RU2223458C1 - Twin-gun artillery mount - Google Patents

Abstract

FIELD: armaments, in particular, multiple-gun artillery systems. SUBSTANCE: the twin-gun artillery mount has a cradle with two barrels positioned in it one above the other, fastened for reciprocating motion in its axis. The barrels are so installed that their axes are in parallel with each other and positioned in the vertical plane passing through the axis of symmetry of the cradle in cross section, the upper and lower barrels are kinematically linked with the respective upper and lower shell feed ribs, with the respective upper and lower breechblocks-piston-type charge feed ribs, each of them is made as a longitudinally-sliding one and has an elastically- plastic "Banjo" type obturator, the upper and lower breechblocks-charge feed ribs are made engageable in the locked position by their locking lugs directly with the tube of the upper or lower barrel, besides, the upper and lower barrels are kinematically linked with the respective left-hand and right-hand recoil checks, which are so installed that their axes are in the same plane passing through the axis of the journals. The dimensions of the cradle and barrels are bound up by a definite relationship. Besides, a muzzle brake of the cellular type is made on each barrel in the front section of the tube, the muzzle brake has side vents directed in the opposite sides in the horizontal plane, and the upper and lower shell feed ribs are connected to the drive of their motion, for example of the hydropneumatic type, consisting of the first and second hydraulic cylinders of the upper and lower shell feed ribs, third and fourth hydraulic cylinders of motion of the upper and lower breechblocks - charge feed ribs, as well as of the upper and lower hydraulic pumps kinematically linked with the upper and lower barrels, as well as of at least one upper and one lower hydro- pneumatic accumulators, control unit and a stand-by hydraulic pump connected to an external power source. EFFECT: enhanced efficiency of use of the artillery mount. 4 cl, 11 dwg

Description

 The invention relates to the field of weapons, and more specifically to highly efficient multi-barrel artillery systems.

 Currently, there is a need to create military equipment with the highest possible efficiency and unification of technical solutions, elements, components and systems in the development of promising barrel systems of caliber 152/155 mm, which have rigid overall dimensions and functional limitations, and the increase in efficiency should be ensured above all due to a dramatic increase in firepower as the main combat property of artillery.

 In this case, prerequisites should be created for the simultaneous buildup of ballistic characteristics of artillery (maximum initial velocity of shells with the required mass), which determine the firing range, and rate of fire of artillery as a property that fundamentally affects the time of solving a fire problem.

 These characteristics basically determine the required number of artillery pieces for solving various fire tasks.

 In terms of unification, it is necessary to ensure the rational use in artillery of technical solutions, elements, units and systems common with other combat systems: both with the naval receiver systems (ships and coastal defense), and with promising ground forces combat vehicles. Moreover, the need for unification is determined by both economic and military-technical expediency, determined by the new geopolitical conditions due to the large number of current and potential local armed conflicts.

 Thus, it is obvious that when creating barrel artillery systems with a high degree of unification, the prerequisites for the simultaneous growth of both ballistic characteristics and rate of fire should be provided. However, the further joint increase of these characteristics under the existing overall mass and functional limitations, which are characteristic first of all for SAO, encounters significant problems associated, firstly, with quick overheating of the barrel and wear of its channel and, secondly, with exhaustion of reserves for a significant increase in technical rate of fire when using separate loading shots (especially with caseless propellant charges) using traditional technical solutions.

 To overcome these technical problems, new extraordinary technical solutions are required.

 One way to overcome the above technical problems is to create weapons systems that include multi-barrel guns with unconventional structural and layout schemes that provide acceptable weight and dimensions of both the guns themselves and the weapon systems as a whole.

 Closest to the proposed solution is the design of the well-known twin artillery mount according to the patent of the Russian Federation 2055298, F 41 A 25/00, 27/00, 1992, containing a cradle, two multi-barrel assault rifles (with rotating barrel units) located in a vertical plane one above the other, installed in it ) and a mechanism for reducing automata.

 In this installation, the trunks in each machine are fixed with the possibility of movement relative to each other and relative to the cradle, both along its axis, and with the possibility of rotation relative to the axis of the corresponding machine.

