RU2064158C1 - Subcaliber bullet for smoothbore sporting gun - Google Patents

Abstract

FIELD: sporting gums. SUBSTANCE: subcaliber bullet has a body in the form of a head connected with its smaller diameter neck to the cylindrical tail fin. The bullet body is enclosed in the driving sector sabot, whose detachable sectors adjoin the bullet body, and in the head portion make up a bell mouth - air intake, and with their tail portion rest on the sabot detachable bottom. A buffer element is placed between the sabot bottom and bullet tail fin. The diameter of the bullet body tail fin exceeds the diameter of the body head. The tail fin is made hollow. The external surface of the sabot bottom is made for obturation. The buffer element is made of separate sectors adjoining one another. EFFECT: improved design. 6 cl, 2 dwg

Description

 The invention relates to ammunition, in particular, to sub-caliber bullets for smooth-bore hunting rifles.

 Currently used bullets are most often a lead cylinder (usually with a rounded head) having a longitudinal finning. When moving along the barrel, the side ribs, in contact with the walls of the barrel, stabilize the direction of the bullet, and when passing the choke, they are easily removed. The breakthrough of powder gases between the longitudinal ribs is prevented by attaching a soft (felt) wad to the shank of the bullet, which also serves as a stabilizer in flight. Since the longitudinal ribs on the cylindrical surface of the bullet are made with a helical inclination and are only partially deformed when passing the choke, they force the bullet to rotate around the longitudinal axis due to incoming air, thereby stabilizing (hydroscopic effect) its initial longitudinal orientation (see, for example, Brenneke bullets or Witt).

 However, the scarcity of lead, as a material for bullets, makes us resort to the search for substitutes, for which steel is preferred in terms of cost. An example of a bullet made of steel is the Blondo system bullet / 1 /. Possessing high ballistic characteristics, the Blondo bullet is stable in flight, does not ricochet, has a sufficient distance of destruction with a high accuracy of the battle, and therefore has received wide recognition. Nevertheless, its design causes technological difficulties and does not exclude the use of scarce lead (the presence of ring grooves with lead belts pressed into them).

 The bullets listed above are caliber, i.e. their outer diameter corresponds to the inner diameter of the barrel of the gun. To improve the accuracy of the battle and increase the distance of destruction, sub-caliber bullets were created, see, for example, / 2, 3 /. Known sub-caliber bullets have an overall diameter much smaller than the diameter of the barrel, so the bullet is enclosed in a container whose outer diameter corresponds to the caliber of the gun. When a bullet moves along the barrel channel, the separating elements orient the bullet along its axis, and after departure from the barrel they are discarded by an oncoming air stream. The advantage of a sub-caliber bullet is that it can be made of any material and have a configuration.

 The main disadvantages of the known sub-caliber bullets are the design complexity and the possibility of rebounding due to the presence of a rounded head / 2 /. In other cases, when the bullet is characterized by comparative simplicity and the lack of a tendency to ricochet / 3 /, its disadvantages are increased requirements to fit snugly on the outer surfaces of the bullet, repeating from the configuration). In addition, when a bullet is torn from the muzzle of a gun, the wad following it or the obturator due to the significantly lower mass has a short-term speed exceeding the speed of the bullet, and, catching up with it, strikes the latter along the shank, which violates the given trajectory; the stabilizer seeks to return the initial orientation to the bullet, the bullet begins to swing in flight, the flight range (distance of destruction) and the accuracy of the battle fall. A similar negative effect is also created by semicylinder elements detachable from the bullet, which are separated randomly and hit the pool at the moment of separation or, on the contrary, stick to the pool, changing the aerodynamic shape given to it. So, when shooting at a distance of 50 meters, out of every five fired sub-caliber bullets of various sizes, up to 2 holes on the target had an elliptical shape, which indicates the shortcomings of the stabilization of the bullet in flight (by the ratio of the small and large axes of the ellipse it can be judged how much the bullet movement deviated from straightforward).

