RU2326329C2 - Method for assembly of traumatic cartridges - Google Patents

Abstract

FIELD: smallarms ammunition.

SUBSTANCE: inventive method consists in encapsulating a case, filling said case with a powder charge, placing a bullet into the case cavity and crimping the case neck. Moreover, in order to ensure air discharge from the case cavity while placing the bullet therein, a guide bushing extension is used, having a clearance between its outer diameter and the inner diameter of the case, whereby the extension of the guide bushing is initially placed down to the case to the powder charge level, and then at least one traumatic bullet is placed into the upper portion of the guide bushing, whereafter the bullet is set down at first to the lower level of the guide bushing extension, by forcing the air out to the clearance between the guide bushing extension and the inner diameter of the case, and then, by maintaining the same bullet level in the case using a plunger, the guide bushing extension is taken out from the case cavity by moving down the plunger, a pusher and a cassette with cases, whereafter the case neck is crimped.

EFFECT: improving the quality of cartridges and their assembly rate.

4 dwg

Description

The invention relates to the field of small arms ammunition, in particular to the technology of assembling cartridges using technological equipment.

Known cartridge for small arms, consisting of a sleeve, a bullet, an igniter capsule and propellant powder charge, see RF patent 2206052 "Small arms cartridge" 7 F42B 5/02, 12/04. The assembly of such cartridges does not cause difficulties when installing the bullet in the sleeve, since the outer diameter of the bullet and the inner diameter of the barrel of the barrel are made proportionate. However, when assembling such cartridges with a metal bullet inside the liner, increased air pressure is created, in this regard, after inserting the bullet into the liner, the assembly is kept for 1 hour at normal temperature to normalize the air pressure in the liner cavity. See the manual edited by N. P. Ageev, “Production of small arms cartridges”, 1974 edition, Moscow, p. 114.

A known method of equipping cartridges for gas and signal weapons. See the description of the invention to the patent of the Russian Federation No. 2149346 - prototype. The method of equipping idle (signal) cartridges containing a powder charge and gas cartridges containing a powder charge and a tear irritant placed in a container of polymer material includes a preliminary partial installation of the container in a sleeve, a sleeve with a partially installed container is placed in the matrix, and the final installation of the container is carried out by the punch at the same time as the container is fixed in the sleeve by closing the matrix with the punch, while the optimal position of the container provided in the sleeve advancing movement of the container relative to the fixation of the container in the sleeve. Using the invention allows for high pressure stability of the powder gases.

When assembling cartridges with bullets made of elastic material, problems arise associated with the removal of air in the sleeve during installation (installation) of the bullet in the sleeve. When a bullet moves, the latter is in contact with the walls of the sleeve, the air is compressed and excessive pressure is created in the sleeve cavity, which prevents the bullet from setting to a predetermined level (place) in the sleeve cavity. In addition, the presence of air under excessive pressure between the bullet and the powder charge leads to an uneven distribution of the loose powder charge and the uneven protrusion of the rubber bullet beyond the length of the compressed barrel of the sleeve.

The disadvantages of the prototype include the difficulty of maintaining the size of the cartridge when they are equipped with elastic bullets and the inability to withdraw excess pressure from the cavity of the sleeve.

The technical task of the present invention is to ensure the removal of excess air pressure from the inner cavity of the liner when installing an elastic bullet in the liner, providing the specified geometric dimensions due to the high-quality assembly of cartridges, increasing labor productivity.

The task is achieved in that the cantilever part of the guide sleeve, with which the assembly is carried out, with a gap between its outer diameter and the inner diameter of the sleeve, is initially placed in the sleeve to the level of the powder charge, then at least one traumatic bullet is placed in the upper part of the guide sleeve, after which the bullet is first fed to the lower level of the console part of the guide sleeve, while squeezing into the gap between the console part of the guide sleeve and the inner diameter the sleeve, air, and then, keeping the previous level of the bullet in the sleeve with the help of a punch, the cantilever part of the guide sleeve is removed from the sleeve cavity by moving the punch, pusher and cartridge with sleeves down, after which the sleeve barrel is crimped.

