RU2461793C1 - Armoured chamber for blasting works - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: armoured chamber comprises a casing, a splinter shield, a bottom, a heavy roof and a loading device. The armoured chamber is made with an internal cavity expanding upwards, side reflectors of which are made of steel boards and are installed symmetrically, and end reflectors are arranged vertically. Side and end reflectors are fixed on power beams joined by ribs. The heavy roof is made in the form of several rigidly joined perforated spans, is placed on supports as capable of vertical displacement and is equipped with reflectors in the form of a set of plates slipping in the vertical plane along the perimetre. The loading device is mounted on the end wall and is equipped with a gate.

EFFECT: improving reliability and safety of ammunition destruction.

4 cl, 3 dwg

Description

The invention relates to the field of blasting for special purposes, namely, equipment for the destruction of dangerous ammunition in circulation, and can also be used in the preparation of metallurgical raw materials, in particular in the cutting of scrap metal by explosion.

A feature of blasting equipment is that its normal functioning and effectiveness depends largely on the choice of a structural layout that provides effective, reliable and safe destruction of ammunition with the exception of the expansion of explosive objects, fragments and minimizing the effect of the shock wave, as well as the possibility of it reusable, depending on the amount of explosive in the disposable ammunition and equipment design.

The known design of the explosive chamber according to the patent of Russian Federation No. 2280234, F42B 39/00, publ. 07/20/2006, consisting of the case and covers. Inside the case, a protective anti-fragmentation module is installed, which is a cylindrical metal shell in which alternating rings of different diameters are connected coaxially to each other in a package, forming ring channels for the passage of gaseous explosion products.

This design of the explosive chamber allows for the disposal of ammunition with negligible TNT equivalent for a given load-bearing capacity and reliability of the chamber.

However, this design does not allow for a significant number of duty cycles when disposing of ammunition with a large TNT equivalent due to the occurrence of significant dynamic shock loads affecting the structural elements of the armored chamber. The disadvantage of this design is also the long loading time of explosive ordnance, which reduces the safety of work on their disposal.

Thus, the objective of this technical solution was the disposal of ammunition with negligible TNT equivalent for a given load-bearing capacity and reliability of the camera.

The common features of the well-known technical solution with the design proposed by the authors is the presence of a housing and ballistic protection.

The known design of the blast hole according to the patent of Russian Federation No. 2234053, F42D 3/00, publ. 08/10/2004, containing a reinforced concrete foundation, a housing, a bottom, side plates, wooden beams and removable covers, equipped with elastic sheet material and slabs located on the outer perimeter of the reinforced concrete foundation.

This design of the blast hole allows you to increase the service life of the side plates and to dismantle various metal structures to obtain scrap metal.

However, this design does not provide for the use of an explosive pit for the disposal of ammunition containing explosives, and does not provide shrapnel protection during work and the safe loading of ammunition on the assembly site of the site for the detonation of ammunition.

Thus, the objective of this technical solution was to increase the service life of the side plates and the dismantling of various metal structures to produce scrap metal.

Common signs of a known technical solution with the proposed construction are the presence of a body and a bottom.

The closest in technical essence and the achieved technical result is the design of the explosion-proof chamber according to the patent of the Russian Federation No. 2228515, F42D 5/04, publ. 05/10/2004, adopted by the authors for the prototype, comprising a housing, splinter protection, bottom, power roof and loading device.

This design of the explosion-proof chamber makes it possible to ensure functioning during the disposal of ammunition.

The reasons that impede the achievement of the technical result indicated below when using the known design of the explosion-proof chamber include the fact that this design does not provide a long life cycle of the explosive chamber when disposing of ammunition with significant TNT equivalent, in addition, this device does not have sufficient performance.

Thus, the objective of this technical solution (prototype) was to ensure the functioning during disposal of ammunition with negligible TNT equivalent without ensuring the required performance.

Common features with the proposed design of armored blasting chambers are the presence in the prototype of the body, anti-shatter protection, bottom, power roof and loading device.

