RU225413U1 - Container for off-season storage of anti-hail missiles at exposure points - Google Patents

Abstract

The utility model relates to the field of active impacts on hail clouds, namely to containers for temporary off-season storage of anti-hail missiles at impact points. The container contains tiered trays arranged on a pallet, made in the form of stacked rectangular blocks of the same type, forming tubular channels at the junction for placing missiles. Inside the tubular channels on the cradle body, longitudinal grooves are provided, forming profile channels for placing explosive belt charges placed on the sides of the rocket body. The dimensions of the profile channels are made larger than the dimensions of the explosive belt charges protruding outward from the rocket body, which, unlike known containers, ensures the necessary and sufficiently high reliability of storing anti-hail missiles in warehouses at impact points. 3 ill.

Description

The utility model relates to the field of active impacts on hail clouds, namely to containers for off-season storage of anti-hail missiles at impact points.

A container for storing and transporting ammunition is known, which contains a detachable housing in which replaceable elements for installing and securing ammunition are located [1].

The design of the container makes it possible to expand its operational and technological capabilities by using it for storing ammunition of various sizes and properties, including chemical ammunition, and also ensures the fixation of products in the container body, as well as the installation of containers in several tiers during their storage and, what is especially important when transporting special-purpose ammunition.

Along with its advantages, the known container is complex and expensive, and is not suitable for off-season storage of missiles at anti-hail exposure points.

A container for storing and transporting ammunition is also known, containing a detachable body in which there are cells for installing ammunition, and elastic elements are installed in the bottom of the container body that interact with the bottom parts of the ammunition [2].

When storing and transporting ammunition, this container is closed with a lid, to which the upper parts of the ammunition are elastically pressed. Several ammunition can be installed in the container body, however, fixing the ammunition in the container body using an elastic element and a lid is not reliable enough, since it cannot ensure their stable position during transportation. In addition, the scope of use of this container is also very limited, since its design is adapted for storing and transporting ammunition of only a certain type and caliber.

The well-known container "SKP-12" type 1AA according to GOST 18477-79, intended for storing and transporting explosives and anti-hail missiles. A container of this type contains a heat-insulated body with an external metal lining and resistant anti-corrosion treatment, metal double-leaf doors and reliable closures [3].

Moreover, according to the requirements set out in the guidelines for organizing and conducting anti-hail work, in particular in RD 52.37.710 - 2012 [4], anti-hail missiles must be stored in stacks in a form prepared for loading. This measure is necessary and is designed to increase the efficiency of shooting at clouds by reducing the time it takes to reload the launcher during its use. To do this, at the beginning of work on active influences on hail processes, in the warehouse of a stationary influence point, a stack of missiles ready for use is first formed. To do this, use a wooden pallet, or instead empty wooden transport boxes from missiles supplied from the manufacturer, as well as standard foam trays equipped with rounded recesses on one side for storing missiles. When forming a stack, two trays are placed parallel to each other on such a pallet, with their rounded recesses facing upward. The first layer of rockets is placed on the supports. A second pair of supports is placed on top of the first layer of rockets to accommodate the second layer of rockets, and so on.

Such a missile stowage scheme does not provide free access to any missile in the stack during anti-hail operations, and also reduces the safety of their use due to the low resistance of the stack to lateral mechanical impacts, leading to destruction of the stack.

The closest in technical essence to the claimed object is a container for inter-seasonal storage of anti-hail missiles at impact points, including cradles arranged in tiers on a pallet for placing missiles, the cradles are made in the form of stacked rectangular blocks of the same type, where the lower block in contact with the pallet contains there is a flat base at the bottom, and at the junction with the upper block it contains longitudinal recesses of a rounded shape, while the remaining blocks of trays lying higher in the stack are equipped with similar recesses on both sides, while the recesses are placed mirrored on both sides of the blocks, forming tubular channels for placing missiles, while the blocks of cradle are connected to each other using the tongue-and-groove method, forming a connection that is resistant to lateral loads [5].

This container design provides free access to any missile in the stack during anti-hail operations, and also increases the safety of their storage in warehouses at impact points.

However, this container is only suitable for storing missiles with a cylindrical body. When storing missiles equipped with longitudinally located belt charges of explosive protruding outward from the body on both sides, the container does not provide the necessary storage reliability. This is due to the fact that when loading and unloading missiles from a container, the integrity of the belt charges may be compromised upon contact with the container body. As a result, this may lead to abnormal firing of belt charges when using missiles in operation. The design of such missiles is presented in the source [6]. Belt explosive charges are designed to detonate the spent rocket body in the atmosphere at the final part of the flight path into small safe pieces in order to ensure the necessary safety for the population and the safety of buildings and structures located in the zone of active influence on thunderstorm clouds.

Taking into account the above, the technical result of the claimed utility model is to increase the reliability of storage of anti-hail missiles at impact points.