Signs of the invention, namely, that the cantilever part of the guide sleeve, with which the assembly is performed, made with a gap between its outer diameter and the inner diameter of the sleeve, is initially placed in the sleeve to the level of the powder charge, then at least one traumatic bullet is placed into the upper part of the guide sleeve, after which the bullet is first fed to the lower level of the console part of the guide sleeve, while squeezing into the gap between the console part of the guide sleeve and the inner diameter the throat of the cartridge case is air, and then, using the punch to maintain the previous level of the bullet in the cartridge case, the cantilever part of the guide sleeve is removed from the cavity of the cartridge by moving the punch, pusher and cartridge with cartridge casings down, then the cartridge cartridge is crimped - these are new, non-obvious, directional signs the implementation of the task of the invention to remove excess air pressure from the inner cavity of the liner and ensuring the high-quality assembly of traumatic cartridges. So, the sequence of operations associated with the installation of the guide sleeve on the outer diameter made with a gap with respect to the inner diameter of the sleeve, the placement of the traumatic bullet at the lower level of the guide sleeve and the subsequent holding of the bullet at a set level and the withdrawal of the guide sleeve from the cavity of the sleeve, allows you to remove air gap and to prevent excess air pressure formed in the insertion of the bullet during the insertion of the bullet, while maintaining the location of the traumatic bullet at a predetermined level in sleeve and does not require additional exposure of the collected shells with bullets to eliminate excess pressure.

Figure 1 schematically shows the initial position of the structural elements with which the assembly of traumatic cartridges is carried out. Traumatic bullets are placed in the guide bushings. Guide bushings are installed in the cavity of the sleeve.

Figure 2 presents the position in which the traumatic bullet punch is displaced to the level of the lower edge of the guide sleeve until it touches the powder charge.

In figure 3, the guide bushings are removed from the cavity of the sleeve, the level of location of the traumatic bullets is held by a punch.

Figure 4 presents the cartridge mounted in the sleeve of traumatic bullets.

The structural elements by which the proposed method for assembling traumatic cartridges is carried out consist of a movable spring-loaded upper 1 and lower 2 press plates, cassette 3 with encapsulated sleeves 4 installed therein with a powder charge 5. Each guide sleeve 6 is mounted in the housing 7 and is made with console 8, the outer diameter of which is smaller than the inner diameter of the sleeve 4. The inner surface of the guide sleeve 6 is formed by three figures - a cylindrical upper part 9, the conical middle part 10 and the cylindrical lower part 11. The punch 12 and the pusher 13 are rigidly mounted on the upper movable plate 1. The traumatic bullets 14 are initially using a loading device in the upper cylindrical part 9 of the guide sleeve 6. See figure 1. An intermediate plate 15 with centering holders 16 of the sleeve is mounted between the housing 7 with guide sleeves 6 and the cassette 3 with encapsulated sleeves 4. The housing 7 with guide sleeves 6, the intermediate plate 15 with the centering holders 16 of the sleeve 4, the cartridge 3 with encapsulated sleeves 4 are mounted on a movable a plate 17, which is spring-loaded by the springs 18. The movable plate 17 is provided with a latch 19, a spring 21 is installed between the top plate 1 and the guide plate 20 on the push rod 13. The intermediate plate 15 and the cassette 3 are contact and coaxially connected They are interconnected by means of guides 22. The housing 7 with guide sleeves 6 is mounted in a horizontal groove 23 made in the sides 24 of the base 25. The cassette 3 is held in its lowermost position by means of a latch 26 and a latch 19. The upper plate 1 is aligned with the guides 27 with the guide plate 20, the housing 7, the intermediate plate 15 and the cassette 3 with sleeves 4. The holes in the guide plate 20 are for the centering pins 28 mounted in the housing 7. The movable spring plate 17 is installed in the base with vertical grooves 29.

