RU63923U1 - SET OF ASSEMBLIES FOR TRANSPORT AND STARTING CONTAINER - Google Patents

Abstract

The set of prefabricated elements for the transport and launch container includes two side, upper and lower plates, as well as the same at least two upper and two lower internal partitions and fasteners. The internal partitions are at the same time elements for ensuring the rigidity of the container structure and clamps for the position of ammunition. The upper and lower inner partitions are the same and are made with at least one semicircle selected, repeating the relief of the mating part of the munition, equipped with a fixing half ring, in particular, of porous rubber. Side, upper and lower plates are made with at least two transverse stiffeners - position locks of the internal partitions. The stiffeners have a U-shaped cross section corresponding to the thickness of the internal partitions. The plates and internal partitions are made of a composite material, which is a polyimide based on pyromellitic and 1,4,5,8-naphthalene tetracarboxylic acids, filled with long and chopped basalt fiber and carbon nanotubes, as well as graphite rods with a diameter of 0.5-1, 0 mm and a length of 10-20 mm in the amount of 4-5 pieces per 1 dm ² . 7 c.p. f-ly.

Description

The utility model relates to the manufacture of ammunition containers and is intended for the transport and launch containers of long-range air defense missiles and the closure of special-purpose warheads (nuclear, chemical, biological).

Known transport and launch container for installation on the platform, having a screen of armored panels forming an angle, open towards the container with the protected object and covering it at a predetermined amount of overlap, the screen is installed on the side of the alleged dangerous external impact, the armored panels form an angle of 90 °, a layer of energy-absorbing material is fixed on the inside of the panels (patent RU 20957).

The specified container is a complex structure, material intensive.

A known container for ammunition, including a cylindrical body with end elements installed in the body of the support and a thrust ring for the product (patent US 4762222). However, this container does not have sufficiently reliable means of protection against the detection of ammunition using location systems and its destruction, in addition, the container is massive even without equipment and is subject to corrosion.

In addition, the disadvantage of the known containers described above is that they require large transportation costs to the place of manufacture of ammunition, because represent a finished volumetric design. Moreover, due to their high cost, containers cannot be disposed of and returned to the ammunition depot for

reuse, which also requires additional costs for transportation and handling of bulk products.

The implementation of the packaging for ammunition in the form of a set of prefabricated elements of the transport and launch container is not yet known.

The technical task of the proposed utility model is to create a product that is convenient for storage and transportation, namely: a set of prefabricated elements of a high-strength and reliable transport and launch container that absorbs (up to 90%) external radiation of the millimeter, centimeter and decimeter ranges, i.e. wavelength ranges of air defense systems locators and high-precision active homing heads.

This problem was solved by creating a set of prefabricated elements of the transport and launch container, including two side, upper and lower plates, as well as the same at least two upper and two lower internal partitions, which at the same time are elements for ensuring the rigidity of the container structure and ammunition position fixers, made with at least one semicircle selected, repeating the relief of the mating part of the munition, equipped with a fixing half ring, and fixing devices, while you are made with at least two transverse stiffeners - positional locks of internal partitions having a U-shaped cross-section corresponding to the thickness of the internal partitions, and the plates and internal partitions are made of composite material, which is a polyimide based on pyromellitic and 1,4 , 5,8-naphthalene-tetracarboxylic acids filled with long and chopped basalt fiber and carbon nanotubes, as well as graphite rods with a diameter of 0.5-1.0 mm and a length of 10-20 mm in quantity ve 4-5 pieces per 1 dm ^2.

Preferably, the inner surface of the plates may be coated with foam elastomers.

It is also advisable that both surfaces of the internal partitions were made with a coating of foam elastomers.

Preferably, the thickness of the foam elastomeric coating should not exceed 10 mm.

The specified coating creates additional passive heat protection, the coating is suitable for repair.

Preferably, the fasteners can be made of galvanized steel, for example, steel grade 3, the oxidation rate of which under atmospheric conditions is 0.1 mm per year. To increase the service life of steel products of steel grade 3, it is advisable to cover them with zinc up to 3-5 microns thick. Fasteners can be made, for example, in the form of corners, locks.

The fixing half rings of the selected semicircles of the internal partitions can be made, for example, of a porous polymeric material, in particular of porous rubber, to compensate and redistribute the dynamic loads arising during loading and transportation.

Preferably, the plates and internal partitions are made of a composite material containing up to 5 wt.% Carbon nano-tubes, in particular 0.1-1%. The presence of up to 5 wt.% Carbon nanotubes in the composition of the composite material increases the impact strength of the composite material to such an extent that it excludes penetration of the container during fragmentation impacts or when projectiles of automatic rapid-fire guns hit.

Foam elastomers have the following characteristics:

- coefficient of thermal conductivity of 0.05-0.03 W / m hail in the range from 30 ° to 250 ° C,

- specific gravity of 0.3-0.5 G / cm ³ ,

- heat resistance 0.67-0.83 kJ / kG.s,

- hydrophobic and waterproof,

- have independent adhesion to various substrates: steel, aluminum, composite and polymeric materials,

- retain their thermal properties during vibration in the range from 5 to 2000 Hz,

- biologically inert.