 Such a gun mount, although it allows for high rate of fire when using small-caliber unitary shots, as well as high operational capabilities by providing information for automatic machines with rotating blocks of trunks with three pairs of spikes located in the guiding grooves of the cradle, but due to the features of this design, which has numerous complex components and parts, it naturally has a relatively low reliability in relation to artillery systems that are simpler in the collection of components and parts emam. In addition, such designs of artillery systems with rotating blocks of barrels do not allow firing of large-caliber shells (about 152/155 mm), which sharply narrows the scope of their use.

 The problem solved by the present invention is to increase the operational efficiency of a paired artillery installation by providing the possibility of expanding the scope of its use.

 This problem is solved using the technical result obtained by using the present invention and consisting in providing a high rate of fire of the artillery system when using separate loading rounds (including with large-caliber shells of the order of 152/155 mm and with shellless propelling charges) while ensuring compactness, relatively small mass and high reliability of its work.

где L_нчл - длина направляющей части люльки;
L_ст - длина ствола,
на каждом стволе в передней части трубы выполнен дульный тормоз сотового типа с боковыми окнами, направленными в противоположные стороны в горизонтальной плоскости, верхний и нижний снарядные досылатели, а также верхний и нижний затворы - зарядные досылатели соединены с приводом их перемещения, например гидропневматического типа, состоящим из первого и второго гидроцилиндров перемещения верхнего и нижнего снарядных досылателей, третьего и четвертого гидроцилиндров перемещения верхнего и нижнего затворов - зарядных досылателей, а также верхнего и нижнего гидронасосов, кинематически связанных с верхним и нижним стволами, а также из, по меньшей мере, одного верхнего и одного нижнего гидропневмоаккумуляторов, блока управления и резервного гидронасоса, связанного с внешним источником энергии.The specified technical result is achieved by the fact that in the known paired artillery installation having a cradle with two upper and lower trunks located one above the other, fixed with the possibility of reciprocating movement along its axis, the upper and lower trunks are installed so that the axes are parallel to each other and placed in a vertical plane passing through the symmetry axis of the cradle in cross section, the upper and lower trunks are kinematically connected with the corresponding the upper and lower projectile rammers, with the corresponding upper and lower shutters, piston-type charging rammers, each of which is longitudinally sliding and having an elastoplastic bungee type obturator, the upper and lower bolts - charging rammers, made by their fighting projections interacting in the locked position directly with the pipes of the corresponding upper or lower trunk, in addition, the upper and lower trunks are kinematically connected with the corresponding left and right counter tkatnymi devices, which are mounted so that their axes are arranged in a single plane passing through the axis of the trunnions, the cradle is provided with an aspect ratio of the length with respect to the top or bottom of the barrel:

where L _ncl - the length of the guide part of the cradle;
L _article - barrel length,
on each barrel in the front part of the pipe a muzzle brake is made of a honeycomb type with side windows directed in opposite directions in the horizontal plane, the upper and lower projectile rammers, as well as the upper and lower bolts - charging rammers are connected to a drive for moving them, for example, a hydropneumatic type, consisting from the first and second hydraulic cylinders for moving the upper and lower projectile rammers, the third and fourth hydraulic cylinders for moving the upper and lower bolts - charging rammers, and also e of the upper and lower hydraulic pumps kinematically connected to the upper and lower trunks, as well as from at least one upper and one lower hydraulic accumulators, a control unit and a backup hydraulic pump connected to an external energy source.

 Introduction to the design of the paired artillery installation of new units, as well as the special placement and special implementation of new and existing units and elements, allow for a high rate of fire of the artillery system when using large-caliber separate loading shots while ensuring compactness, relatively small weight and high reliability of its operation.

