RU2631518C2 - Modular propellant charge module to artillerian units of caseless loading (versions) - Google Patents

Abstract

FIELD: weapon and ammunition.

SUBSTANCE: modular propellant charge module of caseless loading is composed of a powder charge, a rigid combustible cap including a cylindrical body with a cover and a central tube, an end igniter of smoky gun powder fixed to the bottom of the body or cover, an axial igniter of smoky gun powder fixed to the inner surface of a central tube. In the first embodiment, the sensing element of the microwave initiation system, the initiator, is located between the inner surface of the central tube and the axial igniter. In the second one - the sensing element of the microwave initiation system is located between the end igniter and the surface of the rigid combustion cap with a radial orientation. The initiator is made in the form of a conductive filament with a length equal to half the wavelength of the microwave radiation, oriented parallel to the axis of the module symmetry and ensuring ignition of the axial igniter, when the module charged to the artillery gun chamber is irradiated with electromagnetic radiation of the microwave range with the formation of a standing wave in the chamber by using the initiator of the axial component of the electromagnetic field strength lines.

EFFECT: invention allows to ensure the ignition of the modular propellant charges under the influence of electromagnetic microwave radiation and standard ignition means, to increase the reliability of ignition of the propellant charge, to improve the operating conditions by reducing the non-simultaneous ignition of its various regions, and to ensure the multi-time nature of the initiation system.

2 cl, 2 dwg

Description

The claimed invention relates to propellant charges shots shellless loading, in particular to modular propellant charges (MMZ) in a hard burning cartridges (HBC).

Various MMZ designs are known in HBCs (see, for example, patents US 4864932, from 12.09.1989 and US 5269224 B1, from 14.12.1993). The indicated MMZ structures in the ZhSK, although they allow ignition of the MMZ, but none of the known MMZ designs in the ZhSK provides guaranteed ignition of the smallest charge consisting of one or two modules when they are located at the projectile after being sent at small elevation or declination angles (in the absence of as part of a module of devices fixing it at the shutter during charging), as well as the simultaneous ignition of all modules in the charge.

The closest technical solution to the technical nature and the achieved effect of its use to the claimed solution is the well-known MMZ according to US patent No. 6415715 B1, 07/09/2002, including a sample of the main powder, placed in a rigid cylindrical burning cap with a through axial hole inside which is installed the central tube, inside of which there is an axial igniter in the form of rings of pyrotechnic composition, and end igniters in the form of bags with black powder are attached to the ends.

The above design of the MMZ, although it allows ignition of the MMZ, but due to a number of design features it does not provide the possibility of simultaneous ignition of individual parts of the charge (modules) when ignited from a microwave initiation system or from an ignition tube.

The task to which the invention is directed is to expand the arsenal of existing technical equipment for a specific purpose, as well as expanding the functionality by igniting the module from both the ignition tube and the microwave initiation system while maintaining unchanged ballistic characteristics of the artillery guns shot.

This problem is solved using the technical result from the use of the claimed invention, which consists in ensuring guaranteed ignition of the modules with all options for its possible configuration, orientation when loading and positioning in the chamber, improving the ballistic characteristics of the shot by ensuring the simultaneous ignition of the modules, as well as by choosing the optimal the location of the initiator in the propellant charge modules.

The proposed location of the initiators is characteristic of the TM01 wave, in which the electric lines of force are located longitudinally and radially relative to the wavelength of the circular cross section, and the maximum electric field is formed on the axis of the chamber in the longitudinal section and near the chamber wall in the radial direction in the cross section. By positioning the initiators in these positions, a significant reduction in the required microwave power for triggering the initiators is achieved.

The indicated result according to the first embodiment is achieved due to the fact that the module of a module propellant charge for shellless loading artillery shells, consisting of a sample of gunpowder, a hard burning cap, including a cylindrical body with a lid and a central tube, an end igniter made of smoke gun powder mounted on the bottom of the body or a cap, an axial igniter of gunpowder, mounted on the inner surface of the central tube according to the invention between the inner surface A sensitive element of the microwave initiation system is placed by a central tube and an axial igniter — an initiator in the form of a conductive filament with a length equal to half the wavelength of the microwave radiation, oriented parallel to the axis of symmetry of the module and providing ignition of the axial igniter when the module is charged into the chamber of the artillery gun with electromagnetic radiation Microwave range with the formation of a standing wave in the chamber due to the use of the initiator of the axial component of the electric lines ktromagnitnogo field.

The indicated result in the second embodiment is achieved due to the fact that the module of a modular propellant charge for shellless loading artillery shells, consisting of a sample of gunpowder, a hard burning cap, including a cylindrical body with a lid and a central tube, an end igniter made of smoke gun powder mounted on the bottom of the body or cap, axial igniter from gunpowder mounted on the inner surface of the Central tube, according to the invention between the end ignition A sensitive element of the microwave initiation system — the initiator — is placed in the form of a conductive filament with a length equal to half the wavelength of the microwave radiation, providing ignition of the end igniter during irradiation of the module charged into the chamber of the artillery gun with microwave electromagnetic radiation range with the formation of a standing wave in the chamber due to the use by the initiator of the radial component of the electromagnetic la.

