RU217225U1 - MORTAR BASE PLATE - Google Patents

Abstract

The utility model relates to the construction of the base plates of mortars, developed according to the "imaginary triangle" scheme. A highly efficient, reliable and easy-to-use mortar base plate is proposed, containing an upper corrugated base plate, a central bowl for fixing the breech ball foot, an annular conical sector that combines three central coulter ribs with conical hooks at the ends and six peripheral supporting ribs. The use of the utility model makes it possible to improve the combat effectiveness and accuracy of firing from a mortar by increasing the stability of the mortar as a whole during firing.

Description

The utility model relates to mortar weapons, in particular, to the structures of mortar base plates developed according to the "imaginary triangle" scheme.

Various designs of mortar base plates are known (see, for example, RF patents for utility models: No. 23967, 26642, F41A 23/54-2002, No. 157932, F41A 23/54-2015, 103902, F41F 1/06- 2010, 144073-2014; for the invention: No. 2219468, F41A 1/06-2002; US patents No. 20110219945, F41A 23/54-2011; 5668341, F41F 1/06 - 2012, EPO patent No. 2344883, applications: PCT No. 2010051902, 20100366912, German patent No. 102006005663, etc.).

These designs of the base plates allow for their horizontal installation on the ground from an unprepared position and for circular firing, but do not ensure the stability of the system due to the jump of the base plate on the first shots.

The closest technical solution to the claimed solution (prototype) is a base plate according to the RF patent for utility model No. 157932, F41A 23/54-2015, containing a central bowl for fixing the ball heel of the breech with a hook fungus in the supporting part of the bowl, the upper support a sheet of a conical shape, reinforced along the contours with a cylindrical stiffening ring, curved upwards, a support opener in the form of a closed thin-walled conical shell with a broadening towards the lower base in the form of an inverse cone, and a set of internal and external stiffening ribs.

This design of the base plate, although it allows for its installation on the ground of an unprepared position and the conduct of circular firing, but due to a number of design features, there is poor stability of the base plate and high rebounds in the first shots. The difficulty in ensuring accurate installation of the mortar base plate on loosened (bulk) soil lies in the fact that a large area of initial contact with the soil, in the form of an edge of a closed thin-walled conical shell, leads to poor penetration into the soil. The penetration into the ground of the entire bearing surface of the conical shell occurs slowly, and on the first shots the base plate rebounds from the contact surface of the ground, which, in turn, reduces the accuracy of shooting and leads to a large consumption of ammunition.

Bounces of the base plate over the ground during repeated shots often lead to the formation of some gap between the old imprint of the compacted soil and the contact surface of the newly occupied position of the plate due to its hanging. The size of this gap from shot to shot randomly affects the rollback speed and, as a result, the spread of initial velocities, mine launch angles and accuracy of fire.

The task to be solved by the proposed utility model is to improve the combat effectiveness of the use of a mortar in combat conditions, increase the accuracy of firing from a mortar by improving the base plate of the mortar, eliminating these shortcomings by expanding the arsenal of available technical means associated with a further increase in the efficiency of design solutions.

The technical result of using the utility model is to increase the stability of the mortar as a whole for conducting all-round firing, ensuring an increase in the penetration ability of the base plate into the ground, reducing the jumps of the base plate above the ground surface, reducing the gap between the old imprint of the compacted soil and the contact surface of the newly occupied position of the base plate due to its hovering after the jump.

The specified technical result is achieved by the fact that in the base plate of the mortar, containing the upper corrugated base sheet, the central bowl for fixing the ball foot of the breech, coulter and peripheral ribs, combined with each other by an additional rib in the form of a closed thin-walled conical sector, to increase the stability of the mortar base plate and increasing the penetration of the base plate ribs into the ground during the first shots, and reducing the gap between the old imprint of the compacted soil and the contact surface of the newly occupied position of the plate from the ground surface during the first shots due to better adhesion to the ground at the ends of the protrusions of the coulter ribs, additionally made reinforcements in the form of cone-shaped hooks, the height of the rib of a closed thin-walled conical sector and peripheral ribs is reduced, the number of coulter ribs is reduced to three, to form cells that allow attaching the mass of soil to the mass of the base plate, with in order to reduce horizontal shear deformations of the soil and stabilize them, to ensure an increase in the rowing surface area at the periphery of the base plate, the number of peripheral ribs has been increased to six, reinforcements in the form of scarves have been introduced at the junction of a closed thin-walled conical sector with coulter ribs, to increase the rowing surface of the outer contour support plate, the support sheet is reinforced along the outer contour with a downwardly curved cylindrical stiffening ring. For fixing the handles and means of fastening during carrying and transportation, holes can be additionally made on the periphery of the base plate of the mortar.

