RU2587212C1 - Container - Google Patents

Abstract

FIELD: rocketry.

SUBSTANCE: invention can be used in launching containers. Container comprises one or several launch tubes with stop in form of ring from spigot and sub-calibre parts divided by circular weakened section formed by annular groove, split ring with conical holes, radial bolts that are screwed in caps, fixed in radial holes of pipe wall, electric contact plugs, wedge trap slot made on inner surface of spigot cavity of pipe.

EFFECT: higher reliability of operation and reduced dimensions of the container.

4 cl, 5 dwg

Description

The invention relates to the field of engineering, to devices for launching missiles and can be used for the manufacture of containers and launch tubes.

Known container for missiles according to the application DE No. 2134421, publ. 1972, IPC F41F 3/04. The container contains a stopper for centering the rocket and a latch.

Known container according to the application of Japan No. 49-29358, publ. 1974, NKI 95 E 33. The container contains a mechanism for holding a missile projectile in the launch tube.

A known container containing one or more launch tubes, each of which is equipped with a stopper fixed to it with fasteners with a connecting device for a rocket support element, is US Pat. No. 3,412,640 of November 26, 1968, NKI 89-1.806, IPC F41F 3/042 .

A well-known container containing one or more launch tubes, each of which is equipped with a stopper fixed to it with fasteners with a connecting device for the rocket support element, according to patent RU No. 2263868 of September 28, 2004, IPC F41F 3/042.

Known devices determine the general level of technology and are not particularly relevant, therefore, the proposed solutions eliminate the disadvantages of the general prior art.

The disadvantages of the General prior art are as follows:

- the complexity and large dimensions of the design of the locking device, as well as its low adaptability;

- the low reliability of the container due to the instability of the force of forced descent;

- in the low reliability of the container due to the low reliability of mounting the rocket in the launch tube, as well as in the low adaptability of the installation of the mounting and locking device;

- the low reliability of the container due to the low reliability of mounting the rocket in the launch tube during emergency transport congestion;

- in the low reliability of the container due to the insufficient accuracy of the orientation of the rocket in the launch tube in the angle, as well as in the low manufacturability of loading the rocket due to the complexity of this orientation when it is impossible to visually control it.

The technical problem to be solved by the claimed invention is directed is the development of a more technological design of a container with increased reliability.

The technical result that can be achieved by solving the problem is as follows:

- to simplify and reduce the dimensions of the structure, as well as to increase its manufacturability;

- to increase the reliability of the container by providing the force of forced descent;

- to increase the reliability of the container by increasing the reliability of mounting the rocket in the launch tube, as well as to increase the manufacturability of the installation of the mounting and locking device;

- to increase the reliability of the container by ensuring the reliability of the rocket fastening in the launch tube during emergency overloads (when the container is located for transporting it in the vehicle so that the fastening force of each rocket in the direction opposite to the direction of exit exceeds the emergency transport overload);

- to increase the reliability of the container by providing a given orientation of the rocket in the launch tube in an angle, as well as to increase the manufacturability of loading the rocket by simplifying this orientation and the possibility of its visual control.

The problem with the achievement of the technical result is solved by the fact that the container containing one or more launch tubes, each of which is equipped with a stopper made in the form of a ring of supra-caliber and sub-caliber parts separated by an annular weakened section, while the sub-caliber part is fastened to the rocket body, and the supercaliber part of the stopper is located in the precalibration cavity of the breech of the pipe and is pressed against its step into the caliber cavity by a step with a split ring located in the caliber cavity and akreplennym by radial bolts threaded into molds, which are fastened in radial openings of the tube wall and are conjugate with conical holes formed in the split ring.

The weakened section is formed by an annular groove made on the end face of the stopper ring, while the pressing end of the split ring is located with the overlapping zone of the weakened section to stop this split ring both in the sub-caliber and in the super-caliber parts of the stopper.

A wedge groove-trap is made on the inner surface of the calibrating cavity of the pipe, in which there is a radial protrusion of the stopper ring.

Each pipe is equipped with electrical contact plugs fixed in radial threaded holes of the pipe wall, located in the context of the split ring.