The invention is illustrated by drawings, in which:
- in FIG. 1 shows a General side view of the proposed twin artillery mount;
- in FIG. 2 to 6 depicts on an enlarged scale a general side view of the proposed twin artillery installation, while:
- figure 2 shows the first part on the left of a General side view showing the muzzle brakes at the ends of the trunks;
- figure 3 shows the second part on the left of a General side view showing the cradle and one of the recoil devices;
- in FIG. 4 shows the third part on the left of a general side view showing the cradle and one of the recoil devices;
- figure 5 shows the fourth part from the left of the General side view with a sectional view of the cradle and the upper barrel with a longitudinally sliding piston lock - charging rammer in the closed (locked) position with a dash-dot showing the position of the shells before sending;
- in FIG. 6 depicts a fifth side view of the left side view with a dashed line showing the position of the shells before sending;
- figure 7 shows the fourth part on the left of a General side view showing the dashed line of the position of the charges before sending;
- in FIG. 8 shows a fifth part from the left of a general side view with a dashed line showing the position of the charges before sending;
- figure 9 shows a cross section along aa of the general view of the proposed twin artillery mount;
- figure 10 shows a block diagram of a hydropneumatic actuator of the proposed twin artillery installation;
- in FIG. 11 shows a cross section along BB (see FIG. 2) of the trunks of the proposed twin artillery installation in the area of muzzle brakes.

 The proposed paired artillery installation in one of the possible variants of its implementation comprises a cradle 1 with two identical trunks located in it: upper 2 and lower 3 (see Figs. 1, 2, 9), fixed with the possibility of reciprocating movement along its axis.

 The upper 2 and lower 3 trunks are installed in such a way that their axes 4 and 5, respectively, are parallel to each other and placed in a vertical plane 6 (see Fig. 9), passing through the symmetry axis of the cradle 1 in cross section.

где L_нчл - длина направляющей части люльки;
L_ст - длина ствола.The cradle 1 is made of an elongated type with an optimal ratio of dimensions along the length relative to the upper 2 (or lower 3) trunk:

where L _ncl - the length of the guide part of the cradle;
L _article - barrel length.

 The upper 2 and lower 3 trunks are kinematically connected with the corresponding upper 7 and lower 8 projectile rammers, with the corresponding upper 7 and lower 10 gates - piston-type charging rammers (see FIGS. 5, 9), each of which is longitudinally sliding and has an elastoplastic obturator 11 of the Banja type, providing a sleeveless obturation of the chamber of the corresponding upper 2 or lower 3 shafts, the upper 9 and lower 10 shutters - charging rammers made by their locked combat engagements si (not shown) directly (without breech) with pipes of the corresponding upper 2 or lower 3 trunks, in addition, the upper 2 and lower 3 trunks are kinematically connected respectively to the left 12 and right 13 anti-recoil devices of a combined type (see Fig. 3 , 4, 5, 9), which perform the functions of recoil brakes and knurls, which are installed in such a way that their axes 14 and 15, respectively, are placed in the same plane passing through the axis of the pins 16 (see 5, 9) twin artillery mount.

 On each barrel, upper 2 and lower 3 in the front of the pipe, a muzzle brake is made of the upper 17 and lower 18 (see Figs. 1, 2, 11) honeycomb type with the corresponding side windows 19 and 20, directed at each muzzle brake in opposite - sides in the horizontal plane.

 Upper 7 and lower 8 projectile rammers, as well as upper 9 and lower 10 shutters - charging rammers are connected to a drive for moving them, for example, a hydropneumatic type (see Fig. 4, 5, 6, 9, 10), consisting of the first (upper) 21 and second (lower) 22 hydraulic cylinders for moving the corresponding upper 7 and lower 8 projectile rammers, third (upper) 23 and fourth (lower) 24 hydraulic cylinders for moving the corresponding upper 9 and lower 10 shutters - charging rammers, as well as the upper 25 and lower 26 hydraulic pumps kinematically connected with the upper 2 and lower 3 shafts and operating from the recoil energy of the indicated shafts, of the three upper 27 and three lower 28 hydro-pneumatic accumulators, control unit 29 and backup hydraulic pump 30 (see Fig. 6, 8), kinematically connected, for example, with a manual drive, electric motor, etc. (not shown in the drawing).

 The proposed twin artillery installation is operated as follows.

 Stage 1. LOADING.

