RU220969U1 - Metric target with sound control of hits - Google Patents

Abstract

The utility model relates to technical means of training in shooting, namely, it is a device designed for training in firing from small arms at stationary targets with the ability to remotely assess the accuracy of hits.

The technical task of the utility model is to improve the metric target MKPS, allowing for remote assessment of hits on targets during shooting and, thereby, reducing the overall time spent on performing shooting exercises.

The technical task is accomplished due to the fact that the metric target with the possibility of sound control of hits, which is a plane in the shape of the outline of a person up to the waist, and the target field includes five zones, “zone A - small”, “zone A - large”, “ zone B", "zone C", "zone D", and all zones have different surface areas, "zone A - small" has a rectangular shape and is located inside "zone B", which has the external outline of a square, "zone A - large" has the shape of a rectangle, the area of which is larger than the area of “zone A - small”, and is located inside “zone C”, and “zone C” and “zone D” combined with each other have the external outlines of octagonal figures similar to each other, while the “zone C" is smaller than "zone D" and is located inside "zone D" shifted to the upper part of "zone D", therefore "zone D" without "zone C" has a U-shaped outline, "zone B" is smaller than "zone D""and is located above "zone D", differs in that all zones are made of metal and are separate parts - sound-producing elements and do not touch each other, and therefore a gap of the same thickness is formed between adjacent sound-producing elements when they are combined into a target , sizes smaller than the caliber of small arms, and each sound-producing element has an individual thickness and is an elastic metal body, while all sound-producing elements, when assembled into a single product, represent a target for shooting at, which is fixedly attached to the base, which is a cruciform a vertical stand, with each sound-producing element attached to the base at two points using two locks put on holders fixedly attached to the base, in such a way that the loose fit of the locks to the holders allows the sound-producing elements to emit sound vibrations when a bullet hits them, and each lock is a U-shaped groove, allowing each sound-producing element to be mounted on a holder by inserting the round cap of the holder, located on the leg, into the corresponding groove, at the same time, the upper points of the sound-producing element “zone D” are interconnected by a crossbar, most of the length which is located on the side of fastening the sound-producing element “zone D” to the base in a plane parallel to the plane in which the sound-producing element “zone D” is located, and on the sound-producing element “zone D” the locks are located in the lower part of the sound-producing element and on the crossbar, and that’s all the holders have the same cap sizes and are located on the base in such a way that the front sides of all sound-producing elements, when attached to the base, are located in the same plane, while the sound-producing element “zone A - small” is attached to a horizontal holder, fixedly fixed on the base, and each the sound-producing element, with its thickness, is tuned to a certain sound when a bullet hits them, “zone D” - the note “C”; “zone C” - note “D”; “zone B” - note “mi”; “zone A - large” and “zone A - small” - the note “F”, while the same sound of the sound-producing elements “zone A - large” and “zone A - small” is achieved by the difference in their thickness.

Description

The utility model relates to technical means of training in shooting, namely, it is a device designed for training in firing from small arms at stationary targets with the ability to remotely assess the accuracy of hits.

For shooting, paper chest and waist targets with circles on a wooden base are widely used [Small arms shooting course (KS SO-85). M.: Voenizdat, 1987]. These targets are printed circles on a piece of paper that is permanently attached to a wooden base. The accuracy of hits is assessed after the end of shooting by close visual contact of the controlling person with the target. The disadvantage of paper chest and waist targets with circles on a wooden base is the impossibility of remotely assessing the accuracy of hits on targets.

To practice individual exercises, targets with hit sensors are used [Firing course for small arms, combat vehicles and tanks of the Ground Forces (KS SO BM and T SV-2017). M.: Voenizdat, 2017]. When a bullet hits such a target, the hit sensor is triggered and the target moves from a vertical position to a horizontal one. The disadvantage of targets with hit sensors is the impossibility of remotely assessing the accuracy of hits.

The metric target MKPS [1] V. Kryuchin was chosen as a prototype. Practical shooting. 2008 - Information from an Internet source. 2) Metric MKPS targets. - Information from the Internet source http://magisterpro.ru/targets-ipsc.html], intended to control the assessment of the accuracy of hits, which is carried out after the end of shooting by close visual contact of the controlling person with the target. The metric target MKPS is made of cardboard and is a flat shape resembling the outline of a person from the waist up. The target is attached to the posts, the target field includes five zones: “zone A - small”, “zone A - large”, “zone B”, “zone C”, “zone D”. All zones have different surface areas. In this case, “zone A - small” has a rectangular shape and is located inside “zone B”, which has the external outline of a square. “Zone A - large” has the shape of a rectangle, the area of which is larger than the area of “zone A - small”, and is located inside “zone C”. “Zone C” and “Zone D” have the external outlines of octagonal figures similar to each other. In this case, “zone C” is located inside “zone D”. “Zone B” is smaller than “Zone D” and is located above “Zone D”.

The disadvantage of the metric MKPS target is the impossibility of remotely assessing the accuracy of hits.