In contrast to the prototype, the proposed design of an armored chamber for blasting is made with an upwardly expanding internal cavity, the side reflectors of which are made of steel plates and are installed symmetrically, and the end reflectors are located vertically, while the side and end reflectors are mounted on power beams fastened with frames, a power roof made in the form of several rigidly fastened perforated spans, placed on supports with the possibility of vertical movement and provided around the perimeter of cranking reflectors in the vertical plane in the form of a set of plates, the loading device is mounted on the end wall and equipped with a gate.

In the particular case, that is, in specific forms of execution, the invention is characterized by the following features:

- the mounting pad is mounted coaxially with the outlet of the loading device;

- the loading channel for supplying ammunition is made in a tubular shape and is provided with an antifriction coating, for example, polymer, while the longitudinal axis of the loading channel is located in the plane of installation of the ammunition;

- the armored camera is placed on a compacted sand cushion, surrounded by compacted sand around the perimeter to the level of the upper cut of the side reflectors and equipped with a pyramidal embankment made of soil at the level of the power roof.

It is this that allows us to conclude that there is a causal relationship between the totality of the essential features of the claimed technical solution and the achieved technical result.

These signs, distinctive from the prototype and to which the requested amount of legal protection applies, are sufficient in all cases.

The objective of the invention is to increase the reliability and safety of the destruction of ammunition with the exception of the expansion of explosive objects, fragments, as well as minimizing the effects of the shock wave in the surrounding space, increasing the life of the armored chamber and increasing the productivity of the destruction of ammunition by reducing the time they are loaded into the armored chamber.

The specified technical result during the implementation of the invention is achieved by the fact that the armored camera for blasting contains a housing, splinter protection, bottom, power roof and loading device, the feature is that the armored camera is made with an upwardly expanding internal cavity, the side reflectors of which are made of steel plates and mounted symmetrically, and end reflectors are arranged vertically, while side and end reflectors are mounted on power beams fastened with frames, power roof The sha is made in the form of several rigidly fastened perforated spans, placed on supports with the possibility of vertical movement and equipped with reflectors rotating in the vertical plane in the form of a set of plates around the perimeter, the loading device is mounted on the end wall and equipped with a gate.

A new set of structural elements, as well as the presence of connections between them, allowed, in particular, due to:

- execution of armored cameras with an upwardly expanding internal cavity, the side reflectors of which are made of steel plates and are installed symmetrically, and the end reflectors are arranged vertically, while the side and end reflectors are mounted on power beams fastened with frames, to ensure a given reliability of operation, to minimize the effect of the shock wave in the surrounding space, increase the life of the device.

- performing a power roof in the form of several, rigidly fastened perforated spans, placed on supports with the possibility of vertical movement and equipped around the perimeter with reflectors rotating in the vertical plane in the form of a set of plates, as well as a loading device mounted on the end wall and equipped with a gate, to ensure the exclusion of expansion explosive objects, fragments and minimize the effect of the shock wave in the surrounding space, while the lattice structure of the roof reduces the impact shock wave on the design elements of the armored camera. Also, a significant part of the energy of the shock wave is spent on moving the power roof and turning the reflectors, which reduces the impact on the structural elements, provides an increase in the service life of the armored camera, increases productivity by reducing the loading time of ammunition in the armored chamber.

Signs characterizing the invention in specific forms of execution, allow, in particular, due to:

- placement of the installation site coaxially with the outlet of the loading device to reduce the time for loading the disposed ammunition in the armored chamber;

- the implementation of the loading channel for supplying ammunition in a tubular form, equipped with an antifriction coating, for example, polymer, and the longitudinal axis of the loading channel, located in the plane of the munition installation, to reduce the loading time of the armored chamber with dangerous munitions and, therefore, to increase the safety of work;

- placement of an armored camera on a rammed sand cushion, bunded around the perimeter to the level of the upper cut of the side reflectors with rammed sand and equipped with a pyramidal embankment from the ground at the level of the power roof, to increase the life of the armored chamber and exclude the expansion of explosive objects, fragments.

The essence of the invention lies in the fact that in an armored blasting chamber containing a housing, splinter protection, a bottom, a power roof and a loading device, in contrast to the prototype according to the invention, the blasting chamber for blasting is made with an upwardly expanding internal cavity, the side reflectors of which are made of steel plates and are installed symmetrically, and the end reflectors are located vertically, while the side and end reflectors are mounted on the power beams fastened with frames, the power roof is Nena in several perforated rigidly spans placed on the supports with possibility of vertical movement and is provided on the perimeter of cranking in the vertical plane reflectors in the form of a set of plates, the loading device is mounted on the end wall and is provided with a damper.