The technical result is achieved by the fact that in a known container for inter-seasonal storage of anti-hail missiles at impact points, including trays arranged in tiers on a pallet, made in the form of stacked rectangular blocks of the same type, forming tubular channels at the junction for placing missiles, according to the proposed design container, from inside the tubular channels on the body of the cradle, longitudinal grooves are provided, forming profile channels for placing explosive belt charges, while the dimensions of the profile channels are made larger than the dimensions of the explosive belt charges protruding outward from the rocket body, while the profile channels for placing explosive belt charges located on both sides of the tubular channels.

The presence of profile channels formed at the junction between the blocks of supports ensures the necessary reliability of storage of anti-hail missiles at impact points, therefore, each essential feature of the claimed utility model is necessary, and their combination in a stable relationship is sufficient to achieve a new quality that is not inherent in features in isolation, that is the required technical result is achieved by the effect of a sum of features unknown from the prior art.

A comparative analysis of the claimed utility model with identified analogues of the prior art confirmed the unknownness of the proposed technical solution, and taking into account the possibility of widespread implementation of the proposed container in practice, it can be concluded that it meets the patentability criteria.

The essence of the utility model is illustrated by drawings that have a purely illustrative purpose and do not limit the scope of claims of the set of essential features of the utility model formula.

The pictures show:

Fig. 1 - container in two projections.

Fig. 2 - cradle for placing missiles in two projections.

Fig. 3 - position of the missiles on the upper cradle of the container (top view and cross-sectional view AA).

The container for inter-seasonal storage of anti-hail missiles at impact points (Fig. 1) contains tiered supports 2 arranged on a pallet 1, made in the form of stacked rectangular blocks of the same type, where the lower block 3, in contact with the pallet 1, contains a flat base at the bottom, and at the junction with the upper block it contains longitudinal recesses 4 of a rounded shape, while the remaining blocks of cradle 2, lying higher in the stack, contain similar recesses 4 on both sides (Fig. 2). In this case, the recesses 4 are placed mirror-like on both sides of the cradle 2, forming tubular channels 5 at the junction between themselves and the lower block 3 for placing missiles 6, while the blocks of cradle 2 are connected to each other using the tongue-and-groove method, forming a connection that is resistant to lateral loads. This connection is shown in the figure (Fig. 2), where the tenon is designated by position 7, and the groove by position 8. The connection is located at the four corners of the blocks of cradle contacting each other.

To increase the reliability of storing anti-hail missiles at impact points, longitudinal grooves 9 are provided on the inner surface of the walls of the tubular channels 5 formed at the junction between the blocks of supports, forming channels 10 for placing belt charges of explosive 11 protruding outward from both sides of the missile body. Dimensions The channels 10 are made larger than the dimensions of the belt charges of explosive 11 protruding outward from the rocket body and placed on both sides of the tubular channels 5.

The position of the missiles 6 in the container is shown more clearly in the figures (Fig. 1 and Fig. 3).

To avoid contact between the empennage of the rocket 6 and the pallet 1, as well as contact with each other in the stack, when loading and unloading them into a container, the thickness of the supports is made greater than the diameter of the empennage 12 of the rocket 6. To ensure fire safety, the supports 2 are made mainly of foam plastic and covered fire-resistant varnish.

When using the container in operation, the placement of rockets 6 into the tubular channels 5 of the container is carried out as follows. The rocket 6 with its nose part is installed in the tubular channel 5 formed at the junction between the supports 2, after which it is retracted until the tail 12 touches the rocket stabilizer of the housing of the housing 2. In this case, the belt charges 11 protruding from both sides of the rocket body are installed horizontally in the channel 10.

When placing missiles in the upper open part of the container, they are placed in recess 4. Here, belt charges 11 are also placed horizontally. Unloading missiles from the container channels during their use is carried out in the reverse order.

The proposed container, unlike the known ones, ensures the integrity and safety of belt charges when loading and unloading missiles from the container, which ultimately ensures the necessary reliability of storing anti-hail missiles at impact points.

Information sources

1. RF Patent No. 2154253, IPC 7 F42B 39/26, publ. 08/10/2000.

2. Application of France: FR 2623611, cl. F42B 39/00, publ. 05/26/1989.

3. A.M. Abshaev, M.T. Abshaev, M.V. Barekova, A.M. Malkarova. Guidelines for organizing and carrying out anti-hail work. - Nalchik: - Printing yard. 2014, p. 358-359.

4. RD 52.37.710 - 2012. “The procedure for using the modernized anti-hail complex “Alazan” for active influences on meteorological and other geophysical processes,” p. 53.

5. RF patent for utility model No. 220796, IPC F42B 39/00, publ. 03.10.2023. Bull. No. 28. PROTOTYPE

6. RF patent for utility model No. 215631, IPC F41F 3/04, publ. 12/21/2022. Bull. No. 36.

Claims (1)

A container for inter-seasonal storage of anti-hail missiles at impact points, including cradles arranged in tiers on a pallet, made in the form of stacked rectangular blocks of the same type, forming tubular channels at the junction of each other for placing missiles, characterized in that inside the tubular channels on the body of the cradles are provided longitudinal grooves forming profile channels for placing explosive belt charges, wherein the dimensions of the profile channels are made larger than the dimensions of the explosive belt charges protruding outward from the rocket body, while the profile channels for placing explosive belt charges are placed on both sides of the tubular channels.