Plates and internal partitions are made of a composite material containing basalt fiber, obtained by passing through bash dies with a diameter of 3-12 microns molten at T = 1120-1200 ° C natural basalt. As nano-filler use up to 5 wt.% (Preferred amount) of carbon nano-tubes with a size of 20-50 nm. Nano-tubes can be obtained by any known methods and are hexagonal helical molecules consisting of carbon atoms with open ends, the size of the tubes can reach 20-50 nm (it is possible to use nano-tubes with smaller sizes, for example, up to 5 nm , however, this will not affect the strength of the plates, but will significantly increase their cost). The technology of introducing them into the basalt slab has been developed - by mixing with a binder before pressing. The strength of the basalt plate increases by 40-60 times. The composite material includes the obtained long basalt fiber (5-45 wt.%), Chopped basalt fiber up to 6 mm long (48-52 wt.%), A binder (5-40 wt.%) - aromatic polyimide based on pyromellitic and 1, 4,5,8-naphthalene-tetracarboxylic acids and, preferably, up to 5 wt.% Nano-tubes. An aromatic polyimide based on pyromellitic and 1,4,5,8-naphthalentetracarboxylic acids, which is characterized by high heat resistance (up to 500 ° C), was used as a binder in the composite material. Composite material can increase the strength of the walls of the container so that, as shown

tests excludes their lumbago and the detonation of ammunition with a direct shot from automatic rapid-firing guns and with splinters falling from a rupture of an aerial bomb and air defense missiles. Composite basalt material also contains graphite rods, which, in particular, can be used as production waste. A necessary condition is only the size of the rods: a diameter of 0.5-1 mm and a length of 10-20 mm, which corresponds to the wavelengths of the locators of air defense systems and active homing heads of high-precision weapons. Moreover, the presence of 4-5 rods per 1 dm ^{2 is} sufficient to absorb up to 90% of the external radiation of the millimeter, centimeter and decimeter ranges.

Every two paired internal partitions (upper and lower) are actually two symmetrical parts of one partition made with selected semicircles (the number of semicircles depends on the number of shells stacked in a container), having a diameter depending on the caliber of the ammunition, and equipped with semicircles on the surface of the semicircles with half rings, for example, made of porous rubber, for fixing the shell on the sleeve and the warhead. These elements simultaneously perform two functions - elements that ensure the rigidity of the container structure, and elements of reliable fixation of ammunition.

The thickness of the plates and internal partitions can not exceed 4-6 mm, which is sufficient to ensure high fire resistance of the package with ammunition in critical conditions (for example, in case of fire in the warehouse).

The transport and launch container from the proposed kit is assembled in a short time by fixing the plates with appropriate fasteners.

The proposed kit has the following properties:

- reduces the volume of storage facilities, simplifies transportation of the product to the place of use as packaging

ammunition and increases the efficiency of vehicle use,

- the life of the kit is determined by the durability of only the fasteners, which are easily replaceable by any suitable device,

- stiffeners on the plates and perform the coordination function of the internal partitions to accommodate ammunition of various sizes,

- the composite material from which the main elements of the kit are made (not only plates - the side, upper and lower walls of the container, but also the fixing internal partitions, which at the same time act as parts that strengthen the structure) are non-combustible, resistant to solar radiation and temperature extremes, frost-resistant, has zero moisture absorption, has bioresistance and the possibility of special treatment; eliminates the lumbago of the container walls and the detonation of ammunition during a direct shot from automatic quick-firing guns and when splinters hit a rupture of an air bomb and air defense missiles, and, in addition, provides absorption (up to 90%) of external radiation of the millimeter, centimeter and decimeter ranges, i.e. wavelength ranges of air defense systems locators and high-precision active homing heads.

The proposed kit is convenient for transportation and involves unlimited reusable use, and, if necessary, the replacement of some elements with others.

Claims (8)

1. A set of prefabricated elements for the transport and launch container, including two side, upper and lower plates, as well as the same at least two upper and two lower internal partitions, which are simultaneously elements for ensuring the rigidity of the container structure and ammunition position fixers, made with selected at least one semicircle, repeating the relief of the mating part of the munition, equipped with a fixing half ring, and fasteners, while the plates are made with at least two transverse stiffening ribs - positional locks of internal partitions having a U-shaped cross section corresponding to the thickness of the internal partitions, and the plates and internal partitions are made of composite material, which is a polyimide based on pyromellitic and 1,4,5,8-naphthalene-tetracarboxylic acids, filled long and chopped basalt fiber and carbon nano-tubes, as well as graphite rods with a diameter of 0.5-1.0 mm and a length of 10-20 mm in the amount of 4-5 pieces per 1 dm ² . 2. The kit according to claim 1, characterized in that the inner surface of the plates is coated with foam elastomers. 3. The kit according to claim 2, characterized in that both surfaces of the internal partitions are coated with foam elastomers. 4. The kit according to claim 2 or 3, characterized in that the thickness of the coating of foam elastomers does not exceed 10 mm 5. The kit according to claim 1, characterized in that the fasteners are made of galvanized steel. 6. The kit according to claim 1, characterized in that the fixing half rings of the selected semicircles of the internal partitions are made of porous polymeric material, 7. The kit according to claim 6, characterized in that the fixing half rings of the selected semicircles of the internal partitions are made of porous rubber. 8. The kit according to claim 1, characterized in that the plates and internal partitions are made of composite material containing up to 5 wt.% Carbon nano-tubes.