The proposed method of assembling traumatic cartridges using the structural elements indicated in FIGS. 1-4 is as follows.

Starting position of structural elements. Base 25 is mounted on a press plate 2. The movable plate 17, mounted in the grooves 29 of the base 25, springs 18 is pushed up and held in its highest position. The cassette 3, the intermediate plate 15, the housing 7 and the upper plate 1 are located outside the working area of the press on a separate desktop. In this case, the upper surface of the movable plate 17 and the working table are at the same level and are contacted by side surfaces.

The assembly of traumatic cartridges is as follows.

On the desktop, outside the working area of the press, a preliminary sequential assembly of structural elements is carried out. An intermediate plate 15 with centering holders 16 of the sleeve 4 is connected to the cartridge 3 with the encapsulated sleeves 4 and the powder charge 5, which is connected by means of the guides 22 to the housing 7. The console 8 of the guide sleeve 6 thus entered the cavity of the sleeve 4 to the upper level of the powder charge 5. Then, traumatic bullets 14 are placed in the cylindrical upper part 9 of each guide sleeve 6 of the housing 7 using a loading device (not shown in the drawing), see Fig. 1. After that, the guide plate 20 and the upper plate 1 assembled together with pushers 13 and punches 12 are mounted on top, after which the assembly of structural elements thus assembled using the guide grooves 23 and the corresponding protrusions of the housing 7 is mounted on the working table in the grooves 23 of the sidewalls 24 of the base 25, located in the working area of the press.

When the press acts on the upper movable plate 1 and when it moves downward, the punch 12, rigidly fixed on the upper plate 1, begins to act on the traumatic bullet 14 by the lower end surface and push it from the cylindrical part 9 first into the conical middle part 10, and then into the lower cylindrical part 11 to the level of the lower edge of the console 8 of the guide sleeve 6 and the upper level of the powder charge 5. In this case, the air in the cavity of the guide sleeve 6 and in the cavity of the sleeve 4 through the gap between the inner diameter of the guards PS 4 and the outer diameter of the console 8 is displayed outside. When the pusher 13 approaches the intermediate plate 15 with the centering holders 16 of the sleeve 4, the pusher 13 begins to press on it and move downward, overcoming the force of the springs 18 of the movable plate 17. The housing 7 with the guide sleeves 6 remains in place in the grooves 23 of the sidewalls 24 of the base 25. At the same time the pusher 13 moves together with the intermediate plate 15 and the cartridge 3 with the encapsulated sleeves 4 down, and the punch 12 when lowering starts to push out the traumatic bullet 14 from the cylindrical part 11 of the console 8 of the guide sleeve 6, maintaining the previous level the location of the bullet 14 with respect to the sleeve 4. In this case, the console 8 of the guide sleeve 6 is withdrawn from the cavity of the sleeve 4. The movable plate 17 with the cassette 3 and the sleeves 4 is fixed in the lowermost position with the latch 26 and the latch 19. Upon reaching the lower level 14, when the punch 12 and the pusher 13 are in the lowest position, they are in the sleeve 4 at the level of the powder charge, at a given level. The cartridges thus assembled together with the cassette 3, the intermediate plate 15, the housing 7 and the plate 1 are removed by moving from the grooves 23 of the base 25 onto the desktop. Next, the cartridge with the assembled cartridges is transferred to the operation of crimping the barrel of the cartridge case 4, and a new cartridge with encapsulated cartridge cases and a powder charge is installed in its place.

An experimental verification of the option of assembling traumatic cartridges with traumatic bullets, in which, after installing the guide sleeve to the level of the powder charge and supplying the bullet to the lower level of the guide sleeve, the guide sleeve is lifted from the sleeve with a stationary punch, pusher and cartridge with sleeves, also showed reliable assembly results. Air was discharged from the cavities of the guide sleeve and the sleeve; no post-assembly exposure was required. A specific example of the proposed method.

