behind the barrel and its locking protrusion disengages from the shutter frame. So that under the action of the spring he again does not jump into the cavity of the shutter, there is a spring-loaded latch. When the body of the percussion mechanism moves backward, it rises under the action of a spring (eg a leaf) and, resting against the bolt, does not allow the locking protrusion to lock the barrel.

 For the first unlocking, a unlocking mechanism is provided, which, when turning, rests against the breech protrusion and, compressing the spring, removes the locking protrusion from engagement with the shutter.

 For stragging the trunk there is a spring-loaded pusher located on the breech and resting against the breech of the barrel. After the pusher will push the barrel out of its extreme position, the overturning moment (the center of mass of the barrel is closer to the muzzle of the barrel than the axis of rotation) will deploy the barrel to a close horizontal position, while the shutter will automatically release the charging line.

 Figure 1 shows a General view of the mortar in a combat position; figure 2 shows the stowed position; figure 3 shows the connection of the eyes of the lifting mechanism with the rods of the shock absorber; figure 4 shows the breech with shock and other mechanisms; in FIG. 5, 6 show the unlocking and trigger mechanisms; in FIG. 7 shows a bar; on Fig shows a two-leg carriage; figure 9 shows the breech with a holder.

 The breech-loading mortar (Fig. 1) contains a barrel 1, a shock absorber 2, rigidly connected to the breech 3 and pivotally with the biped carriage 4. The breech 3 is pivotally connected to the plate 5.

The barrel 1 has a cylindrical bore with a corkscrew 6, into which a rolling pin 7 with a curved groove is inserted, the shutter 8 is fixed at its rear end, and a rod 9 is pivotally attached pivotally to the breech 3. The barrel 1 is connected to the shock absorber 2 by basting 10 and trunnions of rotation 11. The dash-dotted line (figure 1) shows the position for loading and the combat position with an elevation angle of 80 ^o . The dash-dotted line with two points shows the intermediate position of the two-leg carriage when rolling out the two-leg carriage on wheels from the stowed position. The shock absorber 2 (figure 3) through the rods 12 is connected to the biped-carriage 4 using the eyes 13.

 The breech 3 has a movable housing 14 with a spring 15. In the housing 14 there are: a striking mechanism with a striker 16, a latch 17 with a leaf spring 18, a unlocking mechanism 19 and a trigger 20. A pusher 21 with a spring 22 is fixed on the breech 3. To move the housing 14 in breech 3 oval holes are made.

 The rod 9 (Fig. 1) provides movement of the shutter 8 and cushioning when pumping to the extreme position for loading and contains a cylinder 23 (Fig. 7), a rod 24 and cylinder 25. The cylinder 23 interacts with the cylinder 25 having a seal 26 through the washer 27 and spring 28.

 A rod 29 is installed inside the cylinder 25, having a hole in the shoulder, attached to the cylinder 23 by a pin 30. A fork 31 is attached to the cylinder 23, and a bracket 32 is placed in the cylinder 24, which has a mounting point for the rolling pin 7. The bracket 32 has 2 flats interacting with the fork 31 A stopper 33 is installed on the fork 31, having 2 positions: the 1st position the narrow protrusion of the stopper 33 interacts with the groove on the cylinder 24, the 2nd position the wide protrusion interacts with the wide groove on the cylinder 24. Switching is performed by turning the stopper 33. Nut 35 closes mechanism, and kronsh the thain 34 connects to the breech 3. In the cavity between the cylinders 25 and the rod 29 there is a liquid.

 The two-leg carriage 4 (Fig. 1) contains an axis 36 (Fig. 8) with an elastic element (eg: torsion bar) 37, cranks 38 connected to the torsion bar 37 and wheels 39. The carriage moves along axis 36 using a rotary mechanism 40 41 with the lifting mechanism 42 fixed thereon. The coulters 43 are rigidly fixed at the ends of the axis. One of the coulters changes its length using the handle 44.

 The breech of the barrel 1 (Fig.1) is shown in Fig.9. The holder 45, spring-loaded spring 46, contains a latch 47 with a spring 48. With the curved groove of the rolling pin 7 interacts with the stopper of the barrel 6. For manual opening-closing there are handles 49.

 The mortar works as follows.