Distinctive features of the container are the following features:

- the stopper is made in the form of a ring - an essential feature, provides for a new element shape, is aimed at solving a technical problem with achieving a technical result, which consists in simplifying and reducing the dimensions of the structure, as well as in improving its manufacturability;

- from the super-caliber and sub-caliber parts separated by an annular weakened cross-section - significant signs, include the presence of new elements, a new shape of the elements, their new relative positioning, are aimed at solving the technical problem with achieving a technical result, which consists in increasing the reliability of the container by providing forced force descent, as well as to reduce the dimensions, simplify, and increase the manufacturability of the design;

- the sub-caliber part is bonded to the rocket body, and the super-caliber part of the stopper is located in the non-caliber cavity of the breech of the pipe and pressed against the ledge in the caliber cavity by a ledge with a split ring - the signs are significant, they require new elements, a new interconnection of elements and their new relative position, are aimed at solving a technical problem with achieving a technical result, which consists in increasing the reliability of the container by increasing the reliability of mounting the rocket in the launch tube, as well as to increase the manufacturability of the installation of the ring itself, since the section of the ring ensures its deformation towards increasing diameter when mounting the rocket and deformation towards reducing the diameter when installing this ring;

- located in the caliber cavity and secured with radial bolts - significant signs, provide for a new interconnection of elements and their new relative position, are aimed at solving a technical problem with achieving a technical result, which consists in increasing the reliability of the container by increasing the reliability of mounting the rocket in the launch tube ;

- the weakened section is formed by an annular groove made on the end face of the stopper ring, while the pressing end face of the split ring is located with the overlapping zone of the weakened section for the stop of this split ring both in the sub-caliber and in the super-caliber parts of the stopper - significant signs, include new elements, a new the interconnection of the elements and their new mutual arrangement are aimed at solving a technical problem with achieving a technical result, which consists in increasing the reliability of the container RA by providing the force of forced descent of the rocket with the regulated shear force of the weakened section towards the descent of the rocket at its launch, and also by ensuring the reliability of the rocket fastening in the launch tube during emergency transport overloads (when the container for its transportation in the vehicle is located so that the mounting force of each rocket in the direction opposite to the direction of exit exceeded emergency transport overload);

- a wedge groove-trap is made on the inner surface of the gauge cavity of the pipe, in which the radial protrusion of the stopper ring is located - the signs are significant, they include the presence of new elements, a new shape of the elements, their new relative positioning, aimed at solving the technical problem with achieving the technical result, consisting in increasing the reliability of the container by providing a given orientation of the rocket in the launch tube in the corner, as well as improving the technological effectiveness of loading the rocket due to simplified this orientation and the possibility of its visual control;

- each pipe is equipped with electrical contact plugs fixed in radial threaded holes of the pipe wall, located in the context of the split ring - the signs are significant, provide for a new mutual arrangement of the elements, aimed at solving the technical problem with achieving a technical result, which consists in reducing the dimensions of the structure.

These distinctive features are significant, since each individually and all together are aimed at solving the problem with the achievement of a technical result. The use of a single set of essential distinguishing features in the known solutions was not found, which characterizes the conformity of the technical solution to the criterion of "novelty."

A single set of new essential features with common known provides a solution to the problem with the achievement of the technical result and characterizes the proposed technical solution with significant differences compared with the prior art and analogues. This technical solution is the result of research and experimental work to increase the reliability of the container without the use of well-known design solutions, recommendations, materials and has non-obviousness, which indicates its compliance with the criterion of "inventive step".

The invention is illustrated by drawings, where in FIG. 1 shows a longitudinal section through a container along the breech of a pipe with a stopper; FIG. 2 is a cross-section of a pipe along the radial fasteners of a split stopper ring, in FIG. 3 is a cross section of a launch tube along a ring with a radial protrusion, in FIG. 4 is a section of a ring with an annular groove and a weakened section, in FIG. 5 is a view of a wedge groove trap.

A container 1 containing one or more launch tubes 2, each of which is equipped with a stopper made in the form of a ring 3 of a super-caliber 4 and a sub-caliber 5 parts, separated by an annular weakened section 6, while the sub-caliber part 5 is fixed to the rocket body 7, and the super-caliber part 4, the stopper is located in the calibrating cavity 8 of the breech of the pipe and is pressed against its step into the caliber cavity 9 by a step 10 with a split ring 11 located in the calibrating cavity 8 and secured with radial bolts 12 screwed into the mushroom ki 13, which are fixed in the radial holes 14 of the wall of the pipe 2 and are paired with conical holes 15 made in a split ring 11.