The claimed utility model of the mortar base plate is welded from high-strength steel alloys and is illustrated by drawings, in which:

in fig. 1 shows the base plate of the mortar (general view);

in fig. 2 shows the base plate of the mortar (bottom view).

Structurally, the mortar base plate in FIG. 1, 2 contains:

1 - reference sheet;

2 - cylindrical ring;

3 - central bowl;

4 - groove;

5 - peripheral stiffener;

6 - opener thin-walled rib;

7 - conical hook;

8 - annular conical sector;

9 - scarf;

10 - cell.

The proposed mortar base plate contains: a corrugated top support sheet 1, reinforced along the contour with a cylindrical stiffening ring 2 bent down (see Fig. 1), a cone-shaped central bowl 3 of a typical design with two grooves 4 welded into the hole of the top corrugated support sheet 1. The upper corrugated base sheet 1, the central bowl 3 are welded with three coulter thin-walled ribs 6 with protrusions and thickenings at the ends in the form of cone-shaped hooks 7. An additional rib of an annular conical sector 8 is welded to the upper corrugated base sheet 1 with reinforcement in the form of scarves 9 at the junction with coulter ribs 6 and peripheral stiffeners 5, which, like the coulter ribs 6, are welded to the cylindrical ring 2. Cone-shaped hooks 7 welded to the protrusions of the coulter ribs 6 are connected by welding with scarves 9. Coulter thin-walled ribs 6, peripheral ribs 5 and an additional rib of the annular conical sector 8 obra cells 10 (see. fig. 2).

The proposed version of the mortar base plate is operated as follows.

The base plate of the mortar is installed on the loosened soil horizontally, the heel of the breech of the mortar barrel (not shown in the drawing) is inserted into the central bowl 3, and a two-legged mortar (not shown in the drawing) is installed.

When installed on the ground, the cone-shaped hooks 7 on the ledges of the coulter thin-walled ribs 6 penetrate into the soil and, together with the cone-shaped central thicket 3, push the soil apart. During the first shots, the introduction of cone-shaped hooks 7 contributes to the rapid penetration into the soil of the coulter thin-walled ribs 6, the additional rib of the annular conical sector 8 simultaneously with the peripheral stiffeners 5. Cells 10 (see Fig. 2) formed by peripheral stiffeners 5, coulter thin-walled ribs 6 and an additional edge of the annular conical sector 8, engage the volumes of soil and involve it in movement in the sliding directions, and cone-shaped hooks 7 with an additional edge of the annular conical sector 8 engage the soil during the reverse movement of the mortar base plate (jump). In this case, a resistance force arises, which will prevent the reverse movement of the base plate upwards (jump). For transportation, the mortar is disassembled with the heel of the breech of the mortar barrel removed from the central bowl 3 and the two-legged mortar is removed. To carry the base plate of the mortar, holes in the base sheet 1 are used, through which handles are attached or the base sheet 1 is fastened for transportation.

The proposed design of the mortar base plate can be used in "imaginary triangle" mortars for light mortars.

The manufactured prototype of the base plate of the proposed design was tested when firing from a light 82-mm mortar with confirmation of the claimed technical result.

The use of the proposed utility model of the mortar base plate made it possible to improve combat effectiveness, increase the accuracy of firing from a mortar by increasing the stability of the mortar as a whole for conducting circular fire.

Claims (2)

1. The base plate of the mortar, containing the top corrugated base sheet, the central bowl for fixing the ball heel of the breech, coulter and peripheral ribs, combined with each other by an additional rib in the form of a closed thin-walled conical sector, characterized in that at the ends of the protrusions of the coulter ribs, reinforcements are made in in the form of conical hooks, the number of coulter ribs has been reduced to three, the number of peripheral ribs has been increased to six, the height of the rib of a closed thin-walled conical sector and peripheral ribs has been reduced, reinforcements in the form of scarves have been introduced at the junction of the closed thin-walled conical sector with the coulter ribs, the support sheet has been reinforced along external contour with a downwardly curved cylindrical stiffening ring. 2. The base plate of the mortar according to claim 1, characterized in that holes can be made on the periphery of the base plate of the mortar for fixing handles and means of fastening during carrying and transportation.

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