 For the first loading of the barrel 1 by turning in the pins 11 is manually or automatically. For this, the opening mechanism 19 is pressed (Fig. 5) and it moves backward, compressing the spring 15, the housing 14 and disengages from the shutter 8, while the latch 17, coming out of the shutter groove under the action of the leaf spring 18, rises up, rests against the shutter 8 and does not allow the housing 14 to re-lock the barrel 1 when releasing the mechanism 19. After locking, the pusher 21 with the force of the spring 22 strains the barrel 1 and gives it the first impulse for rotational movement around the pin 11. In the future, the barrel 1, having a tipping moment from the center masses bent forward relative to the pin 11, begins to unfold in a horizontal position. In this case, the rod 9 pulls the rolling pin 7 of the shutter 8 back and brings the shutter 8 out of the barrel 1, turning it to the side. When the shutter 8 comes to the extreme rear position, the spring-loaded latch 47 of the holder 45 is lowered by the action of the spring 46 through the groove in the rolling pin 7 and is ready to hold the shot. Depending on the elevation angle, the rod stopper 33 (Fig. 7) is installed in 2 positions, adjusting the rod length so that it is convenient to charge at any elevation angles. When installed at large elevation angles, the stopper 33 is installed with the narrow part of the protrusion in the groove. When the barrel 1 is rotated, the cylinder 24 slides along the cylinder 23 until the stopper 33 stops, the end of the groove on the cylinder 24, after which the rod 9 begins to pull the rolling pin 7 with the shutter 8. After the full turn of the barrel and shutter 8, the barrel 1 still has energy. In this case, the cylinder 23 (Fig. 7) with a nut 35 compresses a spring 28 resting against a washer 27 mounted on a cylinder 25 attached to the breech 3. When the rod 29 is moved relative to the cylinder 25 from one cavity to another, fluid flows through the hole, due to which the excess rotational energy of barrel 1 is converted to heat. After turning the barrel 1 and the shutter 8 and damping the vibrations of the barrel 1, it is ready for loading.

 The loader fires the shot into the barrel 1, the animating part lifts the holder 45 and the loader moves the shot behind the holder 45. After loading, the center of mass of the barrel 1 moves back relative to the pins 11, which creates a moment tending to rotate the barrel 1 to the firing position. Under the influence of this moment and with a light pressing of the hand on the handle 49, the barrel 1 lowers into the breech 3. In this case, the rod 9 pulls the bolt 8 by the rolling pin 7 forward, it unfolds, enters the loading line and, picking up the projectile, sends it forward, while the bolt 8 raises the holder 45, the latch 47 approaches the rolling pin 7, abuts against it, is recessed, compressing the spring 48, and pops up behind the upper part of the rolling pin 7.

 The housing 14 with its locking protrusion pops up behind the recess of the shutter 8 and locks the barrel 1 in the fighting position. The mortar is ready to fire. For firing a shot, the calculation number pulls the trigger 16. After the shot, the plate 5, pressed by the recoil force to the ground, throws the sliding parts forward by elastic deformation of the plate 5 and the ground, while the case 14, compressing the spring 15, disengages from the shutter 8 and the latch 17 under the action of the leaf spring 18, resting on the shutter 8, will fix it in the unlocked position. When slowing down the retractable parts, the barrel 1 begins to turn due to the fact that its center of gravity is higher and in front (without loaded ammunition) of the axis of the pins 11, as well as having received a primary impulse from the plunger 21 spring-loaded 22. Further, the barrel 1 is deployed, as described above to horizontal position. Thus, without participation of the calculation, the barrel 1 is brought after the shot to the loading position. If it is necessary to translate the mortar into the stowed position, then by clicking on the handles 49, the barrel is put into the combat position, fixed by the body 14.

 Raising the barrel 1 mortar up, the openers 43 disengage from the ground and, under the influence of gravity of the two-leg carriage 4, approaches the mortar and stands on wheels 39. Then, on wheels 39 of the two-leg carriage 4 rolls under the mortar and locks in the stowed position.

 The transfer from traveling to combat is as follows. The stopper is removed in a marching manner. The barrel of the mortar 1 is lifted and the biped carriage 4 is rolled out on wheels 34, under the influence of gravity, the biped carriage 4 is pressed against the coulters 43 into the ground. Next, the barrel 1 is unlocked for the first loading.

 An experimental sample of the inventive mortar is made in metal and has passed preliminary tests with positive results.

Claims (3)

 1. A breech-loading mortar containing a barrel, a bolt, a breech, rigidly connected to a shock absorber with a rod, shock, trigger and unlocking mechanisms, a machine having an axle with wheels and an elastic sprung element, rotary and lifting mechanisms, characterized in that the barrel is made therein threaded, and the axis of rotation of the barrel is shifted relative to the center of mass, in the breech of the barrel parallel to the axis of the channel, a rolling pin and a holder are made, with a bolt fixed to the rear end of the rolling pin, and the front end connected to a rod, the other end of which is connected n with a breech, equipped with a spring-loaded housing with shock, trigger and unlocking mechanisms placed on it, the machine is made in the form of a bipod, on the axis of which a carriage with a lifting mechanism is movably along the axis, the eyes of which are covered by the shock absorber body, and at the ends of the axis fixed openers.  2. The mortar according to claim 1, characterized in that the housing of the percussion mechanism is provided with a protrusion and a spring-loaded latch.  3. The mortar according to claim 1, characterized in that the rolling pin is made with a curved groove associated with the barrel.

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