 In the initial position, the upper 2 and lower 3 trunks are in the extreme left position (see figures 1, 2, 5, 7).

 The upper 7 and lower 8 projectile rammers are cocked by the first (upper) 21 and second (lower) 22 cylinders, respectively, and the upper 9 and lower 10 shutter-charging rammers are open and fully extended to their original position, respectively, the third (upper) 23 and fourth (lower) 24 hydraulic cylinders drive their movement.

 Shells 31, 32 (see FIGS. 5, 6) and shellless propellant charges 33, 34 (see FIGS. 7, 8) are fed using feed mechanisms 35, 36 (see FIG. 9) from ammunition packs (not shown) shown) on the line sending 37, 38 into the chambers of the upper 2 and lower 3 trunks.

 After this, shells 31, 32 are sent to the upper 2 and lower 3 trunks using the upper 7 and lower 8 projectile rampers, and then (after the upper 7 and lower 8 shell rammers) are removed, the upper 9 and lower 10 shutters are charging rammers in the chambers of the upper 2 and lower 3 trunks are dispensed with sleeveless propellant charges 33, 34 and the chamber parts of the upper 2 and lower 3 trunks are locked to ensure reliable chamber obturation using elastoplastic obturators 11 of the Banja type.

 In this case, the movement of the upper 7 and lower 8 projectile rammers is carried out using the first 21 and second 22 hydraulic cylinders, and the upper 9 and lower 10 locks - charging rammers using the third 23 and fourth 24 hydraulic cylinders using the energy stored in the upper 27 and lower 28 hydropneumatic accumulators, either the upper 25 and lower 26 hydraulic pumps during the rollback of the upper 2 and lower 3 shafts, or from a backup hydraulic pump 30 operating from an external drive (external energy source) and used, for example, when preparing to load before the first shot.

 After loading, the twin artillery mount is ready to fire.

 2 stage. GUIDANCE.

 Aiming at the target of the proposed twin artillery installation is carried out using modern standard means in the usual way.

 3 stage. SHOOTING.

 Shooting from the proposed twin artillery installation is made alternately from each barrel of the upper 2 or lower 3.

 During the shot, part of the powder gases acts on the upper 2 and lower 3 trunks and forces them to retreat.

 The other part of the powder gases leaving after the projectiles 31, 32 breaks into the side windows 19 and 20 of the upper 17 and lower 18 muzzle brakes and inhibits the rollback of the upper 2 and lower 3 barrels.

 The recoiling upper 2 and lower 3 barrels act on the upper 7 and lower 8 shell rammers, cocking them, and move the upper 9 and lower 10 shutters - charging rammers to their original position. In this case, the upper 2 and lower 3 trunks act on the corresponding left 12 and right 13 anti-recoil devices, thereby providing inhibition of the rollback of the upper 2 and lower 3 trunks. In addition, the rolling upper 2 and lower 3 trunks act on the corresponding upper 25 and lower 26 hydraulic pumps, which in turn provide charging (recharge) of the upper 27 and lower 28 hydraulic accumulators.

 After the rollback is completed, the left 12 and right 13 anti-recoil devices roll over the upper 2 and lower 3 trunks, returning them to their original position, and the first 21, second 22, third 23 and fourth 24 hydraulic cylinders restore the original (uniform set) position of the upper 7 and lower 8 projectile rammers and the upper 9 and lower 10 locks - charging rammers, regardless of the length of the barrel rollback. The energy stored in the upper 25 and lower 26 hydraulic pumps in the upper 27 and lower 28 hydraulic accumulators is used. In the event that during the operation of these mechanisms this energy is not enough, the standby hydraulic pump 30 (operating from an external energy source) is turned on, with the help of which the first 21, second 22, third 23 and fourth 24 hydraulic cylinders will bring the corresponding upper 7 and lower 8 projectile rechargers, as well as the upper 9 and lower 10 gates - charging rechargers to their original position before loading.

 The gun mount is ready again for the next cycle of work.

Using the invention allows:
1. To provide, in comparison with complex multi-barrel artillery systems with rotating blocks of trunks, highly effective firing of large-caliber projectiles of the order of 152/155 mm, and also significantly increase the reliability of the artillery system by reducing the number of complex components and parts.