The invention is illustrated by drawings, in which:

- in FIG. 1 shows a module of a modular propelling charge with a first embodiment of the initiator placement on an axial igniter, axially;

- in FIG. 2 shows a module of a modular propelling charge with a second embodiment of placing the initiator on the end igniter, radially.

The inventive module of a modular propellant charge for shellless loading artillery shells according to the first embodiment (see Fig. 1) contains: a powder sample 1, a hard burning cartridge case, including a cylindrical body 2 with a cover 3 and a central tube 4; end igniter from smoky gunpowder 5, mounted on the bottom of the housing or cover, axial igniter from smoky gunpowder 6, mounted on the inner surface of the central tube 4. Between the inner surface of the central tube 4 and the axial igniter 6, a sensing element of the microwave initiating system is placed - initiator 7 in the form of a conductive filament with a length equal to half the wavelength of the microwave radiation, oriented parallel to the axis of symmetry of the module and providing ignition of the axial the irradiator during irradiation of a module charged into the chamber of an artillery gun with electromagnetic radiation of the microwave range with the formation of a standing wave in the chamber due to the use of the axial component of the lines of electromagnetic field strength by the initiator.

The inventive module of a modular propellant charge for shellless loading artillery shells according to the second embodiment (see Fig. 2) contains: a powder sample 1, a hard burning cap, including a cylindrical body 2 with a cover 3 and a central tube 4, an end igniter from smoky gun powder 5, mounted on the bottom of the housing or cover, an axial igniter of smoky gunpowder 6, mounted on the inner surface of the Central tube 4. Between the end ignitor and the surface of the hard burning cap with ra a diagonal orientation is a sensitive element of the microwave initiation system — initiator 7 in the form of a conductive filament with a length equal to half the wavelength of the microwave radiation, which ignites the end igniter when the module charged into the chamber of the artillery gun is irradiated with electromagnetic radiation of the microwave range with the formation of a standing wave in the chamber due to the use of the initiator of the radial component of the lines of electromagnetic field strength.

The proposed module modular propellant charge for artillery shellless shells works as follows:

According to the first option, when fired by a microwave system of initiation of an artillery gun in the chamber, where the module of the modular propellant charge is placed, an electromagnetic wave is excited, with further absorption of electromagnetic energy in the region near the initiator 7, where local amplification of the electromagnetic wave occurs, and either heating occurs in this area gunpowder to a flash point, or a microwave breakdown occurs. Due to this, the axial igniter 6 is ignited, and then the powder 1 and the end igniter 5 are weighed, and, as a result, the entire charge.

According to the second option, when fired by a microwave system of initiation of an artillery gun in the chamber, where the module of the modular propellant charge is placed, an electromagnetic wave is excited, with further absorption of electromagnetic energy in the region near the initiator 7, where local amplification of the electromagnetic wave occurs, and either heating occurs in this region gunpowder to a flash point, or a microwave breakdown occurs. Due to what, the ignition of the end igniter 5 occurs, and then the sample of gunpowder 1 and the axial igniter 6, and, as a result, the entire charge.

Using the proposed options for execution allows you to:

1. To provide ignition of modular propelling charges under the influence of electromagnetic microwave radiation and standard means of ignition (capsule bushings and ignition tubes).

2. To increase the reliability of the ignition of the propellant charge, including the modular propellant charge of sleeveless obturation, with all the options for its possible configuration, orientation during loading and location in the chamber.

3. Improve the operating conditions by reducing the non-simultaneous ignition of its various sections.

4. Provide a reusable initiation system.

Industrial applicability is obvious.

Experimental tests conducted by the applicant showed positive results and the implementation of the task.

Claims (3)

1. Module modular propellant charge to shellless artillery loading guns, providing ignition from a microwave initiation system, consisting of a sample of gunpowder, a hard burning cap, including a cylindrical body with a lid and a central tube, an end igniter from smoke gun powder, mounted on the bottom of the case or lid axial igniter of smoky gun powder mounted on the inner surface of the Central tube, characterized in that between the inner The sensing element of the microwave initiation system — the initiator — is placed in the form of a conductive filament with a length equal to half the wavelength of the microwave radiation, oriented parallel to the axis of symmetry of the module and providing ignition of the axial igniter upon irradiation of the module charged into the chamber of the artillery gun with electromagnetic microwave radiation with the formation of a standing wave in the chamber due to the use of the initiator of the axial component of the tension lines and electromagnetic field. 2. Module modular propellant charge to shellless artillery loading guns, providing ignition from a microwave initiation system, consisting of a sample of gunpowder, a hard burning cap, including a cylindrical body with a lid and a central tube, an end igniter from smoky gun powder mounted on the bottom of the case or lid axial igniter of smoky gun powder mounted on the inner surface of the Central tube, characterized in that between the end ignition the carrier and the surface of a rigid burning cartridge case with a radial orientation placed a sensitive element of the microwave initiation system - the initiator, in the form of a conductive filament with a length equal to half the wavelength of the microwave radiation, providing ignition of the end igniter upon irradiation of a module charged into the chamber of the artillery gun with electromagnetic radiation of the microwave range with the formation of a standing wave in the chamber due to the use of the radial component of the lines of electromagnetic field strength by the initiator.

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