The technical task of the utility model is to improve the metric target MKPS, allowing for remote assessment of hits on targets during shooting and, thereby, reducing the overall time spent on performing shooting exercises.

The technical task is accomplished due to the fact that a metric target with the possibility of sound control of hits, which is a plane in the shape of the outline of a person waist-deep, and the target field includes five zones, “zone A - small”, “zone A - large”, “zone B", "zone C", "zone D", and all zones have different surface areas, "zone A - small" has a rectangular shape and is located inside "zone B", which has the external outline of a square, "zone A - large" has the shape of a rectangle, the area of which is larger than the area of “zone A - small”, and is located inside “zone C”, and “zone C” and “zone D” combined with each other have the external outlines of octagonal figures similar to each other, while “zone C” " is smaller than "zone D" and is located inside "zone D" shifted to the upper part of "zone D", therefore "zone D" without "zone C" has a U-shaped outline, "zone B" is smaller than "zone D" and is located above “zone D”, differs in that all zones are made of metal and are separate parts - sound-producing elements and do not touch each other, and therefore a gap of the same thickness is formed between adjacent sound-producing elements when they are combined into a target, dimensions are smaller than the caliber of small arms, and each sound-producing element has an individual thickness and is an elastic metal body, while all sound-producing elements, when assembled into a single product, represent a target for shooting at, which is fixedly attached to the base, which is a cross-shaped vertical stand, with each sound-producing element attached to the base at two points using two locks put on holders fixedly attached to the base, in such a way that not a tight fit of the locks to the holders allows the sound-producing elements to emit sound vibrations when a bullet hits them, but each lock is a U-shaped groove that allows each sound-producing element to be attached to a holder by inserting the round cap of the holder, located on the leg, into the corresponding groove, at the same time, the upper points of the sound-producing element “zone D” are connected to each other by a crossbar, most of the length of which is located on the side of fastening the sound-producing element “zone D” to the base in a plane parallel to the plane in which the sound-producing element “zone D” is located, and on the sound-producing element “zone D” the locks are located in the lower part of the sound-producing element and on the crossbar, and all holders have the same cap sizes and are located on the base in such a way that the front sides of all sound-producing elements, when attached to the base, are located in the same plane, while the sound-producing element “zone A - small” is attached to a horizontal holder fixedly fixed on the base, and each sound-producing element the element, with its thickness, is tuned to a certain sound when a bullet hits them, “zone D” - the note “C”; “zone C” - note “D”; “zone B” - note “mi”; “zone A - large” and “zone A - small” - the note “F”, while the same sound of the sound-producing elements “zone A - large” and “zone A - small” is achieved by the difference in their thickness.

In fig. 1 shows a general view of a metric target with the possibility of sound control of hits, which shows: pos. 1 - sound-producing element “zone B”; pos. 2 - sound-producing element “zone A - small”; pos. 3 - sound-producing element “zone A - large”; pos. 4 - sound-producing element “zone C”; pos. 5 - sound-producing element “zone D”.

In fig. Figure 2 shows the procedure for attaching some sound-producing elements to the base, which shows: position 6 - holder; pos. 7 - base; pos. 8 - cross member;

In fig. 3 shows the order of placing locks on the sound-producing element, which shows: pos. 9 - lock.

A metric target with the possibility of sound control of hits is manufactured as follows.

Sound-producing elements 1-5 are made of metal. Each sound-producing element has an individual shape and thickness and is an elastic metal body. Folded together in one plane, sound-producing elements 1-5, fixed to the base 7, form a metric target with the possibility of sound control of hits.

Sound-producing elements 1-5 do not touch each other. When sound-producing elements are combined into a target, a gap of equal thickness is formed between adjacent sound-producing elements, the dimensions are smaller than the caliber of small arms, for training shooting from which a metric target with the possibility of sound control of hits is intended (Fig. 1).

Sound-producing elements 1-5 have different surface areas. In this case, the sound-producing element “zone A - small” 2 has a rectangular shape and is located inside the sound-producing element “zone B” 1, which has the external outline of a square (Fig. 1). The sound-producing element “zone A - large” 3 has the shape of a rectangle, the area of which is larger than the area of the sound-producing element “zone A - small” 2, and is located inside the sound-producing element “zone C” 4. The sound-producing elements “zone C” 4 and combined with each other "zone D" 5 have the external outlines of octagonal figures similar to each other, as shown in Fig. 1. In this case, the sound-producing element “zone C” 4 is smaller than the sound-producing element “zone D” and is located inside the sound-producing element “zone D” 5, shifted to the upper part of the sound-producing element “zone D”.

The sound-producing element “zone B” 1 is smaller than the sound-producing element “zone D” 5 and is mounted on a holder 6 above the sound-producing element “zone D”.