 In aggregate, an essential feature closest to the claimed object is a sub-caliber bullet / 4 / (prototype). This bullet contains a body in the form of a head connected by a neck of a smaller diameter with a cylindrical shank-stabilizer, and a leading composite sector tray (container) in contact with the bullet along the cylindrical surfaces of the head and shank. Known subcaliber bullet has a number of disadvantages that worsen its characteristics. The main ones coincide with the above-mentioned shortcomings of the McElvin bullet and are associated with the fact that the elements of the sector pallet (container), striking the pool at the time of separation from it, give it an additional moment that violates the stabilization of the bullet.

 The present invention was the creation of a sub-caliber bullet for a smooth-bore hunting rifle, which, with a simple design and non-deficiency of the material used, has a high accuracy of combat, the absence of a rebound and a sufficiently large distance of destruction.

 The problem is solved by the fact that a sub-caliber bullet for a smoothbore hunting rifle is proposed, comprising a body in the form of a head connected by a neck of a smaller diameter with a cylindrical shank-stabilizer, and a leading sector pallet, the elements of which are in contact with the body along the cylindrical surfaces of the head and shank.

 New in the proposed invention is that the pallet is equipped with a detachable bottom, mounted with emphasis on the end of the sectors of the pallet, and a buffer element located between the bottom of the pallet and the shank of the housing.

 The buffer element may be prefabricated from adjacent sectors.

 In an embodiment, the body shank is made with a diameter larger than the diameter of its head.

 The shank of the housing can be made hollow.

 The outer surface of the bottom of the pallet can be performed with the possibility of obturation.

 The inner surfaces of the pallet sectors are profiled with the possibility of creating an additional stabilization impulse at the moment of opening the pallet by deflecting the oncoming air flow to the stabilizing surface of the stabilizer shank.

 In FIG. 1 shows a general view of a sub-caliber bullet in longitudinal section; in FIG. 2 mutual position of the components making up the caliber bullet at the moment of its separation from the muzzle of the gun.

 The body of the claimed bullet contains a head 1 (Fig. 1), the front end of which can be flat like the Blondo pool (as shown in the drawings) or have a different shape that improves the flow around the bullet with oncoming air flow. The head of the housing by means of a neck 2 of smaller diameter is connected with a cylindrical shank-stabilizer 3, passing into the neck 2 through a short truncated cone 4, with its apex facing the head 1. The housing is enclosed in a sector tray made in the form of a composite cup containing at least two half-cylinder liners 5 and 6, forming the walls of the glass. The end part of the pallet sectors rests on a detachable bottom 7. In a preferred embodiment, the number of pallet sectors is three, but may be large if necessary. Each of the sectors of the pallet with its internal surfaces is in contact with the external surfaces of the housing along arcs of circles that correspond to the diameters of the head 1 and the shank 3. Since the neck 2 has a smaller diameter than the overall diameters of the head and the shank, the inner surfaces of each sector of the pallet are between the head and the shank can be made of any favorable shape, providing a corresponding change in the direction of flow of oncoming air. So, in the proposed embodiment, a shape is selected which, when the sectors of the pallet are closed around the bullet body, gives the inner surface of the sector the shape of a diffuser. The head part of the closed sectors with its shape forms a bell-air intake 8. Between the detachable bottom of the pallet 7 and the shank of the casing 3, a buffer element 9 is placed inside the sectors of the pallet. In the embodiment, the buffer element 9 can be made assembled, made up of separate adjacent sectors adjacent to each other . The outer surfaces 10 and 11 of sectors 5 and 6 may have a longitudinal or transverse notch (not shown in the drawings), which reduces friction when the bullet passes through the bore and facilitates its movement through the choke. The outer surface of the bottom 7 of the pallet can be performed with the possibility of obturation. The best results when shooting gives a bullet, the overall diameter of the shank of which exceeds the overall diameter of the head. In this case, the shank can be made hollow. When assembled, the sub-caliber bullet is equipped with a cartridge in a well-known manner and therefore is not considered in the materials of this application. In this case, the wad, from the bullet, can be performed by the obturator 12, including the one combined with the bottom of the pallet 7.