 2. To provide, in comparison with single-barrel artillery systems of large caliber, a simultaneous increase in ballistic characteristics and rate of fire of artillery by halving the rate of fire and the total shooting rate per barrel of the barrel with the same total rate of fire and the number of projectiles fired, which significantly reduces the working temperature and dramatically (non-linear with respect to the rate of fire) increases the longevity of the barrel.

 3. To provide, in comparison with large-caliber single-barrel artillery systems, a two-fold increase in the maximum technical rate of fire due to the possibility of simultaneous loading of two barrels, which brings such a gun mount in terms of fire performance to multiple launch rocket systems while maintaining the accuracy of the rifled barrel system, as well as maintaining existing gun mount dimensions in the cross-sectional area.

 4. To provide the possibility of creating a twin artillery installation with a mass close to the classic single-barrel gun, due, firstly, to ensure the possibility of using materials for the manufacture of cradles with high specific stiffness (for example, from aluminum or composites) by combining both barrels with an elongated cradle in a single system with a large construction height, with relatively high rigidity; secondly, by providing the possibility of using high-strength steels for the manufacture of trunks, unified with the steels used for tank guns (strength categories 0-120 ... 0-130) by ensuring that the outer contour of the barrel pipes is brought closer to the minimum in terms of pressure retention ; thirdly, due to the elimination of the need for the use of breech breeches; fourthly, due to the use of high-performance muzzle brakes of the honeycomb type, made at the same time as the barrel pipes and having a given efficiency, minimum weight and overpressure.

 5. Ensure the stability of ballistic characteristics on all numbers of an alternating charge by providing the possibility of uniform fixation in a charging chamber of a sleeveless variable modular propellant charge on a piston of a longitudinally sliding shutter-rammer (ie, at the bottom of the chamber), regardless of the number of modules in a particular charge.

 6. To ensure increased firing efficiency, especially in the “fire raid” or “flurry of fire” mode by ensuring maximum rate of fire for one target by firing shots at different charge numbers (which is achieved by using an alternating modular propelling charge) at different elevation angles of gun mount barrels. At the same time, all shells of the queue can approach the target almost simultaneously, which ensures an extremely high probability of its destruction.

Claims (4)

1. Paired artillery installation containing a cradle with two upper and lower trunks located one above the other mounted on it, fixed with the possibility of reciprocating movement along its axis, characterized in that the upper and lower trunks are installed so that their axes are parallel to one the other and are placed in a vertical plane passing through the symmetry axis of the cradle in cross section, the upper and lower trunks are kinematically connected with the corresponding upper and lower projectile rammers , with corresponding upper and lower piston-type reloading shutters, each of which is longitudinally sliding and having a Banja type elastoplastic shutter, the upper and lower shutter-charging reloading valves made by their fighting projections interacting in the locked position directly with the pipes of the corresponding upper or lower trunk, in addition, the upper and lower trunks are kinematically connected with the corresponding left and right recoil devices, which are installed so their axes arranged in a plane passing through the axis of the trunnions. 2. Paired artillery installation according to claim 1, characterized in that the cradle is made with a ratio of dimensions in length relative to the upper or lower barrel

where L _ncl - the length of the guide part of the cradle; L _article - barrel length. 3. The twin artillery installation according to claim 1, characterized in that on each barrel in the front of the pipe a honeycomb type muzzle brake is made with side windows directed in opposite directions in a horizontal plane. 4. The twin artillery installation according to claim 1, characterized in that the upper and lower projectile rammers, as well as the upper and lower shutter-charging rammers are connected to a drive for moving them, for example, a hydropneumatic type, consisting of the first and second hydraulic cylinders for moving the upper and lower projectile rammers, the third and fourth hydraulic cylinders for moving the upper and lower gate-charging rammers, as well as the upper and lower hydraulic pumps kinematically connected with the upper and lower trunks, as well as from enshey least one upper and one lower gidropnevmoakkumulyatorov, the control unit and the backup hydraulic pump connected to an external power source.

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