All sound-producing elements 1-5 in the assembled state represent a target for shooting at, which is fixedly attached to the base 7, which is a cross-shaped vertical post, as shown in Fig. 2. In this case, each sound-producing element 1-5 is attached to the base 7 at two points using two locks 9, put on holders 6, fixedly attached to the base 7, so that the loose fit of the locks 9 to the holders 6 allows the sound-producing elements to when a bullet hits them, it produces sound vibrations. Each lock 9 is a U-shaped groove that allows each sound-producing element to be attached to the holder 6 by inserting the round cap of the holder located on the leg into the corresponding groove, as shown in Fig. 2 and 3.

The sound-producing element “zone D” has a U-shaped outline, as shown in Figs 1 and 2. The upper points of the sound-producing element are connected to each other by a crossbar 8, most of the length of which is located on the side where the sound-producing element “zone D” is attached to the base in a plane parallel the plane in which the sound-producing element “zone D” is located. On the sound-producing element “zone D”, locks 9 are located in the lower part of this sound-producing element and on the cross member 8.

All holders 6 have the same cap sizes and are located on the base 7 in such a way that the front sides of all sound-producing elements, when attached to the base 7, are located in the same plane.

The sound-producing element “zone A - small” is attached to a horizontal holder, fixedly fixed to the base 7.

Each sound-producing element, with its thickness, is tuned to a specific sound when a bullet hits them: “zone D” - the note “C”; “zone C” - note “D”; “zone B” - note “mi”; “zone A - large” and “zone A - small” - the note “F”. At the same time, the identical sound of the sound-producing elements “zone A - large” and “zone A - small” is achieved by the difference in their thickness.

A metric target with the possibility of sound control of hits is used as follows.

The principle of operation of a metric target with the possibility of sound control of hits is based on receiving sound signals of different tones at the moment the target is hit, depending on the accuracy of hitting the target. Sound is produced by sound-producing elements of various zones.

If there is a need for training in firing small arms at stationary targets with the possibility of remotely assessing the accuracy of hits, the proposed metric target with the possibility of sound control of hits is installed in a specially equipped place for firing small arms (shooting range, shooting range) at the required distance from the shooters by vertically securing the base 7 into the ground or onto devices for installing targets. After this, shooting at metric targets with the possibility of sound control of hits is allowed. The person monitoring the shooting results will be able to determine whether a bullet hits specific areas based on the sound from sound-producing elements 1-5.

The use of a metric target with the possibility of sound control of hits makes it possible to increase the efficiency of the process of training in firing from small arms at stationary targets by eliminating the need to assess the accuracy of hits on targets at close range, the ability to carry out this assessment at a distance from the targets and during shooting, and reducing the time for assessment accuracy of hits on targets.

Claims (1)

A metric target with the ability to soundly control hits, which is a plane in the shape of a person’s waist-length outline, and the target field includes five zones, “zone A - small”, “zone A - large”, “zone B”, “zone C” , “zone D”, and all zones have different surface areas, “zone A - small” has a rectangular shape and is located inside “zone B”, which has the external outline of a square, “zone A - large” has the shape of a rectangle, the area of which is larger than the area “Zone A - small”, and is located inside “Zone C”, and “Zone C” and “Zone D” combined with each other have the external outlines of octagonal figures similar to each other, while “Zone C” is smaller than “Zone D” and is located inside “zone D”, shifted to the upper part of “zone D”, and therefore “zone D” without “zone C” has a U-shaped outline, “zone B” is smaller than “zone D” and is located above “zone D” ", characterized in that all zones are made of metal and are separate parts - sound-producing elements and do not touch each other, and therefore between adjacent sound-producing elements, when combined into a target, a gap of the same thickness is formed, smaller than the size of the caliber of small arms , and each sound-producing element has an individual thickness and is an elastic metal body, while all sound-producing elements, when assembled into a single product, represent a target for shooting at, which is fixedly attached to the base, which is a cross-shaped vertical stand, and each sound-producing element the element is attached to the base at two points using two locks put on holders that are fixedly attached to the base, in such a way that the loose fit of the locks to the holders allows the sound-producing elements to emit sound vibrations when a bullet hits them, and each lock is a P- a shaped groove that allows each sound-producing element to be mounted on a holder by inserting the round cap of the holder, located on the leg, into the corresponding groove, at the same time, the upper points of the sound-producing element “zone D” are connected to each other by a crossbar, most of the length of which is located on the side where the sound-producing element is attached "zone D" to the base in a plane parallel to the plane in which the sound-producing element of the "zone D" is located, and on the sound-producing element of the "zone D" the locks are located in the lower part of the sound-producing element and on the crossbar, and all holders have the same cap sizes and are located on the base in such a way that the front sides of all sound-producing elements, when attached to the base, are located in the same plane, while the sound-producing element of “zone A - small” is attached to a horizontal holder fixedly fixed on the base, and each sound-producing element with its thickness is adjusted to a certain the sound when a bullet hits them, “zone D” - the note “C”; “zone C” - note “D”; “zone B” - note “mi”; “zone A - large” and “zone A - small” - the note “F”, while the same sound of the sound-producing elements of “zone A - large” and “zone A - small” is achieved by the difference in their thickness.

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