 When firing elements of a sub-caliber bullet interact as follows. During movement along the bore, all elements are closed together and move together like a known caliber bullet. After the separation of the sub-caliber bullet from the muzzle end, the incoming air flows into the air intake 8 (Fig. 1), creating excessive pressure in it. Under its influence, sectors 5 and 6 begin to diverge in different directions (figure 2). Since the sectors with their rear ends rely on a detachable bottom 7, they will not separate from the body randomly, as in the prototype, but with rotation along the arrows "A" around the points "O" (figure 2). At the same time, during the turn, their rear ends will interact not with the shank of the bullet body, but with the buffer element 9, which acts as a separator of the bullet body from the bottom of the pallet. This completely eliminates the impact of the pallet sector on the body liner, and, therefore, the bullet leaves the barrel without losing the initial orientation. In addition, since the buffer element 9, unlike the prototype, will have the same speed as the bullet (in the prototype, the bottom of the pallet is briefly accelerated, catching up with the bullet), due to the significantly lower mass, it immediately loses this speed. The loss of speed by the buffer element is facilitated by the impact on it of sectors 5 and 6, inhibiting both the element 9 itself and the detachable bottom 7 of the pallet (obturator 12). The internal surfaces of the sectors are profiled in such a way that, firstly, to accelerate the opening of the pallet sectors after departure from the barrel, and, secondly, to create an additional stabilizing impulse when opening the pallet sectors by deflecting the oncoming air flow to the stabilizing surface of the liner stabilizer 3. If the buffer element is made assembled from closely closed individual sectors, then its loss of speed will occur faster. Thus, at the time of separation from the muzzle, the bullet body will be “clean”, while maintaining the speed and direction given to it. Considering that the inner surface of each sector of the pallet is in contact with the surface of the bullet body in only two places (along the circular arcs in the sections of the head 1 and shank 3), significantly less requirements are placed on the accuracy of manufacturing sectors, which simplifies and reduces the cost of bullet manufacture. The shank diameter increased in comparison with the diameter of the head increases the stabilization of the bullet in flight, as well as the execution of the shank hollow, which shifts the center of gravity of the bullet to the head relative to the center of pressure (the center of resistance to the oncoming flow).

Information sources
1. The magazine "Hunting", 1976, N 12, p. thirty.

 2. Auth. St. N 324468, cl. F 42 B 7/10.

 3. Application of France N 1352272, 1977, cl. F 42 B 7/00 (prototype).

Claims (6)

 1. Subcaliber bullet for a smoothbore hunting rifle, comprising a body in the form of a head connected by a neck of a smaller diameter with a cylindrical shank-stabilizer, and a leading sector pallet, the elements of which are in contact with the body along the cylindrical surfaces of the head and shank, characterized in that it has a pallet a detachable bottom mounted with emphasis on the end of the pallet sectors, and a buffer element located between the bottom of the container and the shank of the housing.  2. The bullet according to claim 1, characterized in that the buffer element is made prefabricated from adjacent sectors.  3. The bullet according to claim 1, characterized in that the housing shank is made with a diameter greater than the diameter of its head.  4. The bullet according to claim 1, characterized in that the housing shank is made hollow.  5. The bullet according to claim 1, characterized in that the outer surface of the bottom of the pallet is made with the possibility of obturation.  6. The bullet according to claim 1, characterized in that the inner surfaces of the sectors of the pallet are profiled with the possibility of creating an additional stabilization pulse at the time of opening of the pallet by deflecting the oncoming air flow to the stabilizing surface of the stabilizer shank.

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