The essence of the invention is illustrated by drawings, where Fig. 1 shows a general view of an armored camera for blasting, Fig. 2 is a cross section of an armored camera for blasting, and Fig. 3 is a view of an armored camera at a place of disposal of ammunition.

Armored camera 1 for blasting consists of a housing 2, which is a power frame of frames 3 and power beams 4, on which the bottom 5 is fixed, side reflectors 6, end reflectors 7, the armored camera 1 is equipped with a power roof 8, consisting of several perforated fastened together spans 9 with anti-shatter protection 10, around the perimeter of which reflectors 11 are rotated in a vertical plane. The power roof 8 is mounted on supports 12 and has the ability to move vertically. On one of the end reflectors 7, a loading device 13 with an anti-friction coating 14, closed by a gate 15, is mounted. Coaxial to the outlet of the loading device 13 is a mounting platform 16 with utilized ammunition 20. The armored chamber 1 is placed on a compacted sand cushion 17, along the perimeter to the level of the upper side cut reflectors 6 are bunded with compacted sand 18 and equipped at the level of the power roof 8 with a pyramidal embankment made of soil 19.

The armored chamber for blasting works as follows.

Hazardous ammunition 20 is installed on the receiving tray of the loading device 13 with an anti-friction coating 14. Then, the ammunition 20 is moved along the loading device 13 inside the armored chamber 1, while the slide 15 is raised along the rails and locked. After placing the ammunition 20 in the destruction zone on the installation site 16, the gate 15 is lowered and the armored chamber 1 is ready for destruction. When detonating, the fragments interact with the side reflectors 6, end reflectors 7 and the bottom 5. The fragments flying up and the fragments from the bottom 5 and reflectors 6 and 7 are delayed by the power roof 8 and reflectors 6 and 7, the rest of the rebound fragments are delayed by a pyramidal embankment from the ground 19. Following the fragments, a shock wave propagates at a lower speed. The energy of the shock wave is absorbed by the elements of the armored chamber 1, located on the sand cushion 17, reinforced with compacted sand 18 and the embankment 19, while a significant part of the energy of the shock wave is spent on moving the movable power roof 8 and turning the reflectors 6 and 7, which reduces the impact on all other elements designs: body 2, frames 3, power beams 4, bottom 5, perforated spans 9, splinter protection 10, reflectors 11, supports 12, loading device 13, antifriction coating 14, gate 15.

Thus, it provides increased reliability and safety of the destruction of ammunition with the exception of the expansion of explosive objects, fragments, as well as minimizing the effects of the shock wave in the surrounding space, increasing the life of the armored chamber and increasing the performance of the destruction of ammunition by reducing the time they are loaded into the armored chamber.

The specified positive effect is confirmed by tests of armored blasting chambers, made in accordance with the invention.

Currently, design documentation has been developed, state tests have been carried out, and serial production is planned.

Claims (4)

1. Armored blast chamber containing a housing, splinter protection, a bottom, a power roof and a loading device, characterized in that it is made with an upwardly expanding internal cavity, the side reflectors of which are made of steel plates and are installed symmetrically, and the end reflectors are arranged vertically, with the lateral and end reflectors are mounted on power beams fastened with frames, the power roof is made in the form of several rigidly fastened perforated spans, placed on supports with the possibility of awn vertical movement and is provided on the perimeter of cranking in the vertical plane reflectors in the form of a set of plates, the loading device is mounted on the end wall and is provided with a damper. 2. The armored chamber according to claim 1, characterized in that the mounting pad is mounted coaxially with the outlet of the loading device. 3. The armored chamber according to claim 1, characterized in that the loading channel for supplying ammunition is made in a tubular shape and is provided with an antifriction coating, for example, polymer, while the longitudinal axis of the loading channel is located in the plane of installation of the ammunition. 4. The armored chamber according to claim 1, characterized in that it is placed on a compacted sand cushion, surrounded by compacted sand along the perimeter to the level of the upper cut of the side reflectors and equipped with a pyramidal embankment made of soil at the level of the power roof.

Images