RU2616091C1 - Staroverov - i mortar - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: mortar has the barrel mounted in the middle part on the tripod with the horizontal transverse hinge, and the axis of said hinge is coupled with the ball abutment by the post. The ball abutment and the rear barrel end have mutually contacting bearing surfaces. The contacting bearing surfaces are arranged transverse to the barrel plane at an angle smaller than the self-locking angle, and the barrel in its middle part has two plates with longitudinal grooves into which the hinge axis enters, or in which the hinge axis enters in the sliding slider.

EFFECT: increasing the initial speed of a mine and the convenience of loading a mortar.

5 cl, 3 dwg

Description

The invention relates to artillery, more specifically, to mortars. The invention forms a new subclass of mortars.

Mortars of the "classical" scheme are known. They have a small range and accuracy. Known breech-loading mortars, see, for example, patent No.RU 2293941, but the presence of a bolt complicates, complicates and increases the cost of the design, and also leads to leakage of powder gases and to a decrease in rate of fire.

In order to win the mortar duel with the enemy mortars, it is advisable to have an increased range of the shot.

The objective and technical result of the invention is to increase the initial speed of the mine without compromising the combat and operational qualities of the mortar (except for weight).

This problem is solved primarily by lengthening the mortar barrel. The mortar contains, as usual, a base plate, a barrel and a tripod. And so that the loader of medium height could charge the long barrel of the mortar from the muzzle, the mortar has a barrel mounted in the middle part on a tripod on a horizontal transverse hinge (hereinafter all directions are given relative to the direction of the shot), and the axis of this hinge is connected to the spherical rod, and the ball stop and the rear end of the barrel have mutually contacting bearing surfaces.

This is the simplest, but nonetheless workable specimen of this mortar.

However, for the non-contact adjacency of the mentioned mutually contacting surfaces, it is desirable to have the following additions to the mortar design: the contacting support surfaces are located to the transverse plane of the barrel at an angle less than the self-braking angle (this angle for steel is about 5-6 degrees, and the optimal angle for the mortar is 1-2 degrees ), and the barrel has in the middle part two side plates with longitudinal grooves, which include the hinge axis or which include the hinge axis in the sliding slider (that is, as if the wings). See FIG. one.

In order for the bearing surface of the barrel to always occupy the same position on the bearing surface of the ball joint, the bearing surface of the ball joint has a wedge-shaped protrusion and the barrel has a spring-loaded lever with a latch, and this lever goes into the handle to simultaneously open the latch and raise the barrel. See FIG. 2.

For convenience and safety of using a mortar, it is desirable to have a mine stopper in the barrel in the form of a spring-loaded plate protruding into the barrel and connected to a key. Since the key with the long trunk will be located high enough, its control can be carried out using the cord attached to it.

Management can be carried out by the gunner manually or automatically. To carry out the latter function, the key is connected by a cord to a two-arm lever located on the rod so that it contacts the barrel when the latter is in working position.

In FIG. 1 shows this mortar in a side view with a folded barrel (without a base plate). In FIG. 2 shows an enlarged spherical bearing and a barrel in a connected position, connected by a latch. In FIG. 3 shows the upper part of the barrel with a stopper.

In FIG. 1 mortar contains a barrel 1 having two side plates 2 with longitudinal grooves 3. The grooves include the outer ends of the axis 4 of the horizontal transverse hinge. With the working position of the barrel, they should occupy approximately the middle position in the groove, and the groove itself should not be much longer than the axis diameter - by about 4-5 mm, or not much longer than the slide, if one is provided. Axis 4 is attached to the tripod 5 and to the rod 6, connecting the hinge to the ball stop 7. The ball stop has a supporting surface 8, and on the back of the barrel there is a supporting surface 9. Both are inclined by 1-2 degrees relative to the transverse plane of the barrel, on this sketch - counterclockwise (for clarity, the sketch shows a much larger angle). On the rod 6 is a spring-loaded two-arm lever 10 for automatically releasing mines (the spring can be any: spiral for tension or compression, flat-spiral, plate, in particular multi-leaf, that is, a spring). The spring is not shown.

In FIG. 2 shows the barrel 1, the rod 6, the ball stop 7. The supporting surfaces 8 and 9 are closed. On the ball stop 7 there is a wedge-shaped protrusion 11, and on the barrel there is a mutually located lever 12 of complex shape, forming a latch at the bottom, and a handle at the top.

In FIG. 3 shows a sectional view of a barrel 1 in which there is a closed-gap (i.e., not connected to the atmosphere) slot 13, in which a stopper 14 is located, which is on the same axis as the key 15. A cord 16 can be attached to the key.

The simplest version of the mortar works (without a latch and a stopper) like this: from the initial position, the barrel 1 tilts its front end down so that the loader can insert a mine into the barrel. Then he, insuring the mine from falling out, quickly, but not jerkily raises the trunk up to the joint of the supporting surfaces 8 and 9, while the trunk is slightly raised in the groove 3 due to the bevel of the supporting surfaces. The gunner helps him and controls this process. Mina falls down, hits a firing pin, and a shot occurs.

It is recommended that the hinge 4 be placed in such a position of the trunk that the empty trunk slightly outweighs the rear, and the trunk with the mine in the front part outweighs the same extent forward. Then the efforts of raising and lowering the trunk will be equal and small.

After the shot, the gunner and loader together turn the barrel again.

So that the mortar does not shift from the aiming position with this action, it can be carried out more smoothly. The charger inserts a mine into the barrel muzzle until it rests against the plumage or body against the stopper 14 (the stopper should be located in the barrel from the barrel at a distance of about 65-80% of the length of the mine). Then the barrel is smoothly brought to the fighting position, but the shot does not occur, since the mine rests on the stopper 14. After checking the tip, the gunner pulls on the cord 16 attached to the key 15, the stopper rotates, and the mine drops down.

After the shot, the gunner pulls the upper end of the lever 12, while he opens the latch with one movement and raises the rear end of the barrel up. The charger at this time is already waiting with a mine in his hands until the barrel of the barrel drops to an acceptable level. The cycle repeats.

To increase the rate of fire, shooting can be conducted in the automatic stopper opening mode. For this, the key 15 is connected to the two-arm lever 10 with a cord of a certain length. The cord should not be too elastic, and therefore it is advisable for it to use high-modulus fibers such as Vectran, Dainum, Spectrum, Zylon, etc. When refining the barrel along the supporting surface 8 to the working position, it touches the two shoulders of the lever 10, and he opens the stopper through the cord and the key 14. The mine falls into the barrel.

Claims (5)

1. Mortar containing a base plate, a barrel and a tripod, characterized in that it has a barrel mounted in the middle part on a tripod on a horizontal transverse hinge, and the axis of this hinge is connected to the ball stop by the rod, and the ball stop and the rear end of the barrel are mutually contacting supporting surfaces. 2. Mortar according to claim 1, characterized in that the contacting supporting surfaces are located to the transverse plane of the barrel at an angle less than the angle of self-braking, and the barrel has in the middle part two plates with longitudinal grooves, which include the hinge axis or which include the hinge axis in a sliding slider. 3. Mortar under item 1, characterized in that the supporting surface of the ball stop has a wedge-shaped protrusion, and the barrel has a spring-loaded lever with a latch, and this lever goes into the handle to simultaneously open the latch and raise the barrel. 4. Mortar according to claim 1, characterized in that it has a mine stopper in the barrel in the form of a spring-loaded plate protruding into the barrel and connected to a key. 5. Mortar according to claim 4, characterized in that the key is connected by a cord to a two-arm lever located on the rod, so that it contacts the barrel when the latter is in working position.

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