Using structural elements, an experimental batch of traumatic cartridges was assembled. During assembly, a base 25 was installed in the guides on the bottom plate 2 of the VM-51 press. A sequential assembly of structural elements was started on the desktop, with the help of which traumatic cartridges are assembled and which include a cartridge 3 with encapsulated cartridges 4 and a powder charge filled into them 5, the intermediate plate 15 with centering holders 16 of the sleeve 4, the housing 7 with the guide bushings 6. The console 8 of the guide bushings 6 was in this case in the cavity of the sleeve at the level of the powder charge 5. Then on the body 7, a traumatic bullet loading device was installed, with the aid of which two traumatic bullets 14 were placed in each guide sleeve 6 in its upper cylindrical part 9. The loading device was removed and plate 1 was assembled together with punches 12 and pushers 13. In the cassette there were 32 shells. Moreover, all the sleeves 4 located in the cassette 3 using the centering holders 16 of the sleeve 4, were centered. Next, in the space between the sidewalls 24 using the guide grooves 23 by moving around the desktop installed a pre-assembled complex of structural elements. When lowering the top plate 1, the punch 12 began to push both traumatic bullets 14 first along the cylindrical upper 9 part of the guide sleeve 6, then along the conical part 10 and further along the cylindrical lower part 11 of the console 8. At the same time, the gap between the console and the inner diameter of the sleeve 4 came out air in front of this in the cavity of the guide sleeve 6 and in the cavity of the sleeve 4. When the punch 12 reached the lowest point, the traumatic bullets were compressed, had an elliptical shape, and were moved to the lower edge of the console 8 of the guide sleeve and 6, and were in the cavity of the sleeve at a given level.

Subsequent movement of the upper plate 1 downward continued until the end of the pusher 13 touched the intermediate plate 15, after which the latter together with the cassette 3 began to lower until the plate 17 was fixed in the lower position, and the console 8 of the guide sleeve 6 came out of the sleeve cavity when lowering the cassette 3. After assembling the cartridges, the cartridge 3 with the sleeves 4 together with the intermediate plate 15, the housing 7 and the plate 1, by shifting onto themselves, was removed from the bottom surface of the base 25 and transferred to the operation of crimping the dulc. Having released the latch 26 of the latch 19, the plate 17, under the action of the springs 18, has risen to its extreme upper initial position. In the space between the sidewalls 24 of the base 25 on the movable plate 17 installed structural elements with another cartridge with encapsulated sleeves 4 and a powder charge 5.

Currently, all the structural elements necessary for assembly are manufactured. Experimental verification of the feasibility of the proposed method showed good results. Air was completely discharged from the liner cavity, no excess pressure was created in the liner cavity, traumatic bullets rose at a predetermined level, the quality corresponded to the requirements, the shutter speed operation was not required after installing the bullet in the liner cavity, labor productivity increased.

A decision was made on the proposed method for use in the manufacture of traumatic cartridges.

Claims (1)

A method of assembling traumatic cartridges, including filling a powder charge into an encapsulated sleeve installed in a cartridge, installing a traumatic bullet into a sleeve using a punch and crimping a sleeve of a cartridge, characterized in that at least one traumatic bullet is initially placed in a guide sleeve made with the gap between its outer diameter and the inner diameter of the sleeve, then the guide sleeve is installed in the sleeve to the level of the powder charge, after which, with the help of a punch, the bullets are fed to the lower level the guide sleeve and, further, by moving the cartridge with sleeves with the pusher and moving the punch, when the cartridge with the guide sleeves is stationary, the bullet is ejected from the guide sleeve, maintaining the same level of the bullet in the sleeve until the guide sleeve exits the sleeve, after which the sleeve is crimped .

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