The weakened section 6 is formed by an annular groove 16 made on the end face of the stopper ring, while the pressing end 17 of the split ring 11 is located with the overlapping zone 18 of the weakened section for the stop of this split ring 11 both in the sub-caliber 5 and in the upper caliber 4 of the stopper.

On the inner surface 19 of the calibrating cavity 8 of the pipe 2, a wedge groove-trap 20 is made, in which a radial protrusion 21 of the stopper ring 3 is located.

Each pipe 2 is equipped with electrical contact plugs 22, fixed in radial threaded holes 23 of the wall of the pipe 2, located in section 24 of the split ring 11.

An example of a specific implementation of the container 1 is that the launch tubes 2 of caliber D _{k are} made of polymer composite materials, mainly fiberglass. In this case, the design of the calibrating cavity 8 and the groove 20 are technological operations, as they are provided by the forming surfaces of the mandrel.

Container 1 works as follows. When rigging the launch tube 2 on the rear cut of the rocket casing 7, using the fasteners 25, fix the stopper ring 3, providing orientation along the angle of the radial protrusion 21 relative to the rocket. Launch a rocket in 2 pipe, placing the protrusion 21 opposite the groove-trap 20, send the rocket into the pipe 2 until the ring 3 rests in ledge 10, fixing the rocket body 7 in an angle. By deforming the split ring 11 to the position of decreasing diameter, insert it into the calibrated cavity 8 and put it with holes 15 on the corresponding fungi 13. Install radial bolts 12 and tighten them due to the interaction of the conical mating surfaces of the fungi 13 and holes 15 send the split ring 11 towards the ring 3, pressing the latter against the step 10, thereby fixing the missile body 7 in the axial direction.

The contact wires 26 of the contact plugs 22 of the launch circuit of the container 1 are connected to the corresponding terminals of the rocket propulsion system.

In the main operation of the container 1, when the thrust force of the rocket propulsion system reaches the force of forced descent, the weakened section 6 is cut off and the rocket starts with the sub-caliber part 5 of the ring 3 fixed on its body 7. The supercaliber part 4 of the ring 3 remains in the breech part of the launch tube 2.

During transportation, the container 1 in the vehicle is positioned so that emergency inertial overloads (for example, when the vehicle stops abruptly) applied to the rocket are directed in the direction opposite to the force of its regular descent. Then, under the influence of these overloads on the rocket, the ring 3 fastened with its body 7 abuts against the pressing end 17 of the split ring 11 fixed in the pipe 2, both the over-caliber part 4 and the under-caliber part 5. With this interaction of the rings 3 and 11, cutting of the weakened section 6 does not occur , the rocket remains securely fixed in the pipe 2.

Using the proposed technical solution will improve the reliability of the container, reduce its dimensions, as well as increase the manufacturability of the equipment of launch tubes, which confirms the intended use.

The feasibility of the invention is confirmed by the positive test results of samples and fragments of structures, the development and manufacture of which are fully based on the description. In this regard, the new technical solution also meets the criterion of "industrial applicability", i.e. level of invention.

Claims (4)

1. A container containing one or more launch tubes, each of which is equipped with a stopper made in the form of a ring of supra-caliber and sub-caliber parts separated by an annular weakened section, while the sub-caliber part is fastened to the rocket body, and the super-caliber part of the stopper is located in the caliber cavity of the breech parts of the pipe and the shoulder is pressed against its transition into the caliber cavity by a split ring located in the gauge cavity and secured with radial bolts screwed into the fungi that are closed film in the radial openings of the tube wall and are conjugate with conical holes formed in the split ring. 2. The container according to claim 1, characterized in that the weakened section is formed by an annular groove made on the end face of the stopper ring, while the pressing end face of the split ring is located with the overlapping zone of the weakened section to stop this split ring in both the subcaliber and the supercaliber parts of the stopper. 3. The container according to claim 1, characterized in that a wedge groove-trap is made on the inner surface of the calibrated cavity of the pipe, in which there is a radial protrusion of the stopper ring. 4. The container according to claim 1, characterized in that each pipe is equipped with electrical contact plugs fixed in radial threaded holes of the pipe wall, located in the context of the split ring.

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